WO2016136165A1 - Collision detection device for vehicle - Google Patents
Collision detection device for vehicle Download PDFInfo
- Publication number
- WO2016136165A1 WO2016136165A1 PCT/JP2016/000665 JP2016000665W WO2016136165A1 WO 2016136165 A1 WO2016136165 A1 WO 2016136165A1 JP 2016000665 W JP2016000665 W JP 2016000665W WO 2016136165 A1 WO2016136165 A1 WO 2016136165A1
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- WO
- WIPO (PCT)
- Prior art keywords
- vehicle
- bumper
- detection device
- width direction
- length
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R19/00—Wheel guards; Radiator guards, e.g. grilles; Obstruction removers; Fittings damping bouncing force in collisions
- B60R19/02—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects
- B60R19/18—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects characterised by the cross-section; Means within the bumper to absorb impact
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R19/00—Wheel guards; Radiator guards, e.g. grilles; Obstruction removers; Fittings damping bouncing force in collisions
- B60R19/02—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects
- B60R19/48—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects combined with, or convertible into, other devices or objects, e.g. bumpers combined with road brushes, bumpers convertible into beds
- B60R19/483—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects combined with, or convertible into, other devices or objects, e.g. bumpers combined with road brushes, bumpers convertible into beds with obstacle sensors of electric or electronic type
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R19/00—Wheel guards; Radiator guards, e.g. grilles; Obstruction removers; Fittings damping bouncing force in collisions
- B60R19/02—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects
- B60R19/18—Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects characterised by the cross-section; Means within the bumper to absorb impact
- B60R2019/186—Additional energy absorbing means supported on bumber beams, e.g. cellular structures or material
Definitions
- the present disclosure relates to a vehicle collision detection device for detecting a collision with a pedestrian or the like of a vehicle.
- a pedestrian protection device for reducing the impact on the pedestrian when the pedestrian collides with the vehicle.
- a bumper unit is provided with a collision detection device, and when this sensor detects that a pedestrian or the like has collided with the vehicle, the pedestrian protection device is activated to reduce the impact on the pedestrian.
- This pedestrian protection device includes what is called a pop-up hood, for example. This pop-up hood raises the rear end of the engine hood when a vehicle collision is detected, increases the clearance (clearance) between the pedestrian and hard parts such as the engine, and uses that space to the pedestrian's head. It absorbs collision energy and reduces the impact on the head.
- a chamber member having a chamber space is disposed in front of a bumper reinforcement in a bumper of the vehicle, and a pressure sensor detects the pressure in the chamber space.
- a pressure sensor detects the pressure in the chamber space.
- This vehicle collision detection device includes a bumper absorber disposed in a bumper of a vehicle, a hollow tube member mounted in a groove formed in the bumper absorber along the vehicle width direction, and a pressure in the tube member. And a pressure sensor for detection.
- the bumper absorber When a pedestrian collides with the front of the vehicle, the bumper absorber is deformed while absorbing the impact, and at the same time, the tube member is also deformed. At this time, the pressure in the tube member rises, and the collision with the pedestrian of the vehicle is detected based on detecting this pressure change by the pressure sensor.
- This indication is made in view of the subject mentioned above, and aims at providing the collision detection device for vehicles which can detect the fall of a pedestrian certainly.
- a vehicle collision detection device includes a bumper absorber disposed on the vehicle front side of a bumper reinforcement in a bumper of the vehicle, and a vehicle width on the bumper absorber.
- the bumper absorber includes a lower bore portion having a concave shape from the lower surface of the bumper absorber toward the vehicle upper side at least at a position directly below the groove in the vehicle vertical direction.
- the groove portion of the bumper absorber is provided at least at a position directly below in the vehicle vertical direction, a lower bore portion having a shape that is recessed from the lower surface of the bumper absorber toward the vehicle upper side is provided.
- the magnitude of the force per unit area of the external force applied to the detection tube member at the time of a collision can be made larger than when there is no lower bore portion. Therefore, the external force accompanying the collision can be effectively transmitted to the detection tube member, and the detection tube member can be reliably deformed (collapsed).
- the pedestrian's legs are scooped by a bumper and the upper body collides so that it falls on the engine hood, the external force applied from the vehicle upper side with this falling is more effective against the tube member for detection.
- the pressure change in the hollow part of the tube member for detection is reliably detected by the pressure sensor, the fall of the pedestrian can be reliably detected, and the collision detection accuracy of the vehicle collision detection device is improved. Can do.
- the drawing 1 is a diagram illustrating an overall configuration of a vehicle collision detection device according to a first embodiment. It is an enlarged view of the bumper part of FIG.
- FIG. 3 is a III-III cross-sectional view of the bumper portion of FIG. 2.
- FIG. 4 is a IV-IV cross-sectional view of the bumper portion of FIG. 2.
- It is an expanded sectional view of the bumper absorber of FIG. It is a figure which shows the relationship between the sum of the up-and-down dimension of the upper and lower bore part of 1st Embodiment, and the pressure detection value detected by a pressure sensor.
- FIG. 3 is a view corresponding to FIG. 2 in the second embodiment.
- FIG. 10 is a sectional view taken along the line XX of the bumper portion of FIG. 9.
- FIG. 10 is a sectional view taken along line XI-XI of the bumper portion of FIG. 9.
- FIG. 10 is a view corresponding to FIG. 3 in the third embodiment.
- FIG. 10 is a view corresponding to FIG. 3 in the fourth embodiment.
- FIG. 10 is a diagram corresponding to FIG. 3 in a fifth embodiment.
- the vehicle collision detection device 1 of the present embodiment includes a bumper absorber 2, a hollow detection tube member 3, a pressure sensor 4, a speed sensor 5, a collision detection ECU 6, and the like. Is done.
- the vehicle collision detection device 1 detects a collision of an object (pedestrian or the like) with a bumper 7 provided in front of the vehicle.
- the bumper 7 includes a bumper cover 8, a bumper absorber 2, and a bumper reinforcement 9 as main components.
- the bumper absorber 2 is disposed at a position facing the front surface 9a of the bumper reinforcement 9 (the vehicle front side).
- the bumper absorber 2 is a member that has an impact absorbing function in the bumper 7 when it collides with a pedestrian or the like, and is made of, for example, foamed polypropylene.
- a groove 2a for mounting the detection tube member 3 is formed on the rear surface 2b of the bumper absorber 2.
- the groove 2a has a rectangular cross section and is formed along the vehicle width direction (the vehicle left-right direction).
- the groove 2a is disposed above the center position C of the bumper reinforcement 9 in the vehicle vertical direction.
- the length Lc of the groove 2a in the vehicle front-rear direction is approximately the same as the outer diameter D of the detection tube member 3, and in this case is about 8 mm.
- the length Hc of the groove portion 2a in the vehicle vertical direction is equal to or longer than the outer diameter D of the detection tube member 3, and is about 10 mm in this case.
- the cross-sectional shape of the groove part 2a is not restricted to a rectangle, For example, circular and a polygon may be sufficient.
- a lower punching portion 21 b is provided along the vehicle width direction on the vehicle lower side of the rear surface 2 b of the bumper absorber 2.
- the lower punching portion 21b has a shape that is recessed from the lower surface 2c of the bumper absorber 2 toward the vehicle upper side, and has a rectangular cross-sectional shape as viewed from the side of the vehicle.
- the lower punching portion 21b is located directly below (directly below) the groove 2a in the vehicle vertical direction of the bumper absorber 2, and is provided over the entire vehicle width direction.
- an upper counterbore 21a is provided along the vehicle width direction on the vehicle upper side of the rear surface 2b of the bumper absorber 2.
- the upper punching portion 21a has a shape that is recessed from the upper surface 2d of the bumper absorber 2 toward the vehicle lower side, and has a rectangular cross-sectional shape as viewed from the side of the vehicle.
- the upper punching portion 21a is located in the bumper absorber 2 directly above (directly above) the groove portion 2a in the vehicle vertical direction, and is provided over the entire vehicle width direction.
- the length Lb of the lower piercing portion 21b in the vehicle front-rear direction is approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction.
- the front and rear length Lb of the lower bore portion 21b is about 8 mm. Note that the front and rear length Lb of the lower bore portion 21b may be shorter than the front and rear length Lc of the groove portion 2a.
- the length (vertical dimension) Hb in the vehicle vertical direction of the lower bore portion 21b is set to a different length in the vehicle width direction.
- the length Hb of the lower punching portion 21b in the vehicle vertical direction is set according to the length (thickness) Ax of the bumper absorber 2 in the vehicle front-rear direction.
- the length Hb of the lower piercing portion 21b in the vehicle vertical direction is set to be longer as the position Ax of the bumper absorber 2 in the vehicle front-rear direction is longer.
- the length A1 in the vehicle longitudinal direction of the bumper absorber 2 at the vehicle width direction center side (center portion or the like) shown in FIG. 3 is the bumper absorber at the vehicle width direction end portion side (corner portion) shown in FIG. 2 is longer than the length A2 in the vehicle front-rear direction.
- the length A1 is about 65 mm.
- the length A2 is about 40 mm.
- the vehicle vertical direction length Hb1 of the lower piercing portion 21b in the vehicle width direction center side is the vehicle vertical direction length Hb2 of the vehicle width direction end portion (corner portion) lower piercing portion 21b. Longer than set.
- the vertical length Hb1 of the lower punching portion 21b on the center side in the vehicle width direction is about 12 mm.
- the vertical length Hb2 of the lower punching portion 21b on the vehicle width direction end side is about 10 mm. That is, the cross-sectional area (groove amount) of the concave portion formed by the lower bore portion 21b is set to be larger on the vehicle width direction center side than on the vehicle width direction end portion side.
- the cross-sectional area (groove amount) of the concave portion formed by the upper punching portion 21a is substantially uniform at each position in the vehicle width direction, and is set smaller than the cross-sectional area of the concave portion formed by the lower punching portion 21b. . That is, the length Ha of the upper punching portion 21a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 21b in the vehicle vertical direction at each position in the vehicle width direction. . In this case, the vertical length Ha of the upper bore portion 21a is about 4 mm.
- the sum of the cross-sectional area of the concave portion of the lower bore portion 21b and the cross-sectional area of the concave portion of the upper bore portion 21a at each position in the vehicle width direction is greater in the vehicle width direction center side than in the vehicle width direction end side. growing.
- the length La of the upper punching portion 21a in the vehicle front-rear direction is substantially the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction.
- the front and rear length La of the upper bore portion 21a is about 8 mm. It should be noted that the front and rear length La of the upper bore portion 21a may be shorter than the front and rear length Lc of the groove portion 2a.
- the detection tube member 3 is a tube-shaped member having a hollow portion 3a formed therein and extending in the vehicle width direction.
- This detection tube member 3 is mounted in the groove 2a of the bumper absorber 2 described above, and is disposed on the front surface 9a (vehicle front side) of the bumper reinforcement 9 in the bumper 7 of the vehicle. Both ends of the detection tube member 3 are curved in a substantially U shape and connected to a pressure sensor 4 to be described later on the left and right outer sides of the bumper reinforcement 9 in the vehicle width direction.
- the detection tube member 3 has a circular cross-sectional shape and is made of a synthetic rubber such as silicone rubber. Further, the outer diameter D of the detection tube member 3 is about 8 mm, for example. The wall thickness t of the peripheral wall of the detection tube member 3 is, for example, about 2 mm.
- the cross-sectional shape of the detection tube member 3 is not limited to a circle, but may be a polygon such as a quadrangle. In addition, the material of the tube member 3 for detection may be ethylene propylene rubber (EPDM) or the like.
- the pressure sensor 4 is disposed on the vehicle rear side with respect to the front surface 9a of the bumper reinforcement 9. Specifically, two pressure sensors 4 are installed on the rear surface 9b of the left and right ends of the bumper reinforcement 9, and are fixedly attached by fastening bolts (not shown). In this embodiment, redundancy and detection accuracy are ensured by installing two pressure sensors 4 in this way.
- the pressure sensor 4 is connected to both left and right ends of the detection tube member 3, and is configured to detect the pressure in the hollow portion 3a of the detection tube member 3.
- the pressure sensor 4 is a sensor device that detects a change in the pressure of the gas, and detects a change in the pressure of the air in the hollow portion 3 a of the detection tube member 3.
- the pressure sensor 4 is electrically connected to a collision detection ECU (Electronic Control Unit) 6 via a transmission line, and outputs a signal proportional to the pressure to the collision detection ECU 6.
- the collision detection ECU 6 detects a pedestrian collision with the bumper 7 based on the pressure detection result by the pressure sensor 4. Further, the collision detection ECU 6 is electrically connected to the pedestrian protection device 10.
- the speed sensor 5 is a sensor device that detects the speed of the vehicle, and is electrically connected to the collision detection ECU 6 via a signal line. The speed sensor 5 transmits a signal proportional to the vehicle speed to the collision detection ECU 6.
- the collision detection ECU 6 is composed mainly of a CPU and controls the overall operation of the vehicle collision detection apparatus 1, and is electrically connected to each of the pressure sensor 4, the speed sensor 5, and the pedestrian protection apparatus 10. (See FIG. 1).
- the collision detection ECU 6 receives a pressure signal (pressure data) from the pressure sensor 4, a speed signal (speed data) from the speed sensor 5, and the like.
- the collision detection ECU 6 executes a predetermined collision determination process based on the pressure detection result (input signal) by the pressure sensor 4 and the speed detection result (input signal) by the speed sensor 5, and an object such as a pedestrian to the bumper 7 When a collision is detected, the pedestrian protection device 10 is activated.
- the bumper 7 is for reducing an impact at the time of a vehicle collision, and includes a bumper cover 8, a bumper absorber 2, a bumper reinforcement 9, and the like.
- the bumper cover 8 is provided so as to cover the components of the bumper 7 and is a resin member such as polypropylene.
- the bumper cover 8 constitutes the appearance of the bumper 7 and at the same time constitutes a part of the appearance of the entire vehicle.
- the bumper reinforcement 9 is a rigid member made of metal such as aluminum which is disposed in the bumper cover 8 and extends in the vehicle width direction. As shown in FIGS. 3 and 4, a beam is provided in the center of the interior. Hollow member.
- the bumper reinforcement 9 has a front surface 9a which is a surface on the front side of the vehicle and a rear surface 9b on the rear side of the vehicle. As shown in FIGS. 1 and 2, the bumper reinforcement 9 is attached to the front end of a side member 11 that is a pair of metal members extending in the vehicle front-rear direction.
- the pressure sensor 4 is disposed on the rear surface 9b of the bumper reinforcement 9, and an impact (external force) due to a collision with a pedestrian or vehicle in front of the vehicle is provided in the bumper provided in front of the vehicle.
- the direct transmission from the cover 8 or the like to the pressure sensor 4 is protected by the presence of the bumper reinforcement 9.
- the fitting convex portion provided on the rear surface 2b of the bumper absorber 2 is fitted into the fitting concave portion provided on the front surface 9a of the bumper reinforcement 9, whereby the bumper rain of the bumper absorber 2 is provided. Assume that the assembly to the force 9 is performed.
- a pop-up hood is used as the pedestrian protection device 10.
- This pop-up hood instantly raises the rear end of the engine hood after a vehicle collision is detected, increases the clearance (clearance) between the pedestrian and hard parts such as the engine, and uses that space to make the pedestrian's head The impact energy on the pedestrian is absorbed and the impact on the pedestrian's head is reduced.
- a cowl airbag or the like that cushions a pedestrian's impact by deploying the airbag from the engine hood outside the vehicle body to the lower part of the front window may be used.
- the operation at the time of collision of the vehicle collision detection apparatus 1 in the present embodiment will be described.
- the bumper cover 8 of the bumper 7 is deformed by an impact caused by the collision with the pedestrian.
- the bumper absorber 2 is deformed while absorbing the impact, and at the same time, the detection tube member 3 is also deformed.
- the pressure in the hollow portion 3 a of the detection tube member 3 rises rapidly, and this pressure change is transmitted to the pressure sensor 4.
- the impact (external force) accompanying the collision with the pedestrian or the like of the vehicle is received by the bumper reinforcement 9 which is a rigid member.
- a lower punching portion 21b is provided along the vehicle width direction on the vehicle lower side of the rear surface 2b of the bumper absorber 2
- the upper punching portion 21a is provided on the vehicle upper side of the rear surface 2b of the bumper absorber 2 in the vehicle width direction. It is provided along. For this reason, the contact area between the rear surface 2b of the bumper absorber 2 and the front surface 9a of the bumper reinforcement 9 is reduced, and the magnitude of the force per unit area of the external force applied at the time of collision is reduced. It can be made larger than the case without 21a.
- the length Hb (vertical dimension) of the lower punching portion 21b in the vehicle vertical direction is set according to the length Ax of the bumper absorber 2 in the vehicle longitudinal direction, and the length varies in the vehicle width direction. Is set. Specifically, the length Hb of the lower piercing portion 21b in the vehicle vertical direction is such that the length A2 of the bumper absorber 2 in the vehicle front-rear direction is shorter than the vehicle width direction position (end in the vehicle width direction) of the bumper absorber 2. The length Hb is longer in the vehicle width direction position (vehicle width direction center side) where the length A1 in the vehicle front-rear direction is longer.
- the groove 2a is disposed on the upper side of the vehicle vertical direction center position C of the bumper reinforcement 9, and the lower punching portion 21b extends over the entire vehicle width direction on the lower surface 2c of the bumper absorber 2. It is the provided configuration.
- the collision detection ECU 6 of the vehicle collision detection device 1 executes a predetermined collision determination process based on the detection results of the pressure sensor 4 and the speed sensor 5.
- the effective mass of the collision object is calculated based on the detection results of the pressure sensor 4 and the speed sensor 5, and when this effective mass is larger than a predetermined threshold, the collision with the pedestrian Is determined to have occurred.
- a predetermined range for example, a range of 25 km to 55 km / h
- the “effective mass” refers to a mass calculated using the relationship between momentum and impulse from the detection value of the pressure sensor 4 at the time of collision.
- the value of the detected pressure sensor 4 is different for a collision object (OFF requirement object) such as a roadside marker having a mass different from that of a pedestrian (ON requirement object) (see FIG. 7, see FIG. 7).
- OFF requirement object such as a roadside marker having a mass different from that of a pedestrian (ON requirement object)
- This effective mass is calculated by dividing the constant integral value of the pressure value detected by the pressure sensor 4 at a predetermined time by the vehicle speed detected by the speed sensor 5 as shown in the following equation.
- M ( ⁇ P (t) dt) / V (Expression 1)
- M is an effective mass
- P is a value detected by the pressure sensor 4 at a predetermined time
- t is a predetermined time (for example, several ms to several tens of ms)
- V is a vehicle speed at the time of collision.
- E 1/2 ⁇ MV 2 representing the kinetic energy E of the collided object.
- the collision detection ECU 6 determines that a collision has occurred with a pedestrian that requires the pedestrian protection device 10 to operate, the collision detection ECU 6 outputs a control signal for operating the pedestrian protection device 10 to operate the pedestrian protection device 10. Let the impact on the pedestrian be reduced as described above.
- the vehicle collision detection apparatus 1 includes the bumper absorber 2 disposed in the bumper 7 of the vehicle, and the groove 2a formed in the bumper absorber 2 along the vehicle width direction. And detecting the pressure in the hollow portion 3a of the detection tube member 3 and the detection tube member 3 in which the hollow portion 3a is formed inside the bumper reinforcement 9 disposed on the front side of the vehicle.
- a pressure sensor 4 and detects a collision of an object (pedestrian) with the bumper 7 based on a pressure detection result by the pressure sensor 4.
- the bumper absorber 2 includes a lower bore 21b having a shape that is recessed from the lower surface 2c of the bumper absorber 2 toward the vehicle upper side at a position directly below the groove 2a in the vehicle vertical direction.
- the lower bore portion 21 b having a concave shape from the lower surface 2 c of the bumper absorber 2 toward the vehicle upper side is provided at a position immediately below the groove portion 2 a in the vehicle vertical direction. Therefore, the magnitude of the force per unit area of the external force applied at the time of the collision can be increased as compared with the case where there is no lower bore portion 21b. Therefore, the external force accompanying the collision can be effectively transmitted to the detection tube member 3, and the detection tube member 3 can be reliably deformed (collapsed).
- the lower punching portion 21 b is provided over the entire vehicle width direction of the bumper absorber 2. According to this configuration, since the lower punching portion 21 b is provided over the entire vehicle width direction of the bumper absorber 2, the output of the pressure sensor 4 can be increased over the entire vehicle width direction of the bumper 7.
- the bumper absorber 2 further includes an upper counterbore portion 21a having a shape that is recessed from the upper surface 2d of the bumper absorber 2 toward the vehicle lower side at a position directly above the vehicle in the groove portion 2a. To do.
- the upper bore in addition to the lower bore portion 21b, has a shape that is concavely recessed toward the vehicle upper side from the upper surface 2d of the bumper absorber 2 at a position directly above the vehicle in the groove portion 2a of the bumper absorber 2. Since the portion 21a is provided, the magnitude of the force per unit area of the external force applied at the time of the collision can be further increased. Thereby, since the external force accompanying a collision can be more effectively transmitted to the tube member 3 for a detection, a pedestrian's fall can be detected more reliably.
- the upper punching portion 21 a is provided over the entire vehicle width direction of the bumper absorber 2. According to this configuration, since the upper counterbore 21a is formed over the entire vehicle width direction of the bumper absorber 2, the pressure detection output by the pressure sensor 4 can be further increased over the entire vehicle width direction. .
- the cross-sectional area (groove amount) of the concave portion formed by the lower piercing portion 21b is larger than the cross-sectional area of the concave portion formed by the upper piercing portion 21a.
- the collision occurs on the lower side of the bumper 7 in the vertical direction of the vehicle by making the cross-sectional area (the amount of punching) of the concave portion formed by the lower punching portion 21b larger than the amount of the top punching portion 21a.
- ON-off target objects that increase the external force applied from the vehicle upper side of the bumper 7 as the pedestrian falls (see FIG.
- the collision can be accurately determined. That is, the external force associated with a collision is detected more in the case of a collision with an ON requirement object (such as a pedestrian) that involves the fall of a pedestrian than in the case of a collision with an OFF requirement object (such as a roadside marker). It can be transmitted more reliably to the tube member 3.
- an ON requirement object such as a pedestrian
- an OFF requirement object such as a roadside marker
- the cross-sectional area of the concave portion formed by the lower bore portion 21b is different in the vehicle width direction, and the concave portion of the lower bore portion 21b becomes longer as the length Ax of the bumper absorber 2 in the vehicle front-rear direction is longer.
- the cross-sectional area is set to be large.
- the cross-sectional area (groove amount) of the concave portion of the lower punching portion 21b in the vehicle width direction center side (center portion) of the bumper absorber 2 is defined as the vehicle width direction end portion side (corner portion) of the bumper absorber 2.
- the output of the pressure sensor 4 at this portion can be improved by increasing the cross-sectional area (the amount of punching) of the concave portion of the lower punching portion 21b at the position where the longitudinal length Ax of the bumper absorber 2 is long. it can.
- the sum of the cross-sectional area of the concave portion of the lower bore portion 21b and the cross-sectional area of the concave portion of the upper bore portion 21a at each position in the vehicle width direction is different in the vehicle width direction.
- the variation in the output of the pressure sensor 4 at the vehicle width direction position can be changed by appropriately changing the cross-sectional area (the amount of the bore) of the concave portions of the upper and lower bore portions 21a and 21b at the vehicle width direction position. It can be made smaller.
- the length Lb of the lower punching portion 21b in the vehicle front-rear direction and the length La of the upper punching portion 21a in the vehicle front-rear direction are approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction.
- the length Lb of the lower piercing portion 21b in the vehicle front-rear direction and the length La of the upper piercing portion 21a in the vehicle front-rear direction are approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction.
- the magnitude of the force per unit area of the external force applied to the detection tube member 3 mounted in the groove 2a can be reliably increased.
- the lower bore 21b and the upper bore 21a are characterized in that the cross-sectional shape viewed from the side of the vehicle is a rectangular shape. According to this configuration, since the cross-sectional shapes of the lower bore portion 21b and the upper bore portion 21a are rectangular, the amount of the bores of the lower bore portion 21b and the upper bore portion 21a can be easily adjusted.
- the length Hb of the lower piercing portion 21b in the vertical direction of the vehicle is longer than the length Ha of the upper piercing portion 21a in the vertical direction of the vehicle.
- the length Hb of the lower piercing portion 21b in the vertical direction of the vehicle is made longer than the length Ha of the upper piercing portion 21a in the vertical direction of the vehicle, thereby colliding with the OFF requirement target object (roadside marker or the like).
- the external force accompanying the collision can be more easily transmitted to the detection tube member 3 in the case of a collision with an ON-required object (such as a pedestrian) that causes the pedestrian to fall.
- the length Hb of the lower piercing portion 21b in the vertical direction of the vehicle is different in the vehicle width direction, and the length Ax (thickness) of the bumper absorber 2 in the longitudinal direction of the vehicle is set longer as the position becomes thicker. Is done.
- the length Hb of the lower piercing portion 21b in the vehicle vertical direction is characterized in that the vehicle width direction center side is longer than the vehicle width direction end portion side.
- the vertical dimension Hb1 of the lower recess portion 21b in the vehicle width direction center side (center portion) of the bumper absorber 2 is set to be equal to the lower recess portion 21b of the bumper absorber 2 in the vehicle width direction end portion side (corner portion).
- the output of the pressure sensor 4 can be sufficiently generated over the entire vehicle width direction. That is, considering that the longitudinal length Ax of the bumper absorber 2 is increased, the deformation amount of the detection tube member 3 at the time of the collision is reduced, so that the longitudinal length Ax of the bumper absorber 2 is longer on the center side in the vehicle width direction.
- the output of the pressure sensor 4 at this portion can be increased.
- the groove 2 a is provided on the rear surface 2 b of the bumper absorber 2.
- the detection tube member 3 mounted in the groove 2a can be disposed to face the vehicle front side of the bumper reinforcement 9 that is a rigid member. It can prevent bending to the side. Thereby, the collision detection performance of the vehicle collision detection device 1 can be ensured over the entire vehicle width direction. Furthermore, the assembly
- the groove portion 2a is provided on the upper side of the bumper absorber 2 in the vehicle vertical direction. According to this configuration, a large amount of external force accompanying the fall of the pedestrian is applied to the upper part of the bumper absorber 2, so that the groove 2a (detection tube member 3) is disposed on the upper side of the bumper absorber 2 in the vehicle vertical direction. The external force applied from above the bumper absorber 2 can be transmitted to the tube member 3 for detection more reliably. Thereby, the collision with the pedestrian of a vehicle can be detected more reliably.
- the groove 2a is characterized in that it is disposed above the center position C of the bumper reinforcement 9 in the vehicle vertical direction. According to this configuration, by disposing the groove 2a above the vehicle vertical direction center position C of the bumper reinforcement 9, an OFF requirement target object that causes a collision on the lower side of the bumper 7 in the vehicle vertical direction ( It is possible to make it difficult for the external force associated with the collision to be transmitted to the detection tube member 3 at the time of a collision with a roadside marker or the like (see FIG. 8). A collision with an object (see FIG. 7) can be more accurately determined.
- a groove 2a for mounting the detection tube member 3 is provided inside the bumper absorber 2 (the vehicle front side relative to the rear surface 2b). Yes.
- the lower bore 22b is provided at a position directly below the groove 2a in the vertical direction of the vehicle (directly below), and the upper pocket 22a is provided at a position directly above the groove 2a in the vertical direction of the vehicle (directly above). Yes.
- the lower punching portion 22b is provided along the vehicle width direction on the center side of the lower surface 2c of the bumper absorber 2 in the vehicle front-rear direction.
- the upper punching portion 22a is provided along the vehicle width direction on the center side of the upper surface 2d of the bumper absorber 2 in the vehicle front-rear direction.
- the lower bore 22b has a shape that is recessed from the lower surface 2c of the bumper absorber 2 toward the upper side of the vehicle, and has a rectangular cross-sectional shape as viewed from the side of the vehicle.
- the upper punching portion 22a has a shape that is recessed from the upper surface 2d of the bumper absorber 2 toward the vehicle lower side, and has a rectangular cross-sectional shape as viewed from the side of the vehicle.
- the length Lb of the lower piercing portion 22b in the vehicle front-rear direction is substantially the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniform in the vehicle width direction.
- the length of the upper punching portion 22a in the vehicle front-rear direction is also approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction.
- the length Lb, the length Lc, and the length La are about 8 mm.
- the length Hb (vertical dimension) of the lower piercing portion 22b in the vehicle vertical direction is different in the vehicle width direction, and the length depends on the length Ax (thickness) of the bumper absorber 2 in the vehicle front-rear direction. Is set. That is, the vertical dimension Hb1 of the lower recess 22b in the vehicle width direction center side (center portion) is larger than the vertical dimension Hb2 of the lower recess 22b in the vehicle width direction end portion (corner portion). For this reason, the cross-sectional area (groove amount) of the concave portion formed by the lower bore portion 22b is larger on the vehicle width direction center side than on the vehicle width direction end portion side.
- the cross-sectional area (groove amount) of the concave portion formed by the upper punching portion 22a is substantially uniform at each position in the vehicle width direction, and is set smaller than the cross-sectional area of the concave portion formed by the lower punching portion 22b. . That is, the length Ha of the upper punching portion 22a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 22b in the vehicle vertical direction at each position in the vehicle width direction. . In this case, the vertical length Ha of the upper bore portion 22a is about 4 mm.
- the groove 2a disposed in the bumper absorber 2 (the front side of the rear surface 2b) is directly below the vehicle in the vertical direction (directly below), that is, the vehicle on the lower surface 2c of the bumper absorber 2.
- a lower bore 22b is provided along the vehicle width direction on the center side in the front-rear direction.
- an upper counterboring portion 22a is provided along the vehicle width direction at a position directly above (directly above) the groove portion 2a in the vehicle vertical direction, that is, on the center side of the upper surface 2d of the bumper absorber 2 in the vehicle front-rear direction.
- the vertical dimension Hb1 of the lower punching portion 22b on the center side in the vehicle width direction where the front and rear length A1 (thickness) of the bumper absorber 2 is long (thick) is the position where the front and rear length A2 of the bumper absorber 2 is short. It is larger than the vertical dimension Hb2 of the lower punching portion 22b on the vehicle width direction end portion side.
- the deformation amount of the detection tube member 3 with respect to a predetermined load is small, and the output of the pressure sensor 4 is small.
- the output of the pressure sensor 4 at this portion can be improved by increasing the cross-sectional area (the amount of punching) of the concave portion of the lower punching portion 21b at the position where the longitudinal length Ax of the bumper absorber 2 is long. it can.
- the groove 2a (detection tube member 3) is disposed on the upper surface 2d (the vehicle upper side) of the bumper absorber 2, and the lower bore 22b is disposed on the lower surface 2c of the bumper absorber 2 in the vehicle width direction. It is the structure provided over the whole.
- the bumper absorber 2 is recessed in a position directly below the groove 2a in the vehicle vertical direction from the lower surface 2c of the bumper absorber 2 toward the vehicle upper side.
- the upper bottom portion 22b having the shape of the bumper absorber 2 is provided at a position directly above the vehicle in the groove portion 2a of the bumper absorber 2, and the upper portion having a concave shape from the upper surface 2d of the bumper absorber 2 toward the vehicle upper side.
- a punch 22a is provided.
- the groove portion 2a (detection tube member 3) is disposed on the upper side of the bumper absorber 2 in the vertical direction of the vehicle, it detects an external force applied from the upper side of the bumper absorber 2 at the time of a collision involving a pedestrian falling down. Can be transmitted to the tube member 3 more reliably.
- FIG. 12 the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
- a lower bore portion 23b is provided along the vehicle width direction on the vehicle lower side of the rear surface 2b of the bumper absorber 2, and an upper bore is formed on the vehicle upper side of the rear surface 2b of the bumper absorber 2.
- the point where the part 23a is provided along the vehicle width direction is the same configuration as that of the first embodiment.
- the first aspect is that the front / rear length Lb3 of the lower bore 23b and the front / rear length La3 of the upper bore 23a are set longer than the front / rear length Lc of the groove 2a. Different from the embodiment.
- the length (vertical dimension) Hb of the lower punching portion 23b in the vehicle vertical direction is different in the vehicle width direction, and the longitudinal length (thickness) Ax of the bumper absorber 2 is different. It is set according to. Specifically, the longer the front-rear length Ax of the bumper absorber 2 is, the longer the length Hb of the lower punching portion 21b in the vehicle vertical direction is set.
- the length Hb1 in the vehicle up-down direction of the lower fork portion 23b in the vehicle width direction center side (center portion or the like) shown in FIG. 12 is equal to the lower fork portion 23b in the vehicle width direction end side (corner portion). It is larger than the length Hb2 (see FIG. 4) in the vehicle vertical direction. That is, the cross-sectional area (groove amount) of the concave portion formed by the lower bore portion 23b is set larger on the vehicle width direction center side than on the vehicle width direction end portion side.
- the cross-sectional area (groove amount) of the concave portion formed by the upper bore portion 23a is substantially uniform at each position in the vehicle width direction, and is set smaller than the cross-sectional area of the concave portion formed by the lower bore portion 23b.
- the length Ha of the upper punching portion 23a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 23b in the vehicle vertical direction at each position in the vehicle width direction.
- the vehicle collision detection apparatus 1 of the third embodiment described above. That is, in the third embodiment, the lower surface 2c of the bumper absorber 2 is provided with the lower recess 23b over the entire vehicle width direction, and the upper surface 2d of the bumper absorber 2 is extended over the entire vehicle width direction.
- the section 23a is provided, and at each position in the vehicle width direction, the cross-sectional area of the concave portion formed by the lower bore portion 23b is larger than the cross-sectional area of the concave portion formed by the upper bore portion 23a. Can be reliably detected.
- an ON requirement object in which the external force applied from the vehicle upper side of the bumper 7 increases as the pedestrian falls and the collision with the OFF requirement object in which a collision occurs on the lower side of the bumper 7 in the vehicle vertical direction. It is possible to accurately determine the collision with the person.
- the length Lb3 of the lower piercing portion 23b in the vehicle front-rear direction and the length La3 of the upper piercing portion 23a in the vehicle front-rear direction are longer than the length Lc of the groove 2a in the vehicle front-rear direction over the entire vehicle width direction.
- the output of the pressure sensor 4 can be increased over the entire vehicle width direction.
- wearing the tube member 3 for a detection is provided in the inside of the bumper absorber 2 (vehicle front side rather than the rear surface 2b) in 2nd Embodiment. It is the same composition.
- the lower bore portion 24b extends from the position directly below the groove portion 2a in the vehicle vertical direction (near the vehicle center portion on the lower surface 2c of the bumper absorber 2) to the front surface 9a of the bumper reinforcement 9. The point provided is different from the second embodiment.
- the length Lb4 in the vehicle front-rear direction of the lower piercing portion 24b is set to be longer than the length Lc in the vehicle front-rear direction of the groove portion 2a over the entire vehicle width direction.
- the length La of the upper punching portion 22a in the vehicle front-rear direction is substantially the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction.
- the cross-sectional shapes of the lower bore portion 24b and the upper bore portion 22a are rectangular, as in the second embodiment.
- the length (vertical dimension) Hb of the lower punching portion 24b in the vehicle vertical direction depends on the length (thickness) Ax of the bumper absorber 2 in the vehicle front-rear direction. Is set. Specifically, the vehicle vertical direction length Hb1 of the lower fork portion 24b in the vehicle width direction center side (center portion or the like) shown in FIG. 13 is the vehicle vertical direction length of the vehicle width direction end portion side (corner portion). It is larger than the height Hb2 (see FIG. 11). Accordingly, the cross-sectional area of the concave portion formed by the lower bore portion 24b (the amount of the bore) is larger on the vehicle width direction center side than on the vehicle width direction end portion side.
- the cross-sectional area (groove amount) of the concave portion formed by the upper bore portion 22a is substantially uniform at each position in the vehicle width direction. That is, the length Ha of the upper punching portion 22a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 22b in the vehicle vertical direction at each position in the vehicle width direction. .
- the same effect as that of the first embodiment can be obtained.
- the lower surface 2c of the bumper absorber 2 is provided with a lower bore portion 24b over the entire vehicle width direction
- the upper surface 2d of the bumper absorber 2 is provided with an upper bore portion 22a over the entire vehicle width direction. Therefore, it is possible to accurately detect a collision involving a pedestrian falling down.
- the pressure sensor 4 outputs pressure detection. Can be made larger.
- a fixed reinforcing member 12 for reinforcing the fixing strength between the bumper absorber 2 and the bumper reinforcement 9 is provided on the vehicle lower side of the bumper absorber 2 in the vehicle width direction. It is provided along.
- the fixed reinforcing member 12 has a substantially L-shaped cross-sectional shape.
- a foamed resin having a foaming ratio lower than that of the bumper absorber 2 is used.
- a part of the upper surface of the fixed reinforcing member 12 (a portion excluding the portion directly below the lower punching portion 21b) is in contact with the lower surface 2c of the bumper absorber 2. Further, the rear surface of the fixed reinforcing member 12 is in contact with the front surface 9 a of the bumper reinforcement 9.
- the fixed reinforcing member 12 and the bumper reinforcement 9 are fitted and fixed by fitting fitting portions provided on the fixed reinforcing member 12 and the bumper reinforcement 9. Thereby, the bumper absorber 2 is fixed to the bumper reinforcement 9 in a state where the lower surface 2 c is supported by the fixed reinforcing member 12.
- the bumper absorber 2 is provided with a fixing reinforcing member 12 for reinforcing the fixing strength between the bumper absorber 2 and the bumper reinforcement 9 on the vehicle lower side of the bumper absorber 2.
- the fixing strength between 2 and the bumper reinforcement 9 can be improved.
- the bumper absorber 2 can be stably disposed on the front surface 9 a of the bumper reinforcement 9.
- the present disclosure is not limited to the above-described embodiment, and various modifications or extensions can be made without departing from the gist of the present disclosure.
- a modification of the above embodiment will be described.
- the lower bore portion 21b has a cross-sectional area (amount of bore) formed by the lower bore portion 21b as the position Ax of the bumper absorber 2 in the vehicle front-rear direction is longer.
- the amount of punching of the lower punching portion 21 on the side in the vehicle width direction may be larger than the amount of punching of the lower punching portion 21 on the center side in the vehicle width direction.
- the detection tube member 3 is not deformed sufficiently at the end in the vehicle width direction side due to the impact (external force) caused by the collision escaping to the side of the vehicle at the time of collision with a pedestrian or the like of the vehicle. It is assumed that the output of the sensor 4 may be small. In this case, the output of the pressure sensor 4 at the vehicle width direction end can be improved.
- the present invention is not limited to this, and the position of the pressure sensor 4 can be changed as appropriate.
- the pressure sensor 4 may be disposed on the inner wall surface of the bumper reinforcement 9.
- a collision with a pedestrian that requires the operation of the pedestrian protection device 10 has occurred when the effective mass exceeds a predetermined threshold.
- a pressure value detected by the pressure sensor 4, a pressure change rate, or the like may be used as a threshold for collision determination.
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Abstract
A collision detection device (1) for a vehicle has: a bumper absorber (2) provided within a bumper (7) of the vehicle at a position in front, with respect to the vehicle, of a bumper reinforcement (9); a tube member (3) for detection, the tube member (3) being mounted in a groove (2a) formed in the bumper absorber (2) so as to extend in the width direction of the vehicle and having a hollow section (3a) formed therein; and a pressure sensor (4) for detecting pressure within the hollow section (3a) of the tube member (3) for detection. The collision detection device (1) detects the collision of an object against the bumper (7) on the basis of the result of the detection of the pressure by the pressure sensor (4). The bumper absorber (2) is provided with a lower recess (21b, 22b, 23b, 24b) located at least at a position directly below the groove (2a) in the vertical direction of the vehicle and shaped so as to be recessed upward, with respect to the vehicle, from the lower surface (2c) of the bumper absorber (2).
Description
本出願は、2015年2月23日に出願された日本特許出願番号2015-32831号に基づくもので、ここにその記載内容を援用する。
This application is based on Japanese Patent Application No. 2015-32831 filed on February 23, 2015, the contents of which are incorporated herein by reference.
本開示は、車両の歩行者等との衝突を検知するための車両用衝突検知装置に関する。
The present disclosure relates to a vehicle collision detection device for detecting a collision with a pedestrian or the like of a vehicle.
従来、歩行者が車両に衝突した際、歩行者への衝撃を軽減するための歩行者保護装置を備えた車両がある。この車両では、バンパ部にセンサを備えた衝突検知装置を設け、このセンサにより車両に歩行者等が衝突したことが検知された場合、歩行者保護装置を作動させ、歩行者への衝撃を和らげる構成となっている。この歩行者保護装置には、例えばポップアップフードと呼ばれるものがある。このポップアップフードは、車両の衝突検知時に、エンジンフードの後端を上昇させ、歩行者とエンジン等の硬い部品との間隔(クリアランス)を増加させ、そのスペースを用いて歩行者の頭部への衝突エネルギーを吸収し、頭部への衝撃を低減させるものである。
Conventionally, there are vehicles equipped with a pedestrian protection device for reducing the impact on the pedestrian when the pedestrian collides with the vehicle. In this vehicle, a bumper unit is provided with a collision detection device, and when this sensor detects that a pedestrian or the like has collided with the vehicle, the pedestrian protection device is activated to reduce the impact on the pedestrian. It has a configuration. This pedestrian protection device includes what is called a pop-up hood, for example. This pop-up hood raises the rear end of the engine hood when a vehicle collision is detected, increases the clearance (clearance) between the pedestrian and hard parts such as the engine, and uses that space to the pedestrian's head. It absorbs collision energy and reduces the impact on the head.
上記した車両用衝突検知装置には、車両のバンパ内におけるバンパレインフォースメントの前面に、チャンバ空間を内部に有するチャンバ部材を配設し、このチャンバ空間内の圧力を圧力センサにより検出するようにしたものがある。この構成のものでは、バンパ(バンパカバー)へ歩行者等の物体が衝突すると、バンパカバーの変形に伴ってチャンバ部材が変形し、チャンバ空間に圧力変化が発生する。この圧力変化を圧力センサが検出することで歩行者の衝突を検知している。
In the above-described vehicle collision detection device, a chamber member having a chamber space is disposed in front of a bumper reinforcement in a bumper of the vehicle, and a pressure sensor detects the pressure in the chamber space. I have something to do. With this configuration, when an object such as a pedestrian collides with the bumper (bumper cover), the chamber member is deformed along with the deformation of the bumper cover, and a pressure change is generated in the chamber space. The pressure sensor detects this pressure change to detect a pedestrian collision.
近年、上記したチャンバ式の車両用衝突検知装置よりも、小型で搭載性に優れたチューブ部材を用いて衝突を検知するチューブ式の車両用衝突検知装置が提案されている。この車両用衝突検知装置は、車両のバンパ内に配設されたバンパアブソーバと、バンパアブソーバに車幅方向に沿って形成された溝部に装着される中空のチューブ部材と、チューブ部材内の圧力を検出する圧力センサとを備えて構成されている。そして、車両前方に歩行者が衝突した際には、バンパアブソーバが衝撃を吸収しながら変形すると同時にチューブ部材も変形する。このとき、チューブ部材内の圧力が上昇し、この圧力変化を圧力センサにより検出することに基づいて、車両の歩行者との衝突を検知する。
In recent years, a tube-type vehicle collision detection device that detects a collision using a tube member that is smaller and more easily mounted than the above-described chamber-type vehicle collision detection device has been proposed. This vehicle collision detection device includes a bumper absorber disposed in a bumper of a vehicle, a hollow tube member mounted in a groove formed in the bumper absorber along the vehicle width direction, and a pressure in the tube member. And a pressure sensor for detection. When a pedestrian collides with the front of the vehicle, the bumper absorber is deformed while absorbing the impact, and at the same time, the tube member is also deformed. At this time, the pressure in the tube member rises, and the collision with the pedestrian of the vehicle is detected based on detecting this pressure change by the pressure sensor.
ところで、歩行者が車両のバンパに衝突した際、歩行者の脚部がバンパにすくわれて上体がエンジンフード上に倒れ込んでくる挙動を示すことが知られている。このため、上述した車両用衝突検知装置においては、特に歩行者の倒れ込みを確実に検知することが重要な課題と考えられる。
By the way, it is known that when a pedestrian collides with a bumper of a vehicle, the leg of the pedestrian is scooped by the bumper and the upper body falls on the engine hood. For this reason, in the above-described vehicle collision detection apparatus, it is considered that it is particularly important to reliably detect the pedestrian falling.
本開示は、上述した課題に鑑みてなされたものであり、歩行者の倒れ込みを確実に検知可能な車両用衝突検知装置を提供することを目的とする。
This indication is made in view of the subject mentioned above, and aims at providing the collision detection device for vehicles which can detect the fall of a pedestrian certainly.
上記目的を解決するためになされた本開示の1つの態様の車両用衝突検知装置は、車両のバンパ内においてバンパレインフォースメントの車両前方側に配設されたバンパアブソーバと、バンパアブソーバに車幅方向に沿って形成された溝部に装着される内部に中空部が形成された検出用チューブ部材と、検出用チューブ部材の中空部内の圧力を検出する圧力センサと、を有し、圧力センサによる圧力検出結果に基づいてバンパへの物体の衝突を検知する。そして、バンパアブソーバは、溝部の車両上下方向における少なくとも直下方位置にて当該バンパアブソーバの下面から車両上方側に向かって凹状にえぐられた形状を有する下えぐり部を備えたことを特徴とする。
In order to solve the above-described object, a vehicle collision detection device according to one aspect of the present disclosure includes a bumper absorber disposed on the vehicle front side of a bumper reinforcement in a bumper of the vehicle, and a vehicle width on the bumper absorber. A tube member for detection in which a hollow portion is formed inside the groove portion formed along the direction, and a pressure sensor for detecting the pressure in the hollow portion of the tube member for detection, and pressure by the pressure sensor The collision of the object with the bumper is detected based on the detection result. The bumper absorber includes a lower bore portion having a concave shape from the lower surface of the bumper absorber toward the vehicle upper side at least at a position directly below the groove in the vehicle vertical direction.
この構成によれば、バンパアブソーバの溝部の車両上下方向における少なくとも直下方位置に、バンパアブソーバの下面から車両上方側に向かって凹状にえぐられた形状を有する下えぐり部が設けられているので、衝突時に検出用チューブ部材へ加わる外力の単位面積当たりの力の大きさを、下えぐり部がない場合よりも大きくさせることができる。従って、衝突に伴う外力を検出用チューブ部材へ効果的に伝達させて、検出用チューブ部材を確実に変形させる(潰れさせる)ことができる。特に、歩行者の脚部がバンパにすくわれて上体がエンジンフード上に倒れ込むように衝突した際に、この倒れ込みに伴って車両上方側から加わる外力を検出用チューブ部材に対してより効果的に伝達させることができる。これにより、検出用チューブ部材の中空部内の圧力変化が圧力センサによって確実に検知されるので、歩行者の倒れ込みを確実に検知することができ、車両用衝突検知装置の衝突検知精度を向上させることができる。
According to this configuration, since the groove portion of the bumper absorber is provided at least at a position directly below in the vehicle vertical direction, a lower bore portion having a shape that is recessed from the lower surface of the bumper absorber toward the vehicle upper side is provided. The magnitude of the force per unit area of the external force applied to the detection tube member at the time of a collision can be made larger than when there is no lower bore portion. Therefore, the external force accompanying the collision can be effectively transmitted to the detection tube member, and the detection tube member can be reliably deformed (collapsed). In particular, when the pedestrian's legs are scooped by a bumper and the upper body collides so that it falls on the engine hood, the external force applied from the vehicle upper side with this falling is more effective against the tube member for detection. Can be transmitted. Thereby, since the pressure change in the hollow part of the tube member for detection is reliably detected by the pressure sensor, the fall of the pedestrian can be reliably detected, and the collision detection accuracy of the vehicle collision detection device is improved. Can do.
本開示についての上記目的およびその他の目的、特徴や利点は、添付の図面を参照しながら下記の詳細な記述により、より明確になる。その図面は、
第1の実施形態の車両用衝突検知装置の全体構成を示す図である。
図1のバンパ部の拡大図である。
図2のバンパ部のIII-III断面図である。
図2のバンパ部のIV-IV断面図である。
図2のバンパアブソーバの拡大断面図である。
第1の実施形態の上・下えぐり部の上下寸法の和と圧力センサにより検出される圧力検出値との関係を示す図である。
第1の実施形態の車両とON要件対象物との衝突の様子を示す断面図である。
第1の実施形態の車両とOFF要件対象物との衝突の様子を示す断面図である。
第2の実施形態における図2相当図である。
図9のバンパ部のX-X断面図である。
図9のバンパ部のXI-XI断面図である。
第3の実施形態における図3相当図である。
第4の実施形態における図3相当図である。
第5の実施形態における図3相当図である。
The above and other objects, features, and advantages of the present disclosure will become more apparent from the following detailed description with reference to the accompanying drawings. The drawing
1 is a diagram illustrating an overall configuration of a vehicle collision detection device according to a first embodiment. It is an enlarged view of the bumper part of FIG. FIG. 3 is a III-III cross-sectional view of the bumper portion of FIG. 2. FIG. 4 is a IV-IV cross-sectional view of the bumper portion of FIG. 2. It is an expanded sectional view of the bumper absorber of FIG. It is a figure which shows the relationship between the sum of the up-and-down dimension of the upper and lower bore part of 1st Embodiment, and the pressure detection value detected by a pressure sensor. It is sectional drawing which shows the mode of the collision with the vehicle of 1st Embodiment, and an ON requirement target object. It is sectional drawing which shows the mode of the collision with the vehicle of 1st Embodiment, and an OFF requirement target object. FIG. 3 is a view corresponding to FIG. 2 in the second embodiment. FIG. 10 is a sectional view taken along the line XX of the bumper portion of FIG. 9. FIG. 10 is a sectional view taken along line XI-XI of the bumper portion of FIG. 9. FIG. 10 is a view corresponding to FIG. 3 in the third embodiment. FIG. 10 is a view corresponding to FIG. 3 in the fourth embodiment. FIG. 10 is a diagram corresponding to FIG. 3 in a fifth embodiment.
(第1の実施形態)
以下、第1の実施形態の車両用衝突検知装置について、図1~図8を参照して説明する。図1及び図2に示すように、本実施形態の車両用衝突検知装置1は、バンパアブソーバ2、中空の検出用チューブ部材3、圧力センサ4、速度センサ5、衝突検知ECU6等を備えて構成される。この車両用衝突検知装置1は、車両前方に設けられたバンパ7への物体(歩行者等)の衝突を検知するものである。このバンパ7は、図3及び図4に示すように、バンパカバー8、バンパアブソーバ2、バンパレインフォースメント9を主体として構成されている。 (First embodiment)
Hereinafter, the vehicle collision detection apparatus according to the first embodiment will be described with reference to FIGS. As shown in FIGS. 1 and 2, the vehiclecollision detection device 1 of the present embodiment includes a bumper absorber 2, a hollow detection tube member 3, a pressure sensor 4, a speed sensor 5, a collision detection ECU 6, and the like. Is done. The vehicle collision detection device 1 detects a collision of an object (pedestrian or the like) with a bumper 7 provided in front of the vehicle. As shown in FIGS. 3 and 4, the bumper 7 includes a bumper cover 8, a bumper absorber 2, and a bumper reinforcement 9 as main components.
以下、第1の実施形態の車両用衝突検知装置について、図1~図8を参照して説明する。図1及び図2に示すように、本実施形態の車両用衝突検知装置1は、バンパアブソーバ2、中空の検出用チューブ部材3、圧力センサ4、速度センサ5、衝突検知ECU6等を備えて構成される。この車両用衝突検知装置1は、車両前方に設けられたバンパ7への物体(歩行者等)の衝突を検知するものである。このバンパ7は、図3及び図4に示すように、バンパカバー8、バンパアブソーバ2、バンパレインフォースメント9を主体として構成されている。 (First embodiment)
Hereinafter, the vehicle collision detection apparatus according to the first embodiment will be described with reference to FIGS. As shown in FIGS. 1 and 2, the vehicle
バンパアブソーバ2は、バンパレインフォースメント9の前面9aに対向する位置(車両前方側)に配設される。このバンパアブソーバ2は、歩行者等との衝突時にバンパ7において衝撃吸収の作用を受け持つ部材であり、例えば発泡ポリプロピレン等からなる。
The bumper absorber 2 is disposed at a position facing the front surface 9a of the bumper reinforcement 9 (the vehicle front side). The bumper absorber 2 is a member that has an impact absorbing function in the bumper 7 when it collides with a pedestrian or the like, and is made of, for example, foamed polypropylene.
バンパアブソーバ2の後面2bには、検出用チューブ部材3を装着するための溝部2aが形成されている。溝部2aは、矩形形状の断面を有し、車幅方向(車両左右方向)に沿って形成されている。この溝部2aは、バンパレインフォースメント9の車両上下方向中心位置Cよりも上方側に配設される。
On the rear surface 2b of the bumper absorber 2, a groove 2a for mounting the detection tube member 3 is formed. The groove 2a has a rectangular cross section and is formed along the vehicle width direction (the vehicle left-right direction). The groove 2a is disposed above the center position C of the bumper reinforcement 9 in the vehicle vertical direction.
図5に示すように、溝部2aの車両前後方向の長さLcは、検出用チューブ部材3の外径Dと同程度の長さであり、この場合8mm程度である。また、溝部2aの車両上下方向の長さHcは、検出用チューブ部材3の外径D以上の長さであり、この場合10mm程度である。なお、溝部2aの断面形状は矩形に限られず、例えば円形や多角形であってもよい。
As shown in FIG. 5, the length Lc of the groove 2a in the vehicle front-rear direction is approximately the same as the outer diameter D of the detection tube member 3, and in this case is about 8 mm. The length Hc of the groove portion 2a in the vehicle vertical direction is equal to or longer than the outer diameter D of the detection tube member 3, and is about 10 mm in this case. In addition, the cross-sectional shape of the groove part 2a is not restricted to a rectangle, For example, circular and a polygon may be sufficient.
本実施形態では、図3及び図4に示すように、バンパアブソーバ2の後面2bにおける車両下方側に、下えぐり部21bが車幅方向に沿って設けられている。下えぐり部21bは、バンパアブソーバ2の下面2cから車両上方側に向かって凹状にえぐられた形状を有し、車両側方から見た断面形状が矩形形状となっている。この下えぐり部21bは、バンパアブソーバ2において溝部2aの車両上下方向における直下方(真下)に位置し、車幅方向全体に亘って設けられている。
In this embodiment, as shown in FIGS. 3 and 4, a lower punching portion 21 b is provided along the vehicle width direction on the vehicle lower side of the rear surface 2 b of the bumper absorber 2. The lower punching portion 21b has a shape that is recessed from the lower surface 2c of the bumper absorber 2 toward the vehicle upper side, and has a rectangular cross-sectional shape as viewed from the side of the vehicle. The lower punching portion 21b is located directly below (directly below) the groove 2a in the vehicle vertical direction of the bumper absorber 2, and is provided over the entire vehicle width direction.
更に、バンパアブソーバ2の後面2bにおける車両上方側に、上えぐり部21aが車幅方向に沿って設けられている。上えぐり部21aは、バンパアブソーバ2の上面2dから車両下方側に向かって凹状にえぐられた形状を有し、車両側方から見た断面形状が矩形形状となっている。この上えぐり部21aは、バンパアブソーバ2において溝部2aの車両上下方向における直上方(真上)に位置し、車幅方向全体に亘って設けられている。
Furthermore, an upper counterbore 21a is provided along the vehicle width direction on the vehicle upper side of the rear surface 2b of the bumper absorber 2. The upper punching portion 21a has a shape that is recessed from the upper surface 2d of the bumper absorber 2 toward the vehicle lower side, and has a rectangular cross-sectional shape as viewed from the side of the vehicle. The upper punching portion 21a is located in the bumper absorber 2 directly above (directly above) the groove portion 2a in the vehicle vertical direction, and is provided over the entire vehicle width direction.
下えぐり部21bの車両前後方向の長さLbは、溝部2aの車両前後方向の長さLcと同程度であり、車幅方向で略均一に設定されている。この場合、下えぐり部21bの前後長さLbは、8mm程度である。なお、下えぐり部21bの前後長さLbは、溝部2aの前後長さLcよりも短くてもよい。
The length Lb of the lower piercing portion 21b in the vehicle front-rear direction is approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction. In this case, the front and rear length Lb of the lower bore portion 21b is about 8 mm. Note that the front and rear length Lb of the lower bore portion 21b may be shorter than the front and rear length Lc of the groove portion 2a.
下えぐり部21bの車両上下方向の長さ(上下寸法)Hbは、車幅方向で異なる長さに設定されている。本実施形態では、下えぐり部21bの車両上下方向の長さHbは、バンパアブソーバ2の車両前後方向の長さ(厚さ)Axに応じて設定されている。具体的には、バンパアブソーバ2の車両前後方向の長さAxが長い位置ほど、下えぐり部21bの車両上下方向の長さHbが長く設定されている。
The length (vertical dimension) Hb in the vehicle vertical direction of the lower bore portion 21b is set to a different length in the vehicle width direction. In the present embodiment, the length Hb of the lower punching portion 21b in the vehicle vertical direction is set according to the length (thickness) Ax of the bumper absorber 2 in the vehicle front-rear direction. Specifically, the length Hb of the lower piercing portion 21b in the vehicle vertical direction is set to be longer as the position Ax of the bumper absorber 2 in the vehicle front-rear direction is longer.
本実施形態では、図3に示す車幅方向中央側(センター部分等)におけるバンパアブソーバ2の車両前後方向の長さA1が、図4に示す車幅方向端部側(コーナ部分)におけるバンパアブソーバ2の車両前後方向の長さA2よりも長くなっている。この場合、長さA1は65mm程度である。長さA2は40mm程度である。
In the present embodiment, the length A1 in the vehicle longitudinal direction of the bumper absorber 2 at the vehicle width direction center side (center portion or the like) shown in FIG. 3 is the bumper absorber at the vehicle width direction end portion side (corner portion) shown in FIG. 2 is longer than the length A2 in the vehicle front-rear direction. In this case, the length A1 is about 65 mm. The length A2 is about 40 mm.
従って、車幅方向中央側(センター部分等)の下えぐり部21bの車両上下方向の長さHb1を、車幅方向端部側(コーナ部分)の下えぐり部21bの車両上下方向の長さHb2よりも長く設定している。この場合、車幅方向中央側における下えぐり部21bの上下長さHb1は、12mm程度である。また、車幅方向端部側における下えぐり部21bの上下長さHb2は、10mm程度である。つまり、下えぐり部21bが形成する凹状部分の断面積(えぐり量)は、車幅方向端部側よりも車幅方向中央側の方が大きく設定されている。
Accordingly, the vehicle vertical direction length Hb1 of the lower piercing portion 21b in the vehicle width direction center side (center portion or the like) is the vehicle vertical direction length Hb2 of the vehicle width direction end portion (corner portion) lower piercing portion 21b. Longer than set. In this case, the vertical length Hb1 of the lower punching portion 21b on the center side in the vehicle width direction is about 12 mm. Further, the vertical length Hb2 of the lower punching portion 21b on the vehicle width direction end side is about 10 mm. That is, the cross-sectional area (groove amount) of the concave portion formed by the lower bore portion 21b is set to be larger on the vehicle width direction center side than on the vehicle width direction end portion side.
一方、上えぐり部21aが形成する凹状部分の断面積(えぐり量)は、車幅方向各位置において略均一であり、下えぐり部21bが形成する凹状部分の断面積よりも小さく設定されている。すなわち、上えぐり部21aの車両上下方向の長さHaは、車幅方向で略均一であり、車幅方向各位置で下えぐり部21bの車両上下方向の長さHbよりも短く設定されている。この場合、上えぐり部21aの上下長さHaは、4mm程度である。なお、車幅方向各位置における下えぐり部21bの凹状部分の断面積と上えぐり部21aの凹状部分の断面積との和は、車幅方向端部側よりも車幅方向中央側の方が大きくなる。
On the other hand, the cross-sectional area (groove amount) of the concave portion formed by the upper punching portion 21a is substantially uniform at each position in the vehicle width direction, and is set smaller than the cross-sectional area of the concave portion formed by the lower punching portion 21b. . That is, the length Ha of the upper punching portion 21a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 21b in the vehicle vertical direction at each position in the vehicle width direction. . In this case, the vertical length Ha of the upper bore portion 21a is about 4 mm. The sum of the cross-sectional area of the concave portion of the lower bore portion 21b and the cross-sectional area of the concave portion of the upper bore portion 21a at each position in the vehicle width direction is greater in the vehicle width direction center side than in the vehicle width direction end side. growing.
また、上えぐり部21aの車両前後方向の長さLaは、溝部2aの車両前後方向の長さLcと同程度であり、車幅方向で略均一に設定されている。この場合、上えぐり部21aの前後長さLaは、8mm程度である。なお、上えぐり部21aの前後長さLaは、溝部2aの前後長さLcよりも短くてもよい。
Further, the length La of the upper punching portion 21a in the vehicle front-rear direction is substantially the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction. In this case, the front and rear length La of the upper bore portion 21a is about 8 mm. It should be noted that the front and rear length La of the upper bore portion 21a may be shorter than the front and rear length Lc of the groove portion 2a.
検出用チューブ部材3は、内部に中空部3aが形成され、車幅方向に延びているチューブ状部材である。この検出用チューブ部材3は、上述したバンパアブソーバ2の溝部2a内に装着され、車両のバンパ7内におけるバンパレインフォースメント9の前面9a(車両前方側)に配設される。検出用チューブ部材3の両端部は、バンパレインフォースメント9の車幅方向左右の外側にて、略コ字状に湾曲して後述する圧力センサ4に接続される。
The detection tube member 3 is a tube-shaped member having a hollow portion 3a formed therein and extending in the vehicle width direction. This detection tube member 3 is mounted in the groove 2a of the bumper absorber 2 described above, and is disposed on the front surface 9a (vehicle front side) of the bumper reinforcement 9 in the bumper 7 of the vehicle. Both ends of the detection tube member 3 are curved in a substantially U shape and connected to a pressure sensor 4 to be described later on the left and right outer sides of the bumper reinforcement 9 in the vehicle width direction.
この検出用チューブ部材3は、図5にも示すように、円形の断面形状を有し、合成ゴム、例えばシリコーンゴムからなる。また、検出用チューブ部材3の外径Dは、例えば8mm程度であるとする。検出用チューブ部材3の周壁の肉厚tは、例えば2mm程度である。なお、検出用チューブ部材3の断面形状は、円形に限られず、四角形等の多角形であってもよい。また、検出用チューブ部材3の材質としては、他にもエチレンプロピレンゴム(EPDM)等でもよい。
As shown in FIG. 5, the detection tube member 3 has a circular cross-sectional shape and is made of a synthetic rubber such as silicone rubber. Further, the outer diameter D of the detection tube member 3 is about 8 mm, for example. The wall thickness t of the peripheral wall of the detection tube member 3 is, for example, about 2 mm. The cross-sectional shape of the detection tube member 3 is not limited to a circle, but may be a polygon such as a quadrangle. In addition, the material of the tube member 3 for detection may be ethylene propylene rubber (EPDM) or the like.
圧力センサ4は、バンパレインフォースメント9の前面9aよりも車両後方側に配置される。具体的には、圧力センサ4は、バンパレインフォースメント9の左右両端部側の後面9bに2つ設置され、ボルト(図示しない)を締結することにより固定されて取り付けられる。本実施形態では、このように圧力センサ4を2つ設置することにより、冗長性及び検出精度を確保している。
The pressure sensor 4 is disposed on the vehicle rear side with respect to the front surface 9a of the bumper reinforcement 9. Specifically, two pressure sensors 4 are installed on the rear surface 9b of the left and right ends of the bumper reinforcement 9, and are fixedly attached by fastening bolts (not shown). In this embodiment, redundancy and detection accuracy are ensured by installing two pressure sensors 4 in this way.
この圧力センサ4は、図2に示すように、検出用チューブ部材3の左右両端部に接続され、検出用チューブ部材3の中空部3a内の圧力を検出するように構成されている。具体的には、圧力センサ4は、気体の圧力変化を検出するセンサ装置であり、検出用チューブ部材3の中空部3a内の空気の圧力変化を検出する。圧力センサ4は、図1に示すように、伝送線を介して衝突検知ECU(Electronic Control Unit)6に電気的に接続され、圧力に比例した信号を衝突検知ECU6へ出力する。衝突検知ECU6は、圧力センサ4による圧力検出結果に基づいて、バンパ7への歩行者の衝突を検知する。また、衝突検知ECU6は、歩行者保護装置10に電気的に接続されている。
As shown in FIG. 2, the pressure sensor 4 is connected to both left and right ends of the detection tube member 3, and is configured to detect the pressure in the hollow portion 3a of the detection tube member 3. Specifically, the pressure sensor 4 is a sensor device that detects a change in the pressure of the gas, and detects a change in the pressure of the air in the hollow portion 3 a of the detection tube member 3. As shown in FIG. 1, the pressure sensor 4 is electrically connected to a collision detection ECU (Electronic Control Unit) 6 via a transmission line, and outputs a signal proportional to the pressure to the collision detection ECU 6. The collision detection ECU 6 detects a pedestrian collision with the bumper 7 based on the pressure detection result by the pressure sensor 4. Further, the collision detection ECU 6 is electrically connected to the pedestrian protection device 10.
速度センサ5は、車両の速度を検出するセンサ装置であり、衝突検知ECU6に信号線を介して電気的に接続されている。この速度センサ5は、車両速度に比例した信号を衝突検知ECU6へ送信する。
The speed sensor 5 is a sensor device that detects the speed of the vehicle, and is electrically connected to the collision detection ECU 6 via a signal line. The speed sensor 5 transmits a signal proportional to the vehicle speed to the collision detection ECU 6.
衝突検知ECU6は、CPUを主体として構成され、車両用衝突検知装置1の動作全般を制御するものであり、圧力センサ4、速度センサ5、歩行者保護装置10のそれぞれに電気的に接続されている(図1参照)。衝突検知ECU6には、圧力センサ4からの圧力信号(圧力データ)、速度センサ5からの速度信号(速度データ)等が入力される。衝突検知ECU6は、圧力センサ4による圧力検出結果(入力信号)及び速度センサ5による速度検出結果(入力信号)に基づいて、所定の衝突判定処理を実行し、バンパ7への歩行者等の物体の衝突を検知した場合には歩行者保護装置10を作動させる。
The collision detection ECU 6 is composed mainly of a CPU and controls the overall operation of the vehicle collision detection apparatus 1, and is electrically connected to each of the pressure sensor 4, the speed sensor 5, and the pedestrian protection apparatus 10. (See FIG. 1). The collision detection ECU 6 receives a pressure signal (pressure data) from the pressure sensor 4, a speed signal (speed data) from the speed sensor 5, and the like. The collision detection ECU 6 executes a predetermined collision determination process based on the pressure detection result (input signal) by the pressure sensor 4 and the speed detection result (input signal) by the speed sensor 5, and an object such as a pedestrian to the bumper 7 When a collision is detected, the pedestrian protection device 10 is activated.
バンパ7は、車両の衝突時における衝撃を和らげるためのものであり、バンパカバー8、バンパアブソーバ2、バンパレインフォースメント9等から構成される。バンパカバー8は、バンパ7の構成部品を覆うように設けられ、ポリプロピレン等の樹脂製の部材である。このバンパカバー8は、バンパ7の外観を構成すると同時に、車両全体の外観の一部を構成するものとなっている。
The bumper 7 is for reducing an impact at the time of a vehicle collision, and includes a bumper cover 8, a bumper absorber 2, a bumper reinforcement 9, and the like. The bumper cover 8 is provided so as to cover the components of the bumper 7 and is a resin member such as polypropylene. The bumper cover 8 constitutes the appearance of the bumper 7 and at the same time constitutes a part of the appearance of the entire vehicle.
バンパレインフォースメント9は、バンパカバー8内に配設されて車幅方向に延びるアルミニウム等の金属製の剛性部材であって、図3及び図4に示すように、内部中央に梁が設けられた中空部材である。また、バンパレインフォースメント9は、車両前方側の面である前面9aと、車両後方側の面後面9bとを有している。このバンパレインフォースメント9は、図1及び図2に示すように、車両前後方向に延びる一対の金属製部材であるサイドメンバ11の前端に取り付けられる。
The bumper reinforcement 9 is a rigid member made of metal such as aluminum which is disposed in the bumper cover 8 and extends in the vehicle width direction. As shown in FIGS. 3 and 4, a beam is provided in the center of the interior. Hollow member. The bumper reinforcement 9 has a front surface 9a which is a surface on the front side of the vehicle and a rear surface 9b on the rear side of the vehicle. As shown in FIGS. 1 and 2, the bumper reinforcement 9 is attached to the front end of a side member 11 that is a pair of metal members extending in the vehicle front-rear direction.
通常、車両の衝突事故においては、車両の進行方向(車両前方)に存在する歩行者や車両と衝突する場合が多い。このため、本実施形態では、圧力センサ4をバンパレインフォースメント9の後面9bに配置して、車両前方の歩行者や車両との衝突に伴う衝撃(外力)が、車両前方に設けられたバンパカバー8等から圧力センサ4に直接伝わることをバンパレインフォースメント9の存在によって保護している。
Usually, in a vehicle collision accident, there are many cases where the vehicle collides with a pedestrian or a vehicle existing in the traveling direction of the vehicle (front of the vehicle). For this reason, in the present embodiment, the pressure sensor 4 is disposed on the rear surface 9b of the bumper reinforcement 9, and an impact (external force) due to a collision with a pedestrian or vehicle in front of the vehicle is provided in the bumper provided in front of the vehicle. The direct transmission from the cover 8 or the like to the pressure sensor 4 is protected by the presence of the bumper reinforcement 9.
なお、図示しないが、バンパアブソーバ2の後面2bに設けられた嵌合凸部が、バンパレインフォースメント9の前面9aに設けられた嵌合凹部に嵌め合わされることにより、バンパアブソーバ2のバンパレインフォースメント9への組付けが行われるものとする。
Although not shown, the fitting convex portion provided on the rear surface 2b of the bumper absorber 2 is fitted into the fitting concave portion provided on the front surface 9a of the bumper reinforcement 9, whereby the bumper rain of the bumper absorber 2 is provided. Assume that the assembly to the force 9 is performed.
歩行者保護装置10としては、例えばポップアップフードを用いる。このポップアップフードは、車両の衝突検知後瞬時に、エンジンフードの後端を上昇させ、歩行者とエンジン等の硬い部品との間隔(クリアランス)を増加させ、そのスペースを用いて歩行者の頭部への衝突エネルギーを吸収し、歩行者の頭部への衝撃を低減させるものである。なお、ポップアップフードの代わりに、車体外部のエンジンフード上からフロントウインド下部にかけてエアバッグを展開させて歩行者の衝撃を緩衝するカウルエアバッグ等を用いてもよい。
For example, a pop-up hood is used as the pedestrian protection device 10. This pop-up hood instantly raises the rear end of the engine hood after a vehicle collision is detected, increases the clearance (clearance) between the pedestrian and hard parts such as the engine, and uses that space to make the pedestrian's head The impact energy on the pedestrian is absorbed and the impact on the pedestrian's head is reduced. Instead of the pop-up hood, a cowl airbag or the like that cushions a pedestrian's impact by deploying the airbag from the engine hood outside the vehicle body to the lower part of the front window may be used.
次に、本実施形態における車両用衝突検知装置1の衝突時の動作について説明する。車両前方に歩行者等の物体が衝突した際には、バンパ7のバンパカバー8が歩行者との衝突による衝撃により変形する。続いて、バンパアブソーバ2が衝撃を吸収しながら変形すると同時に、検出用チューブ部材3も変形する。このとき、検出用チューブ部材3の中空部3a内の圧力が急上昇し、この圧力変化が圧力センサ4に伝達する。
Next, the operation at the time of collision of the vehicle collision detection apparatus 1 in the present embodiment will be described. When an object such as a pedestrian collides with the front of the vehicle, the bumper cover 8 of the bumper 7 is deformed by an impact caused by the collision with the pedestrian. Subsequently, the bumper absorber 2 is deformed while absorbing the impact, and at the same time, the detection tube member 3 is also deformed. At this time, the pressure in the hollow portion 3 a of the detection tube member 3 rises rapidly, and this pressure change is transmitted to the pressure sensor 4.
また、車両の歩行者等との衝突に伴う衝撃(外力)は、剛性部材であるバンパレインフォースメント9によって受け止められる。本実施形態では、バンパアブソーバ2の後面2bにおける車両下方側に下えぐり部21bが車幅方向に沿って設けられ、且つバンパアブソーバ2の後面2bにおける車両上方側に上えぐり部21aが車幅方向に沿って設けられている。このため、バンパアブソーバ2の後面2bとバンパレインフォースメント9の前面9aとの接触面積を小さくさせて、衝突時に加わる外力の単位面積当たりの力の大きさを、下えぐり部21b及び上えぐり部21aがない場合よりも大きくさせることができる。従って、衝突に伴う衝撃(外力)を検出用チューブ部材3へ効果的に伝達させて、検出用チューブ部材3を確実に変形させる(潰れさせる)ことが可能である。これにより、圧力センサ4による中空部3a内の圧力検出の出力を充分に発生させることができ、衝突検知をより正確に行うことを可能としている。
Moreover, the impact (external force) accompanying the collision with the pedestrian or the like of the vehicle is received by the bumper reinforcement 9 which is a rigid member. In the present embodiment, a lower punching portion 21b is provided along the vehicle width direction on the vehicle lower side of the rear surface 2b of the bumper absorber 2, and the upper punching portion 21a is provided on the vehicle upper side of the rear surface 2b of the bumper absorber 2 in the vehicle width direction. It is provided along. For this reason, the contact area between the rear surface 2b of the bumper absorber 2 and the front surface 9a of the bumper reinforcement 9 is reduced, and the magnitude of the force per unit area of the external force applied at the time of collision is reduced. It can be made larger than the case without 21a. Therefore, it is possible to effectively transmit the impact (external force) associated with the collision to the detection tube member 3 and to reliably deform (crush) the detection tube member 3. Thereby, the output of the pressure detection in the hollow part 3a by the pressure sensor 4 can fully be generated, and the collision detection can be performed more accurately.
特に、本実施形態では、バンパアブソーバ2の車両前後方向の長さAxに応じて、下えぐり部21bの車両上下方向の長さHb(上下寸法)が設定されており、車幅方向で異なる長さに設定されている。具体的には、下えぐり部21bの車両上下方向の長さHbは、バンパアブソーバ2の車両前後方向の長さA2が短い車幅方向位置(車幅方向端部側)よりもバンパアブソーバ2の車両前後方向の長さA1が長い車幅方向位置(車幅方向中央側)の方が、その長さHbが長くなっている。
In particular, in the present embodiment, the length Hb (vertical dimension) of the lower punching portion 21b in the vehicle vertical direction is set according to the length Ax of the bumper absorber 2 in the vehicle longitudinal direction, and the length varies in the vehicle width direction. Is set. Specifically, the length Hb of the lower piercing portion 21b in the vehicle vertical direction is such that the length A2 of the bumper absorber 2 in the vehicle front-rear direction is shorter than the vehicle width direction position (end in the vehicle width direction) of the bumper absorber 2. The length Hb is longer in the vehicle width direction position (vehicle width direction center side) where the length A1 in the vehicle front-rear direction is longer.
ここで、上えぐり部21a及び下えぐり部21bの上下寸法の和Ha+Hbと、圧力センサ4による圧力検出値との間には、図6に示すように比例関係がある。すなわち、上えぐり部21a及び下えぐり部21bの上下寸法の和Ha+Hbが大きいほど、圧力センサ4による圧力検出値が大きくなる。一方、バンパ7における車幅方向中央側(センター部分)では、バンパアブソーバ2の前後長さAx(厚さ)が厚くなっているので、衝突時における検出用チューブ部材3の変形量が小さくなることが想定される。
Here, there is a proportional relationship between the sum Ha + Hb of the upper and lower dimensions of the upper bore portion 21a and the lower bore portion 21b and the pressure detection value by the pressure sensor 4, as shown in FIG. That is, the pressure detection value by the pressure sensor 4 increases as the sum Ha + Hb of the upper and lower portions 21a and 21b increases. On the other hand, since the front-rear length Ax (thickness) of the bumper absorber 2 is thicker in the vehicle width direction center side (center portion) of the bumper 7, the deformation amount of the detection tube member 3 at the time of collision is reduced. Is assumed.
本実施形態では、バンパアブソーバ2における車幅方向中央側(センター部分)の上えぐり部21a及び下えぐり部21bの上下寸法の和Ha+Hb1(=16mm)を、バンパアブソーバ2における車幅方向端部側(コーナ部分)の上えぐり部21a及び下えぐり部21bの上下寸法の和Ha+Hb2(=14mm)よりも大きくすることで、バンパ7の車幅方向中央側(センター部分)における圧力センサ4の出力が大きくなるようにしている。これにより、車幅方向全体に亘って圧力センサ4の出力が充分に発生するようにしている。
In the present embodiment, the sum Ha + Hb1 (= 16 mm) of the upper and lower dimensions 21a and 21b in the vehicle width direction center side (center portion) of the bumper absorber 2 is set to the vehicle width direction end portion side of the bumper absorber 2. The output of the pressure sensor 4 at the center side (center portion) in the vehicle width direction of the bumper 7 is increased by making it larger than the sum Ha + Hb2 (= 14 mm) of the upper and lower dimensions of the upper bore portion 21a and the lower bore portion 21b. I try to get bigger. Thereby, the output of the pressure sensor 4 is sufficiently generated over the entire vehicle width direction.
また、車高の低い車両では、図7に示すように、歩行者との衝突時に、歩行者の脚部がバンパ7にすくわれて上体がエンジンフード上に倒れ込むように衝突することが想定される。この場合、バンパ7上部にて生じる衝撃(外力)が大きくなり、バンパカバー8が上方から下方に向かって大きく変形することが考えられる。本実施形態では、溝部2aがバンパレインフォースメント9の車両上下方向中心位置Cよりも上方側に配設されると共に、バンパアブソーバ2の下面2cに下えぐり部21bが車幅方向全体に亘って設けられている構成となっている。このため、バンパアブソーバ2における車両上方側に、歩行者の脚部がバンパ7にすくわれて上体がエンジンフード上に倒れ込むように衝突した際に、この歩行者の倒れ込みに伴うバンパ7上部からの外力が、検出用チューブ部材3に対して効果的に伝達されるようになっている。
Further, in a vehicle with a low vehicle height, as shown in FIG. 7, it is assumed that when a pedestrian collides, the legs of the pedestrian are scooped by the bumper 7 so that the upper body falls over the engine hood. Is done. In this case, it is conceivable that the impact (external force) generated at the upper part of the bumper 7 is increased and the bumper cover 8 is greatly deformed from the upper side to the lower side. In the present embodiment, the groove 2a is disposed on the upper side of the vehicle vertical direction center position C of the bumper reinforcement 9, and the lower punching portion 21b extends over the entire vehicle width direction on the lower surface 2c of the bumper absorber 2. It is the provided configuration. For this reason, when the pedestrian's legs are scooped by the bumper 7 and collide so that the upper body falls on the engine hood on the upper side of the vehicle in the bumper absorber 2, the bumper 7 falls from above the bumper 7. This external force is effectively transmitted to the tube member 3 for detection.
車両用衝突検知装置1の衝突検知ECU6は、圧力センサ4及び速度センサ5の検知結果に基づいて、所定の衝突判定処理を実行する。この衝突判定処理では、具体的には、圧力センサ4及び速度センサ5の検出結果に基づいて、衝突物の有効質量を算出し、この有効質量が所定の閾値より大きい場合、歩行者との衝突が発生したものと判定する。更に、車両速度が所定の範囲(例えば時速25km~55kmの範囲)内である場合に、歩行者保護装置10の作動を要する歩行者との衝突が発生したものと判定する。
The collision detection ECU 6 of the vehicle collision detection device 1 executes a predetermined collision determination process based on the detection results of the pressure sensor 4 and the speed sensor 5. In this collision determination process, specifically, the effective mass of the collision object is calculated based on the detection results of the pressure sensor 4 and the speed sensor 5, and when this effective mass is larger than a predetermined threshold, the collision with the pedestrian Is determined to have occurred. Furthermore, when the vehicle speed is within a predetermined range (for example, a range of 25 km to 55 km / h), it is determined that a collision with a pedestrian that requires operation of the pedestrian protection device 10 has occurred.
ここで、「有効質量」とは、衝突時における圧力センサ4の検出値より、運動量と力積の関係を利用して算出する質量をいう。車両と物体との衝突が発生した場合、歩行者(ON要件対象物)とは質量の異なるロードサイドマーカ等の衝突物(OFF要件対象物)では、検知される圧力センサ4の値が異なる(図7、図8参照)。このため、人体の有効質量と、想定される他の衝突物の質量との間に閾値を設定することにより、衝突物の種類を切り分けることが可能となる。この有効質量は、次式に示すように、圧力センサ4により検出される圧力の値の所定時間における定積分値を、速度センサ5により検出される車両速度で割ることにより算出される。
Here, the “effective mass” refers to a mass calculated using the relationship between momentum and impulse from the detection value of the pressure sensor 4 at the time of collision. When a collision between a vehicle and an object occurs, the value of the detected pressure sensor 4 is different for a collision object (OFF requirement object) such as a roadside marker having a mass different from that of a pedestrian (ON requirement object) (see FIG. 7, see FIG. For this reason, by setting a threshold value between the effective mass of the human body and the mass of another assumed collision object, it is possible to classify the types of the collision object. This effective mass is calculated by dividing the constant integral value of the pressure value detected by the pressure sensor 4 at a predetermined time by the vehicle speed detected by the speed sensor 5 as shown in the following equation.
M=(∫P(t)dt)/V・・・(式1)
なお、Mは有効質量、Pは所定時間における圧力センサ4による検出値、tは所定時間(例えば、数ms~数十ms)、Vは衝突時の車両速度を示している。有効質量を算出する方法には、他にも、衝突した物体の運動エネルギーEを表す式E=1/2・MV2を用いて算出することが可能である。この場合、有効質量は、M=2・E/V2により算出される。 M = (∫P (t) dt) / V (Expression 1)
M is an effective mass, P is a value detected by thepressure sensor 4 at a predetermined time, t is a predetermined time (for example, several ms to several tens of ms), and V is a vehicle speed at the time of collision. As another method for calculating the effective mass, it is possible to calculate using an equation E = 1/2 · MV 2 representing the kinetic energy E of the collided object. In this case, the effective mass is calculated by M = 2 · E / V 2 .
なお、Mは有効質量、Pは所定時間における圧力センサ4による検出値、tは所定時間(例えば、数ms~数十ms)、Vは衝突時の車両速度を示している。有効質量を算出する方法には、他にも、衝突した物体の運動エネルギーEを表す式E=1/2・MV2を用いて算出することが可能である。この場合、有効質量は、M=2・E/V2により算出される。 M = (∫P (t) dt) / V (Expression 1)
M is an effective mass, P is a value detected by the
そして、衝突検知ECU6は、歩行者保護装置10の作動を要する歩行者との衝突が発生したと判定した場合、歩行者保護装置10を作動させる制御信号を出力し、歩行者保護装置10を作動させて、上記したように歩行者への衝撃を低減させる。
When the collision detection ECU 6 determines that a collision has occurred with a pedestrian that requires the pedestrian protection device 10 to operate, the collision detection ECU 6 outputs a control signal for operating the pedestrian protection device 10 to operate the pedestrian protection device 10. Let the impact on the pedestrian be reduced as described above.
以上説明したように、第1の実施形態の車両用衝突検知装置1は、車両のバンパ7内に配設されたバンパアブソーバ2と、バンパアブソーバ2に車幅方向に沿って形成された溝部2aに装着されると共にバンパレインフォースメント9の車両前方側に配設される内部に中空部3aが形成された検出用チューブ部材3と、検出用チューブ部材3の中空部3a内の圧力を検出する圧力センサ4とを有し、圧力センサ4による圧力検出結果に基づいてバンパ7への物体(歩行者)の衝突を検知する。そして、バンパアブソーバ2は、溝部2aの車両上下方向における直下方位置にて当該バンパアブソーバ2の下面2cから車両上方側に向かって凹状にえぐられた形状を有する下えぐり部21bを備えたことを特徴とする。
As described above, the vehicle collision detection apparatus 1 according to the first embodiment includes the bumper absorber 2 disposed in the bumper 7 of the vehicle, and the groove 2a formed in the bumper absorber 2 along the vehicle width direction. And detecting the pressure in the hollow portion 3a of the detection tube member 3 and the detection tube member 3 in which the hollow portion 3a is formed inside the bumper reinforcement 9 disposed on the front side of the vehicle. A pressure sensor 4 and detects a collision of an object (pedestrian) with the bumper 7 based on a pressure detection result by the pressure sensor 4. The bumper absorber 2 includes a lower bore 21b having a shape that is recessed from the lower surface 2c of the bumper absorber 2 toward the vehicle upper side at a position directly below the groove 2a in the vehicle vertical direction. Features.
この構成によれば、バンパアブソーバ2において溝部2aの車両上下方向における直下方位置に、当該バンパアブソーバ2の下面2cから車両上方側に向かって凹状にえぐられた形状を有する下えぐり部21bが設けられているので、衝突時に加わる外力の単位面積当たりの力の大きさを、下えぐり部21bがない場合よりも大きくさせることができる。従って、衝突に伴う外力を検出用チューブ部材3へ効果的に伝達させて、検出用チューブ部材3を確実に変形させる(潰れさせる)ことができる。特に、歩行者の脚部がバンパ7にすくわれて上体がエンジンフード上に倒れ込むように衝突した際に、この倒れ込みに伴って車両上方側から加わる外力を検出用チューブ部材3に対してより効果的に伝達させることができる。これにより、検出用チューブ部材3の中空部3a内の圧力変化が圧力センサ4によって確実に検知されるので、歩行者の倒れ込みを確実に検知することができ、車両用衝突検知装置1の衝突検知精度を向上させることができる。
According to this configuration, in the bumper absorber 2, the lower bore portion 21 b having a concave shape from the lower surface 2 c of the bumper absorber 2 toward the vehicle upper side is provided at a position immediately below the groove portion 2 a in the vehicle vertical direction. Therefore, the magnitude of the force per unit area of the external force applied at the time of the collision can be increased as compared with the case where there is no lower bore portion 21b. Therefore, the external force accompanying the collision can be effectively transmitted to the detection tube member 3, and the detection tube member 3 can be reliably deformed (collapsed). In particular, when the pedestrian's legs are scooped by the bumper 7 and the upper body collides so as to fall on the engine hood, the external force applied from the upper side of the vehicle accompanying the fall is more applied to the detection tube member 3. It can be transmitted effectively. Thereby, since the pressure change in the hollow part 3a of the tube member 3 for detection is reliably detected by the pressure sensor 4, the fall of a pedestrian can be detected reliably, and the collision detection of the vehicle collision detection apparatus 1 is detected. Accuracy can be improved.
また、下えぐり部21bは、バンパアブソーバ2の車幅方向全体に亘って設けられることを特徴とする。この構成によれば、下えぐり部21bがバンパアブソーバ2の車幅方向全体に亘って設けられているので、バンパ7の車幅方向全体に亘って圧力センサ4の出力を大きくさせることができる。
Further, the lower punching portion 21 b is provided over the entire vehicle width direction of the bumper absorber 2. According to this configuration, since the lower punching portion 21 b is provided over the entire vehicle width direction of the bumper absorber 2, the output of the pressure sensor 4 can be increased over the entire vehicle width direction of the bumper 7.
また、バンパアブソーバ2は、溝部2aの車両直上方位置にて当該バンパアブソーバ2の上面2dから車両下方側に向かって凹状にえぐられた形状を有する上えぐり部21aを更に備えたことを特徴とする。
Further, the bumper absorber 2 further includes an upper counterbore portion 21a having a shape that is recessed from the upper surface 2d of the bumper absorber 2 toward the vehicle lower side at a position directly above the vehicle in the groove portion 2a. To do.
この構成によれば、下えぐり部21bに加えて、バンパアブソーバ2の溝部2aの車両直上方位置に、バンパアブソーバ2の上面2dから車両上方側に向かって凹状にえぐられた形状を有する上えぐり部21aが設けられているので、衝突時に加わる外力の単位面積当たりの力の大きさを更に大きくさせることができる。これにより、衝突に伴う外力を検出用チューブ部材3へより効果的に伝達させることができるので、歩行者の倒れ込みをより確実に検知することができる。
According to this configuration, in addition to the lower bore portion 21b, the upper bore has a shape that is concavely recessed toward the vehicle upper side from the upper surface 2d of the bumper absorber 2 at a position directly above the vehicle in the groove portion 2a of the bumper absorber 2. Since the portion 21a is provided, the magnitude of the force per unit area of the external force applied at the time of the collision can be further increased. Thereby, since the external force accompanying a collision can be more effectively transmitted to the tube member 3 for a detection, a pedestrian's fall can be detected more reliably.
また、上えぐり部21aは、バンパアブソーバ2の車幅方向全体に亘って設けられることを特徴とする。この構成によれば、バンパアブソーバ2の車幅方向全体に亘って上えぐり部21aが形成されているので、車幅方向全体に亘って圧力センサ4による圧力検出の出力を更に大きくさせることができる。
Further, the upper punching portion 21 a is provided over the entire vehicle width direction of the bumper absorber 2. According to this configuration, since the upper counterbore 21a is formed over the entire vehicle width direction of the bumper absorber 2, the pressure detection output by the pressure sensor 4 can be further increased over the entire vehicle width direction. .
また、車幅方向各位置において、下えぐり部21bが形成する凹状部分の断面積(えぐり量)は、上えぐり部21aが形成する凹状部分の断面積よりも大きいことを特徴とする。この構成によれば、下えぐり部21bが形成する凹状部分の断面積(えぐり量)を上えぐり部21aのえぐり量よりも大きくすることで、バンパ7の車両上下方向における下方側において衝突が発生するOFF要件対象物(ロードサイドマーカ等)との衝突(図8参照)と、歩行者の倒れ込みに伴ってバンパ7の車両上方側から加わる外力が大きくなるON要件対象物(歩行者等)との衝突(図7参照)とを的確に判別することができる。すなわち、OFF要件対象物(ロードサイドマーカ等)との衝突の場合に比べ、歩行者の倒れ込みを伴うON要件対象物(歩行者等)との衝突の場合の方が、衝突に伴う外力が検出用チューブ部材3へより確実に伝達されるようにできる。
Further, at each position in the vehicle width direction, the cross-sectional area (groove amount) of the concave portion formed by the lower piercing portion 21b is larger than the cross-sectional area of the concave portion formed by the upper piercing portion 21a. According to this configuration, the collision occurs on the lower side of the bumper 7 in the vertical direction of the vehicle by making the cross-sectional area (the amount of punching) of the concave portion formed by the lower punching portion 21b larger than the amount of the top punching portion 21a. ON-off target objects (pedestrians, etc.) that increase the external force applied from the vehicle upper side of the bumper 7 as the pedestrian falls (see FIG. 8) and the collision with the off-requirement target objects (road side markers, etc.) The collision (see FIG. 7) can be accurately determined. That is, the external force associated with a collision is detected more in the case of a collision with an ON requirement object (such as a pedestrian) that involves the fall of a pedestrian than in the case of a collision with an OFF requirement object (such as a roadside marker). It can be transmitted more reliably to the tube member 3.
また、下えぐり部21bが形成する凹状部分の断面積は、車幅方向にて異なるものであり、バンパアブソーバ2の車両前後方向の長さAxが長い位置ほど、当該下えぐり部21bの凹状部分の断面積が大きくなるように設定されることを特徴とする。
Further, the cross-sectional area of the concave portion formed by the lower bore portion 21b is different in the vehicle width direction, and the concave portion of the lower bore portion 21b becomes longer as the length Ax of the bumper absorber 2 in the vehicle front-rear direction is longer. The cross-sectional area is set to be large.
この構成によれば、バンパアブソーバ2における車幅方向中央側(センター部分)の下えぐり部21bの凹状部分の断面積(えぐり量)を、バンパアブソーバ2における車幅方向端部側(コーナ部分)の下えぐり部21bの凹状部分の断面積よりも大きくすることで、車幅方向全体に亘って圧力センサ4の出力を充分に発生させることができる。すなわち、バンパアブソーバ2の前後長さAx(厚さ)が長く(厚く)なると、所定の負荷荷重に対する検出用チューブ部材3の変形量が小さくなり、圧力センサ4の出力が小さくなる。これを考慮して、バンパアブソーバ2の前後長さAxが長い位置における下えぐり部21bの凹状部分の断面積(えぐり量)を大きくさせて、この部分の圧力センサ4の出力を向上させることができる。
According to this configuration, the cross-sectional area (groove amount) of the concave portion of the lower punching portion 21b in the vehicle width direction center side (center portion) of the bumper absorber 2 is defined as the vehicle width direction end portion side (corner portion) of the bumper absorber 2. By making it larger than the cross-sectional area of the concave portion of the lower bore portion 21b, the output of the pressure sensor 4 can be sufficiently generated over the entire vehicle width direction. That is, when the longitudinal length Ax (thickness) of the bumper absorber 2 is increased (thick), the deformation amount of the detection tube member 3 with respect to a predetermined load is reduced, and the output of the pressure sensor 4 is reduced. Taking this into consideration, the output of the pressure sensor 4 at this portion can be improved by increasing the cross-sectional area (the amount of punching) of the concave portion of the lower punching portion 21b at the position where the longitudinal length Ax of the bumper absorber 2 is long. it can.
また、車幅方向各位置における下えぐり部21bの凹状部分の断面積と上えぐり部21aの凹状部分の断面積との和は、車幅方向にて異なることを特徴とする。この構成によれば、上・下えぐり部21a,21bの凹状部分の断面積(えぐり量)を車幅方向位置で適宜変更することで、車幅方向位置での圧力センサ4の出力のばらつきを小さくすることが可能である。
Further, the sum of the cross-sectional area of the concave portion of the lower bore portion 21b and the cross-sectional area of the concave portion of the upper bore portion 21a at each position in the vehicle width direction is different in the vehicle width direction. According to this configuration, the variation in the output of the pressure sensor 4 at the vehicle width direction position can be changed by appropriately changing the cross-sectional area (the amount of the bore) of the concave portions of the upper and lower bore portions 21a and 21b at the vehicle width direction position. It can be made smaller.
また、下えぐり部21bの車両前後方向の長さLb及び上えぐり部21aの車両前後方向の長さLaは、溝部2aの車両前後方向の長さLcと同程度であることを特徴とする。この構成によれば、下えぐり部21bの車両前後方向の長さLb及び上えぐり部21aの車両前後方向の長さLaを、溝部2aの車両前後方向の長さLcと同程度とすることで、溝部2aに装着された検出用チューブ部材3へ加わる外力の単位面積当たりの力の大きさを確実に大きくさせることができる。
Further, the length Lb of the lower punching portion 21b in the vehicle front-rear direction and the length La of the upper punching portion 21a in the vehicle front-rear direction are approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction. According to this configuration, the length Lb of the lower piercing portion 21b in the vehicle front-rear direction and the length La of the upper piercing portion 21a in the vehicle front-rear direction are approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction. The magnitude of the force per unit area of the external force applied to the detection tube member 3 mounted in the groove 2a can be reliably increased.
また、下えぐり部21b及び上えぐり部21aは、車両側方から見た断面形状が矩形形状であることを特徴とする。この構成によれば、下えぐり部21b及び上えぐり部21aの断面形状が矩形形状であるので、当該下えぐり部21b及び上えぐり部21aのえぐり量を容易に調節することができる。
Further, the lower bore 21b and the upper bore 21a are characterized in that the cross-sectional shape viewed from the side of the vehicle is a rectangular shape. According to this configuration, since the cross-sectional shapes of the lower bore portion 21b and the upper bore portion 21a are rectangular, the amount of the bores of the lower bore portion 21b and the upper bore portion 21a can be easily adjusted.
また、下えぐり部21bの車両上下方向の長さHbは、上えぐり部21aの車両上下方向の長さHaよりも長いことを特徴とする。この構成によれば、下えぐり部21bの車両上下方向の長さHbを上えぐり部21aの車両上下方向の長さHaよりも長くすることで、OFF要件対象物(ロードサイドマーカ等)との衝突の場合に比べ、歩行者の倒れ込みを伴うON要件対象物(歩行者等)との衝突の場合の方が、衝突に伴う外力が検出用チューブ部材3へ伝達され易くすることができる。
Further, the length Hb of the lower piercing portion 21b in the vertical direction of the vehicle is longer than the length Ha of the upper piercing portion 21a in the vertical direction of the vehicle. According to this configuration, the length Hb of the lower piercing portion 21b in the vertical direction of the vehicle is made longer than the length Ha of the upper piercing portion 21a in the vertical direction of the vehicle, thereby colliding with the OFF requirement target object (roadside marker or the like). Compared to the case, the external force accompanying the collision can be more easily transmitted to the detection tube member 3 in the case of a collision with an ON-required object (such as a pedestrian) that causes the pedestrian to fall.
また、下えぐり部21bの車両上下方向の長さHbは、車幅方向にて異なるものであり、バンパアブソーバ2の車両前後方向の長さAx(厚さ)が長い(厚い)位置ほど長く設定される。具体的には、下えぐり部21bの車両上下方向の長さHbは、車幅方向端部側よりも車幅方向中央側の方が長くなっていることを特徴とする。
The length Hb of the lower piercing portion 21b in the vertical direction of the vehicle is different in the vehicle width direction, and the length Ax (thickness) of the bumper absorber 2 in the longitudinal direction of the vehicle is set longer as the position becomes thicker. Is done. Specifically, the length Hb of the lower piercing portion 21b in the vehicle vertical direction is characterized in that the vehicle width direction center side is longer than the vehicle width direction end portion side.
この構成によれば、バンパアブソーバ2における車幅方向中央側(センター部分)の下えぐり部21bの上下寸法Hb1を、バンパアブソーバ2における車幅方向端部側(コーナ部分)の下えぐり部21bの上下寸法Hb2よりも大きくすることで、車幅方向全体に亘って圧力センサ4の出力を充分に発生させることができる。すなわち、バンパアブソーバ2の前後長さAxが長くなると、衝突時における検出用チューブ部材3の変形量が小さくなることを考慮して、バンパアブソーバ2の前後長さAxが長い車幅方向中央側の下えぐり部21bの上下長さHb1を大きくすることで、この部分の圧力センサ4の出力を大きくすることができる。
According to this configuration, the vertical dimension Hb1 of the lower recess portion 21b in the vehicle width direction center side (center portion) of the bumper absorber 2 is set to be equal to the lower recess portion 21b of the bumper absorber 2 in the vehicle width direction end portion side (corner portion). By making it larger than the vertical dimension Hb2, the output of the pressure sensor 4 can be sufficiently generated over the entire vehicle width direction. That is, considering that the longitudinal length Ax of the bumper absorber 2 is increased, the deformation amount of the detection tube member 3 at the time of the collision is reduced, so that the longitudinal length Ax of the bumper absorber 2 is longer on the center side in the vehicle width direction. By increasing the vertical length Hb1 of the lower punching portion 21b, the output of the pressure sensor 4 at this portion can be increased.
また、溝部2aは、バンパアブソーバ2の後面2bに設けられていることを特徴とする。この構成によれば、溝部2aに装着される検出用チューブ部材3を、剛性部材であるバンパレインフォースメント9の車両前方側に対向して配置できるので、衝突時に検出用チューブ部材3が車両後方側に撓むことを防止できる。これにより、車幅方向全体に亘って車両用衝突検知装置1の衝突検知性能を確保できる。更に、検出用チューブ部材3のバンパアブソーバ2への組付け作業を容易に行うことができる。
Further, the groove 2 a is provided on the rear surface 2 b of the bumper absorber 2. According to this configuration, the detection tube member 3 mounted in the groove 2a can be disposed to face the vehicle front side of the bumper reinforcement 9 that is a rigid member. It can prevent bending to the side. Thereby, the collision detection performance of the vehicle collision detection device 1 can be ensured over the entire vehicle width direction. Furthermore, the assembly | attachment operation | work to the bumper absorber 2 of the tube member 3 for a detection can be performed easily.
また、溝部2aは、バンパアブソーバ2の車両上下方向における上方側に設けられることを特徴とする。この構成によれば、歩行者の倒れ込みに伴う外力は、バンパアブソーバ2の上部に多く加わるので、溝部2a(検出用チューブ部材3)をバンパアブソーバ2の車両上下方向における上方側に配置することで、バンパアブソーバ2の上方側から加わる外力を検出用チューブ部材3へより確実に伝達させることができる。これにより、車両の歩行者との衝突をより確実に検知することができる。
Further, the groove portion 2a is provided on the upper side of the bumper absorber 2 in the vehicle vertical direction. According to this configuration, a large amount of external force accompanying the fall of the pedestrian is applied to the upper part of the bumper absorber 2, so that the groove 2a (detection tube member 3) is disposed on the upper side of the bumper absorber 2 in the vehicle vertical direction. The external force applied from above the bumper absorber 2 can be transmitted to the tube member 3 for detection more reliably. Thereby, the collision with the pedestrian of a vehicle can be detected more reliably.
また、溝部2aは、バンパレインフォースメント9の車両上下方向中心位置Cよりも上方側に配設されることを特徴とする。この構成によれば、バンパレインフォースメント9の車両上下方向中心位置Cよりも上方側に溝部2aを配置することで、バンパ7の車両上下方向における下方側において衝突が発生するOFF要件対象物(ロードサイドマーカ等)との衝突時に(図8参照)、衝突に伴う外力が検出用チューブ部材3へ伝わり難くすることができ、OFF要件対象物との衝突と、歩行者の倒れ込みを伴うON要件対象物との衝突(図7参照)とをより的確に判別することができる。
Further, the groove 2a is characterized in that it is disposed above the center position C of the bumper reinforcement 9 in the vehicle vertical direction. According to this configuration, by disposing the groove 2a above the vehicle vertical direction center position C of the bumper reinforcement 9, an OFF requirement target object that causes a collision on the lower side of the bumper 7 in the vehicle vertical direction ( It is possible to make it difficult for the external force associated with the collision to be transmitted to the detection tube member 3 at the time of a collision with a roadside marker or the like (see FIG. 8). A collision with an object (see FIG. 7) can be more accurately determined.
また、本実施形態では、圧力センサ4をバンパレインフォースメント9の後面9bの左右両端部側に2つ配設することにより、検出用チューブ部材3における圧力変化を高い精度で検知できるとともに、冗長性を確保できる。すなわち、2つの圧力センサ4の出力を用いて衝突判定を行うことによって、誤検知を防止して正確な衝突検知を行うことができる。
(第2の実施形態)
次に、第2の実施形態について、図9~図11を参照して説明する。なお、図9~図11においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 In the present embodiment, by arranging twopressure sensors 4 on the left and right end portions of the rear surface 9b of the bumper reinforcement 9, it is possible to detect a pressure change in the detection tube member 3 with high accuracy and to provide redundancy. Can be secured. That is, by performing collision determination using the outputs of the two pressure sensors 4, it is possible to prevent erroneous detection and perform accurate collision detection.
(Second Embodiment)
Next, a second embodiment will be described with reference to FIGS. In FIGS. 9 to 11, the same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted. Only different parts will be described.
(第2の実施形態)
次に、第2の実施形態について、図9~図11を参照して説明する。なお、図9~図11においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 In the present embodiment, by arranging two
(Second Embodiment)
Next, a second embodiment will be described with reference to FIGS. In FIGS. 9 to 11, the same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted. Only different parts will be described.
第2の実施形態においては、図9~図11に示すように、検出用チューブ部材3を装着するための溝部2aが、バンパアブソーバ2の内部(後面2bよりも車両前方側)に設けられている。また、下えぐり部22bが溝部2aの車両上下方向における直下方位置(真下)に設けられていると共に、上えぐり部22aが溝部2aの車両上下方向における直上方位置(真上)に設けられている。
In the second embodiment, as shown in FIGS. 9 to 11, a groove 2a for mounting the detection tube member 3 is provided inside the bumper absorber 2 (the vehicle front side relative to the rear surface 2b). Yes. The lower bore 22b is provided at a position directly below the groove 2a in the vertical direction of the vehicle (directly below), and the upper pocket 22a is provided at a position directly above the groove 2a in the vertical direction of the vehicle (directly above). Yes.
この場合、下えぐり部22bは、バンパアブソーバ2の下面2cの車両前後方向における中央側に車幅方向に沿って設けられている。また、上えぐり部22aは、バンパアブソーバ2の上面2dの車両前後方向における中央側に車幅方向に沿って設けられている。下えぐり部22bは、バンパアブソーバ2の下面2cから車両上方側に向かって凹状にえぐられた形状を有し、車両側方から見た断面形状が矩形形状となっている。また、上えぐり部22aは、バンパアブソーバ2の上面2dから車両下方側に向かって凹状にえぐられた形状を有し、車両側方から見た断面形状が矩形形状となっている。
In this case, the lower punching portion 22b is provided along the vehicle width direction on the center side of the lower surface 2c of the bumper absorber 2 in the vehicle front-rear direction. Further, the upper punching portion 22a is provided along the vehicle width direction on the center side of the upper surface 2d of the bumper absorber 2 in the vehicle front-rear direction. The lower bore 22b has a shape that is recessed from the lower surface 2c of the bumper absorber 2 toward the upper side of the vehicle, and has a rectangular cross-sectional shape as viewed from the side of the vehicle. Further, the upper punching portion 22a has a shape that is recessed from the upper surface 2d of the bumper absorber 2 toward the vehicle lower side, and has a rectangular cross-sectional shape as viewed from the side of the vehicle.
図10及び図11に示すように、下えぐり部22bの車両前後方向の長さLbは、溝部2aの車両前後方向の長さLcと同程度であり、車幅方向で略均一に設定されている。また、上えぐり部22aの車両前後方向の長さも、溝部2aの車両前後方向の長さLcと同程度であり、車幅方向で略均一に設定されている。この場合、長さLb、長さLc、及び長さLaは、8mm程度である。
As shown in FIGS. 10 and 11, the length Lb of the lower piercing portion 22b in the vehicle front-rear direction is substantially the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniform in the vehicle width direction. Yes. Further, the length of the upper punching portion 22a in the vehicle front-rear direction is also approximately the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction. In this case, the length Lb, the length Lc, and the length La are about 8 mm.
一方、下えぐり部22bの車両上下方向の長さHb(上下寸法)は、車幅方向で異なるものであり、バンパアブソーバ2の車両前後方向の長さAx(厚さ)に応じて、その長さが設定されている。すなわち、車幅方向中央側(センター部分)の下えぐり部22bの上下寸法Hb1を、車幅方向端部側(コーナ部分)の下えぐり部22bの上下寸法Hb2より大きくしている。このため、下えぐり部22bが形成する凹状部分の断面積(えぐり量)は、車幅方向端部側よりも車幅方向中央側の方が大きくなっている。
On the other hand, the length Hb (vertical dimension) of the lower piercing portion 22b in the vehicle vertical direction is different in the vehicle width direction, and the length depends on the length Ax (thickness) of the bumper absorber 2 in the vehicle front-rear direction. Is set. That is, the vertical dimension Hb1 of the lower recess 22b in the vehicle width direction center side (center portion) is larger than the vertical dimension Hb2 of the lower recess 22b in the vehicle width direction end portion (corner portion). For this reason, the cross-sectional area (groove amount) of the concave portion formed by the lower bore portion 22b is larger on the vehicle width direction center side than on the vehicle width direction end portion side.
一方、上えぐり部22aが形成する凹状部分の断面積(えぐり量)は、車幅方向各位置において略均一であり、下えぐり部22bが形成する凹状部分の断面積よりも小さく設定されている。すなわち、上えぐり部22aの車両上下方向の長さHaは、車幅方向で略均一であり、車幅方向各位置で下えぐり部22bの車両上下方向の長さHbよりも短く設定されている。この場合、上えぐり部22aの上下長さHaは、4mm程度である。
On the other hand, the cross-sectional area (groove amount) of the concave portion formed by the upper punching portion 22a is substantially uniform at each position in the vehicle width direction, and is set smaller than the cross-sectional area of the concave portion formed by the lower punching portion 22b. . That is, the length Ha of the upper punching portion 22a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 22b in the vehicle vertical direction at each position in the vehicle width direction. . In this case, the vertical length Ha of the upper bore portion 22a is about 4 mm.
次に、第2の実施形態における車両用衝突検知装置1の衝突時の動作について説明する。第2の実施形態では、バンパアブソーバ2の内部(後面2bよりも車両前方側)に配設された溝部2aの車両上下方向における直下方位置(真下)、すなわち、バンパアブソーバ2の下面2cの車両前後方向における中央側に車幅方向に沿って下えぐり部22bが設けられている。更に、溝部2aの車両上下方向における直上方位置(真上)、すなわち、バンパアブソーバ2の上面2dの車両前後方向における中央側に車幅方向に沿って上えぐり部22aが設けられている。
Next, the operation at the time of collision of the vehicle collision detection apparatus 1 in the second embodiment will be described. In the second embodiment, the groove 2a disposed in the bumper absorber 2 (the front side of the rear surface 2b) is directly below the vehicle in the vertical direction (directly below), that is, the vehicle on the lower surface 2c of the bumper absorber 2. A lower bore 22b is provided along the vehicle width direction on the center side in the front-rear direction. Further, an upper counterboring portion 22a is provided along the vehicle width direction at a position directly above (directly above) the groove portion 2a in the vehicle vertical direction, that is, on the center side of the upper surface 2d of the bumper absorber 2 in the vehicle front-rear direction.
このため、車両の歩行者等との衝突に伴う衝撃(外力)が、溝部2aに装着された検出用チューブ部材3に伝達する際に、外力の単位面積当たりの力の大きさを、下えぐり部22b及び上えぐり部22aがない場合よりも大きくさせることができる。従って、衝突に伴う衝撃(外力)を検出用チューブ部材3へ効果的に伝達させて、検出用チューブ部材3を確実に変形させる(潰れさせる)ことが可能である。
For this reason, when an impact (external force) due to a collision with a pedestrian or the like of the vehicle is transmitted to the detection tube member 3 attached to the groove 2a, the magnitude of the force per unit area of the external force is reduced. It can be made larger than the case where there is no portion 22b and upper punching portion 22a. Therefore, it is possible to effectively transmit the impact (external force) associated with the collision to the detection tube member 3 and to reliably deform (crush) the detection tube member 3.
また、バンパアブソーバ2の前後長さA1(厚さ)が長い(厚い)位置である車幅方向中央側における下えぐり部22bの上下寸法Hb1を、バンパアブソーバ2の前後長さA2が短い位置である車幅方向端部側の下えぐり部22bの上下寸法Hb2よりも大きくしている。これにより、バンパ7の車幅方向中央側(センター部分)における圧力センサ4の出力が大きくして、車幅方向全体に亘って圧力センサ4の出力を充分に発生させることを可能としている。すなわち、バンパアブソーバ2の前後長さAxが長い位置では、所定の負荷荷重に対する検出用チューブ部材3の変形量が小さくなり、圧力センサ4の出力が小さくなる。これを考慮して、バンパアブソーバ2の前後長さAxが長い位置における下えぐり部21bの凹状部分の断面積(えぐり量)を大きくさせて、この部分の圧力センサ4の出力を向上させることができる。
Further, the vertical dimension Hb1 of the lower punching portion 22b on the center side in the vehicle width direction where the front and rear length A1 (thickness) of the bumper absorber 2 is long (thick) is the position where the front and rear length A2 of the bumper absorber 2 is short. It is larger than the vertical dimension Hb2 of the lower punching portion 22b on the vehicle width direction end portion side. Thereby, the output of the pressure sensor 4 at the vehicle width direction center side (center portion) of the bumper 7 is increased, and the output of the pressure sensor 4 can be sufficiently generated over the entire vehicle width direction. That is, at the position where the longitudinal length Ax of the bumper absorber 2 is long, the deformation amount of the detection tube member 3 with respect to a predetermined load is small, and the output of the pressure sensor 4 is small. Taking this into consideration, the output of the pressure sensor 4 at this portion can be improved by increasing the cross-sectional area (the amount of punching) of the concave portion of the lower punching portion 21b at the position where the longitudinal length Ax of the bumper absorber 2 is long. it can.
また、車高の低い車両では、歩行者との衝突時に、歩行者の脚部がバンパにすくわれて上体がエンジンフード上に倒れ込むように衝突することが想定される。この場合、バンパ7上部にて生じる衝撃(外力)が大きくなり、バンパカバー8が上方から下方に向かって大きく変形することが考えられる。第2の実施形態では、バンパアブソーバ2の上面2d(車両上方側)に溝部2a(検出用チューブ部材3)が配設されると共に、バンパアブソーバ2の下面2cに下えぐり部22bが車幅方向全体に亘って設けられている構成となっている。このため、バンパアブソーバ2における車両上方側に、歩行者の脚部がバンパ7にすくわれて上体がエンジンフード上に倒れ込むように衝突した際に、この歩行者の倒れ込みに伴うバンパ7上部からの外力が、検出用チューブ部材3に対して効果的に伝達されるようになっている。
Also, in a vehicle with a low vehicle height, it is assumed that when the vehicle collides with a pedestrian, the legs of the pedestrian are scooped by a bumper and the upper body collides with the engine hood. In this case, it is conceivable that the impact (external force) generated at the upper part of the bumper 7 is increased and the bumper cover 8 is greatly deformed from the upper side to the lower side. In the second embodiment, the groove 2a (detection tube member 3) is disposed on the upper surface 2d (the vehicle upper side) of the bumper absorber 2, and the lower bore 22b is disposed on the lower surface 2c of the bumper absorber 2 in the vehicle width direction. It is the structure provided over the whole. For this reason, when the pedestrian's legs are scooped by the bumper 7 and collide so that the upper body falls on the engine hood on the upper side of the vehicle in the bumper absorber 2, the bumper 7 falls from above the bumper 7. This external force is effectively transmitted to the tube member 3 for detection.
以上説明した第2の実施形態の車両用衝突検知装置1においても、第1の実施形態と同様の効果を得ることができる。すなわち、第2の実施形態の車両用衝突検知装置1では、バンパアブソーバ2において溝部2aの車両上下方向における直下方位置に、当該バンパアブソーバ2の下面2cから車両上方側に向かって凹状にえぐられた形状を有する下えぐり部22bが設けられていると共に、バンパアブソーバ2の溝部2aの車両直上方位置に、バンパアブソーバ2の上面2dから車両上方側に向かって凹状にえぐられた形状を有する上えぐり部22aが設けられている。これにより、歩行者の倒れ込みに伴う衝撃(外力)を検出用チューブ部材3に対して効果的に伝達させることができる。従って、衝突時に検出用チューブ部材3の中空部3aを確実に変形させて、圧力センサ4による圧力検出の出力を充分に発生させることができる。
In the vehicle collision detection apparatus 1 of the second embodiment described above, the same effect as that of the first embodiment can be obtained. That is, in the vehicle collision detection apparatus 1 of the second embodiment, the bumper absorber 2 is recessed in a position directly below the groove 2a in the vehicle vertical direction from the lower surface 2c of the bumper absorber 2 toward the vehicle upper side. The upper bottom portion 22b having the shape of the bumper absorber 2 is provided at a position directly above the vehicle in the groove portion 2a of the bumper absorber 2, and the upper portion having a concave shape from the upper surface 2d of the bumper absorber 2 toward the vehicle upper side. A punch 22a is provided. Thereby, the impact (external force) accompanying the fall of a pedestrian can be effectively transmitted with respect to the tube member 3 for a detection. Therefore, the hollow portion 3a of the detection tube member 3 can be reliably deformed at the time of a collision, and the pressure detection output by the pressure sensor 4 can be sufficiently generated.
また、溝部2a(検出用チューブ部材3)がバンパアブソーバ2の車両上下方向における上方側に配置されているので、歩行者の倒れ込みを伴う衝突時に、バンパアブソーバ2の車両上方側から加わる外力を検出用チューブ部材3へより確実に伝達させることができる。
(第3の実施形態)
次に、第3の実施形態について、図12を参照して説明する。なお、図12においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 Further, since thegroove portion 2a (detection tube member 3) is disposed on the upper side of the bumper absorber 2 in the vertical direction of the vehicle, it detects an external force applied from the upper side of the bumper absorber 2 at the time of a collision involving a pedestrian falling down. Can be transmitted to the tube member 3 more reliably.
(Third embodiment)
Next, a third embodiment will be described with reference to FIG. In FIG. 12, the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
(第3の実施形態)
次に、第3の実施形態について、図12を参照して説明する。なお、図12においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 Further, since the
(Third embodiment)
Next, a third embodiment will be described with reference to FIG. In FIG. 12, the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
この第3の実施形態においては、バンパアブソーバ2の後面2bにおける車両下方側に下えぐり部23bが車幅方向に沿って設けられていると共に、バンパアブソーバ2の後面2bにおける車両上方側に上えぐり部23aが車幅方向に沿って設けられている点は、第1の実施形態と同様の構成である。一方、第3の実施形態では、下えぐり部23bの前後長さLb3、及び上えぐり部23aの前後長さLa3が、溝部2aの前後長さLcよりも長く設定されている点が第1の実施形態と異なる。
In the third embodiment, a lower bore portion 23b is provided along the vehicle width direction on the vehicle lower side of the rear surface 2b of the bumper absorber 2, and an upper bore is formed on the vehicle upper side of the rear surface 2b of the bumper absorber 2. The point where the part 23a is provided along the vehicle width direction is the same configuration as that of the first embodiment. On the other hand, in the third embodiment, the first aspect is that the front / rear length Lb3 of the lower bore 23b and the front / rear length La3 of the upper bore 23a are set longer than the front / rear length Lc of the groove 2a. Different from the embodiment.
なお、第1の実施形態と同様に、下えぐり部23bの車両上下方向の長さ(上下寸法)Hbは、車幅方向で異なるものであり、バンパアブソーバ2の前後長さ(厚さ)Axに応じて設定されている。具体的には、バンパアブソーバ2の前後長さAxが長い位置ほど、下えぐり部21bの車両上下方向の長さHbが長く設定されている。具体的には、図12に示す車幅方向中央側(センター部分等)の下えぐり部23bの車両上下方向の長さHb1が、車幅方向端部側(コーナ部分)の下えぐり部23bの車両上下方向の長さHb2(図4参照)よりも大きくなっている。つまり、下えぐり部23bが形成する凹状部分の断面積(えぐり量)は、車幅方向端部側よりも車幅方向中央側の方が大きく設定されている。
As in the first embodiment, the length (vertical dimension) Hb of the lower punching portion 23b in the vehicle vertical direction is different in the vehicle width direction, and the longitudinal length (thickness) Ax of the bumper absorber 2 is different. It is set according to. Specifically, the longer the front-rear length Ax of the bumper absorber 2 is, the longer the length Hb of the lower punching portion 21b in the vehicle vertical direction is set. Specifically, the length Hb1 in the vehicle up-down direction of the lower fork portion 23b in the vehicle width direction center side (center portion or the like) shown in FIG. 12 is equal to the lower fork portion 23b in the vehicle width direction end side (corner portion). It is larger than the length Hb2 (see FIG. 4) in the vehicle vertical direction. That is, the cross-sectional area (groove amount) of the concave portion formed by the lower bore portion 23b is set larger on the vehicle width direction center side than on the vehicle width direction end portion side.
一方、上えぐり部23aが形成する凹状部分の断面積(えぐり量)は、車幅方向各位置において略均一であり、下えぐり部23bが形成する凹状部分の断面積よりも小さく設定されている。すなわち、上えぐり部23aの車両上下方向の長さHaは、車幅方向で略均一であり、車幅方向各位置で下えぐり部23bの車両上下方向の長さHbよりも短く設定されている。
On the other hand, the cross-sectional area (groove amount) of the concave portion formed by the upper bore portion 23a is substantially uniform at each position in the vehicle width direction, and is set smaller than the cross-sectional area of the concave portion formed by the lower bore portion 23b. . That is, the length Ha of the upper punching portion 23a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 23b in the vehicle vertical direction at each position in the vehicle width direction. .
以上説明した第3の実施形態の車両用衝突検知装置1によっても、第1の実施形態と同様の効果を得ることができる。すなわち、第3の実施形態では、バンパアブソーバ2の下面2cに車幅方向全体に亘って下えぐり部23bが設けられていると共に、バンパアブソーバ2の上面2dに車幅方向全体に亘って上えぐり部23aが設けられ、車幅方向各位置において下えぐり部23bの形成する凹状部分の断面積が上えぐり部23aの形成する凹状部分の断面積よりも大きくなっていることにより、歩行者の倒れ込みを伴う衝突を確実に検知することができる。また、バンパ7の車両上下方向における下方側において衝突が発生するOFF要件対象物との衝突と、歩行者の倒れ込みに伴ってバンパ7の車両上方側から加わる外力が大きくなるON要件対象物(歩行者等)との衝突とを的確に判別することができる。
The same effects as those of the first embodiment can also be obtained by the vehicle collision detection apparatus 1 of the third embodiment described above. That is, in the third embodiment, the lower surface 2c of the bumper absorber 2 is provided with the lower recess 23b over the entire vehicle width direction, and the upper surface 2d of the bumper absorber 2 is extended over the entire vehicle width direction. The section 23a is provided, and at each position in the vehicle width direction, the cross-sectional area of the concave portion formed by the lower bore portion 23b is larger than the cross-sectional area of the concave portion formed by the upper bore portion 23a. Can be reliably detected. In addition, an ON requirement object (walking) in which the external force applied from the vehicle upper side of the bumper 7 increases as the pedestrian falls and the collision with the OFF requirement object in which a collision occurs on the lower side of the bumper 7 in the vehicle vertical direction. It is possible to accurately determine the collision with the person.
更に、下えぐり部23bの車両前後方向の長さLb3、及び上えぐり部23aの車両前後方向の長さLa3を、溝部2aの車両前後方向の長さLcよりも車幅方向全体に亘って長く設定することで、圧力センサ4の出力を車幅方向全体に亘ってより大きくさせることができる。
(第4の実施形態)
次に、第4の実施形態について、図13を参照して説明する。なお、図13においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 Further, the length Lb3 of the lower piercing portion 23b in the vehicle front-rear direction and the length La3 of the upper piercingportion 23a in the vehicle front-rear direction are longer than the length Lc of the groove 2a in the vehicle front-rear direction over the entire vehicle width direction. By setting, the output of the pressure sensor 4 can be increased over the entire vehicle width direction.
(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIG. In FIG. 13, the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
(第4の実施形態)
次に、第4の実施形態について、図13を参照して説明する。なお、図13においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 Further, the length Lb3 of the lower piercing portion 23b in the vehicle front-rear direction and the length La3 of the upper piercing
(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIG. In FIG. 13, the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
この第4の実施形態においては、検出用チューブ部材3を装着するための溝部2aが、バンパアブソーバ2の内部(後面2bよりも車両前方側)に設けられている点は第2の実施形態と同様の構成である。一方、第4の実施形態では、溝部2aの車両上下方向における直下方位置(バンパアブソーバ2の下面2cにおける車両中央部近傍)からバンパレインフォースメント9の前面9aに亘って、下えぐり部24bが設けられている点が、第2の実施形態と異なる。すなわち、下えぐり部24bの車両前後方向の長さLb4は、車幅方向全体に亘って溝部2aの車両前後方向の長さLcよりも長く設定されている。一方、上えぐり部22aの車両前後方向の長さLaは、溝部2aの車両前後方向の長さLcと同程度であり、車幅方向で略均一に設定されている。なお、下えぐり部24b及び上えぐり部22aの断面形状は、第2の実施形態と同様に矩形形状である。
In this 4th Embodiment, the groove part 2a for mounting | wearing the tube member 3 for a detection is provided in the inside of the bumper absorber 2 (vehicle front side rather than the rear surface 2b) in 2nd Embodiment. It is the same composition. On the other hand, in the fourth embodiment, the lower bore portion 24b extends from the position directly below the groove portion 2a in the vehicle vertical direction (near the vehicle center portion on the lower surface 2c of the bumper absorber 2) to the front surface 9a of the bumper reinforcement 9. The point provided is different from the second embodiment. That is, the length Lb4 in the vehicle front-rear direction of the lower piercing portion 24b is set to be longer than the length Lc in the vehicle front-rear direction of the groove portion 2a over the entire vehicle width direction. On the other hand, the length La of the upper punching portion 22a in the vehicle front-rear direction is substantially the same as the length Lc of the groove portion 2a in the vehicle front-rear direction, and is set substantially uniformly in the vehicle width direction. Note that the cross-sectional shapes of the lower bore portion 24b and the upper bore portion 22a are rectangular, as in the second embodiment.
また、第4の実施形態では、下えぐり部24bの車両上下方向の長さ(上下寸法)Hbが、バンパアブソーバ2の車両前後方向の長さ(厚さ)Axに応じて、その長さが設定されている。具体的には、図13に示す車幅方向中央側(センター部分等)の下えぐり部24bの車両上下方向の長さHb1が、車幅方向端部側(コーナ部分)の車両上下方向の長さHb2(図11参照)よりも大きくなっている。従って、下えぐり部24bが形成する凹状部分の断面積(えぐり量)は、車幅方向端部側よりも車幅方向中央側の方が大きくなっている。
Further, in the fourth embodiment, the length (vertical dimension) Hb of the lower punching portion 24b in the vehicle vertical direction depends on the length (thickness) Ax of the bumper absorber 2 in the vehicle front-rear direction. Is set. Specifically, the vehicle vertical direction length Hb1 of the lower fork portion 24b in the vehicle width direction center side (center portion or the like) shown in FIG. 13 is the vehicle vertical direction length of the vehicle width direction end portion side (corner portion). It is larger than the height Hb2 (see FIG. 11). Accordingly, the cross-sectional area of the concave portion formed by the lower bore portion 24b (the amount of the bore) is larger on the vehicle width direction center side than on the vehicle width direction end portion side.
一方、上えぐり部22aが形成する凹状部分の断面積(えぐり量)は、車幅方向各位置において略均一である。すなわち、上えぐり部22aの車両上下方向の長さHaは、車幅方向で略均一であり、車幅方向各位置で下えぐり部22bの車両上下方向の長さHbよりも短く設定されている。
On the other hand, the cross-sectional area (groove amount) of the concave portion formed by the upper bore portion 22a is substantially uniform at each position in the vehicle width direction. That is, the length Ha of the upper punching portion 22a in the vehicle vertical direction is substantially uniform in the vehicle width direction, and is set shorter than the length Hb of the lower punching portion 22b in the vehicle vertical direction at each position in the vehicle width direction. .
以上説明した第4の実施形態の車両用衝突検知装置1においても、第1の実施形態と同様の効果を得ることができる。すなわち、バンパアブソーバ2の下面2cに車幅方向全体に亘って下えぐり部24bが設けられていると共に、バンパアブソーバ2の上面2dに車幅方向全体に亘って上えぐり部22aが設けられているので、歩行者の倒れ込みを伴う衝突を正確に検知することができる。特に、下えぐり部24bの車両前後方向の長さLb4が、溝部2aの車両前後方向の長さLcよりも車幅方向全体に亘って長くなっているので、圧力センサ4による圧力検出の出力をより大きくさせることができる。
(第5の実施形態)
次に、第5の実施形態について、図14を参照して説明する。なお、図14においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 In the vehiclecollision detection apparatus 1 of the fourth embodiment described above, the same effect as that of the first embodiment can be obtained. In other words, the lower surface 2c of the bumper absorber 2 is provided with a lower bore portion 24b over the entire vehicle width direction, and the upper surface 2d of the bumper absorber 2 is provided with an upper bore portion 22a over the entire vehicle width direction. Therefore, it is possible to accurately detect a collision involving a pedestrian falling down. In particular, since the length Lb4 of the lower piercing portion 24b in the vehicle front-rear direction is longer than the length Lc of the groove portion 2a in the vehicle front-rear direction over the entire vehicle width direction, the pressure sensor 4 outputs pressure detection. Can be made larger.
(Fifth embodiment)
Next, a fifth embodiment will be described with reference to FIG. In FIG. 14, the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
(第5の実施形態)
次に、第5の実施形態について、図14を参照して説明する。なお、図14においては上記第1の実施形態と同一部分には同一の符号を付して説明を省略し、異なる部分についてだけ説明する。 In the vehicle
(Fifth embodiment)
Next, a fifth embodiment will be described with reference to FIG. In FIG. 14, the same parts as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different parts are described.
第5の実施形態では、図14に示すように、バンパアブソーバ2の車両下方側に、当該バンパアブソーバ2とバンパレインフォースメント9との固定強度を補強するための固定補強部材12が車幅方向に沿って設けられている。この固定補強部材12は、略L字状の断面形状を有している。固定補強部材12の材質としては、例えばバンパアブソーバ2よりも発泡倍率の低い発泡樹脂等が用いられる。
In the fifth embodiment, as shown in FIG. 14, a fixed reinforcing member 12 for reinforcing the fixing strength between the bumper absorber 2 and the bumper reinforcement 9 is provided on the vehicle lower side of the bumper absorber 2 in the vehicle width direction. It is provided along. The fixed reinforcing member 12 has a substantially L-shaped cross-sectional shape. As a material of the fixed reinforcing member 12, for example, a foamed resin having a foaming ratio lower than that of the bumper absorber 2 is used.
固定補強部材12の上面の一部(下えぐり部21bの直下方を除いた部分)は、バンパアブソーバ2の下面2cと当接している。また、固定補強部材12の後面は、バンパレインフォースメント9の前面9aと当接している。固定補強部材12とバンパレインフォースメント9とは、図示しないが、それぞれに設けられた嵌合部が嵌め合うことにより嵌合固定される。これにより、バンパアブソーバ2は、その下面2cが固定補強部材12により支持された状態で、バンパレインフォースメント9に固定される。
A part of the upper surface of the fixed reinforcing member 12 (a portion excluding the portion directly below the lower punching portion 21b) is in contact with the lower surface 2c of the bumper absorber 2. Further, the rear surface of the fixed reinforcing member 12 is in contact with the front surface 9 a of the bumper reinforcement 9. Although not shown, the fixed reinforcing member 12 and the bumper reinforcement 9 are fitted and fixed by fitting fitting portions provided on the fixed reinforcing member 12 and the bumper reinforcement 9. Thereby, the bumper absorber 2 is fixed to the bumper reinforcement 9 in a state where the lower surface 2 c is supported by the fixed reinforcing member 12.
以上説明した第5の実施形態の車両用衝突検知装置1においても、第1の実施形態と同様の効果を得ることができる。更に、第5の実施形態では、バンパアブソーバ2の車両下方側に、当該バンパアブソーバ2とバンパレインフォースメント9との固定強度を補強するための固定補強部材12が設けられているので、バンパアブソーバ2とバンパレインフォースメント9との固定強度を向上させることができる。これにより、バンパレインフォースメント9の前面9aにバンパアブソーバ2を安定して配置することができる。
In the vehicle collision detection apparatus 1 of the fifth embodiment described above, the same effect as that of the first embodiment can be obtained. Furthermore, in the fifth embodiment, the bumper absorber 2 is provided with a fixing reinforcing member 12 for reinforcing the fixing strength between the bumper absorber 2 and the bumper reinforcement 9 on the vehicle lower side of the bumper absorber 2. The fixing strength between 2 and the bumper reinforcement 9 can be improved. Thereby, the bumper absorber 2 can be stably disposed on the front surface 9 a of the bumper reinforcement 9.
本開示は、上記した実施形態に限定されるものではなく、本開示の主旨を逸脱しない範囲で種々の変形または拡張を施すことができる。上記実施形態の変形例について述べる。例えば、上記第1の実施形態では、下えぐり部21bは、バンパアブソーバ2の車両前後方向の長さAxが長い位置ほど、当該下えぐり部21bが形成する凹状部分の断面積(えぐり量)が大きくなるように設定したが、これに限られない。例えば、車幅方向端部側における下えぐり部21のえぐり量を、車幅方向中央側における下えぐり部21のえぐり量よりも大きくしてもよい。これは、車幅方向端部側では、車両の歩行者等との衝突時に、衝突に伴う衝撃(外力)が車両側面側へ逃げることにより、検出用チューブ部材3が充分に変形せず、圧力センサ4の出力が小さくなる場合があることを想定している。この場合、車幅方向端部側における圧力センサ4の出力を向上させることができる。
The present disclosure is not limited to the above-described embodiment, and various modifications or extensions can be made without departing from the gist of the present disclosure. A modification of the above embodiment will be described. For example, in the first embodiment, the lower bore portion 21b has a cross-sectional area (amount of bore) formed by the lower bore portion 21b as the position Ax of the bumper absorber 2 in the vehicle front-rear direction is longer. Although it set so that it might become large, it is not restricted to this. For example, the amount of punching of the lower punching portion 21 on the side in the vehicle width direction may be larger than the amount of punching of the lower punching portion 21 on the center side in the vehicle width direction. This is because the detection tube member 3 is not deformed sufficiently at the end in the vehicle width direction side due to the impact (external force) caused by the collision escaping to the side of the vehicle at the time of collision with a pedestrian or the like of the vehicle. It is assumed that the output of the sensor 4 may be small. In this case, the output of the pressure sensor 4 at the vehicle width direction end can be improved.
また、圧力センサ4をバンパレインフォースメント9の後面9bにおける左右両端部側に2つ配設したが、これに限られず、圧力センサ4の配設位置は適宜変更可能である。例えば、圧力センサ4をバンパレインフォースメント9の内壁面に配置してもよい。
In addition, although two pressure sensors 4 are disposed on the left and right ends of the rear surface 9b of the bumper reinforcement 9, the present invention is not limited to this, and the position of the pressure sensor 4 can be changed as appropriate. For example, the pressure sensor 4 may be disposed on the inner wall surface of the bumper reinforcement 9.
また、上記実施形態では、衝突判定処理において、有効質量が所定の閾値以上になった場合に歩行者保護装置10の作動を要する歩行者との衝突が発生したと判定するものとしたが、これに限られない。例えば、圧力センサ4により検出された圧力の値、圧力変化率等を衝突判定の閾値として用いてもよい。
In the above embodiment, in the collision determination process, it is determined that a collision with a pedestrian that requires the operation of the pedestrian protection device 10 has occurred when the effective mass exceeds a predetermined threshold. Not limited to. For example, a pressure value detected by the pressure sensor 4, a pressure change rate, or the like may be used as a threshold for collision determination.
本開示は、実施例に準拠して記述されたが、本開示は当該実施例や構造に限定されるものではないと理解される。本開示は、様々な変形例や均等範囲内の変形をも包含する。加えて、様々な組み合わせや形態、さらには、それらに一要素のみ、それ以上、あるいはそれ以下、を含む他の組み合わせや形態をも、本開示の範疇や思想範囲に入るものである。
Although the present disclosure has been described based on the embodiments, it is understood that the present disclosure is not limited to the embodiments and structures. The present disclosure includes various modifications and modifications within the equivalent range. In addition, various combinations and forms, as well as other combinations and forms including only one element, more or less, are within the scope and spirit of the present disclosure.
Claims (18)
- 車両のバンパ(7)内においてバンパレインフォースメント(9)の車両前方側に配設されたバンパアブソーバ(2)と、前記バンパアブソーバ(2)に車幅方向に沿って形成された溝部(2a)に装着される内部に中空部(3a)が形成された検出用チューブ部材(3)と、前記検出用チューブ部材(3)の前記中空部(3a)内の圧力を検出する圧力センサ(4)と、を有し、前記圧力センサ(4)による圧力検出結果に基づいて前記バンパ(7)への物体の衝突を検知する車両用衝突検知装置(1)において、
前記バンパアブソーバ(2)は、前記溝部(2a)の車両上下方向における少なくとも直下方位置にて当該バンパアブソーバ(2)の下面(2c)から車両上方側に向かって凹状にえぐられた形状を有する下えぐり部(21b,22b,23b,24b)を備えたことを特徴とする車両用衝突検知装置。 A bumper absorber (2) disposed on the front side of the bumper reinforcement (9) in the bumper (7) of the vehicle, and a groove (2a) formed in the bumper absorber (2) along the vehicle width direction. ) And a pressure sensor (4) for detecting the pressure in the hollow portion (3a) of the detection tube member (3). In a vehicle collision detection device (1) for detecting a collision of an object with the bumper (7) based on a pressure detection result by the pressure sensor (4),
The bumper absorber (2) has a shape that is recessed from the lower surface (2c) of the bumper absorber (2) toward the vehicle upper side at least at a position immediately below the groove portion (2a) in the vehicle vertical direction. A collision detection device for a vehicle, comprising a lower punching portion (21b, 22b, 23b, 24b). - 前記下えぐり部(21b,22b,23b,24b)は、前記バンパアブソーバ(2)の車幅方向全体に亘って設けられることを特徴とする請求項1に記載の車両用衝突検知装置。 The vehicular collision detection device according to claim 1, wherein the lower punching portion (21b, 22b, 23b, 24b) is provided over the entire vehicle width direction of the bumper absorber (2).
- 前記バンパアブソーバ(2)は、前記溝部(2a)の少なくとも車両直上方位置にて当該バンパアブソーバ(2)の上面(2c)から車両下方側に向かって凹状にえぐられた形状を有する上えぐり部(21a,22a,23a)を更に備えたことを特徴とする請求項1または2に記載の車両用衝突検知装置。 The bumper absorber (2) has a shape that is concavely recessed from the upper surface (2c) of the bumper absorber (2) toward the vehicle lower side at a position directly above the vehicle in the groove (2a). The vehicle collision detection device according to claim 1 or 2, further comprising (21a, 22a, 23a).
- 前記上えぐり部(21a,22a,23a)は、前記バンパアブソーバ(2)の車幅方向全体に亘って設けられることを特徴とする請求項3に記載の車両用衝突検知装置。 4. The vehicle collision detection device according to claim 3, wherein the upper punching portion (21a, 22a, 23a) is provided over the entire vehicle width direction of the bumper absorber (2).
- 車幅方向各位置において、前記下えぐり部(21b,22b,23b,24b)が形成する凹状部分の断面積は、前記上えぐり部(21a,22a,23a)が形成する凹状部分の断面積よりも大きいことを特徴とする請求項3または4に記載の車両用衝突検知装置。 At each position in the vehicle width direction, the cross-sectional area of the concave portion formed by the lower bore portion (21b, 22b, 23b, 24b) is greater than the cross-sectional area of the concave portion formed by the upper bore portion (21a, 22a, 23a). 5. The vehicle collision detection device according to claim 3, wherein the vehicle collision detection device is also large.
- 前記下えぐり部(21b,22b,23b,24b)が形成する凹状部分の断面積は、車幅方向にて異なることを特徴とする請求項1から5のいずれか一項に記載の車両用衝突検知装置。 6. The vehicle collision according to claim 1, wherein a cross-sectional area of the concave portion formed by the lower bore portion (21 b, 22 b, 23 b, 24 b) is different in the vehicle width direction. Detection device.
- 前記下えぐり部(21b,22b,23b,24b)は、前記バンパアブソーバ(2)の車両前後方向の長さ(Ax)が長い位置ほど、当該下えぐり部(21b,22b,23b,24b)が形成する凹状部分の断面積が大きくなるように設定されることを特徴とする請求項6に記載の車両用衝突検知装置。 The lower piercing portion (21b, 22b, 23b, 24b) is located at a position where the length (Ax) of the bumper absorber (2) in the vehicle front-rear direction is longer. The vehicular collision detection device according to claim 6, wherein the cross-sectional area of the concave portion to be formed is set to be large.
- 車幅方向各位置における前記下えぐり部(21b)の凹状部分の断面積と前記上えぐり部(21a)の凹状部分の断面積との和は、車幅方向にて異なることを特徴とする請求項3から7のいずれか一項に記載の車両用衝突検知装置。 The sum of the cross-sectional area of the concave portion of the lower bore portion (21b) and the cross-sectional area of the concave portion of the upper bore portion (21a) at each position in the vehicle width direction is different in the vehicle width direction. Item 8. The vehicle collision detection device according to any one of Items 3 to 7.
- 前記下えぐり部(21b,22b)の車両前後方向の長さ(Lb)及び前記上えぐり部(21a,22a)の車両前後方向の長さ(La)は、前記溝部(2a)の車両前後方向の長さ(Lc)と同程度であることを特徴とする請求項3から8のいずれか一項に記載の車両用衝突検知装置。 The length (Lb) of the lower piercing portion (21b, 22b) in the vehicle front-rear direction and the length (La) of the upper piercing portion (21a, 22a) in the vehicle front-rear direction are the vehicle front-rear direction of the groove portion (2a). The vehicle collision detection device according to any one of claims 3 to 8, wherein the vehicle collision detection device has a length approximately equal to a length (Lc) of the vehicle.
- 前記下えぐり部(21b,22b,23b,24b)及び前記上えぐり部(21a,22a,23a)は、車両側方から見た断面形状が矩形形状であることを特徴とする請求項3から9のいずれか一項に記載の車両用衝突検知装置。 The cross section of the lower bore portion (21b, 22b, 23b, 24b) and the upper bore portion (21a, 22a, 23a) as viewed from the side of the vehicle has a rectangular shape. The vehicle collision detection device according to any one of the above.
- 前記下えぐり部(21b,22b,23b,24b)の車両上下方向の長さ(Hb)は、前記上えぐり部(21a,22a,23a)の車両上下方向の長さ(Ha)よりも長いことを特徴とする請求項3から10のいずれか一項に記載の車両用衝突検知装置。 The length (Hb) in the vehicle up-down direction of the lower bore (21b, 22b, 23b, 24b) is longer than the length (Ha) in the vehicle up-down direction of the upper bore (21a, 22a, 23a). The vehicle collision detection device according to any one of claims 3 to 10, wherein:
- 前記下えぐり部(21b,22b,23b)の車両上下方向の長さ(Hb)は、車幅方向にて異なることを特徴とする請求項1から11のいずれか一項に記載の車両用衝突検知装置。 The vehicle collision according to any one of claims 1 to 11, wherein a length (Hb) of the lower piercing portion (21b, 22b, 23b) in a vehicle vertical direction is different in a vehicle width direction. Detection device.
- 前記下えぐり部(21b,22b,23b,24b)は、前記バンパアブソーバ(2)の車両前後方向の長さ(Ax)が長い位置ほど、当該下えぐり部(21b,22b,23b,24b)の車両上下方向の長さ(Hb)が長く設定されることを特徴とする請求項12に記載の車両用衝突検知装置。 The lower bores (21b, 22b, 23b, 24b) of the lower bores (21b, 22b, 23b, 24b) are located at positions where the length (Ax) in the vehicle front-rear direction of the bumper absorber (2) is longer. The vehicle collision detection device according to claim 12, wherein a length (Hb) in the vehicle vertical direction is set to be long.
- 前記下えぐり部(21b,22b,23b,24b)の車両上下方向の長さ(Hb)は、車幅方向端部側よりも車幅方向中央側の方が長くなっていることを特徴とする請求項12または13に記載の車両用衝突検知装置。 The length (Hb) in the vehicle vertical direction of the lower bore portion (21b, 22b, 23b, 24b) is longer in the vehicle width direction center side than in the vehicle width direction end side. The vehicle collision detection device according to claim 12 or 13.
- 前記溝部(2a)は、前記バンパアブソーバ(2)の後面(2b)に設けられることを特徴とする請求項1から14のいずれか一項に記載の車両用衝突検知装置。 The vehicular collision detection device according to any one of claims 1 to 14, wherein the groove (2a) is provided on a rear surface (2b) of the bumper absorber (2).
- 前記溝部(2a)は、前記バンパアブソーバ(2)の車両上下方向における上方側に設けられることを特徴とする請求項1から15のいずれか一項に記載の車両用衝突検知装置。 The vehicle collision detection device according to any one of claims 1 to 15, wherein the groove (2a) is provided on an upper side of the bumper absorber (2) in a vehicle vertical direction.
- 前記溝部(2a)は、前記バンパレインフォースメント(9)の車両上下方向中心位置(C)よりも上方側に配設されることを特徴とする請求項1から16のいずれか一項に記載の車両用衝突検知装置。 The said groove part (2a) is arrange | positioned above the vehicle vertical direction center position (C) of the said bumper reinforcement (9), It is any one of Claim 1 to 16 characterized by the above-mentioned. Vehicle collision detection device.
- 前記バンパアブソーバ(2)の車両下方側には、当該バンパアブソーバ(2)と前記バンパレインフォースメント(9)との固定強度を補強するための固定補強部材(12)が設けられていることを特徴とする請求項1から17のいずれか一項に記載の車両用衝突検知装置。 On the vehicle lower side of the bumper absorber (2), there is provided a fixed reinforcing member (12) for reinforcing the fixing strength between the bumper absorber (2) and the bumper reinforcement (9). The vehicle collision detection device according to claim 1, wherein the vehicle collision detection device is characterized in that
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US10850697B2 (en) * | 2018-11-30 | 2020-12-01 | Nissan North America, Inc. | Energy absorber for sensor protection |
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