JP2014147904A - Dust collector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dust collector which may use multiple batteries.SOLUTION: A dust collector 1 includes: a tank part 3 having a suction port 5 and an opening located at an upper part; and a body part 2 which is disposed above the tank part 3 so as to close the opening. The body part 2 includes: an electric motor 13 which is driven by electric power; and a fan 24 which rotates so that rotations of the electric motor 13 generate a suction force in the suction port 5 of the tank part 3. The dust collector 1 includes multiple battery attachment parts 12 in the body part 2.

Description

  The present invention relates to a dust collector, for example. In particular, the present invention relates to a dust collector in which a main body portion is disposed on an upper portion of a tank portion.

Conventionally, a main unit with a built-in intake unit equipped with a motor and a suction fan is placed on the top of a tank with a suction port, and outside air is sucked from the suction port by the rotation of the suction fan driven by the motor. A dust collector that can be used is known (see Patent Documents 1 and 2). A filter or a centrifugal structure is interposed between the suction port of the dust collector and the suction unit, so that dust sucked together with the outside air can be separated inside the dust collector.
This type of dust collector is usually structured so that an AC power supply (AC power supply) supplied as a commercial power supply can be used, and used with the plug provided in the dust collector inserted into an outlet provided in a house or the like. It is possible.
On the other hand, a rechargeable battery may be used as a power source, although this type of dust collector is not normally employed.
The battery is provided with an output voltage of 18V or 36V, for example. For example, in the case of a hand-held tool, an 18V output battery (18V battery) is used if it is a relatively small and small output model, and it is a relatively large (high output) cutting tool that requires higher output. A larger 36V output battery (36V battery) is used.
In recent years, high-powered electric tools such as garden tools have been made cordless, and along with this, large 36V batteries have become widespread. However, smaller 14.4V batteries and 18V batteries are still mainstream and widely used. It is popular. In addition, a user of a normal power tool can prepare a plurality of spare batteries and charge them in parallel with the work so that the user can work continuously for a long time with one power tool while replacing the battery. I have to. Also in this respect, a small 18V battery is more widely used than a large 36V battery.
Furthermore, the battery for electric tools can be reused between different electric tools of the same power supply specification. Since there are many types of 18V-specific power tools widely available, 18V batteries are much more popular than 36V batteries.

JP 2010-29599 A JP 2005-205033 A

  However, as described above, the main body portion including the intake unit including the motor and the suction fan is placed on the upper part of the tank having the suction port, and the suction port is rotated by the rotation of the suction fan driven by the motor. Usually, a battery is not used for a dust collector that can suck in outside air. This is because if the condition required for this type of dust collector is satisfied, the capacity required for the battery increases, but it is thought that one of the causes is that the battery corresponding to the capacity is not widespread.

  The present invention has been made from such a viewpoint, and an object thereof is to provide a dust collector capable of using a plurality of batteries.

For this reason, this invention was set as the dust collector of the structure described below.
A first invention includes a tank portion having an inlet and an opening at an upper portion, and a main body portion disposed above the tank portion so as to close the opening. And a fan that rotates so that a suction force is generated at the suction port of the tank unit by rotating the electric motor, wherein the dust collector includes a plurality of battery mounting portions. Is provided in the main body.

  If it is 1st invention, since it is possible to attach a some battery to a main-body part, it becomes possible to use a some battery collectively. Moreover, since it is not necessary to provide an electrical component in the tank part, electrical wiring can be easily performed.

  2nd invention is equipped with the tank part which has an inlet and has an opening in the upper part, and the main-body part arrange | positioned above the tank part so that the said opening may be plugged up, and the said main-body part moves with electric power A dust collector comprising: an electric motor; and a fan that rotates so that a suction force is generated at the suction port of the tank unit when the electric motor rotates, wherein the dust collector includes a plurality of battery mounting portions in a tank. It is provided in the part.

  If it is the 2nd invention, since it is possible to attach a plurality of batteries to a main part, a plurality of batteries can be used together. Further, since it is not necessary to dispose a relatively heavy battery above the dust collector, it is easy to configure a dust collector with a balanced weight.

  A third invention includes a tank portion having an inlet and having an opening in the upper portion, and a main body portion disposed above the tank portion so as to close the opening, and the main body portion is moved by electric power. A dust collector comprising: an electric motor; and a fan that rotates so as to generate a suction force at the suction port of the tank unit by rotating the electric motor, wherein the dust collector is provided with a DC output adapter. And

  If it is 3rd invention, the electric power taken in into the dust collector can be provided to an external apparatus through a DC output adapter. Therefore, the electric power taken into the dust collector can be used for the operation of a battery-driven type external device.

  According to a fourth invention, in any one of the first to third inventions, a controller that can be electrically connected to a plurality of batteries is provided in the main body.

  If it is 4th invention, the controller is not arrange | positioned at the tank part side, but it is possible to simplify electrical wiring comparatively.

  If the present invention is used, a dust collector capable of using a plurality of batteries can be provided.

In the aspect which attached the battery attachment part to the main-body part, it is a perspective view of the dust collector of the state which has not attached the battery. It is a figure which shows the attachment state of a battery in the aspect which attached the battery attachment part to the main-body part. In the aspect which attached the battery attachment part to the main-body part, it is a perspective view of the dust collector of the state which has closed the protective cover. In the aspect which attached the battery attaching part to the main-body part, it is the side view which looked at the dust collector from the front side. It is sectional drawing showing the VV cross section in FIG. It is sectional drawing showing the VI-VI cross section in FIG. It is a figure which shows the attachment state of a battery in the aspect which attached the battery attachment part to the tank part. It is the side view which looked at the dust collector of the aspect which attached the battery to the tank part from the rear side. It is a conceptual diagram showing the state which has connected the DC output adapter attached to the dust collector to the electric tool. FIG. 2 is a conceptual circuit diagram schematically showing a circuit structure of an electric motor. It is a perspective view of a battery unit.

  EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated using drawing. In the present specification, as shown in FIG. 2, in the dust collector 1, the side on which the tank unit 3 is disposed is the lower side, and the side on which the main body unit 2 is disposed is the upper side. Moreover, the side with the inlet 5 provided in the tank part 3 is a front side, and the opposite side is a rear side. Further, the left and right sides are determined by viewing the dust collector 1 from the rear side toward the front side.

First, the schematic shape of the dust collector 1 will be described with reference to the drawings as appropriate.
The dust collector 1 includes wheels 4 and a main body 2 having an intake unit 7 is placed above a tank portion 3 having an open upper surface (above the one-dotted line H in FIGS. 4, 5, and 8). . A suction port 5 to which a dust collecting hose 38 can be connected is formed on the front (left side in FIG. 5) side surface of the tank unit 3.
As shown in FIG. 5, the main body 2 closes the tank unit 3 by disposing the intake unit 7 substantially at the center and locking the partition 8 provided at the lower part on the opening 22 of the tank unit 3. It is possible. The central portion of the partition portion 8 is a protruding portion 9 projecting downward in a bottomed cylindrical shape, and an air inlet 10 is formed at the center of the lower surface of the protruding portion 9. By providing the suction force generated by the intake unit 7 to the intake port 5 provided in the tank unit 3 through the intake port 10, the dust collector 1 is configured to be able to suck dust and the like.

In this embodiment, two batteries B1 and B2 are directly attached to the two battery mounting portions 12 and 12 provided in the dust collector 1 without using a converter or an adapter provided separately from the dust collector 1. is there. More specifically, two batteries B1 and B2 shown in FIG. 11 are directly attached to the battery mounting portions 12 and 12 provided on the battery mounting base portion 11 provided integrally with the dust collector 1. is there.
The battery attachment portion 12 is provided with a pair of attachment rails 21 and 21, a pair of battery connection terminals 49 and 49, and a claw engagement portion 48.
The mounting rail 21 can be engaged with rail portions B1b, B1c, B2b, B2c provided in the batteries B1, B2. More specifically, it is possible to slide the batteries B1 and B2 while engaging the pair of rail portions B1b and B1c or B2b and B2c between the pair of mounting rails 21 and 21, respectively. It is.
Further, the battery connection terminals 49 and 49 can be connected to positive and negative connection terminals B1d and B1e or B2d and B2e provided in the batteries B1 and B2. By connecting the battery connection terminal 49 and the positive and negative connection terminals B1d, B1e, B2d, and B2e, the electricity charged in the batteries B1 and B2 can be supplied to the main body 2.
Further, the claw engagement portion 48 can be engaged with lock claws B1g and B2g provided in the batteries B1 and B2. More specifically, the claw engagement portion 48 is formed so that the direction in which the lock claws B1g and B2g are received and the longitudinal direction of the mounting rail 21 are substantially perpendicular to each other, and the lock claw B1g, When B2g is accepted, the batteries B1 and B2 cannot slide.
Moreover, it is possible to generate a voltage larger than the voltage that can be generated by a single battery using a configuration in which a plurality of batteries can be attached. This point will be described with reference to FIG.
As shown in FIG. 10, the rotational drive of the electric motor 13 of the dust collector 1 is controlled by the drive controller 14 and the power controller 15. That is, the drive controller 14 and the power controller 15 receive input signals from the operation unit 19 and the shunt resistor 141 (a part of the drive controller 14) and send an output signal to the FET circuit 142 (a part of the drive controller 14). . Thereby, the drive controller 14 and the power controller 15 control the rotational drive of the electric motor 13. At this time, the circuits B1 and B2 attached to the first and second battery attachment portions 12 are designed so as to be connected in the parallel direction.

In the present embodiment, the battery mounting portion 12 is provided on the rear side of the main body portion 2. The battery mounting portion 12 is arranged in parallel in the left-right direction on the upper side surface on the rear side of the main body portion 2, and is provided above the exhaust port 16 of the main body portion 2.
The battery mounting portion 12 is provided with a mounting rail 21 extending in the vertical direction, and the batteries B1 and B2 can be mounted on the battery mounting portion 12 by moving the batteries B1 and B2 downward from above. It has become.
The main body 2 is provided with a protective cover 17 that can cover the battery mounting portion 12. Further, the main body 2 is provided with a protective cover base 58. The protective cover 17 and the protective cover base 58 are coupled so as to be rotatable via protective cover rotating shafts 171 and 171. The protective cover base 58 is provided with L-shaped protective side walls 581 and 581 so as to sandwich the battery mounting portion 12 therebetween. Therefore, the entire battery mounting portion 12 can be covered by rotating the L-shaped protective cover 17 in a side view toward the protective cover base 58.
FIG. 2 is a view showing a state in which the batteries B1 and B2 are attached to the battery attachment portion 12. However, by closing the protective cover 17 from the state of FIG. 2, as shown in FIG. , B2 will be covered. In this state, the protective cover 17 and the upper surface of the main casing 33 are configured to be substantially flush with each other. In addition, in the state which accommodated the handle | steering-wheel part 36 provided in the main-body part 2, and the state which closed the base hook 34, it is comprised so that all the upper surfaces may become substantially flush.
The battery mounting portion 12 is connected to the controller 18 by a wiring (not shown) arranged in the main body portion 2. The controller 18 is connected to various electrical components such as the operation unit 19 and the electric motor 13 by wiring.
The controller 18 mainly includes a control board 181 and is used to control the movement of an electric component such as the electric motor 13 in response to an electric signal from the operation unit 19 or the like.

Next, the structure of the dust collector 1 will be described in more detail.
First, the tank unit 3 will be described.
The tank part 3 has a substantially square frustum shape. The wheel 4 is provided in the lower part, and it is comprised so that a movement is possible. A bumper 6 is provided so as to form the outermost periphery of the tank portion 3. A suction port 5 is provided on one side of the quadrangular pyramid, and an opening 22 is provided at the uppermost portion so as to be able to communicate with the main body 2. The suction port 5 is a part to which a dust collecting hose 38 or the like can be attached, and is a part into which dust or the like can be introduced into the tank unit 3.
Moreover, the ground wire part 23 is also provided in the center of the lower part of the main-body part 2 so that a malfunction may not arise when the dust collector 1 is used.

Next, the main body 2 will be described.
On the rear side surface of the main body 2, a battery mounting base 11 is provided. The battery mounting base portion 11 is provided with two battery mounting portions 12 so that the two batteries B1 and B2 can be attached and detached.
The main body 2 is provided with an intake unit 7 at the center. The intake unit 7 of this embodiment has two fans 24 connected to an electric motor 13 and a motor shaft 132 of the electric motor 13.
In addition, the electric motor 13 in the present embodiment is vertically moved by a first bearing 133 that is a bearing disposed on the upper portion of the main body 2 and a second bearing 134 that is a bearing disposed on the lower portion of the main body 2. The extending motor shaft 132 is rotatably supported.
A rotor 135 is disposed on the outer peripheral side of the motor shaft 132 so as to be substantially concentric with the motor shaft 132. A stator 136 is disposed on the outer peripheral side of the rotor 135 so as to be substantially concentric with the motor shaft 132 and the rotor 135.
Further, a commutator 137 is provided adjacent to the first bearing 133.
The intake unit 7 includes an upper cover 25 that is disposed so as to mainly cover the side surface of the electric motor 13, a lower cover 26 that is disposed so as to cover the side surface of the fan 24, and a space in which the electric motor main body 131 is located. It further has an intermediate cover 27 disposed so as to partition the space in which the fan 24 is located.
The upper cover 25 is provided so that motor cooling air can be sucked from above. Further, the lower cover 26 is provided with a suction opening 28 for introducing air in the tank unit 3 into the intake unit 7 by the fan 24 and a discharge opening 29 for discharging the air sucked from the suction opening 28 to the outside of the intake unit 7. Yes.
A plurality of discharge openings 29 are provided in the upper part of the side surface of the lower cover 26, and discharge opening guide portions 291 that define the exhaust direction are provided along the respective discharge openings 29.
Further, the intake unit 7 is fitted into a protruding portion 9 provided in a partition portion 8 provided at the lower portion of the main body. Rubber is disposed inside the protruding portion 9 as the buffer member 30 to avoid direct contact between the protruding portion 9 and the bottom of the intake unit 7.
In addition, an intake port 10 through which air in the tank unit 3 can be introduced to the intake unit 7 side is provided below the projecting portion 9. The intake port 10 is a fan-shaped opening, and a plurality of the intake ports 10 are arranged in a row and configured in a substantially circular shape. The opening of the air inlet 10 has such a size that a normal user cannot insert a finger.
A soundproof material 31 made of sponge is disposed around the intake unit 7.
The air discharged from the intake unit 7 passes through a path formed by a partition wall (not shown) and is discharged rearward from an exhaust port 16 provided on the rear side surface of the main body 2.

Further, in this embodiment, as shown in FIG. 6, it is possible to flow motor cooling air mainly used for cooling the electric motor 13 from the right side to the left side of the main body 2. It is configured.
As shown in FIG. 6, a standing wall 32 is formed in the main body casing 33 so as to form a cooling air passage used for cooling the electric motor 13. Further, wind windows 52 and 52 are formed on the left and right side surfaces of the main body casing 33 so that the cooling air can enter and leave the main body portion 2. The motor cooling air blown into the main body casing 33 from the wind window 52 provided on the right side is exhausted out of the main body casing 33 from the wind window 52 provided on the left side.
A passage for the cooling air is formed by the standing wall 32 arranged so that the cooling air extends substantially parallel to the front and rear of the electric motor 13. On the front side of the upright wall 32, a controller 18 for moving the electric parts is disposed. In the present embodiment, the heat radiating plate 39 attached to the control board 181 of the controller 18 is disposed in the cooling air passage beyond the standing wall 32.
The controller 18 is electrically connected to an operation unit 19 disposed on the front side surface of the main body. As shown in FIG. 4, the operation unit 19 can be switched between an interlocking outlet 40 into which an AC adapter is inserted, a suction force adjustment dial 41 used to adjust the suction force of the dust collector 1, and on / off of the dust collector 1 body. The changeover switch 42 is provided.
The change-over switch 42 selects an ON state in which the dust collector 1 is operated, an OFF state in which the dust collector 1 is stopped, and an interlocking state in which the operation state of the dust collector 1 can be changed in accordance with the operation state of the external device 50. It is possible.
Here, a method of driving in the interlocked state will be described. In this embodiment, the AC adapter attached to the external device 50 is inserted into the interlocking outlet 40. When the external device 50 inserted into the interlocking outlet 40 is turned on and the external device 50 is energized, the operation of the dust collector 1 is turned on. Conversely, when the external device 50 is switched off and the energized state of the external device 50 is released, the operation of the dust collector 1 is turned off.
In the present embodiment, the control components that determine the control contents of the dust collector 1 as a whole are arranged on one control board 181 (first control board 181a). However, each control board includes a plurality of control boards 181. It is also possible to arrange a control component at 181. For example, when two control boards 181 are used, the first control board 181a is arranged horizontally as shown in FIG. 5, and the second control board 181b is arranged vertically so as to contact the standing wall 32. It is also possible. When the second control board 181b is arranged so as to be in contact with the standing wall 32, it may be possible to suppress the second control board 181b from being indirectly heated by cooling the standing wall 32 with the cooling air. .
In addition, a substantially U-shaped handle portion 36 is rotatably provided on the upper portion of the main body portion 2. The state shown in FIGS. 1 to 5 is a state in which the handle portion 36 is housed, but when the handle portion 36 is used, the handle portion rotating shaft 361 provided at the end of the handle portion 36 is used. , 361 about the rotation center, and the handle portion 36 is raised by rotating. In this state, the dust collector 1 can be carried by gripping the grip portion 362 provided on the handle portion 36. Note that the grip portion 362 is subjected to uneven slip prevention processing.
Further, an accessory storage portion 56 and a base hook 37 that can cover the accessory storage portion 56 are formed on the left side surface of the main body 2. The base hook 37 is configured to be rotatable about the base hook rotation shafts 371 and 371 as a central axis. Therefore, by rotating the base hook 37, the opening of the accessory storage unit 56 can be opened or closed. The accessory storage unit 56 can store a cuff 53 for connecting the dust collecting hose 38 and the electric tool. Further, a cuff housing portion 57 used for housing the cuff 53 is formed in the accessory housing portion 56. When the base hook 37 is opened, a small circular saw or the like can be placed on the inner surface of the base hook 37.
Further, a hooking portion 43 capable of hanging a cord, a hose, a nozzle or the like of the external device 50 is formed on the rear surface side of the main body portion 2.

Next, the periphery of the filter 20 will be described.
In the dust collector 1, a filter 20 is arranged so that a filtration surface is formed in the tank portion 3 on the upstream side of the main body portion 2. There are two types of the filter 20, a pre-filter 201 that is used to remove large dust and the like, and a main filter 202 that is used to remove fine dust and the like.
The pre-filter 201 has a bag shape having an opening, and is arranged along the opening 22 of the tank unit 3 so that the opening faces upward. The prefilter 201 is provided with a flexible nonwoven fabric and is subjected to antistatic processing. Note that the antistatic processing is an optional addition, and it is possible to prevent the antistatic processing from being performed.
Further, the main filter 202 has a bottomed cylindrical shape having a flange 202b around the upper end portion, but the bottom portion is configured so as not to allow ventilation, and has a structure allowing ventilation only from the cylindrical side surface. . The side face is provided with a pleated filter medium 202a, which increases the filtration efficiency.
A damper 54 is provided between the main filter 202 and the prefilter 201. The damper 54 has a cylindrical shape and is formed of a sponge.
Here, the purpose of use of the damper 54 will be described. The pre-filter 201 is a bag-like non-woven fabric, but has enough flexibility to be deformed by a suction force. Therefore, when the suction force is applied, the pre-filter 201 tends to be deformed so as to approach the main filter 202 side. If excessive deformation occurs in the pre-filter 201, the filtration efficiency deteriorates, but the presence of the damper 54 makes it possible to suppress excessive deformation. Further, the damper 54 having elastic force works to boost the restoration of the prefilter 201 to the normal state when the suction force is released. Therefore, it also serves to promote dust separation from the prefilter 201.

Next, a method for attaching the prefilter 201, the main filter 202, and the damper 54 will be described.
As shown in FIG. 5, the prefilter 201 is placed on the tank unit 3 so that the opening of the prefilter 201 is substantially coincident with the opening 22 of the tank unit 3.
Since the damper 54 can be attached to and detached from the flange 202b of the main filter 202, the damper 54 is attached to the main filter 202. The flange portion 202b of the main filter 202 with the damper 54 attached is placed on the prefilter 201 placed on the tank portion 3 in an overlapping manner. By placing the main body 2 on the tank 3 in this state, the prefilter 201 and the main filter 202 are sandwiched and fixed between the tank 3 and the main body 2. The tank portion 3 and the main body portion 2 can be fixed by hooking a hook 34 provided on the outer periphery of the tank portion 3 with a hook locking portion 35 provided on the main body portion 2.
Since the diameter of the protruding portion 9 provided in the main body 2 is smaller than the inner diameter of the main filter 202, the main body 2 and the main filter 202 are overlapped even when the main body 2 is overlapped with the main filter 202. Is not in contact.

Next, the battery will be described.
As shown in FIG. 11, the two batteries B1 and B2 are 18V output lithium ion batteries each containing a plurality of battery cells in a battery case, and are removed from the dust collector 1 and charged by a separately prepared charger. Therefore, it can be used repeatedly as a power source. Both batteries B1, B2 are provided with a pair of left and right rail parts B1b, B1c, B2b, B2c on the upper surface thereof. Positive and negative connection terminals B1d, B1e, B2d, and B2e are provided between the left and right rail portions B1b and B1c, and between B2b and B2c, respectively. Control signal transmission / reception connectors B1f and B2f are provided between the positive and negative connection terminals B1d and B1e and between the positive and negative connection terminals B2d and B2e.
In addition, locking claws B1g, B2gB1g, and B2g for locking the mounting state of the batteries B1 and B2 with respect to the battery mounting portions 12 and 12 move up and down at the end of the upper surface of the batteries B1 and B2 in the direction of removal. It is provided as possible.
As shown in FIG. 11, assuming that the outer dimensions of the batteries B1 and B2 are the length L, the width W, and the height H in the longitudinal direction, the batteries B1 and B2 have a length L> width W> height H. It has a generally rectangular parallelepiped shape that is related.
In this embodiment, two 18V batteries B1 and B2 are connected in series and used as a 36V battery. Therefore, the electric motor 13 is operated by a 36V power source output from two 18V batteries B1 and B2 connected in series.

In the present embodiment, since various electrical components are provided on the main body 2 side and not on the tank side, it is possible to facilitate electrical wiring. In addition, since the battery mounting portions 12 are arranged in parallel, the electrical wiring connecting the battery mounting portion 12 and the controller 18 only needs to be routed through the same route, so that the wiring of the electrical wiring is relatively easy. Can be done.
Further, in this embodiment, the electrical component is disposed only on the main body 2 side and is not disposed on the tank 3 side. For this reason, even if water or the like is used for cleaning the tank unit 3 side, problems are unlikely to occur, and cleaning of the tank unit 3 side that is relatively dirty can be made relatively simple.
Further, since the battery mounting portion 12 is disposed in the main body portion 2, the battery mounting portion 12 does not work to reduce the dust collection capacity of the tank portion 3.
In addition, since the battery mounting portion 12 is disposed adjacent to and in contact with the partition portion 8, the position of the upper end when the batteries B1 and B2 are attached does not protrude from the upper end of the main body portion 2, There is no need to secure a space in the height direction in order to provide the battery mounting portion 12. That is, it is possible to maintain a compact configuration.
In addition, in a state where the batteries B1 and B2 are attached to the dust collector 1, the batteries B1 and B2 do not protrude rearward from the bumper 6, so that damage to the batteries B1 and B2 can be suppressed.
Further, if the protective cover 17 is in a closed state, the protective cover 17 is located on the inner side of the bumper 6 provided around the tank portion 3, and damage to the protective cover 17 can be suppressed. is there.
In addition, since the battery mounting portion 12 and the batteries B1 and B2 are arranged above the exhaust port 16, even when moisture or the like sucked from the suction port 5 drips from the exhaust port 16, the moisture remains in the battery mounting portion. 12 and the like, and leakage can be suppressed.
In addition, since the protective cover 17 capable of protecting the batteries B1 and B2 is provided, when it is desired to avoid dust or rain, the batteries B1 and B2 and the battery mounting portion 12 are covered with the protective cover 17, so The batteries B1 and B2 and the battery mounting portion 12 can be protected from dust and rain. In addition, when the batteries B1 and B2 are not accommodated, the small area such as the cuff 53 used for attaching the dust collecting hose 38 may be accommodated in the area defined by the protective cover 17 and the protective cover base 58. Is possible.
If the surrounding environment is not bad, the protective cover 17 can be left open. If the protective cover 17 is opened, small items such as pencils and electric tools can be temporarily placed inside the protective cover 17.
The dust collector 1 in a state where the main body portion 2 is placed on the tank portion 3 and fixed by the hooks 34 has a substantially quadrangular pyramid shape at the top as a whole. By using the truncated pyramid shape, the vertical and horizontal spaces can be used more effectively than the truncated cone shape, so that it is possible to secure a capacity for collecting dust. In addition, since the lower part is wider than the upper part, it is difficult to fall.

Since the main change between Example 1 and Example 2 is that the position of the battery mounting part 12 is on the tank part 3 side, the change will be mainly described.
In the present embodiment, as shown in FIGS. 7 and 8, two battery mounting portions 12 are provided below the tank portion 3 and above the bumper 6. The battery mounting portions 12 are arranged in parallel in a horizontal state near the center in the left-right width direction. Moreover, the protective cover 17 is not provided in the tank part 3, but it arrange | positions so that some battery B1, B2 may protrude rather than the side surface of the tank part 3. FIG. Even in this state, the bumper 6 is not located on the outermost periphery of the dust collector 1.
Moreover, the tank part 3 of a present Example is the structure which enabled battery B1, B2 to be arrange | positioned to the concave part 55 of the substantially long angle | corner cylinder shape provided in the side surface. A battery mounting base portion 11 is provided on the inner upper surface of the concave portion 55, and two battery mounting portions 12 are provided on the battery mounting base portion 11. Each of the battery mounting portions 12 is provided with a pair of mounting rails 21 and 21 provided to sandwich the batteries B1 and B2, a pair of battery connection terminals 49 and 49, and a claw engaging portion 48, respectively. This is the same as Example 1 (not shown).
Further, in this embodiment, the batteries B1 and B2 are attached to the lower side with respect to the battery attachment portion 12. As shown in FIG. 7, the batteries B <b> 1 and B <b> 2 are configured to be attachable / detachable to / from the battery attachment portion 12 by moving in the horizontal direction.
Further, as shown in FIG. 8, the tank part 3 is provided with a tank part wiring 46 positioned between the opening part 22 of the tank part 3 and the battery mounting part 12. Are connected to the tank side terminal 44 and the battery connection terminal 49. The tank part side terminal 44 is configured to be connectable to a main body part side terminal 45 provided on the main body side when the main body part 2 is placed on the tank part 3. The main body side terminal 45 is connected to the controller 18 by a wiring (not shown).
The main body 2 is provided with a raised portion 47 that is not provided in the first embodiment. The raised portion 47 has a substantially triangular shape in a side view, and is provided on the upper side of the hanging portion 43. The raised portion 47 can be used together with the hanging portion 43 or alone to wind the cord.

If it is a present Example, since the batteries B1 and B2 which are comparatively heavy objects are attached to the tank part 3, the gravity center of the dust collector 1 whole will be stabilized. For this reason, even when a tall structure is used to increase the tank capacity, it is possible to suppress the balance from being lost due to the battery weight.
Moreover, since it is provided in the lower side in the tank part 3, even when the main body part 2 is removed, it is possible to suppress the balance from being lost due to the battery weight.
Further, since the protective cover 17 is not provided for the batteries B1 and B2, the batteries B1 and B2 can be quickly attached and detached.
Further, since the batteries B1 and B2 are attached in a state in which a part of the batteries B1 and B2 protrudes from the tank portion 3, the batteries B1 and B2 can be removed relatively easily.
Further, since the battery mounting portion 12 of the present embodiment is configured to mount the batteries B1 and B2 on the lower side, dust or the like hardly accumulates on the battery mounting portion 12, and the terminals provided on the battery mounting portion 12 are relatively dirty. Hateful.

The main change between the third embodiment and the first and second embodiments is that the dust collector 1 is provided with the DC output adapter 51 that can be connected to the external device 50. Therefore, the change will be mainly described. .
A DC output adapter 51 that can connect the dust collector 1 and the external device 50 is provided on the front side surface of the dust collector 1. The DC output adapter 51 includes a cord portion 51a integrated with the dust collector and an external device connecting portion 51b connected to the end of the cord portion 51a. The external device connection part 51b is a part that is inserted into the battery insertion port of the external device 50, and the cord part 51 is a cord that accommodates an electrical wiring for connecting the external device connection part 51b and the controller 18 inside.
The control means provided in the dust collector 1 is provided with a control function, and when the DC output adapter 51 is energized, an interlocking state in which the dust collector 1 is operated can be selected. In addition, the stop state and the operation state can be selected. By selecting the interlocking state, when the external device 50 is switched on and the DC output adapter 51 is energized, the operation of the dust collector 1 is turned on. Conversely, when the external device 50 is switched off and the energized state of the DC output adapter 51 is released, the operation of the dust collector 1 is turned off.
For example, as shown in FIG. 9, the dust collector 1 and the external device 50 (jigsaw) are connected via the dust collection hose 38 and the cuff 53 connected to the suction port 5 of the dust collector 1. Further, a DC output adapter 51 is connected to a jigsaw that is the external device 50. The DC output adapter 51 can be attached to and detached from the jigsaw by moving it as indicated by an arrow.
The jigsaw connected to the DC output adapter 51 can obtain electricity charged in the batteries B1 and B2 via the dust collector 1.
When the jigsaw which is a cutting tool is operated, the cutting material is cut. Since the dust collector 1 is also operated when the jigsaw is operated, dust generated when cutting the cutting material can be efficiently collected by the dust collector 1.

If it is a present Example, electricity can be supplied from the dust collector 1 with respect to the external apparatus 50 using a DC battery, especially an electric tool.
Further, by providing a control function on the dust collector 1 side, it is possible to select an interlocking state in which the operation state of the dust collector 1 can be changed in accordance with the operation state of the external device 50.
In addition, the dust collector can be turned on or off regardless of the operating state of the external device.

The present invention can be implemented in various forms in addition to the above embodiment.
For example, it is also possible to provide an opening or the like in a standing wall that partitions the controller so that the controller can be cooled by the flow of cooling air from the motor.
It is also possible not to perform charging processing on the prefilter.
In addition, when the battery mounting portion is provided on the main body portion, it is possible not to provide a protective cover.
Further, when the battery mounting portion is provided in the tank portion, a protective cover can be provided.
Further, the battery mounting portions do not have to be provided in parallel in the horizontal direction, and can be provided in parallel in the vertical direction or can be provided in an isolated state. For example, it is possible to provide one battery mounting part on each side of the operation part, and it is also possible to provide one battery mounting part on each side of the inlet side and outlet side of the cooling air. Even when a battery is provided in the tank portion, it can be arranged on both the left and right side surfaces.
Further, the number of batteries is not limited to two, and a plurality of three or more batteries may be used.
In addition, when the DC output adapter is provided, the dust collector does not need to be moved by a rechargeable battery, and the power source of the dust collector can use an AC power source.
Moreover, what enables the linked operation with the DC output adapter is not limited to a jigsaw, and can be linked to various electric tools such as various cutting tools and hammer drills.
The plurality of batteries can be used not only to increase the voltage but also to increase the continuous use time without changing the voltage.
Moreover, it is possible not only to use a plurality of batteries but also to use only one battery.
In addition, the space where the controller is disposed and the space where the electric motor is disposed are not separated from each other by the standing wall, and the space where the controller is disposed and the space where the electric motor is disposed are used as a common space. It is also possible.
Moreover, it is also possible to raise the cooling efficiency of a battery or a controller by arrange | positioning a battery or a controller in the upstream of an electric motor with respect to motor cooling air.
Moreover, it is also possible to make it the structure which communicates, without setting it as the structure which partitions off an exhaust passage and a battery attaching part.
In addition, the DC output adapter is not necessarily integrated with the dust collector, and can be attached to and detached from the dust collector.
Further, the separating means is not limited to a filter, and a cyclone may be adopted, or a filter and a cyclone separating means may be combined.

DESCRIPTION OF SYMBOLS 1 Dust collector 2 Main body part 3 Tank part 4 Wheel 5 Intake port 6 Bumper 7 Intake unit 8 Partition part 9 Projection part 10 Inlet part 11 Battery attachment base 12 Battery attachment part 13 Electric motor 17 Protective cover 19 Operation part 24 Fan 51 DC output Adapter B1 Battery B2 Battery

Claims (4)

A tank portion having an inlet and having an opening in the upper portion; and a main body portion disposed above the tank portion so as to close the opening, the main body portion including an electric motor driven by electric power, and the electric motor A fan that rotates so that a suction force is generated at the suction port of the tank unit by rotating the motor, and a dust collector comprising:
The dust collector is provided with a plurality of battery mounting portions in a main body portion. A tank portion having an inlet and having an opening in the upper portion; and a main body portion disposed above the tank portion so as to close the opening, the main body portion including an electric motor driven by electric power, and the electric motor A fan that rotates so that a suction force is generated at the suction port of the tank unit by rotating the motor, and a dust collector comprising:
The dust collector includes a plurality of battery mounting portions in a tank portion. A tank portion having an inlet and having an opening in the upper portion; and a main body portion disposed above the tank portion so as to close the opening, the main body portion including an electric motor driven by electric power, and the electric motor A fan that rotates so that a suction force is generated at the suction port of the tank unit by rotating the motor, and a dust collector comprising:
A dust collector comprising a DC output adapter. A dust collector according to any one of claims 1 to 3,
A dust collector comprising a controller that can be electrically connected to a plurality of batteries.

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