KR102193126B1 - Slide Switch Unit - Google Patents

Abstract

A slide switch unit capable of multi-directional switch operation with one knob is disclosed. The slide switch unit according to the present invention includes a case portion in which a rod receiving hole is formed, a knob having a transfer rod positioned in the rod receiving hole, a plurality of push switches installed inside the case portion and mounted on an upper surface of a substrate spaced apart from the knob, It is interposed between the knob and the push switch and includes an actuator that tilts according to the sliding operation of the knob by the user to turn the push switch on, and includes a plurality of curved guide surfaces under the rod receiving hole of the case. A sphere receiving portion is formed, and the actuator includes a sphere rotatably accommodated in the sphere receiving portion while a part of the outer surface is in contact with the guide surface, and the input rod at the top of the sphere is pivotally connected to the transmission rod, and the bottom of the sphere is in a neutral state. The main point is that a load support portion protruding downward to contact a part of the upper surface is formed, and a plurality of pressure blades protruding corresponding to the push switch is formed on the outer surface of the sphere.

Description

Slide Switch Unit

The present invention relates to a slide switch unit, and more particularly, to a slide switch unit capable of multi-directional switch operation with one knob.

Vehicles such as automobiles are required to function as various convenience means that allow users to provide a more stable and comfortable driving condition beyond the function as a moving means. Accordingly, the vehicle is equipped with various convenience facilities and various switches for operating and controlling them.

Switches applied to vehicles for control and operation of amenities include, for example, power window switches, power seat switches, and power side mirror switches. Among them, the power seat switch is a switch provided to realize an optimal seat position with a simple switch operation.

In general, a conventional power seat switch is a knob that is slid in multiple directions by a user's operation and a substrate that is spaced apart from the knob and has a plurality of switch contacts, and an operating force input through the knob is applied to the switch contact. It consists of an operation part interposed between the substrate and the knob to transfer.

Here, the operation unit includes an actuator having a pressurizing blade in contact with the switch contact unit, a slider connecting the actuator and the knob in an interlocking manner, and a holder supporting the slider so as to perform a two-dimensional plane movement in the horizontal direction within the case. Includes.

However, the conventional power seat switch having such a configuration has a large number of components (slider, actuator, holder, etc.) that make up the operating part, that is, a component that transmits the switch operation force input through the knob to the switch contact of the substrate It is complex, and there is a disadvantage in that the mass production of the product is poor.

In addition, due to the use of many parts, the cost competitiveness of the product increases due to the increase in the production cost, and the more parts, the greater the tolerance to be managed, so tolerance management is very difficult, and even with careful tolerance management, parts are composed of many parts. There is a problem in that an operating gap is generated due to the accumulation of tolerances in the connecting parts.

Korean Patent Registration No. 10-1510953 (registered on April 3, 2015)

The technical problem to be solved by the present invention is to provide a slide switch unit capable of significantly reducing the number of parts, improving productivity and reducing costs, and improving product quality while improving tolerance management problems.

According to an embodiment of the present invention as a means for solving the problem,

A case portion in which a rod receiving hole is formed;

A knob having a transfer rod positioned in the rod receiving hole;

A plurality of push switches installed inside the case and mounted on an upper surface of the substrate spaced apart from the knob;

It is interposed between the knob and the push switch, the tilting operation according to the sliding operation of the knob by the user to turn on the push switch (Turn-On) an actuator; includes,

A spherical receiving part including a plurality of curved guide surfaces is formed under the rod receiving hole of the case part,

The actuator includes a sphere rotatably accommodated in the sphere receiving portion while a part of the outer surface is in contact with the guide surface,

The input rod at the upper end of the sphere is pivotally connected to the transmission rod, and a load support portion protruding downward so as to contact a part of the upper surface of the substrate in a neutral state is formed at the lower end of the sphere,

The outer surface of the sphere provides a slide switch unit in which a plurality of pressure blades are formed corresponding to the push switch.

Here, the case portion may include an upper case including the rod receiving hole and the spherical receiving portion, and a lower cover that is coupled under the upper case and on which the substrate is seated and fixed.

In addition, with respect to the first operation direction of the knob for the case part, the rod receiving hole and the spherical receiving part are composed of a pair of left and right, and the actuator is composed of a pair of left and right so that the sphere is positioned in each of the pair of left and right receiving parts And, a plurality of push switches may be disposed within one actuator tilting operating range.

Preferably, in one actuator, two pressing blades are formed symmetrically around a sphere with respect to the first operating direction, and two pressing blades different for a second operating direction orthogonal to the first operating direction. Can be formed symmetrically around a sphere.

In this case, a pair of left and right actuators may be simultaneously or independently tilted by one knob.

In addition, the vertical linear distance between the load support part of the actuator in contact with the upper surface of the substrate in the knob neutral state and the lower surface of the pressure blade in constant contact with the movable contact part of the push switch may be the same as the height of the push switch in the turn-off state. have.

According to the slide switch unit according to an exemplary embodiment of the present invention, the structure of a portion that transmits a switch operation force input through a knob to a push switch on a substrate is very simple. Therefore, compared to the conventional configuration, the number of parts constituting the switch unit is significantly reduced, thereby improving productivity and reducing costs.

In addition, as the number of parts decreases, the tolerance to be managed is reduced, so that tolerance management is easy, and since it is a simple structure, it is advantageous in maintenance. In addition, due to the tilting mechanism of the ball and ball housing method, it is possible to implement a simple configuration and accurate switching operation, thereby improving quality satisfaction.

In addition, since the load support part at the bottom of the actuator is in contact with one surface of the substrate in the switch neutral state to support the actuator, it prevents the removal of parts (actuator) due to the load applied in the vertical direction to the actuator in the neutral state and the resulting switch malfunction You can definitely prevent it.

1 is a perspective view of a slide switch unit according to an embodiment of the present invention.
2 is an exploded perspective view showing the configuration of each part of the slide switch unit shown in FIG. 1;
3 is a cut-away cross-sectional view of the slide switch unit shown in FIG. 1 as viewed in the direction of line AA.
Figure 4 is an enlarged perspective view of the main part of the present invention showing a concrete receiving portion of the upper case.
5 is a cut-away cross-sectional view of the slide switch unit of FIG. 1 as viewed from the line BB.
Figure 6 is an operating state diagram of the present invention when the knob is operated in the first operating direction.
Figure 7 is an operating state diagram of the present invention when the knob is operated in the second operating direction.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The terms used in the specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present specification, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other features or It is to be understood that the presence or addition of numbers, steps, actions, components, parts, or combinations thereof does not preclude the possibility of preliminary exclusion.

In addition, terms such as first and second may be used to describe various elements, but the elements should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component.

In addition, terms such as "... unit", "... unit", "... module" described in the specification mean a unit that processes at least one function or operation, which can be implemented by hardware or software or a combination of hardware and software. I can.

In the following description with reference to the accompanying drawings, the same drawing reference numerals are assigned to the same elements, and redundant descriptions thereof will be omitted. In addition, in describing the present invention, when it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Hereinafter, of the direction terms used in describing the embodiments of the present invention, the first operation direction is a direction in which two actuators arranged to form a left and right pair with one knob can be simultaneously operated, and the second operation direction is in the same plane. As a direction orthogonal to the first operation direction, it means a direction in which only one of the two actuators can be independently operated.

1 is a combined perspective view of a slide switch unit according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view showing the configuration of each part of the slide switch unit shown in FIG. 1. And Figure 3 is a cut-away cross-sectional view of the slide switch unit shown in Figure 1 in the direction of line AA, Figure 4 is a cut-away perspective view of the main part of the present invention showing an enlarged spherical receiving portion of the upper case, Figure 5 is the slide switch of Figure 1 It is a cutaway cross-sectional view of the unit as viewed from the line BB.

1 to 5, the slide switch unit 1 according to the present invention includes a case portion 20 in which a rod receiving hole 23 is formed and a transfer rod 12 located in the rod receiving hole 23. It includes a knob 10 provided. In the case part 20, a mounting hole 120 for accommodating the substrate 40 and the actuator 30 is formed therein, and the knob 10 is formed on the upper part of the case part 20 in a first operation direction and perpendicular thereto. It is arranged to be slidable in the second operation direction.

The case part 20 includes an upper case 22 and a lower cover 26 which is coupled under the upper case 22 to form a space between the mounting holes 120. The upper case 22 has a rod receiving hole 23 and a spherical receiving portion 24 formed under the rod receiving hole 23, and is combined with the upper case 22 to form a space between the mounting holes 120 On the lower cover 26, the substrate 40 may be firmly seated and fixed by a bolt fixing method.

A plurality of coupling holes 220 are formed on the side of the upper case 22 over equal or equal intervals, and an elastic hook 260 at a position corresponding to each of the coupling holes 220 on the outer circumference of the lower cover 26 Is equipped. The coupling hole 220 and the elastic hook 260 are configured to be engaged with each other, and thus the upper case 22 and the lower cover 26 are mutually rigid by the coupling of the coupling hole 220 and the elastic hook 260 Can be combined together.

A substrate 40 is installed inside the case 20. The substrate 40 is disposed inside the case 20 at a predetermined distance from the knob 10, and a plurality of push switches 42 are mounted on the upper surface of the substrate 40. The push switch 42 may be configured to be turned on according to a tilting motion of the actuator 30 in the first operation direction or the second operation direction linked to the operation of the knob 10 to output a predetermined electric signal. have.

The push switch 42 may preferably be a tact switch, but is not limited thereto. Various changes are possible within a range having a switching mechanism that is turned on by the pressing force according to the tilting operation of the actuator 30, and returns to the original position when the switch operation force by the user is removed and turns off. . For example, it may be replaced with a rubber dome switch.

The push switch 42 is connected to establish electrical communication with an external electric device, for example, an electronic control unit, through a substrate 40 and a connector (not shown) attached to the substrate 40, thereby transmitting an electrical signal generated when the switch is turned on. The external electric device may be output to the external electric device such as an electronic control unit, and the external electric device may recognize a signal provided by the push switch 42 and output a corresponding control command to a driving unit, such as a power seat driving unit.

Several push switches 42 are disposed within a tilting operating range of one actuator 30. Preferably, as shown in the example of FIG. 1, when a total of four pressing blades 36 are configured to form a pair in a symmetrical pair with respect to the first operation direction and the second operation direction on one actuator 30, the first operation direction As only one is disposed and may be disposed to correspond to each of the two pressure blades 36 for the second operation direction.

The actuator 30 is interposed between the knob 10 and the push switch 42 in the case portion 20. The actuator 30 may turn on the push switch 42 according to the user's operation of the knob 10. More specifically (34), a tilting operation is performed according to a sliding operation in the first or second operation direction of the knob 10 by the user, and is turned on by pressing the push switch 42 located on the tilting operation side. (Turn-On) can be turned on.

As shown in FIG. 4, a sphere receiving portion 24 including a plurality of curved guide surfaces 240 is formed under the rod receiving hole 23, and a sphere 34 is provided in the actuator 30. The sphere 34 is rotatably accommodated in the sphere receiving portion 24 so that a part of its outer surface is in contact with the guide surface 240. Accordingly, the actuator 30 may be stably tilted around the sphere 34 rotatably accommodated in the sphere receiving portion 24.

An input rod 32 is formed on the top of the sphere 34 of the actuator 30. The input rod 32 is provided with a pair of binding shafts 320, and the binding shaft 320 is pivotally connected so that one side portion of the long hole 120 of the transmission rod 12 and a part of the outer surface thereof are in contact with each other.

Therefore, when the knob 10 slides, the operating force is transmitted to the transmission rod 12 to the input rod 32 of the actuator 30, and the operating force input through the input rod 32 to the spherical receiving portion 24. The actuator 30 is tilted to one side around the received sphere 34, and as a result, the push switch 42 located in the direction in which the actuator 30 is tilted is pressed against the pressure blade 36 of the actuator 30 and turned. Turn-On.

The lower end of the sphere 34 is provided with a load support portion 38 protruding downward so as to contact a part of the upper surface of the substrate 40 in a neutral state. The load support part 38 contacts the substrate 40 in the switch neutral state so that the actuator 30 is stably supported on the substrate 40, so that the load is applied to the actuator 30 in the neutral state. Part (actuator) separation and resulting switch malfunction can be prevented.

The pressure blade 36 may be a configuration extending in the horizontal direction from the sphere 34, and is configured in plural so as to correspond to the plurality of push switches 42 located within the operating range of one actuator 30, (10) It is possible to turn-on by pressing the push switch 42 disposed on the tilting side according to the tilting operation in the first or second operation direction of the actuator 30 according to the slide operation.

In one actuator 30, preferably, two pressing blades 36 are formed symmetrically about the sphere 34 with respect to the first operating direction, and two pressing blades 36 different with respect to the second operating direction. ) May be formed symmetrically around the sphere 34, but in some cases (in the case of a 2-way operation structure), there are various types according to design specifications, such as configuring only two pressure blades 36 in the first operation direction. Transformation is possible.

The vertical distance between the load support part 38 and the pressure blade 36 in the neutral state of the knob 10, more specifically, the load support part of the actuator 30 in contact with the upper surface of the substrate 40 ( 38) and the vertical linear distance (D) between the lower surface of the pressure blade 36, which is in constant contact with the movable contact portion 420 of the push switch 42, is the height of the push switch 42 in the turn-off state (H Can be the same as ).

With this configuration, the plurality of push switches 42 located within the operating range of one actuator 30 in the neutral state of the knob 10 can all stably maintain the turn-off state, and in the neutral state of the knob 10 Even if a load is applied to the actuator 30 in the vertical direction, separation of parts (actuators) due to the load and the resulting switch malfunction can be reliably prevented.

As illustrated in FIG. 3, the rod receiving hole 23 and the spherical receiving part 24 described above with respect to the first operating direction of the knob 10 with respect to the case part 20 are composed of a pair of left and right, one left and right. The actuator 30 may be configured as a pair of left and right so that the sphere 34 is positioned in each of the pair of sphere receiving portions 24. In addition, for each of the actuators 30, a plurality of push switches 42 may be disposed within the tilting operating range of the actuator 30.

In the configuration as shown in the figure, a pair of left and right actuators 30 aligned in the first operation direction may be simultaneously tilted or independently tilted by one knob 10.

Independent tilting of the pair of left and right actuators 30 connected to one knob 10 is a long hole 120 of the transmission rod 12 corresponding to a part of the outer surface of the binding shaft 320 of one actuator in a switch neutral state. ) Abutting with one side portion, and a part of the outer surface of the binding shaft 320 of the other actuator may be implemented from a configuration that abuts against the side portion opposite the long hole 120 of the corresponding transmission rod 12 (an enlarged view of the main part of FIG. 3 See'C','D').

The operation of the slide switch unit according to the embodiment of the present invention configured as described above will be briefly examined with reference to the drawings, but two actuators can be operated in multiple directions with one knob as shown in FIGS. 1 to 5. Let's look at the configuration that exists as an example.

6 is a diagram illustrating an operation state of the present invention when a knob is operated in the first operation direction.

As mentioned above, in the slide switch unit 1 according to the embodiment of the present invention, a side part of the long hole 120 of the transmission rod 12 corresponding to a part of the outer surface of the binding shaft 320 of one actuator in the switch neutral state Abutting, and a part of the outer surface of the binding shaft 320 of the other actuator is configured to abut the side portion opposite the long hole 120 of the corresponding transmission rod 12 (enlarged views'C','D' Reference).

According to this configuration, when the knob 10 is pushed in the direction of the arrow in the drawing with respect to the first operation direction as shown in FIG. 6, the force is applied to one side through one transmission rod 12 (left transmission rod in the drawing) It is transmitted only to the actuator 30 (the left actuator in the drawing) so that the actuator is tilted in the direction in which the force is applied, and the force is not transmitted to the other actuator (the right actuator in the drawing).

The actuator 30 to which the force is applied (left actuator in the drawing) is tilted in the direction in which the force is applied around the sphere 34 rotatably accommodated in the sphere receiving portion 24 (see the arrow direction in Fig. 6), and the actuator One push switch 42 located on the side where 30 is tilted is pressed by the pressure blade 36 to be turned on (Turn-On).

The push switch 42 is connected to make electrical communication with an external electric device, for example, an electronic control unit, through a board 40 and a connector (not shown) attached to the board 40. Accordingly, the switching signal generated by the turned-on push switch is output to an external electric device through a connector and a dedicated cable, and the external electric device recognizes the signal provided by the push switch 42 and It will be operated or controlled.

7 is a view showing an operating state of the present invention when the rear end of the knob (the right part of the knob in the drawing) is slid in the second operation direction.

Referring to FIG. 7, when the rear end of the knob 10 is pushed in the direction of the arrow in the drawing with respect to the second operation direction, the force is directly transmitted to the actuator 30 through the transmission rod 12. Accordingly, the actuator 30 is tilted in the direction in which the force is applied around each sphere 34 rotatably accommodated in the sphere receiving portion 24, and the push switch 42 located on the side where the actuator 30 is tilted. It is turned on by the pressure blade (36).

Likewise, the push switch 42 is connected to establish electrical communication with an external electric device, for example, an electronic control unit, through a connector (not shown) attached to the substrate 40 and the substrate 40, so that the push switch is turned on. The electrical signal generated by 42 is output to an external electrical device through a connector and a dedicated cable, and the external electrical device recognizes a signal provided by the push switch 42 and performs a corresponding operation or control.

Although not shown, in the case of sliding operation of the front end of the knob 10 (the left part of the knob in the drawing), only the tilting actuator 30 is different, but the basic switch operation principle is the same as that of FIG. 7. Therefore, a redundant description thereof will be omitted.

According to the slide switch unit according to the exemplary embodiment of the present invention described above, the structure of the portion that transmits the switch operation force input through the knob to the push switch on the substrate is very simple. Therefore, compared to the conventional configuration, the number of parts constituting the switch unit is significantly reduced, thereby improving productivity and reducing costs.

In addition, as the number of parts decreases, the tolerance to be managed is reduced, so that tolerance management is easy, and since it is a simple structure, it is advantageous in maintenance. In addition, due to the tilting mechanism of the ball and ball housing method, it is possible to implement a simple configuration and accurate switching operation, thereby improving quality satisfaction.

In addition, since the load support part at the bottom of the actuator is in contact with one surface of the substrate in the switch neutral state to support the actuator, it prevents the removal of parts (actuator) due to the load applied in the vertical direction to the actuator in the neutral state and the resulting switch malfunction You can definitely prevent it.

In the above detailed description of the present invention, only specific embodiments according thereto have been described. However, it should be understood that the present invention is not limited to a particular form mentioned in the detailed description, but rather, it is understood to include all modifications, equivalents, and substitutes within the spirit and scope of the present invention as defined by the appended claims. Should be.

1: switch unit 10: knob
12: transmission rod 20: case portion
22: upper case 23: rod receiving hole
24: sphere receiving portion 26: lower cover
30: actuator 32: input rod
34: sphere 36: pressure blade
38: load support 40: substrate
42: push suchi 120: long hole
220: coupling hole 240: guide surface
260: elastic hook 320: binding shaft

Claims (6)

A case portion in which a rod receiving hole is formed;
A knob having a transfer rod positioned in the rod receiving hole;
A plurality of push switches installed inside the case and mounted on an upper surface of the substrate spaced apart from the knob;
It is interposed between the knob and the push switch, the tilting operation according to the sliding operation of the knob by the user to turn on the push switch (Turn-On) an actuator; includes,
A spherical receiving part including a plurality of curved guide surfaces is formed under the rod receiving hole of the case part,
The actuator,
A sphere rotatably accommodated in the sphere receiving portion while part of the outer surface is in contact with the guide surface,
An input rod formed on the upper end of the sphere and pivotally connected to the transmission rod,
A load supporting part formed at the lower end of the sphere and protruding downward to contact a part of the upper surface of the substrate in a neutral state,
A slide switch unit comprising a plurality of pressure blades formed on the outer surface of the sphere corresponding to the push switch.
The method of claim 1,
The case part,
An upper case having the rod receiving hole and the spherical receiving portion;
A slide switch unit consisting of a lower cover coupled to the lower part of the upper case and on which the substrate is seated and fixed.
The method of claim 1,
With respect to the first operating direction of the knob relative to the case portion, the rod receiving hole and the spherical receiving portion are composed of a pair of left and right,
The actuator is composed of a pair of left and right so that a sphere is located in each of the pair of left and right sphere receiving portions,
A slide switch unit in which a plurality of push switches are arranged within a tilting operating range of one actuator.
The method of claim 3,
In one actuator,
Two pressure blades are symmetrically formed around a sphere with respect to the first operating direction,
A slide switch unit in which two different pressing blades are formed symmetrically around a sphere with respect to a second operation direction orthogonal to the first operation direction.
The method of claim 3,
A slide switch unit that tilts a pair of left and right actuators simultaneously or independently with a single knob.
The method of claim 1,
A slide switch unit in which the vertical linear distance between the load support part of the actuator in contact with the upper surface of the substrate in the knob neutral state and the lower surface of the pressure blade in constant contact with the movable contact part of the push switch is equal to the height of the push switch in the turn-off state.

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