JP7267853B2 - switch device - Google Patents

Description

The present invention relates to a switch device capable of multidirectional operation.

2. Description of the Related Art Conventionally, there is a well-known switch device in which a knob can be operated in multiple directions (see Patent Document 1, etc.). This type of switch device includes, for example, a switch device that includes a first operation knob, a second operation knob, a first contact, and a second contact.

The first operation knob is formed in an annular shape as a whole, and is supported so as to be swingable so as to receive operations in four directions of up, down, left, and right. The second operating knob is arranged in the opening of the first operating knob and configured to receive a pressing operation in a specific direction different from that of the first operating knob. The first contact detects whether or not the first operating knob is operated. The second contact detects whether or not the second operating knob is operated.

JP 2005-302347 A

By the way, in such a switch device, the second operation knob swings following the operation of the first operation knob. On the other hand, when a pressing operation on the second operating knob is received, the second operating knob is independently displaced independently of the operation on the first operating knob. If the operating load on the second operating knob is larger than expected, the load applied to the second contact will be larger than expected.

Then, in a normal switch device, there is a possibility that an abnormality will occur in the contact. In other words, in the prior art, a switch device that takes into account the durability of the parts has been desired.
SUMMARY OF THE INVENTION It is an object of the present invention to provide a switch device in which durability of parts can be ensured.

A switch device that solves the above-described problem swings about a plurality of swing axes extending in directions intersecting the first specific direction and extending in different directions when pressed in a first specific direction . and a first operating portion that can be tilted in a plurality of directions by a pressing operation in the first specific direction; a second operating portion that is displaced and displaces following the operation of the first operating portion when a pressing operation to the first operating portion is received; and pressing the second operating portion in the specific direction. A contact for detecting an operation and a stopper portion for restricting displacement of the second operation portion in the specific direction are provided.

According to the present invention, it is possible to ensure the durability of the parts in the switch device.

1 is a plan view of a switch device according to one embodiment; FIG. The electric block diagram of a switch apparatus. II-II line cross-sectional view of FIG. FIG. 2 is a cross-sectional view taken along line III-III of FIG. 1; FIG. 2 is a cross-sectional view taken along the line VV of FIG. 1; FIG. 2 is an exploded perspective view of the switch device; FIG. 2 is a state diagram when the first operation unit is operated in the IV-IV line cross section of FIG. 1; FIG. 2 is a state diagram when the second operation unit is operated in the IV-IV line cross section of FIG. 1; FIG. 2 is a diagram of the state when the first operating portion is bent in the IV-IV line cross section of FIG. 1;

An embodiment of the switch device will be described below with reference to FIGS. 1 to 9. FIG.
As shown in FIG. 1 , the switch device 1 includes a first operating portion 2 that can be tilted in a plurality of directions by the pressing operation when receiving a pressing operation, and a direction different from the operation direction of the first operating portion 2 . (the depth direction of the paper surface of FIG. 1 or the arrow B1 direction shown in FIG. 3 or the like). As described above, the switch device 1 of this example is a multi-directional switch that operates the operation portions of the first operation portion 2 and the second operation portion 3 in multiple directions. The switch device 1 is preferably used as an in-vehicle switch, for example.

The first operating portion 2 is a rocking switch operated by tilting a knob (hereinafter referred to as a first knob 4) of the first operating portion 2 with the center P as a reference. The first knob 4 is formed in an annular shape. The first operation unit 2 is a four-way operation switch that can operate the first knob 4 in four directions, for example, up, down, left, and right. The switch function assigned to each operation direction of the first knob 4 includes, for example, a function to switch the magnitude of the output and a function to switch ON/OFF of the operation.

The second operating section 3 is a push switch arranged in the center of the first operating section 2 . A knob of the first operation unit 2 (hereinafter referred to as a second knob 5 ) is arranged inside a hole 6 formed in the center of the annular first knob 4 . The second operating portion 3 is displaced following the operation to the first operating portion 2 when the pressing operation to the first operating portion 2 is accepted. That is, when the first operation portion 2 is operated, the second operation portion 3 moves so as to follow the first operation portion 2 by applying the operation load of the first operation portion 2 .

The switch device 1 has a bezel 7 as a base portion of the switch device 1 . The bezel 7 includes a bezel main body 8 and a decorative portion 9 that secures the design of the bezel 7. - 特許庁The bezel main body 8 is made of, for example, black resin. The decorative portion 9 may be, for example, a metal-like coating on a resin of any color, or may be formed of a transparent resin containing metal powder (for example, aluminum powder).

As shown in FIGS. 3 and 4 , the switch device 1 includes a body portion 12 forming a body portion of the switch device 1 and a lid portion 13 covering the back side of the body portion 12 . A substrate 14 on which electrical components of the switch device 1 are mounted is provided inside the body portion 12 and the lid portion 13 , and a plurality of contacts 15 are provided on the substrate 14 . The contact 15 includes a first contact 16 that detects an operation of the first operating section 2 and a second contact 17 that detects an operation of the second operating section 3 . The first contact 16 includes a first contact 16a for detecting an operation on the upper portion of the first operating portion 2, a first contact 16b for detecting an operation on the lower portion of the first operating portion 2, A first contact 16c for detecting an operation on the left portion and a first contact 16d for detecting an operation on the right portion of the first operating portion 2 are provided. The second contact 17 detects pressing operation in the specific direction B1 with respect to the second operation portion 3 .

A rubber 18 made of a rubber material is provided on the upper surface of the substrate 14 to cover the first contact 16 and the second contact 17 from above. The rubber 18 is formed in a sheet shape. The rubber 18 includes a plurality of first bulging portions 19 that accommodate the first contacts 16 and second bulging portions 20 that accommodate the second contacts 17 . The first bulging portion 19 and the second bulging portion 20 are formed by processing a portion of the rubber 18 into a dome shape.

As shown in FIGS. 4 to 6, the second operation section 3 includes a holder (hereinafter referred to as a second holder 23) that supports the second knob 5 from the back side and moves integrally with the second knob 5. As shown in FIGS. As described above, the second operation portion 3 includes the second knob 5 that receives the operation, and the second holder 23 that operates the second contact 17 according to the operation of the second knob 5 . The second holder 23 is formed in a substantially cylindrical shape with a bottom, and is attached and fixed to the second knob 5 by, for example, a snap-fit structure using a protrusion 23a (see FIG. 5). A space 27 is formed in the second holder 23 by making the inside hollow. When the second knob 5 is pressed, the protrusion 24 provided on the bottom of the second holder 23 contacts the second bulging portion 20 of the rubber 18, and the second bulging portion 20, through the second bulging portion 20, The second contact 17 is pressed.

A flange portion 25 is formed on the side surface of the second holder 23 to support the first knob 4 of the first operation portion 2 from the rear side. The flange portion 25 is annularly formed around the axis of the second holder 23 . The inner surface of the hole portion 6 of the first knob 4 is formed with an extension portion 26 that engages with the flange portion 25 of the second holder 23 . The extending portion 26 is annularly formed around the axis of the first knob 4 . When the first knob 4 is assembled to the second operating portion 3 , the extending portion 26 is placed on the flange portion 25 of the second holder 23 .

The first operation unit 2 includes a holder (hereinafter referred to as a first holder 29) that operates the first knob 4 in multiple directions. A ring-shaped holder body 30 is provided in the first holder 29 , and the second operating portion 3 is arranged inside the holder body 30 . A pair of protrusions 31 are provided on the side surface of the holder body 30, and these protrusions 31 are engaged with insertion holes 32 (shown in FIG. 4) formed in the first knob 4, respectively. Further, in the holder body 30, a pair of locking holes 33 (shown in FIG. 6) are arranged so as to intersect the projections 31 at approximately 90 degrees in the planar direction of the holder body 30 (the YZ plane direction in FIG. 6). ) is formed. These locking holes 33 are engaged with projections 35 (only one is shown in FIG. 6) of a pair of standing pieces 34 provided on the body portion 12 .

The first holder 29 is rotatable about an axis L1 extending in the axial direction of the protrusion 31 and rotatable about an axis L2 extending in the axial direction of the protrusion 35 . Thus, the first knob 4 is allowed to move in four directions by making the first holder 29 rotatable about two axes, ie, about the axis L1 and about the axis L2.

The first operating portion 2 includes a pusher 38 that moves integrally with the first knob 4 and pushes the first contact 16 . The number of pushers 38 in this example is equal to the number of operation directions of the first operation unit 2 , and four pushers 38 are provided in this example in which the operation directions are four. In this example, the pusher 38 includes a first pusher 38a that pushes the first contact 16a when the upper part of the first operating part 2 is operated, and a first pusher 38a that pushes the first contact 16a when the lower part of the first operating part 2 is operated. A second pusher 38b that pushes the first contact 16b, a third pusher 38c that pushes the first contact 16c when the left portion of the first operating portion 2 is operated, and a third pusher 38c which pushes the first contact 16c when the right portion of the first operating portion 2 is operated. and a fourth pusher 38d for pushing the first contact 16d.

The pusher 38 includes a pusher body 39 having a cross-shaped cross section and an arm portion 40 projecting from the lower end of the pusher body 39 . The pusher 38 has a pusher body 39 housed in a hollow housing portion 41 formed in the body portion 12 and an arm portion 40 arranged in a hole portion 43 penetrating through a bottom wall 42 of the body portion 12 . . The body portion 12 is formed with a substantially U-shaped retaining portion 44 that restricts upward movement of the pusher body 39 .

As shown in FIGS. 3 to 6, the switch device 1 includes a stopper portion 47 that restricts displacement of the second operating portion 3 in the specific direction B1. The stopper portion 47 restricts excessive movement of the second operating portion 3 when the second operating portion 3 is pressed. The stopper portion 47 of the present example supports the second operation portion 3 from the back side and regulates the position thereof when the second operation portion 3 is pressed. The stopper portion 47 restricts the position of the second holder 23 of the second operation portion 3 . The stopper portion 47 in this example is formed in the body portion 12 , and in this example, is formed in the periphery of an opening 48 that guides the second holder 23 to the second contact 17 side.

The stopper portion 47 is arranged so that the second operating portion 3 is out of contact when the first operating portion 2 is operated and the second operating portion 3 follows the first operating portion 2 . In the case of this example, the projection amount T (see FIG. 3) of the stopper portion 47 is the second operation portion 3 when the first operation portion 2 is operated and the second operation portion 3 follows the first operation portion 2. is set to a length that does not touch

As shown in FIG. 6 , the stopper portion 47 includes a pair of stopper pieces 49 arranged so as to face each other on the periphery of the opening 48 . The pair of stopper pieces 49 are formed in, for example, a substantially fan shape.

The switch device 1 includes an illumination section 50 that illuminates both the first operation section 2 and the second operation section 3 from the rear side. The lighting unit 50 is preferably a plurality of LEDs mounted on the substrate 14 . The illumination unit 50 illuminates the first operation unit 2 from behind with light components passed through the light transmission part 51 of the rubber 18 and the opening 48 of the body part 12 during light irradiation. During light irradiation, the illumination unit 50 emits a pair of notch holes 52 formed in the side wall of the second holder 23 (Fig. 6) and the space 27 of the second holder 23 illuminate the second operation unit 3 from the back.

As shown in FIG. 2 , the switch device 1 includes a switch body 54 forming a body portion of the switch device 1 and a control section 55 that controls the operation of the switch body 54 . The switch body 54 of this example includes, for example, the first contact 16, the second contact 17, and the illumination section 50. As shown in FIG. Although not shown, the switch main body 54 also includes components of the first operation unit 2 and peripheral components thereof, components of the second operation unit 3 and peripheral components thereof, and the like.

The control unit 55 receives contact signals S1 and S2 from the first contact 16 and the second contact 17 . The control unit 55 detects the operation states of the first operation unit 2 and the second operation unit 3 based on the contact signals S1 and S2 input from the first contact 16 and the second contact 17, and outputs the operation signal as the detection result. Sout is output to other ECUs. The control unit 55 supplies power to the lighting unit 50 to control the lighting operation. For example, when the lights of the vehicle are turned on, the lighting unit 50 is turned on to emit light.

Next, the operation of the switch device 1 of this embodiment will be described with reference to FIGS. 7 to 9. FIG.
As shown in FIG. 7, when the upper portion of the first knob 4 is operated (operated in the direction of the arrow A1 in the figure) in the first operation section 2, the first knob 4 is rotated with the center P as a fulcrum. It swings in the arrow A2 direction in the figure. At this time, the back surface of the first knob 4 pushes the first pusher 38a downward in the plane of the drawing, deforming the first bulging portion 19 of the rubber 18, and pushes the first contact 16a from above to turn it on. As a result, an ON signal is output from the first contact 16a to the controller 55 as the contact signal S1, and the controller 55 detects that the upper portion of the first knob 4 has been operated.

Here, for example, if the second operating section 3 is structured so as not to follow the first operating section 2 , it is necessary to adopt a structure in which both the first operating section 2 and the second operating section 3 are supported by the body section 12 . In the case of this structure, in order to prevent the first knob 4 from hitting the second knob 5 when the first operation part 2 is operated, there is a certain amount of space between the first knob 4 and the second knob 5. It is necessary to provide a small gap, and the appearance deteriorates.

On the other hand, in the case of the switch device 1 of this example, when the first operating portion 2 is operated, the second operating portion 3 moves so as to follow the first operating portion 2 . In this example, when the first operating unit 2 is operated, the second operating unit 3 follows the first operating unit 2 by pushing and pulling the second operating unit 3 . In the case of this structure, the second operating portion 3 functions as a shaft portion of the first operating portion 2, so when the first knob 4 is operated, the operating load applied to the first knob 4 is transferred by the second knob 5. will support. With this structure, it is possible to achieve an assembled state in which no gap is provided between the first knob 4 and the second knob 5, so that the switch device 1 can be made attractive.

As shown in FIG. 8, when the second operating portion 3 is pressed (operated in the direction of arrow B1 in the figure), the second operating portion 3 linearly moves downward. A downward operation of the second operating portion 3 is allowed by a gap W (see FIG. 7) between the second operating portion 2 and the first operating portion 2 . At this time, the protrusion 24 on the back surface of the second knob 5 deforms the second swelling portion 20 of the rubber 18 and presses the second contact 17 from above to turn it on. As a result, an ON signal is output from the second contact 17 to the controller 55 as the contact signal S2, and the controller 55 detects that the second knob 5 has been pressed.

By the way, as shown in FIG. 9, when the second operation part 3 is configured to follow the operation of the first operation part 2, for example, the first knob 4 of the first operation part 2 bends (or bending), the position of the first operation unit 2 changes downward in the plane of the drawing from that in the initial state due to the influence of the shape deformation. In this manner, when the first operating portion 2 is bent and the second operating portion 3 is pressed, the second operating portion 3 moves deeper than in the initial state, The two contacts 17 and the rubber 18 will be pushed with a high load.

However, in the case of this example, the body portion 12 is provided with the stopper portion 47 to restrict excessive movement of the second operating portion 3 in the pushing direction. Therefore, excessive downward movement of the second operating portion 3 is restricted by the stopper portion 47 . Therefore, even if the second operating portion 3 is pressed while the first operating portion 2 is bent, the movement of the second operating portion 3 is stopped by the stopper portion 47 and the second contact 17 is overloaded. Since it is made difficult to apply, it is possible to make it difficult to cause component deterioration.

According to the switch device 1 of the above embodiment, the following effects can be obtained.
(1) The switch device 1 includes a first operating portion 2 that can be tilted in a plurality of directions (four directions in this example) by a pressing operation when a pressing operation is received, and an operation direction to the first operating portion 2. and a second operating portion 3 that is displaced according to a pressing operation in a specific direction (the direction of arrow B1 in this example) that is different from the direction. The second operating portion 3 is displaced following the operation to the first operating portion 2 when the pressing operation to the first operating portion 2 is accepted. Further, the switch device 1 includes a contact (the second contact 17 in this example) for detecting a pressing operation on the second operating portion 3 in the specific direction B1, and a contact for regulating the displacement of the second operating portion 3 in the specific direction B1. A stopper portion 47 is provided.

According to this configuration, when the first operation portion 2 is bent due to aging, for example, the second operation portion 3 may sink downward together with the first operation portion 2 . In this state, when the second operating portion 3 is pressed, the stopper portion 47 restricts the movement of the second operating portion 3 during operation. Does not move in pushing direction. As described above, the pushing amount is regulated by the stopper portion 47 , so that the second contact 17 of the second operating portion 3 is less likely to be overloaded. Therefore, deterioration of parts in the switch device 1 can be suppressed.

(2) The stopper portion 47 is set to a projection amount T that does not make contact with the second operating portion 3 when the first operating portion 2 is operated and the second operating portion 3 follows the first operating portion 2. . That is, the stopper portion 47 is arranged so that the second operating portion 3 is out of contact when the first operating portion 2 is operated and the second operating portion 3 follows the first operating portion 2 . Therefore, since the stopper portion 47 does not interfere with the second operation portion 3 when the first operation portion 2 is operated, even if the switch device 1 is provided with the stopper portion 47, the operation of the first operation portion 2 does not feel uncomfortable. .

(3) The stopper portion 47 is formed in the body portion 12 that supports at least one of the first operating portion 2 and the second operating portion 3 so as to be displaceable. Therefore, by changing the shape of a portion of the body portion 12, the strong stopper portion 47 can be easily formed.

(4) The second operation portion 3 includes the second knob 5 that receives an operation, and the second holder 23 that operates the second contact 17 according to the operation of the second knob 5 . The stopper portion 47 is provided to restrict the operation of the second contact 17 by at least one of the second knob 5 and the second holder 23 . Therefore, for example, it is possible to employ both a structure for restricting the position of the second knob 5 by the stopper portion 47 and a structure for restricting the position of the second holder 23 by the stopper portion 47, thereby increasing the degree of freedom in designing the device. can be secured.

(5) The switch device 1 includes an illumination section 50 that illuminates both the first operation section 2 and the second operation section 3 . Therefore, since it becomes possible to illuminate both the first operation section 2 and the second operation section 3 with the common illumination section 50, the number of parts can be reduced.

In addition, this embodiment can be changed and implemented as follows. This embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
[Regarding the stopper part 47]
- The stopper portion 47 may have a structure including, for example, three or more stopper pieces 49 .

The structure of the stopper portion 47 is not limited to a structure including a pair of stopper pieces 49, and any shape that can restrict excessive downward movement of the first operation portion 2 may be used.
The stopper portion 47 may come into contact with any part of the second operation portion 3 when restricting the position of the second operation portion 3 .

- The stopper portion 47 is not limited to being formed in the body portion 12, and may be provided in a constituent element of the switch device 1.
- The projection amount T of the stopper portion 47 may be set to a length that takes into consideration that the first operation portion 2 does not come into contact with the stopper portion 47 .

[Regarding the first operation unit 2 and the second operation unit 3]
- The 1st operation part 2 is not limited to the switch which can be operated in four directions, For example, it is good also as a switch which can be operated in two directions or three directions.

- The first operation portion 2 is not limited to the shape in which the first knob 4 is formed in a ring shape, and may be changed to switches with various operation modes such as arranging the operation points in a line.
- The first knob 4 of the first operation unit 2 may be shaped like a cross key, for example.

- The second operation part 3 may be changed to another structure, such as being composed only of the second knob 5 .
- The locking of the first operating portion 2 and the second operating portion 3 is not limited to the configuration in which the extension portion 26 is placed on the flange portion 25, and the operation of the first operating portion 2 and the second operating portion 3 can follow.

[Regarding the structure in which the second operation unit 3 follows the first operation unit 2]
- In making the second operation unit 3 follow the first operation unit 2, any part of the first operation unit 2 may push or pull the second operation unit 3 to achieve this.

・Normally, when the first operation part 2 is operated, the first operation part 2 is not in contact with the second operation part 3, and the first operation part 2 may move to follow the second operation part 3.
[Configuration of switch device 1]
・The structure of using the first operation part 2 as a multi-directional switch is not limited to the structure using the first holder 29, but can be changed to various structures such as making the first knob 4 itself operable in four directions. may

- The opening 48 is not limited to having a shape that allows the second operation section 3 to pass therethrough and guides the light from the illumination section 50 . For example, the opening 48 may correspond only to a shape through which the second operation portion 3 can pass, and the opening for guiding the light of the illumination portion 50 may be formed in another location.

- The illumination unit 50 is not limited to being provided on the same substrate 14 as the contact 15 , and may be provided at a different location from the contact 15 .
- The materials of the first knob 4 and the second knob 5 are not limited to elastic materials such as rubber, and various materials can be used.

- The rubber 18 may be omitted from the switch device 1 .
[others]
- The switch device 1 can be applied to various devices and devices.

- The switch device 1 may be applied to other systems and devices without being limited to vehicle-mounted devices.

DESCRIPTION OF SYMBOLS 1... Switch apparatus 2... 1st operation part 3... 2nd operation part 5... 2nd knob 12... Body part 17... 2nd contact 23... 2nd holder 47... Stopper part 50... Lighting Part, B1... Specific direction, T... Projection amount.

Claims (4)

When pressed in a first specific direction, it is configured to be swingable about a plurality of swinging axes extending in directions intersecting the first specific direction and extending in different directions. a first operation unit that can be tilted in a plurality of directions by a pressing operation on the
Displaced according to a pressing operation in a specific direction that is a direction different from the operating direction of the first operating unit, and follows the operation of the first operating unit when a pressing operation on the first operating unit is received. a second operating portion that displaces by
a contact for detecting a pressing operation in the specific direction on the second operation portion;
a stopper portion that restricts displacement of the second operation portion in the specific direction ;
The second operation unit includes a knob that receives an operation, and a holder that operates the contact according to an operation on the knob,
The switch device , wherein the stopper portion is provided to restrict operation of the contact by at least one of the knob and the holder . 2. The stopper portion is arranged such that when the first operation portion is operated and the second operation portion follows the first operation portion, the second operation portion is out of contact with the second operation portion. A switch device as described in . The switch device according to claim 1 or 2, wherein the stopper portion is formed in a body portion that supports at least one of the first operation portion and the second operation portion so as to be displaceable. The switch device according to any one of claims 1 to 3 , further comprising an illumination section that illuminates both the first operation section and the second operation section.

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