KR20100134239A - Switching apparatus having pushing and sliding - Google Patents

Abstract

PURPOSE: A switching apparatus is provided to implement the stable sliding performance by using a switch detent part which arranges the detent ball and the detent elastic member on a switch sliding moving block. CONSTITUTION: A printed circuit board is arranged inside the housing. A switch unit comprises a switch knob(310) arranged to be movable for the housing, a moving block being operated by the operation of the switch knob, a push switch being operated by the operation of the switch knob, and a sliding switch.

Description

Switch device {SWITCHING APPARATUS HAVING PUSHING AND SLIDING}

The present invention relates to a switch device, and more particularly to a composite switch device for implementing a push switching function and a sliding switching function.

Switch devices are used as devices for selection and operation in devices such as vehicles, machine tools, terminals, multimedia devices and game machines. However, various researches and developments of switch devices are being conducted for various functional selection of devices. In addition to the simple push switch type button switch, various researches and productions have been made on switches that perform various structures and complex functions such as rotary switches that enable axial rotation.

It is an object of the present invention to provide a switch device which enables more accurate and stable operation but enables various functions to be implemented through a single switch knob.

The present invention for achieving the above object, a housing; A printed circuit board disposed inside the housing; A switch including a switch knob arranged to be movable with respect to the housing, a switch moving block part operated by the operation of the switch knob, and a push part and a sliding switch operated by the operation of the switch knob. Unit; wherein the push switch and the sliding switch provide a switch device that is alternatively operated by the operation of the switch knob.

In the switch device, the switch moving block portion may include: a switch sliding moving block which is movable in a plane parallel to the printed circuit board into the housing.

In the switch device, the switch unit may further include a switch detent portion for stealing (detent) the operation of the switch sliding moving block.

In the switch device, the switch detent portion includes: a detent elastic member accommodating portion disposed in the switch sliding moving block, a detent elastic member movably housed in the detent elastic member accommodating portion, and the detent. It may be provided with a detent ball elastically supported by an elastic member, and the detent groove arrange | positioned in the said housing so that the detent ball may be always in contact with the detent ball.

In the switch device, the detent groove includes: a detent stable region portion forming a contact state with the detent ball in a normal state where no external force is applied to the switch knob, and an outer side of the detent table region portion. In addition, the switch sliding moving block may be provided with a detent movable area portion which is inclined with respect to a plane in which the switch sliding moving block moves and the distance from the detent stable area portion decreases with the printed circuit board.

In the switch device, the detent movable region portion includes: a detent movable first region portion disposed in contact with an outer side of the detent stable region portion and the detent movable first region portion therebetween. The detent movable second region portion may be disposed to be spaced apart from the region portion and formed to be inclined more than the detent movable first region portion with respect to a plane in which the switch sliding moving block moves.

In the switch device, the sliding switch comprises: a sliding switch movable portion disposed in the switch moving block portion and a sliding switch fixing portion disposed at a position corresponding to a movable area of the sliding switch movable portion on one surface of the printed circuit board; It may be provided.

In the switch apparatus, the switch moving block unit may include: a switch push moving block movable vertically to the printed circuit board into the housing, and the push switch may be operated through the switch push moving block.

In the switch device, the push switch may include a tact switch disposed on one surface of the printed circuit board and operated by operation of the switch knob.

In the switch device, one end of the switch push moving block may be in contact with a lower surface of the switch knob, and the other end of the switch push moving block may be elastically supported by a push moving block elastic member disposed in the housing.

In the switch device, a push moving block knob guide for guiding a horizontal sliding movement of the switch knob may be provided on an outer circumference of the switch push moving block.

In the switch device, the switch sliding moving block is provided with a sliding moving block knob guide formed in a direction perpendicular to the moving direction of the switch sliding moving block, the switch knob is a switch corresponding to the sliding moving block knob guide Knob vertical guides may be provided.

In the switch device, the lower surface of the switch knob may be provided with a switch knob push stopper for limiting the vertical movement of the switch knob when the switch knob is sliding.

In the switch device, the printed circuit board may be provided with a switch light output unit for generating light for output through the switch knob.

The switch device according to the present invention having the configuration as described above has the following effects.

First, the switch device according to the present invention, by selectively performing the push switching operation and the sliding switching operation through the switch moving block portion to transmit the external force by the user applied to the switch knob more accurately, the predetermined switch function is smooth Make it possible.

Secondly, the switch device according to the present invention can provide a predetermined detent feeling and achieve a stable sliding motion through the switch detent portion for disposing the detent ball and the detent elastic member on the switch sliding moving block.

Third, the switch device according to the present invention may be provided with a switch push moving block to achieve a stable push operation and to simultaneously transmit light from the switch light output unit disposed below to the switch knob display unit of the switch knob. .

Fourth, the switch device according to the present invention may stably guide the operation of the switch push moving block and / or the switch sliding moving block through the guide provided in the switch moving block.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Hereinafter, a switch device will be described with reference to the drawings.

1 shows a schematic perspective view of a switch device 10 according to an embodiment of the present invention, and FIG. 2 shows a schematic exploded perspective view of a switch device 10 according to an embodiment of the present invention. 3 shows a schematic cross-sectional view of a switch device 10 according to an embodiment of the invention, and FIG. 4 shows a schematic perspective bottom view of the switch device 10 according to an embodiment of the invention. 5 is a schematic partial perspective view of a switch unit 300 of a switch device 10 according to an embodiment of the present invention, and FIGS. 6 and 7 show a switch device according to an embodiment of the present invention. A schematic perspective view and a cross-sectional view in a normal state of 10 are shown, and FIGS. 8 and 9 show a schematic perspective view and a cross-sectional view in a first operating state of a switch device 10 according to an embodiment of the invention. 10 and 11, the present foot A schematic perspective view and cross-sectional view in a second operating state of a switch device 10 according to one embodiment is shown, and FIGS. 12 and 13 show at different points in time the switch device 10 according to an embodiment of the invention. A schematic cross-sectional view is shown before and after the push operation, and FIGS. 14 to 15 are enlarged schematically to explain an operating state of the switch knob push stopper 318 of the switch device 10 according to an embodiment of the present invention. A cross-sectional state diagram is shown.

Switch device 10 according to an embodiment of the present invention includes a housing 100, a printed circuit board 200 and the switch unit 300, the printed circuit board 200 and the switch unit 300 in the housing It is placed stably.

The housing 100 has a housing body 110 and a housing base 120, wherein the housing body 110 and the housing base 120 mesh with each other to form an internal space to enable stable placement of other components. . The outer periphery of the housing body 110 is provided with a body mounting portion 111 and the base mounting portion 121 is disposed in the housing base 120 to a corresponding position of the body mounting portion 111, the body mounting portion 111 and the base mounting portion ( 121 are engaged with each other. In the present embodiment, the body mounting portion 111 has a recess structure and the base mounting portion 121 has a protrusion structure, which may take a structure opposite to each other, and various configurations are possible in a range to secure the fastening state between the two. .

A body extension 113 is disposed on one surface of the housing body 110, and the body extension 113 extends from the housing body 110. A body through hole 115 is formed in the body extension part 113, and the body through hole 115 is formed in a structure (see FIG. 3) penetrating the housing body 110, and the switch push moving block described below is vertical. Allow to be operated. The body push elastic member accommodating part 117 (see FIG. 3) is disposed inside the housing body 110, more specifically, the body through hole 115 of the housing body 110, and the body push elastic member accommodating part 117 is provided. The push moving block elastic member 338 for elastically supporting the switch push moving block 330 described below is disposed.

The housing base 120 is coupled to the housing body 110 to form an internal space. A base substrate support rib 123 for supporting the printed circuit board 200 to be described below is disposed on an inner bottom surface of the housing base 120. Can be. Although not shown in detail here, a connector for electrical communication between the printed circuit board 200 and an external electric device may be further provided.

The printed circuit board 200 is disposed in an inner space formed by the housing body 110 and the housing base 120. Although the printed circuit board 200 is configured as a separate component in the present embodiment, various modifications are possible according to design specifications, such as taking a base plate structure formed through an insert injection structure together with a housing base in some cases. .

A PCB mounting hole 201 is formed in the PCB 200, and a base substrate mounting part 127 is disposed on one surface of the housing base 120 at a position corresponding to the substrate mounting hole 201. The 127 penetrates through the substrate mounting hole 201 so that the printed circuit board 200 may be stably fixed to the housing 100, more specifically, the housing base 120. In the printed circuit board 200, various electrical elements and circuit wirings (not shown) are disposed and transmit electrical signals of the switch units 360, which are to be described below, to an external electric device and the like, and a signal input from the external electric device. The light output unit 400 may be transferred.

The switch unit 300 includes a switch knob 310, a switch moving block 320, and a switch 360, and the switch 360 is operated through a user's manipulation of the switch knob 310. The switch knob 310 is disposed to be movable in the housing 100. More specifically, one end of the switch knob 310 is disposed to be exposed to the outside of the upper end of the housing body 110, and the other end of the switch knob 310. Is disposed in an inner space formed by the housing body 110 and the housing base 120. The switch knob display unit 311 is disposed on one surface of the switch knob 310, and the switch knob display unit 311 is implemented as a component for emitting light generated from the switch light output unit 400, which will be described below. For example, the switch knob display 311 takes a translucent structure through laser etching and emits light transmitted from the inside of the housing 100 to the outside, thereby allowing the user to easily recognize the position of the switch knob 310. Do it.

A switch knob push moving block pressing unit 312 is disposed on a lower surface of the switch knob 310. The switch knob push moving block pressing unit 312 (see FIG. 12) presses a switch push moving block to perform a push switch operation. You can do that. A switch knob vertical guide 313 is disposed at a lower end of the switch knob 310. The switch knob vertical guide 313 moves the switch knob 310 in a direction perpendicular to the printed circuit board 200, that is, in a vertical direction. It takes a structure to guide and move together with the switch sliding moving block 340 for the sliding motion on a plane parallel to the printed circuit board 200.

A switch knob release stopper 317 is provided at the lower end side of the switch knob 310, and the switch knob release stopper 317 prevents the switch knob 310 from being undesirably separated from the housing 100. More specifically, the switch knob release stopper 317 is formed extending from the lower end side of the switch knob 310, the end of the switch knob release stopper 317 is formed with a wedge-shaped switch knob release stopper projection 319, The wedge-shaped switch knob release stopper protrusion 319 has a structure that is inserted and mounted to allow vertical movement at a predetermined interval to the switch sliding moving block 340 which is disposed inside the housing 100. Through this configuration, the switch knob 310 is allowed to move by a predetermined interval in the vertical direction to achieve push switch operation, but is undesirably separated from the switch sliding moving block disposed inside the housing, more specifically, the housing. Can be prevented.

The switch moving block unit 320 is operated by the operation of the switch knob 310, and the switch moving block unit 320 operates at least one of the switch knob 310 and the switch unit 360 described below. In the present embodiment, the switch moving block 320 includes a switch push moving block 330 and a switch sliding moving block 340, and in some cases, may be configured to adopt only the switch sliding moving block design specifications, such as Various modifications are possible according to the present invention. Here, the case where both configurations are provided will be described.

The switch sliding moving block 340 of the switch moving block 320 activates the switch 360, in which a user applies an external force to the switch knob 310 in a direction parallel to the printed circuit board, that is, sliding. When applied in the direction of the switch sliding moving block 340 is a sliding movement with the switch knob 310, the sliding switch 380 of the switch unit 360 is operated by the switch sliding moving block 340. More specifically, a sliding moving block guide 341 is disposed on the switch sliding moving block 340, and the sliding moving block guide 341 extends to the lower end of the switch sliding moving block 340 and is a sliding moving block guide 341. The base block movable receiving portion 125 is disposed in the housing base 120 at a corresponding position of. An end of the sliding moving block guide 341 is movably accommodated in the base block movable receiving unit 125 to enable stable movement of a desired path when the switch sliding moving block 340 is operated. Meanwhile, in order to prevent interference between the sliding moving block guide 341 and the printed circuit board 200 when the switch sliding moving block 340 is operated, a substrate recess 210 is provided on the side surface of the printed circuit board 200. Thus, the sliding moving block guide 341 may be smoothly operated.

A sliding moving block knob guide 343 is disposed on an inner surface of the switch sliding moving block 340, and the sliding moving block knob guide 343 has a structure in which the sliding moving block knob guide 343 is movably engaged with the switch knob vertical guide 313. do. That is, the sliding moving block guide 343 is formed in a direction perpendicular to a moving direction of the switch sliding moving block 340, that is, a direction perpendicular to the sliding movement direction, to an inner side surface of the switch sliding moving block 340. A switch knob vertical guide 313 is disposed at the switch knob 310 at a corresponding position of. More specifically, the switch knob vertical guide protrusion 315 is formed on the outer circumferential surface of the switch knob vertical guide 313 to have a longitudinal direction in the vertical movable direction of the switch knob 310, and the switch knob vertical guide protrusion 315 corresponds to the vertical direction. A sliding moving block knob guide groove 345 is disposed on an inner side surface of the sliding moving block knob guide 343 to a position where the sliding block knob guide 343 is positioned. The sliding moving block knob guide groove 345 and the switch knob vertical guide protrusion 315 have a structure in which the sliding moving block knob guide groove 315 is operatively engaged with each other in the vertical direction. In this embodiment, a groove structure is formed on the sliding moving block knob guide side and the switch It is apparent from the above description that the protrusion structure is formed on the side of the knob vertical guide, but it may take a configuration opposite to each other.

Through this structure, it is possible to transfer the external force to enable the vertical movement, that is, the push movement of the switch knob, but to achieve a sliding movement when a lateral external force is applied to the switch knob 310 to the switch sliding moving block. Make it possible.

A sliding moving block through hole 347 (refer to FIG. 4) is formed in the switch sliding moving block 340, and a structure in which the push moving block moving part 333 which is described below through the sliding moving block through hole 347 is movably penetrated. Can be achieved.

In addition, the switch moving block 320 includes a switch push moving block 330, the switch push moving block 330 is moved vertically to the printed circuit board 200 into the housing 100, the switch The push switch unit 370 of the unit 360 is operated through the switch push moving block 330. A push moving block knob guide 331 is disposed at an outer circumference of the switch push moving block 330. The push moving block knob guide 331 is a sliding motion direction on a plane parallel to a plane in which the sliding operation of the switch knob 310 is made. By extending in a direction perpendicular to the push moving block knob guide 331 guides the horizontal sliding movement of the switch knob 310. More specifically, the switch knob push moving block pressing unit 312 described above is disposed below the switch knob 310, and the switch knob push moving block pressing unit 312 is stable along the push moving block knob guide 331. The sliding operation can be achieved. Here, the push moving block vertical guide 335 is disposed at the lower end of the switch push moving block 330, and the push moving block vertical guide 335 is disposed to be vertically movable on the housing body 110. An end portion of the push moving block vertical guide 335 is provided with a push moving block vertical guide protrusion 337. The push moving block vertical guide protrusion 337 is formed in a wedge shape and is formed in the housing body 110. It is inserted into (not shown). Through such a configuration, the switch push moving block 330 may have a structure in which the vertical movement with respect to the housing body 110 is stable but the horizontal movement, that is, the sliding movement is not constrained. Through this structure, the switch push moving block 330 maintains the correct position during the sliding operation of the switch knob 310, but only the switch sliding moving block 340 may take a horizontal motion, that is, a sliding motion.

Meanwhile, a separate component may be further provided to return the switch knob 310 to its original position after the vertical movement of the switch knob 310, that is, the push operation. As shown in FIGS. 2 and 3, a push moving block elastic member 338 is disposed below the switch knob 310, more specifically, below the switch push moving block 330, and the switch push moving block 330. One end, i.e., the upper surface, of the c) is in contact with the switch knob 310 and the other end thereof is elastically supported by the push moving block elastic member 338. More specifically, a push moving block elastic member mounting end 339 is formed at a lower end of the push moving block elastic member 338, and a body push elastic member accommodating part 117 is disposed at the housing body 110 in a corresponding position thereof. The push moving block elastic member 338 implemented as a coil spring type is accommodated in the body push elastic member accommodating part 117 so that one end of the push pin block elastic member is disposed at the bottom of the switch push moving block 330. The other end is engaged with the mounting end 339 and the other end is disposed to be elastically supported in contact with the inner bottom surface of the body push elastic member accommodating part 117. Through such a configuration, when the external force applied to the switch knob 310 is removed by the user, the home position of the switch knob 310 can be returned.

In addition, the lower end of the switch push moving block 330 is provided with a push moving block moving unit 333, which operates the push switch 370 of the switch unit 360 to be described below. The push moving block moving part 333 extends downward from the lower end of the switch push moving block 330, and the push moving block moving part 333 is a body push moving block moving part through hole 119 formed in the housing body 110. And (see FIG. 4) so as to be movable therethrough. A sliding moving block through hole 347 (refer to FIG. 4) is formed in the switch sliding moving block 340, and a structure in which the push moving block moving part 333 which is described below through the sliding moving block through hole 347 is movably penetrated. Can be achieved. The sliding moving block through hole 347 formed in the switch sliding moving block 340 is formed with the push moving block moving part 333 and the push moving block vertical guide protrusion 337 when the switch sliding moving block 340 performs a sliding motion. It is formed with an opening of sufficient size so that no interference occurs.

In addition, the switch push moving block 330 may also perform a function of transferring the light generated from the switch light output unit 400 to the switch knob display unit. As shown in FIG. 3, a push moving block moving part 333 is formed on the lower surface of the switch push moving block 330, and is formed outside the push switch 370 disposed corresponding to the push moving block moving part 333. The switch light output unit 400 is disposed, and the switch push moving block 330 may be formed of a transparent synthetic resin such as acrylic, polymethyl methacrylate (PMMA), polycarbornate (PC), or the like. Light generated from the 400 is transmitted to the upper end through the push moving block moving unit 333 and the light flowing into the switch push moving block 330 is emitted through the upper surface, the emitted light is again sent to the switch knob 310 It is emitted to the outside through the formed switch knob display portion 311. At this time, the body extension 113 prevents light from leaking to the outside.

The switch unit 360 includes a push switch 370 and a sliding switch 380. The push switch 370 is operated through a push operation of the switch knob 310, that is, a vertical pressing operation, and the sliding switch 380 is operated. The switch knob 310 is operated through a sliding operation of the switch knob 310, and the push switch 370 and the sliding switch 380 are alternatively operated by the operation of the switch knob 310. In the present embodiment, the sliding switch 380 is operated by receiving an external force applied to the switch knob 310 by the user through the switch moving block 320, more specifically, the switch sliding moving block 340. The sliding switch 380 is implemented as a sliding contact switch in the present embodiment, which is an example for explaining the present invention, but the present invention is not limited thereto.

The sliding switch 380 includes sliding switch movable parts 381 and 383 and 385 and a sliding switch fixing part 387. The sliding switch moving parts 381 and 383 and 385 are arranged to move perpendicularly to the printed circuit board 200 into the housing 100, and the sliding switch fixing part 387 is disposed on one surface of the printed circuit board 200. 381 is disposed at a position corresponding to the movable area. The sliding switch movable portion 381 includes a sliding switch movable support 383 and a sliding switch movable contact 385, wherein one end of the sliding switch movable support 383 is fixedly mounted to the switch sliding moving block 340 and is a sliding switch. The other end of the movable support 383 is connected with the sliding switch movable contact 385. The sliding switch movable contact portion 385 is arranged to be in contact with the sliding switch fixing portion 387. The slide switch movable contact portion 385 has a hook shape and has a contact property with the sliding switch fixing portion 387 through a predetermined elastic force. Can be improved. The sliding switch fixing part 387 is implemented as a terminal disposed on one surface of the printed circuit board 200 at a predetermined position. In the present embodiment, the sliding switch fixing part 387 forms two contact positions to form a switch knob. Signal variations may be generated when a plurality of sliding end operations are performed through the 310. That is, in this embodiment, the sliding switch movable portion and the sliding switch fixing portion take a configuration such that the non-contact state, the first contact state, and the second contact state are achieved.

In this case, a component for enabling the user to recognize the state during the sliding operation of the plurality of stages and returning the switch knob to the home position when the side force applied to the switch knob is removed by the user may be further provided. The switch device 10 according to the present embodiment performs a plurality of stages of sliding movements of the switch knob, thereby detenting the operation of the switch knob, specifically, the switch sliding moving block, and removing the side force. The switch detent unit 390 is further provided to return to the home position. The switch detent portion 390 includes a detent elastic member accommodating portion 391, a detent elastic member 393, a detent ball 395, and a detent groove 397. The detent elastic member receiving portion 391 is disposed in the switch sliding moving block 340, and the detent elastic member receiving portion 391 is accommodated and disposed. The detent elastic member 393 is implemented as a coil spring type elastic member. The detent elastic member 393 is accommodated in the detent elastic member receiving portion 391 so that one end of the detent elastic member receiving portion 391 is provided. It takes a structure that is supported by the inner lower surface of the. The detent ball 395 has a structure in contact with the other end of the detent elastic member 393. The detent ball 395 is elastically supported by the detent elastic member 393 and is formed in the housing body 110. It is in constant contact with the detent groove 397. The detent groove 397 has a plurality of stages to allow a user to form a detent feeling when the switch knob 310 is operated. In this embodiment, the detent groove 397 takes a two-stage operation structure. The detent groove 397 includes a detent stable area portion 397a and a detent movable area portion 397b and 397c, wherein an external force is applied to the switch knob 310. It is an area which forms a contact state with the detent ball 395 in a steady state without being supported. The detent stable area portion 387a has a “v” shape so that the sliding movement of the switch knob 310 is limited when a predetermined external force is not applied thereto. Noise can be prevented from being interrupted by frequent contact between switch knobs and other components. The detent movable area portions 387b and c are formed to be inclined with respect to a plane in which the switch sliding moving block 340 moves to the outside of the detent stable area portion 387a, that is, a plane parallel to the printed circuit board. The distance from the printed circuit board 200 decreases as it moves away from the tent stable area 387a. In this embodiment, the detent movable region portions 387b and 387c have a detent movable first region portion 387b and a detent movable second region portion 387c, which is the detent movable first region portion 387b. ) Is disposed between the detent stable area portion 387a and the detent movable second region portion 387c. The detent movable first region portion 387b is disposed in contact with the outside of the detent stable region portion 387a, and the detent movable second region portion 387c is disposed between the detent movable first region portion 387b. At a distance from the detent stable region 387a. In addition, the detent movable second region portion 387c is larger than the detent movable first region portion 387b with respect to the plane in which the switch sliding moving block 340 moves, that is, the plane parallel to the printed circuit board 200. It is formed to be inclined so that the vertical distance between the printed circuit board and the detent groove 387 gradually decreases from the detent stable area portion 387a toward the detent movable second region portion 387c.

6 to 11 show schematic perspective views and cross-sectional views showing the non-contact state between the sliding switch movable part and the sliding switch fixing part, the operating state in the first and second contact states. Here, the non-contact state, the first and second contact states between the sliding switch movable portion of the sliding switch and the sliding switch fixing portion, in other words, the switch detent portion 390, that is, the detent operation formed by the switch detent portion 390. The detent stable state, the detent movable first state, and the detent movable second state are shown, and the detent stable state represents the contact state of the detent ball and the detent stable area region, and the detent movable first state. Denotes a contact state between the detent ball and the detent movable first region portion, and the detent movable second state represents the contact state between the detent ball and the detent movable second region portion. These operating states, in other words, represent the steady state, first and second sliding states of the switch knob.

When no lateral external force, that is, side force is not applied to the switch knob 310 by the user, the switch knob 310 represents a normal state as shown in FIGS. 6 and 7. At this time, the detent ball 395 and the detent stable area portion 397a form a contact state, and form a non-contact state between the sliding switch movable portion 381 and the sliding switch fixing portion 387.

Then, when a predetermined side force P1 is applied by the user, the switch knob 310 moves the line a-a from the line O-O and moves horizontally by the reference numeral la. The switch sliding moving block 340 also moves together with the switch knob 310 by the horizontal movement of the switch knob 310. The switch detent part 390 moves by the movement of the switch sliding moving block 340. The state transitions from the stable state to another state. That is, the detent ball 395 forms a contact state with the detent movable first region portion 387b, and the side force P1 applied to the switch knob 310 is transmitted to the switch sliding moving block 340. The detent ball 395 is blocked by the detent movable second region portion 387b such that the switch knob 310 forms a first sliding state and the sliding switch movable portion 381 forms a first contact state.

Then, when a large side force P2 is applied to the switch knob 310 by the user, the center of the switch knob 310 is a position in a normal state, that is, a position spaced apart by reference numeral lb from line OO to line bb Will become. At this time, the detent ball 395 of the switch detent portion 390 forms a contact state with the detent movable second region portion 387b and slides with the sliding switch movable portion by the sliding movement of the switch sliding moving block 340. A second contact state between the riding switch fixing parts is formed, and electrical signals generated due to the change of the contact state may be transmitted to the external electric device through the printed circuit board. Of course, in this case, the detent elastic member 393 supporting the detent ball 395 is more compressed than in the detent first movable state to accumulate increased elastic restoring force.

Then, when the external force is removed by the user, the restoring force is transmitted to the detent ball 395 by the elastic restoring force accumulated in the detent elastic member 393, and the detent ball 395 is detent movable second region. A state of contact with the detent stable region region is formed out of an unstable state in the portion and the detent movable first region portion.

On the other hand, the push switch 370 of the switch unit 360 is implemented as a tact switch in this embodiment, the push switch 370 of the tact switch structure is disposed on one surface of the printed circuit board 200 and the switch knob 310 Works by the operation of). 12 and 13 are schematic cross-sectional views showing the state before and after the push operation of the switch device 10 according to an embodiment of the present invention, when the vertical force (P3) is applied to the switch knob 310 by the user The switch knob 310 moves in the vertical direction. The vertical force P3 applied to the switch knob 310 is transmitted to the push moving block knob guide 331 of the switch push moving block 330 through the switch knob push moving block pressing unit 312. In this case, the switch knob 310 performs a stable push operation by vertically moving downwardly through the interaction between the switch knob vertical guide 313 and the sliding moving block knob guide 343. At this time, the switch push moving block 330 together with the switch knob 310 also makes a vertical movement. The push moving block moving part 333 formed on the lower surface of the switch push moving block 330 is the housing body 110. A push switch disposed on one surface of the printed circuit board 20 through the body push moving block moving part through hole 119 and the sliding moving block through hole 347 formed in the switch sliding moving block 340. Press 370 to operate. Then, when the external force applied to the switch knob 310 is removed by the user, the restoring force of the push switch 370 and the elastic restoring force of the push moving block elastic member 338 disposed below the switch push moving block 330. Return to the original position.

Such a sliding switching operation and a push switch operation are alternatively performed through the single switch knob 310. That is, the operation of the push switch is limited when the switch knob makes a sliding operation, and the sliding operation is limited when the switch knob makes a push operation. The alternative operation of the push switch and the sliding switch may be electrically processed based on the initial input signal, but a component for physically limiting each switching operation according to the present embodiment may be further provided. 14 to 16 show a schematic partial enlarged cross-sectional view of a switch knob according to an embodiment of the present invention. A switch knob push stopper 318 is disposed on a lower surface of the switch knob 310. The switch knob push stopper 318 extends from the lower surface of the switch knob 310. When no external force is applied to the switch knob 310, the switch knob push stopper 318 is disposed on the upper portion of the body extension 113. And the switch knob push stopper 318 has a structure in which the body through-hole 115 formed in the body extension part 113 intersects when projected on a plane parallel to the printed circuit board 200. That is, when projecting onto the printed circuit board 200, the switch knob push stopper 318 is disposed inside the body through hole 115. Accordingly, when a vertical force is applied to the switch knob 310, the switch knob 310 may move downward from the normal state of FIG. 14 by performing a push operation, so that the end of the switch knob push stopper 318 may be the body through hole 115. It is possible to be inserted into the interior. On the other hand, when the side force in the horizontal direction is applied to the switch knob 310 in the normal state, the switch knob 310 forms a horizontal movement as shown in FIG. In this case, as shown in FIG. 16, when the switch knob push stopper 318 is projected with respect to a horizontal plane on the printed circuit board 200, the switch knob push stopper 318 crosses the body through hole 115 and crosses the body extension 113. As a result, even when a vertical force is applied to the switch knob 310, the switch knob push stopper 318 and the body extension 113 contact each other, thereby limiting vertical movement of the switch knob 310. Accordingly, by allowing the vertical force and the side force of the switch knob to be applied alternatively, accurate operation of the complex switching function through the single switch knob may be achieved.

The above embodiments are examples for describing the present invention, but the present invention is not limited thereto. For example, the sliding switch provided in the switch device according to the present invention is configured as a contact type in this embodiment but may be replaced by an optical sensor, the push switch is configured by a tact switch but may be replaced by an optical sensor, vehicle Various modifications are possible depending on design specifications, such as a button type switch such as a sunroof switch.

1 is a schematic perspective view of a switch device according to an embodiment of the present invention.

2 is a schematic exploded perspective view of a switch device according to an embodiment of the present invention.

3 is a schematic cross-sectional view of a switch device according to an embodiment of the present invention.

4 is a schematic perspective bottom view of a switch device according to an embodiment of the present invention.

5 is a schematic partial perspective view of a switch unit 300 of a switch device according to an embodiment of the present invention.

6 and 7 are schematic perspective views and cross-sectional views in a normal state of a switch device according to an embodiment of the present invention.

8 and 9 are schematic perspective views and cross-sectional views in a first operating state of a switch device according to an embodiment of the present invention.

10 and 11 are schematic perspective views and cross-sectional views in a second operating state of a switch device according to an embodiment of the present invention.

12 and 13 are schematic cross-sectional views before and after the push operation at different time points of the switch device according to an embodiment of the present invention.

14 to 15 are schematic partial enlarged cross-sectional state diagrams for explaining the operating state of the switch knob push stopper of the switch device according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10 ... switch unit 100 ... housing

200 ... printed circuit board 300 ... switch unit

310 ... switch knob 320 ... switch moving block

330 ... Switch push moving block 340 ... Switch sliding moving block

360 ... switch section 370 ... push switch

380 ... sliding switch 390 ... switch detent

Claims (14)

housing; A printed circuit board disposed inside the housing; A switch including a switch knob arranged to be movable with respect to the housing, a switch moving block part operated by the operation of the switch knob, and a push part and a sliding switch operated by the operation of the switch knob. A unit; The push switch and the sliding switch is alternatively operated by the operation of the switch knob. The method of claim 1, The switch moving block portion: And a switch sliding moving block movable in a plane parallel to the printed circuit board into the housing. 3. The method of claim 2, And the switch unit is further provided with a switch detent portion for stealing (detent) the operation of the switch sliding moving block. The method of claim 3, wherein The switch detent unit: Detent elastic member receiving portion disposed in the switch sliding moving block, A detent elastic member movably received in the detent elastic member receiving portion; A detent ball elastically supported by the detent elastic member, And a detent groove disposed in the housing so as to form an always in contact with the detent ball. The method of claim 4, wherein The detent groove is: A detent stable area for forming a contact state with the detent ball in a normal state where no external force is applied to the switch knob; The detent movable area portion is formed to be inclined with respect to a plane in which the switch sliding moving block moves outside the detent stable area portion and to be spaced apart from the printed circuit board as the distance from the detent stable area increases. Switch device characterized in that it comprises. The method of claim 5, The detent movable area portion: A detent movable first region portion disposed in contact with an outer side of the detent stable region portion; The detent movable spaced apart from the detent stable area is disposed between the detent movable first area portion, and is formed to be inclined more than the detent movable first area portion with respect to the plane in which the switch sliding moving block moves. And a tent movable second region portion. 3. The method of claim 2, The sliding switch is: A sliding switch movable part disposed at the switch moving block part; And a sliding switch fixing part disposed on a surface of the printed circuit board at a position corresponding to a movable area of the sliding switch moving part. The method of claim 1, The switch moving block portion: A switch push moving block which is movable in the housing perpendicular to the printed circuit board; And the push switch is activated through the switch push moving block. The method of claim 8, The push switch is a switch device characterized in that it comprises a tact switch disposed on one surface of the printed circuit board and is activated by the operation of the switch knob. The method of claim 9, One end of the switch push moving block is in contact with the lower surface of the switch knob, The other end of the switch push moving block is elastically supported by a push moving block elastic member disposed in the housing. The method of claim 8, A push moving block knob guide for guiding a horizontal sliding movement of the switch knob is provided on an outer circumference of the switch push moving block. The method of claim 8, The switch sliding moving block is provided with a sliding moving block knob guide formed in a direction perpendicular to the moving direction of the switch sliding moving block, The switch knob is provided with a switch knob vertical guide corresponding to the sliding moving block knob guide. The method of claim 12, The switch device, characterized in that the lower surface of the switch knob is provided with a switch knob push stopper for limiting the vertical movement of the switch knob when the switch knob is sliding. The method of claim 1, Switch device, characterized in that the printed circuit board is provided with a switch light output unit for generating light for emitting through the switch knob.

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