KR101706426B1 - Vehicular multi-operating switching unit - Google Patents

Abstract

A switch shaft portion having one end housed in the housing portion and the other end exposed in the housing portion so as to be movable; And a switch knob part connected to one end of the switch shaft part, wherein the switch knob part comprises: a switch knob part for detecting a pushing operation of the switch shaft part; A knob housing including a knob housing base at least a portion of which is connected to one end of the switch shaft portion and a knob housing outer portion rotatably supported with respect to the knob housing base; A knob switch unit for detecting the operation of the user, A knob substrate disposed inside the housing of the knob and connected to the knob switch portion and electrically connected to the substrate disposed in the housing portion; and a knob substrate interposed between the knob switch portion and the knob switch portion, And a rotary switch unit arranged in a spaced relation to sense a relative rotation between the knob housing outer and the knob housing base.

Description

VEHICULAR MULTI-OPERATING SWITCHING UNIT}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a switch mounted on a vehicle, which is a simple and compact structure realized in a complex operation.

Typically, a steering wheel assembly for a vehicle includes a steering wheel, a steering column, a Sterring Roll Connector assembly, and a multifunctional switch assembly. The steering wheel is for the driver to set the steering direction, and the rotation of the steering wheel by the driver is transmitted to the wheel through the steering column to set the steering angle of the vehicle. In addition, a vehicle such as an automobile has a function as a variety of convenience means for enabling a user to provide a more stable and comfortable running state beyond a function as a moving means.

For example, a steering wheel of a currently produced vehicle is provided with a window switch for opening and closing a window, a steering light switch for turning on / off a steering light, an audio switch for driving audio, a wiper switch for driving a wiper, The assembly is provided with a light and fog lamp, a wiper, various audio devices, and a vehicle window switch so as to increase the operability of various devices by the driver so as not to lose the front attention during operation of various devices, Or as a lever switch on the side of the steering wheel or various functions are concentrated on the console switch.

Recently, it has been shown that switches of various functions tend to be integrated in a switch of a vehicle. However, as the function increases, the structure becomes complicated and the possibility of malfunction due to a complicated structure is increased.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and it is an object of the present invention to provide a multi-operating switch for a vehicle which can realize a complex operation through a compact and simple structure, Unit.

A switch shaft portion having one end housed in the housing portion and the other end exposed in the housing portion so as to be movable; And a switch knob part connected to one end of the switch shaft part, wherein the switch knob part comprises: a switch knob part for detecting a pushing operation of the switch shaft part; A knob housing including a knob housing base at least a portion of which is connected to one end of the switch shaft portion and a knob housing outer portion rotatably supported with respect to the knob housing base; A knob switch unit for detecting the operation of the user, A knob substrate disposed inside the housing of the knob and connected to the knob switch portion and electrically connected to the substrate disposed in the housing portion; and a knob substrate interposed between the knob switch portion and the knob switch portion, And a rotary switch unit arranged in a spaced relation to sense a relative rotation between the knob housing outer and the knob housing base.

In the multi-operating switch unit for a vehicle, the switch knob unit may include an NFC antenna unit formed on one side of the substrate of the switch knob unit.

In the multi-operating switch unit for a vehicle, the switch knob unit may include a plurality of gesture sensors on one side of the substrate of the switch knob unit.

In the vehicle multi-operating switch unit, the gesture sensor may be implemented as an infrared sensor including a light receiving unit and a light emitting unit, and a gesture sensor filter 2089 may be provided at a corresponding position of the gesture sensor.

A switch shaft hinge disposed at one end of the switch housing and accommodated in the housing portion, the switch shaft hinge having a shaft hinge guide disposed on an outer periphery thereof to enable a hinge operation; and a switch shaft hinge connected to the switch shaft hinge And a switch shaft body having one end exposed to the housing portion and having a predetermined length and the other end connected to the knob housing base, wherein the rotary switch portion includes: A rotary encoder having an encoder slit, and a rotary encoder disposed on the knob substrate toward the rotary encoder, wherein when the knob housing outer shaft rotates about the switch shaft body with respect to the knob housing base, It may include a rotary switch sensor to detect the same number.

In the multi-operating switch unit for a vehicle, the rotary switch unit may further include a rotary detent unit detenting a rotary operation of a rotary encoder disposed in the knob housing outer.

The rotary detent portion includes: a rotary detent integrally formed on a bottom surface of the knob housing base toward the knob housing outer portion; and a rotary detent disposed at a corresponding position of the rotary detent, And a rotary detent elastic protrusion 433a of a leaf spring structure elastically supported so as to be in constant contact with the detent 431.

In the multi-operating switch unit for a vehicle, the knob housing includes a knob housing cover which is engaged with the knob housing base, and the switch knob unit is configured to enable recognition through light , And the knob illumination unit (2070) further comprises: A knob illumination lamp (2071) disposed on one side of the knob substrate; and a switch unit (2071) disposed at a corresponding position of the knob illumination lamp such that the knob switch unit is positioned between the knob housing cover And a knob illumination guide 2073 for transmitting the emitted light to the knob housing cover side.

Wherein the directional switch unit comprises: a directional slide unit that is positionally changeable in the housing unit according to a tilting directional operation of the switch shaft unit; a directional slide unit disposed on the substrate, And a directional return unit for returning the directional slide unit and the switch shaft unit to a home position on a plane, wherein the directional return unit includes: a movable unit And a return groove including a return resilient portion accommodated in the housing portion for resiliently supporting the return plunger and a position for establishing a normal contact state with the return plunger and returning the return plunger to the home position, , The return I the return run grooves flexibly in the axial longitudinal direction of the switch shaft portion with respect to the housing part, and may be formed in the directional slide portion.

The housing unit includes a housing base for supporting the substrate and a housing cover formed with a return mounting portion for forming an internal space by engaging with the housing base and movably arranging the return plunger, .

The directional slide unit may include: a directional medium slide disposed between the housing base and the housing cover, the switch shaft portion being disposed through the switch unit, and a directional medium slide disposed between the directional medium slide and the housing base, A directional bottom slide disposed on the outer periphery of the switch shaft portion and disposed on a bottom surface of the housing cover facing the directional medium slide and being engaged with the directional medium slide relatively movably, .

In the vehicle multi operating switch unit, a medium upper guide formed to be engageable with the directional top slide is formed on one side of the directional medium slide, a medium lower guide is formed on the other side of the directional medium slide, The medium lower guide may be formed to engage with the bottom guide formed on the directional bottom slide relatively movably.

In the multi-operating switch unit for a vehicle, the directional bottom slide may include: a bottom guide having the bottom guide formed on the one surface thereof, the switch shaft portion being penetrated and the bottom surface of the bottom hole being in contact with the switch shaft portion, A bottom sliding side formed on the side surface of the bottom sliding body and formed with the return groove and a bottom sliding moving part formed on the bottom of the bottom sliding body to move the directional switch have.

In the multi-operating switch unit for a vehicle, the medium upper guide and the medium lower guide may be disposed at an angle of 90 degrees when projected on the same plane.

Wherein the return groove includes: a groove table position for forming a contact state with the return plunger in a steady state in which no external force is applied to the switch shaft portion; And a groove moving position in which an external force is applied to the switch shaft portion to form a contact state with the return plunger.

In the multi-operating switch unit for a vehicle, the bottom slide movable portion is a protrusion formed to extend from a lower portion of the slide body, and the directional switch may be a contact switch.

A switch shaft hinge disposed at one end of the switch housing and accommodated in the housing portion, the switch shaft hinge having a shaft hinge guide disposed on an outer periphery thereof to enable a hinge operation; and a switch shaft hinge connected to the switch shaft hinge And a switch shaft body having one end exposed to the housing portion and having a predetermined length and the other end connected to the knob housing base, wherein the push switch portion is disposed at a lower portion of the switch shaft hinge, A push holder 610 that is vertically movable together when the switch shaft portion 300 is vertically moved in contact with the switch shaft hinge 320; and a pusher holder 610 disposed on the substrate, wherein the push holder 610 is vertically displaced A push switch 620 for generating a changed signal when the push holder Arranged and may include a push return portion (630) for urging the push holder 610.

Wherein the push holder includes: a push holder body for receiving the switch shaft hinge; a push holder side extending from a side surface of the push holder body; and a switch holder shaft extending from the push holder side to the switch shaft, And a push-holder movable portion that extends parallel to the vertical direction of movement of the switch shaft portion and operates the push switch when the switch shaft portion is vertically movable.

The push-return unit includes: a push-return body in contact with the push-holder body; a push-return side extending from a side of the push-return body; and a push-return body disposed on one side of the push- And a push-return rubber cap for elastically supporting the push-holder side.

In the multi-operating switch unit for a vehicle, a push holder body through-hole is formed in the push holder body, a push-return body through-hole is formed in the push return body, a shaft hinge stopper is provided on a bottom surface of the switch shaft hinge A base push tolerance is provided at a corresponding position of the shaft hinge stopper of the housing part. When only an external force that makes a push operation is applied to the switch shaft part, the shaft hinge stopper is accommodated in the base push tolerance, When an external force for tilting operation is applied to the switch shaft portion, the shaft hinge stopper may contact the outside of the base pushing tolerance to prevent the shaft hinge stopper from being accommodated in the base pushing tolerance.

According to the present invention, it is possible to implement a complex operation by being installed in an indoor steering wheel of an automobile, a console switch device, or the like so as to be able to select and adjust the electrical operation of the vehicle such as a navigation device, an audio multimedia device, The present invention is not limited thereto.

In addition, the multi-operating switch unit for a vehicle according to the present invention can enable quick and accurate switching operation by the user through the switch knob unit.

Also, the multi-operating switch unit for a vehicle of the present invention can realize various simple switching operations such as character recognition and multi-treatment including a touch switch as a knob switch unit of the switch knob unit.

Further, the multi-operating switch unit for a vehicle according to the present invention is configured such that a knob switch portion disposed inside the knob housing elastic portion of the knob housing base provided at the switch knob portion is pressed to minimize the gap at the top portion, Through the structure integrated with the knob housing base, it is possible to improve the assemblability and the sensitivity enhancement structure.

In addition, the multi-operating switch unit for a vehicle according to the present invention may include an NFC antenna unit provided in the switch knob unit to enable a preset mode through NFC communication with an external electric device, a tag, or the like.

In addition, the multi-operating switch unit for a vehicle according to the present invention may include a gesture sensor provided in the switch knob unit to enable a preset mode through non-contact operation of a driver.

In addition, the multi-operating switch unit for a vehicle according to the present invention minimizes the number of components and concentrates the switch sensor or the like on the board side to minimize the problem of electrical wiring, thereby improving the degree of freedom in design, Savings can be achieved.

In addition, the multi-operating switch unit for a vehicle of the present invention minimizes the mounting space through a compact configuration such as the use of a substrate or a partition of arrangement areas of various operations, and prevents or minimizes the possibility of malfunction due to inter- .

In the multi-operating switch unit for a vehicle according to the present invention, the switch shaft hinge is disposed at a lower portion of the directional slide portion, that is, the switch shaft hinge is disposed at the lower portion of the housing, and the directional slide portion and the directional switch are connected to the rotary switch And a knob disposed at an end of the switch shaft body for minimizing a rotation angle around the switch shaft hinge of the switch shaft body for operating the directional switch unit through a structure disposed at a higher position than the push switch unit, It is possible to prevent or minimize the inflow of foreign matter through the housing cover through hole or the like and to prevent or reduce the possibility of interference with the knob and the like, So that a compact design can be realized.

Further, the multi-operating switch unit for a vehicle according to the present invention can realize a push operation through a rotary detent unit, thereby reducing the number of components, reducing manufacturing cost, and enabling a compact configuration.

1 is a schematic perspective view of a multi-operating switch apparatus for a vehicle having a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
2 and 3 are schematic cross-sectional views of a multi-operating switch apparatus for a vehicle having a multi-operating switch unit for a vehicle according to another embodiment of the present invention.
4 is a schematic perspective view of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
5 is a schematic plan view of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
Figures 6 and 7 are schematic cross-sectional views taken along line II and line II-II in Figure 5.
8 is a schematic exploded perspective view of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
9 is a schematic partial perspective view of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
10 is a schematic partially exploded perspective view of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
11 and 12 are schematic partial sectional views of a multi-operating switch unit for a vehicle according to another embodiment of the present invention.
13 and 14 are perspective views showing a state before and after a rough partial assembly of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
15 is a schematic perspective view of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
16 is a schematic exploded perspective view of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
17 is a schematic partial cross-sectional view of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
18 is a schematic exploded perspective view of some components of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
19 and 20 are a schematic perspective view and a cross-sectional view of a knob housing base of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
FIGS. 21, 22, and 23 are a perspective view and a cross-sectional view, respectively, of a knob housing outer of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
24 and 25 are schematic cross-sectional views of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
FIGS. 26 to 29 are a schematic plan view, a perspective view and a side view and a cross-sectional view taken along the line III-III of a modification of the switch knob portion of the multi-operating switch unit for a vehicle according to the embodiment of the present invention.
30 is a schematic cross-sectional view at another point of view of a modification of the switch knob portion of the multi-operating switch unit for a vehicle according to the embodiment of the present invention.
31 is a schematic exploded perspective view of a modified example of a switch knob portion of a multi-operating switch unit for a vehicle according to an embodiment of the present invention.
32 is an operational state diagram of a switch shaft body and a switch shaft hinge for implementing a directional tilting operation of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The vehicle multi-operating apparatus 1 includes an operating housing 2 and a multi-operating unit 10 for a vehicle and a button switch 30 are mounted on the operating housing 2. The button switch 30 includes a plurality So that various modes and menu selection functions can be implemented. The button switch 30 may be implemented as a touch switch or a push-type push switch, and may have various configurations according to design specifications.

The multi-operating switch unit 10 for a vehicle of the present invention includes a housing unit 100, a substrate 200, a switch shaft unit 300, a rotary switch unit 400, a directional switch unit 500, a push switch unit 600 And a switch knob portion 20 disposed on the upper end of the housing portion 100. The rotary switch portion 400 has a structure in which the switch knob portion 20 is disposed.

The multi-operating switch unit 10 for a vehicle according to the present invention is a switch unit used in a vehicle, and can realize various operational states. Thus, various functionalities of the vehicle, for example, various vehicle electric fields such as audio, navigation, And can be used to adjust and control the operating states of the devices.

First, the lower end portion of the vehicle multi-operating switch unit 10 of the present invention, which is inserted into the operating housing 2, will be described, and then the switch knob portion 20 disposed at the upper end will be described.

The housing part 100 of the multi operating switch unit 10 for a vehicle according to the present invention includes a housing cover 110 and a housing base 130. The housing cover 110 and the housing base 130 are fastened to each other, .

The housing base 130 forms a structure for supporting the substrate 200, and the housing cover 110 is engaged with the housing base 130 to form an internal space. A housing cover through hole 111 is formed in one side of the housing cover 110 and one end of the switch shaft portion 300 is exposed to the outside to be connected to the switch knob portion 20 So that it is possible to provide the operating force of the user such as the driver through the switch knob portion 20. [

The housing part 100 of the present embodiment further includes a housing holder 120 which is disposed between the housing cover 110 and the housing base 130 and the housing holder 120 comprises a housing base 120 130 to support the substrate 200.

The substrate 200 is disposed inside the housing part 100. Various electric elements may be disposed on the substrate 200. These electric elements may be connected through wiring formed on the substrate 200, For example, a flexible substrate or a cable. The substrate 200 is implemented as a double-sided substrate in this embodiment, and various elements may be disposed on both sides.

A substrate through-hole 202 is formed at the center of the substrate 200 to enable the switch shaft portion 300 to be inserted therethrough. A substrate connector 201 is formed on one end of the substrate 200. The connector 203 is connected to the board connector 201 and connected to the external electrical device through the wire 203 connected to the connector 203 and the connector 203, A connection to an external electrical device such as a power supply and a control unit (not shown) may be established.

The switch shaft part 300 has a structure in which one end is housed in the housing part 100 and the other end is exposed to the outside and connected to the switch knob part 20. The switch shaft part 300 includes a switch shaft body 310, And a switch shaft hinge 320.

The switch shaft body 310 is implemented as a rod type having a predetermined predetermined length and the switch shaft hinge 320 is disposed at the end of the switch shaft body 310 and accommodated in the housing portion 100, Specifically, the switch shaft hinge 320 has a structure in which the switch shaft hinge 320 rotates uniformly inside the housing holder 120 and is accommodated and disposed in the housing holder 120 within a range in which the linear movement is restricted. The switch knob portion 20 is mounted on an end portion exposed to the outside of the switch shaft body 310 to smooth a grip of a driver or the like to provide a predetermined operation feeling.

The switch shaft hinge 320 connected to the lower end of the switch shaft body 310 has a spherical shape in this embodiment and may have a shape modified according to a specific design specification. The switch shaft hinge 320 forms a substantially pivotal center of the switch shaft portion 300. The switch shaft hinge 320 is disposed in a space formed by the housing holder 120 and is formed in the housing holder 120 Through which the switch shaft body 310 is inserted through the housing holder through-hole 121.

The housing holder 120 includes a housing holder upper body 122 and a housing holder lower body 124. The housing holder upper body 122 and the housing holder lower body 124 mesh with each other to form a switch shaft hinge 320, As shown in Fig. The housing lower through hole 121 is formed in the housing holder upper body 122 and the lower lower body accommodating guide 1241 is formed inside the lower housing body 124. The holder lower body accommodating guide 1241 A shaft hinge guide 321 formed on the outer circumference of the switch shaft hinge 320 of the switch shaft portion 300 is accommodated and arranged to be movable by a predetermined distance.

The holder lower body accommodation guide 1241 and the shaft hinge guide 321 are structured to be engaged to prevent relative axial rotation. In this embodiment, the holder lower body accommodation guide 1241 and the shaft hinge guide 321 A predetermined relative movement along the axial direction, i.e., along the axial length direction of the switch shaft body 310, is allowed. That is, the holder lower body accommodating guide 1241 has a rectangular structure in the axial length direction in a state in which no external force is applied to the switch shaft body 310, so that the length of the holder lower body accommodating guide 1241 is longer than the length of the holder lower body accommodating guide 1241 in the circumferential direction The length of the holder lower body accommodating guide 1241 in the circumferential direction is defined as the transverse length A and the length with respect to the axial length direction is defined as the longitudinal length B , The aspect ratio (AR = B / A) is configured to have a value greater than one.

The holder lower body accommodating guide 1241 and the shaft hinge guide 321 are configured to engage with each other in a predetermined direction so that relative rotation between the lower and upper bodies is limited.

 A holder lower body support portion 1243 is provided on the outer periphery of the housing holder lower body 124 of the housing holder 120. The holder lower body support portion 1243 includes a base holder support portion 131 disposed in the housing base 130, It engages. The base holder supporting portion 131 has a structure protruding from the inner surface of the housing base 130 and has a structure in which a plurality of the base holder supporting portions 131 are spaced apart from each other. The push holder 610 and the push return portion 630 of the push switch portion 600, So that the switch shaft hinge 320 occupies a stable pivotal position in the inner space of the housing holder lower body 124 and the housing holder upper body 122.

Accordingly, the switch shaft body 310 is rotated by the user in the axial direction, tilting movement about the switch shaft hinge 320 of the switch shaft body 310 through the horizontal pressing force, And a press-in pushing motion for press-fitting the movable member 310 in the downward direction.

The position of the switch shaft hinge 320, which functions as the center of rotation of the directional tilting motion of the switch shaft body 310 according to the present embodiment, is located between the housing portion and the substrate, The directional switch unit 500 is disposed between the substrate 200 and the housing base 130 and between the housing 130 and the housing holder 120 disposed at a lower portion of the substrate 200. More specifically, The directional switch 560 of the directional switch unit 500 disposed above the switch shaft hinge 320 which is the center of rotation of the switch shaft body 310 The directional tilting movement of the switch shaft body 310 required for the operation is minimized to minimize the separation distance from the housing cover and the like so that foreign matter can be prevented from flowing into the interior through the housing cover and the like.

32 shows an operational state diagram of the switch shaft body and the switch shaft hinge 320 for implementing the directional tilting operation. The knob 109 (in this embodiment, the switch knob portion 120) Correspondence) is disposed. In a steady state, the switch shaft body is disposed on the line OA, and when a position for operating the directional switch 560 in the directional tilting operation of the switch shaft body of the present invention is defined as P on the line II, the switch shaft body 310 The length of the switch shaft body 310 when it reaches the position P is disposed on the line OB and the end of the knob 109 occupies the position indicated by the reference Q. [

On the other hand, unlike the structure of the present invention, when the switch shaft hinge occupies the virtual center Ovrt, the switch shaft when the switch shaft moves to the position P required for operating the directional switch is arranged on the line Ovrt-C At this time, the end of the knob 109 points to the position of Qvrt. The distances of the end portions Q and Qvrt of the knob 109 for each case from the line II-II are represented by L1 and L2 and L1> L2 (L1-L2 = L3 > 0).

That is, by minimizing the directional tilting angle required to operate the directional switch 560 through the lower arrangement structure of the switch shaft hinge, the movement distance of the knob 109 toward the housing portion is minimized and the knob 109 By minimizing the distance of the housing part from the housing cover, it is possible to reduce the possibility of foreign matter inflow through the housing cover side and to make it possible to construct a compact structure.

8 shows the directional operation of the switch shaft unit 300. That is, the switch shaft body 310 of the switch shaft unit 300 is connected to the switch shaft hinge 320, When the force is applied to move the center of the substrate 200 in a direction parallel to the substrate 200, the movement of the substrate 200 in one direction is detected and output.

The directional switch unit 500 includes a directional slide unit 510, a directional switch 560, and a directional return unit 550. The directional slide unit 510 can be displaced in the housing unit 100 by a tilting direction operation of the switch shaft unit 300. The directional slide unit 510 is movable in a plane parallel to the substrate 200, The directional tilting motion of the directional switch unit 500 in which the tilting motion of the switch shaft unit is switched to the planar motion on a plane parallel to the substrate can be performed.

The directional switch 560 is disposed on the substrate 200 and is operated by varying the position of the directional slide part 510 to generate a changed signal. In this embodiment, the directional switch 560 is implemented as a contact switch Various modifications are possible according to the design specification.

The directional switch 560 is disposed on the upper surface of the substrate 200 facing the housing cover 110 of the substrate 200. The directional switch 560 may be disposed in the upper region divided by the housing holder 120, Structure.

The directional slide unit 510 according to the present invention includes a directional top slide 520 (see FIG. 12), a directional medium slide 530 and a directional bottom slide 540, 530 are disposed between the housing base 130 and the housing cover 110 and more specifically between the housing cover 110 and the housing holder 120. A medium through opening 530 is formed at the center of the directional medium slide 530 533 are provided to allow the switch shaft body 310 of the switch shaft portion 300 to pass therethrough.

A medium side 535 is formed on the side of the directional medium slide 530. The medium side 535 is formed by removing grooves on the side of the directional medium slide 530 to form the directional return portion Interference with elements can be eliminated.

The directional medium slide 530 forms a predetermined plate structure and the directional medium slide 530 has a medium upper guide 531 and a medium lower guide 537, A medium lower guide 537 is formed on a lower surface of the directional medium slide 530, that is, a surface facing the housing holder 120. The medium slide 530 is formed on one surface of the medium slide 530, . The directional top slide 520 (see FIG. 12) is formed on the bottom surface of the housing cover 110 toward the directional medium slide 530 at one side thereof and is relatively movably engaged with the directional medium slide 530, The top slide 520 is engaged with the medium upper guide 531 of the directional medium slide 530 to form a structure in which the directional medium slide 530 is inserted into the middle upper guide 531 and the directional top slide 520 on the horizontal plane in the longitudinal direction.

In this embodiment, the directional top slide 520 has a groove shape and the medium upper guide 531 has a protrusion shape.

A medium lower guide 537 is formed on the other side of the directional medium slide 530. The medium lower guide 537 is formed on the bottom guide 540 formed on one side of the directional bottom slide 540, 541 relative to each other. In this embodiment, the medium-lower guide 537 is formed as a groove-like structure and the bottom guide 541 is formed as a protrusion structure, but the opposite structure may be formed.

The directional bottom slide 540 includes a bottom slide body 544 and a bottom slide side 547 and a bottom slide moveable portion 545 which includes a bottom guide 541 as described above on one side, And a bottom through hole 542 is formed at the center. The bottom through hole 542 is concentric with the medium through hole 533 while the bottom hole 542 has an inner diameter smaller than the inner diameter of the medium through hole 533. The bottom through hole 542, The inner side surface of the bottom through hole 542 is in contact with the outer circumferential surface of the switch shaft body 310 and the inner surface of the switch shaft body 300 The directional tilting movement in which the directional bottom slide 540 moves together on the horizontal plane can be achieved. The inner surface of the bottom through hole 542 may have a rectangular shape and the outer circumferential surface of the switch shaft body 310 of the corresponding switch shaft portion 300 may be formed in a corresponding rectangular shape to achieve stable operation have.

A bottom slider body 544 may be provided with a bottom slide protrusion 543 to reduce the contact resistance by forming a point contact structure that minimizes the contact surface with the directional medium slide 530 disposed on the upper surface have. In this embodiment, a structure in which the protrusion structure is formed on the bottom slide body side is adopted, but it is possible to adopt a structure in which it is arranged on the side of the directional medium slide, and the like.

The bottom slide side 547 is formed to extend to the side of the bottom slide body 544, and may be formed of separate water and fastened to the bottom slide body. The bottom slide side 547 is formed at a corresponding position of the medium side 535, and the return groove 557 described below is formed on the bottom slide side 547.

The bottom slide moving part 545 is formed at a lower portion of the bottom slide body 544 and when the directional bottom slide 540 makes a directional tilting movement, the bottom slide moving part 545 moves downward through the bottom through hole 542, The directional switch 560 can be operated at an equal interval in the vicinity of the outside climbing section of the vehicle. In this embodiment, the directional switch 560 is implemented as a contact switch, and the bottom slide moving part 540 forms a protruding structure that enables contact with the directional switch 560. In this embodiment, four directional switches 560 are provided and the bottom slide movable portion 545 also forms a substantially rectangular protruding structure having four movable surfaces corresponding thereto, and each assigned movable surface is a directional switch 560 to produce a modified signal output of the directional switch 560. 12, the bottom slide movable portion 545 is disposed on the bottom surface of the directional bottom slide 540. The bottom slide movable portion 545 is formed in a substantially rectangular protruding structure, but as shown in FIG. It may be formed in a structure having a predetermined curved arc shape so as to prevent the lowering of the durability of the directional switch through stable contact and separation operation in the directional operation in the contact state.

The directional tilting motion, which is the horizontal sliding movement on the horizontal plane due to the directional tilting motion of the directional slide unit 510, that is, the tilting motion of the switch shaft, is performed by a directional top slide, a directional medium slide, and a directional bottom slide Movement, relative movement between the directional top slide and the medium upper guide, and relative movement between the medium lower guide and the bottom guide. In the present embodiment, when the medium upper guide and the medium lower guide are projected on the same plane, a structure in which the lengths of the medium upper guide and the medium lower guide are arranged at 90 degrees are arranged so as to be substantially perpendicular to the horizontal direction of the directional tilting motion . ≪ / RTI >

As described above, the directional switch unit 500 includes a directional return unit 550. The directional return unit 550 includes a directional slide unit 510 after removing the external force applied to the switch shaft unit, And the switch shaft portion 300 in the plane. The directional return portion 550 includes a return elastic portion 553 and a return plunger 555 and a return groove 557. The return plunger 555 is accommodated in the housing portion 100 movably. 11) is formed in the housing cover 110 of the housing part 100. The return plunger 555 is movably accommodated and arranged in the return mounting part 551. [ The return plunger 555 is formed in a rod type, and the end of the return plunger 555 is disposed toward the return groove 557. The return elastic part 553 is disposed on the return mounting part 551 where the return plunger 555 is disposed. The return elastic part 553 is supported by the inner surface of the return mounting part 551, and the other end is supported by the return plunger 555. [ And elastically supports the return plunger 555 with respect to the housing cover 110.

The return groove 557 forms the normally contact state with the return plunger 555 and the return plunger 555 is returned to its original position through the interaction between the return plunger 555 and the return resilient portion 553, The return plunger 555 is returned from the return mounting portion 551 of the housing portion 100 to the axis of the switch shaft body 310 of the switch shaft portion 300, And the return groove 557 is formed in the bottom sliding side 547 of the directional bottom slide 540 so as to be resiliently supported by the return elastic portion 553 movably in the axial direction in parallel with the longitudinal direction.

The return groove 557 includes a groove table position 558 and a groove moving position 559. The groove table position 558 is a position in which the external force is not applied to the switch shaft body 310 of the switch shaft portion 300 And the groove moving position 559 is disposed outside the groove table position 558 and is in contact with the switch shaft body 310 of the switch shaft portion 300. [ The switch shaft body 310 is in contact with the return plunger 555 when the switch shaft body 310 is moved laterally from the center position.

When the external force component perpendicular to the longitudinal direction of the switch shaft body 310 is removed after application through the simple operation of the directional return unit 550, the switch shaft body 310 can stably return to its home position have.

The push switch unit 600 of the present invention senses and outputs a press-fit push operation of the switch shaft unit 300. The push switch unit 600 includes a push holder 610, a push switch 620, (630).

At least a portion of the push holder 610 is disposed below the switch shaft hinge 320 of the switch shaft 300 and more specifically below the housing holder 120 so that the switch shaft hinge 320 of the switch shaft portion 300 And when the switch shaft portion 300 is vertically operated, the switch shaft portion 300 is vertically operated together. The push switch 620 may be implemented as an optical sensor. Although the present embodiment is described mainly with the case of being implemented with an optical sensor, various modifications such as a non-contact type magnetic sensor switch and a magnet structure may be used.

When the push switch holder 620 is displaced in the vertical direction, the push switch 620 is operated by the push switch holder 620 to generate a changed signal, which is disposed on the bottom surface of the substrate 200. The push return portion 630 is disposed at a lower portion of the push holder 630 and elastically supports the push holder 610 to return the push holder 610 to the original position when an external force applied to the push holder 610 is removed.

More specifically, the push holder 610 includes a push holder body 611, a push holder side 615, and a push holder moving part 617. The push holder body 611 has a push holder body through- And the shaft hinge stopper 325 of the switch shaft hinge 320 is disposed through the pusher holder body through-hole 613. The push holder side 615 extends from the side of the push holder body 611 to the outside of the push holder body 611 and the push holder moving part 617 is disposed on the push holder side 615. The push holder moving part 617 is extended from the push holder side 615 in parallel with the vertical moving direction of the switch shaft part 310 to actuate the push switch 620 when the switch shaft part 300 is vertically operated, The pusher holder movable portion 617 extends upward toward the substrate 200 and the end of the pusher holder movable portion 617 is connected to the light receiving portion of the push switch 620 (Not shown) and is spaced apart from the push switch 620 to generate a predetermined signal change when the push-button input is applied and the push-holder movable portion 617 moves.

The push return portion 630 is further provided with a push return body 631 and a push return side 633 and a push return portion 633. The push return portion 630 is further provided with a push return portion 630 for returning the push switch portion 600 to the home position after the external force is removed. And a push-return rubber cap 635. The push-return body 621 has a push-return body through-hole 632 formed at a center thereof to have a predetermined ring shape, which enables the operation of the shaft hinge stopper 325.

And is disposed at the lower portion of the push holder body 611 so as to be in contact with the push holder body 611. The push return side 633 extends from the outer periphery of the push return body 621 and the push return rubber cap 635 is projected from one side of the push return side 633. The push-return body, the push-return side, and the push-return rubber cap may be integrated or may be coupled to each other.

The push return rubber cap 635 resiliently supports the push holder side 615 to return the push holder to the original position when the vertical pressing force is removed.

Further, it may further comprise a guiding component for stable home position return of the push holder in the case of home return through the push return portion. 5, a base push guide 133 is formed on the inside of the housing base 130 and a side end of the push holder moving part 617 is inserted along the base push guide 133, Structure can be formed.

Meanwhile, it may further include a structure for preventing two undesired operations from being simultaneously implemented, for example, a push operation and a directional tilting operation being performed at the same time to cause a signal output crosstalk. The base pushing stopper 135 is formed at a corresponding position of the shaft hinge stopper 325 formed on the bottom surface of the switch shaft hinge 320 and the base push stopper 135 is formed on the outer periphery of the base pushing stopper 135 12) is formed. The base push tolerance has a predetermined concave structure and allows the shaft hinge stopper 325 disposed at the lower end of the switch shaft hinge 320 when the push operation is performed. On the other hand, when the switch shaft body is applied with the axial longitudinal pressure input during the directional tilting operation, the shaft hinge stopper 325 forms a structure that can be contacted with the base push stopper 137 to prevent the push shaft operation of the switch shaft body have.

The switch knob unit 20 of the vehicle multi-operating switch unit 10 of the present invention is disposed at the upper end of the switch shaft body 310 of the switch shaft unit 300, . The switch knob portion 20 of this embodiment includes a knob substrate 210, a knob housing 2010, and a knob switch portion 2060. The knob switch unit 2060 may be implemented as a touch switch in this embodiment.

The knob housing 2010 includes a knob housing base 2020 and a knob housing cover 2030. The knob housing base 2020 and the knob housing cover 2030 mesh with each other to form an internal space and stably accommodate other components, that is, the knob substrate 210 and the knob switch portion 2060.

The knob housing base 2020 includes a knob housing base body 2021 and a knob housing base shaft 2023. The knob housing base body 2021 is formed in a plate structure having a predetermined circular shape and includes a knob housing base body The knob housing base shaft 2023 is disposed at the center of the lower surface of the knob housing 2021. A knob housing base bearing 2029 is disposed on the outer periphery of the knob housing base shaft 2023. The knob housing base bearing 2029 has a bearing structure such as a radial bearing to enable relative rotation between the inside and the outside, It is possible to smoothly rotate relative to the knob housing outer 2040 disposed in the housing 2040. [ The knob housing insertion hole 2045 is formed at the center of the knob housing outer 204 and the knob housing insertion hole 2045 is formed at the center of the knob housing outer portion 204. The knob housing insertion hole 2045 is formed in the outer periphery of the knob housing base 2020, A knob housing outer engaging portion 2047 is formed at an inner end portion of the knob housing engaging portion 2047. A knob housing base bearing 2029 is disposed between the knob housing outer engaging portion 2047 and the knob housing locking portion 2027, The knob housing base bearing 2029 is disposed between the knob housing outer catching portion 2047 and the knob housing catching portion 2027 in the longitudinal direction of the knob housing detent portion 310. That is, since the knob housing base shaft bearing 2029 is disposed between the knob housing outer fastening portion 2047 and the knob housing fastening portion 2027 in the circumferential direction and the shaft longitudinal direction, the switch shaft body The knob housing outer 2040 forms a supporting state with respect to the knob housing base 2020 connected to the knob housing base 2020 and forms a stable pivoting structure.

At least a portion of one side of the knob housing base body 2021 toward the knob housing cover 2030 is provided with at least one knob housing base elastic portion 2025. The knob housing base elastic portion 2025 has a free end The knob housing base 2020 and the knob housing cover 2030 have a wedge shape such as an arrow to provide a predetermined elastic force to the upper side, i.e., the side of the knob housing cover 2030, The knob switch portion 2060 and / or the knob substrate 210 accommodated and disposed can be stably maintained.

Further, a rotary detent 431 of the rotary detent unit 430 described below is provided on the lower surface of the knob housing base body 2020.

The knob housing cover 2030 is engaged with the knob housing base 2020 to form an inner space. A predetermined icon 2031 is formed on one surface of the knob housing cover 2030, and a knob illumination unit 2070 Thereby allowing the user to visually perceive the operation operation.

In some cases, a knob housing decoration 2050 may be disposed on the outer periphery of the knob housing cover 2030 to enhance the appearance and improve the finishing quality of the component.

The knob substrate 210 is disposed between the knob housing base 2020 and the knob housing cover 2030. The knob substrate connector 211 is disposed on one side of the knob substrate 210, And is connected to the side of the substrate 200 through a knob substrate connecting line 215 to be connected

Meanwhile, the knob switch 2060 is connected to the knob substrate 210 to implement a predetermined switching operation by a user's operation. In this embodiment, the knob switch 2060 is implemented as a touch switch having a touch function. For smooth operation of the touch function, the knob switch 2060 is disposed on the lower surface of the knob housing cover 2030 with a minimum clearance. A double-sided tape or the like is provided between the lower surface of the knob housing cover 2030 and the knob switch 2060 A knob switch adhering portion may be further provided. In addition, a predetermined upward pressing force may be applied through the above-described knob housing elastic portion 2025 to minimize the gap therebetween.

On the other hand, the knob illumination unit 2070 is disposed in the switch knob unit 20 as a component for enabling the user to recognize the light through the operation by the user's operation. The knob illumination unit 2070 may include a knob illumination lamp 2071 and a knob illumination guide 2073. The knob illumination lamp 2071 may be implemented as a led, and the light emitted from the knob illumination lamp 2071 is transmitted to the upper portion through the knob illumination guide 2073. The knob illumination guide 2073 is also provided with a circumferentially arranged region corresponding to the corresponding position of the icon 2031 and also has a serrated inclined region disposed toward the center so as to guide the light toward the knob housing cover 2030 .

The knob illumination guide 2073 has a support portion at the lower end thereof and penetrates the knob substrate 210 and contacts the knob housing base body 2020 to form a stable supporting state.

The present invention may further comprise a component that enables the rotary knob section 20 to realize a rotary rotary operation as an example of a multifunctional operation implementation. That is, as described above, the holder lower body receiving guide 1241 and the shaft hinge guide 321 are structured to engage with each other in a predetermined direction so that relative rotation between the holder lower body receiving guide 1241 and the shaft hinge guide 321 is limited, The operation is performed between at least a part of the switch knob portion 20 and the switch shaft portion 300. That is, the knob housing 2010 of the switch knob unit 20 further includes a knob housing outer 2040, which is disposed so as to be rotatable relative to the outer periphery of the knob housing base 2020. The knob housing base 2020 is engaged with the upper end of the switch shaft body 310 of the switch shaft portion 300 through the knob housing base shaft 2023 at the lower end to be pivotally restricted and only a predetermined pushing or tilting operation is allowed .

A knob housing outer 2040 is disposed on the outer periphery of the knob housing base 2020. The knob housing outer 2040 has an inner space to allow the knob housing base 2020 and the knob housing cover 2030 to be disposed.

A knob housing outer through hole 2045 is formed at the center of the knob housing outer 204 and a knob housing outer engaging portion 2047 is formed at an inner end of the knob housing outer through hole 2045, The knob housing base bearing 2029 is disposed between the latching portion 2047 and the knob housing latching portion 2027 and the knob housing latching portion 2047 and the knob housing latching portion 2027 are disposed between the knob housing base bearing 2029 and the knob housing base bearing 2029. That is, since the knob housing base shaft bearing 2029 is disposed between the knob housing outer fastening portion 2047 and the knob housing fastening portion 2027 in the circumferential direction and the shaft longitudinal direction, the switch shaft body The knob housing outer 2040 is formed in a supporting state with respect to the knob housing base 2020 connected to the knob housing base 2020 and the knob housing base 2020 connected to the knob housing base 2020. The structure in which the knob housing outer 2040 may form a stable pivoting structure is as described above.

A predetermined outer groove 2041 may be formed on an outer circumferential surface of the knob housing outer member 2040 to provide a predetermined grip feeling to the user to perform a slip prevention function.

A rotary switch unit 400 is provided as an element for sensing at least a part of the switch knob unit 20, that is, a rotating operation of the knob housing outer unit 2040.

The rotary switch unit 400 detects an axial rotation of the knob housing outer member 2040 which is at least a part of the switch knob unit 20 with respect to the switch shaft unit 300 and outputs a signal to an external device such as a control unit .

The rotary switch unit 400 includes a rotary encoder 410 and a rotary switch sensor 420. The rotary encoder 410 is disposed inside the knob housing outer 2040 as the knob housing 2010 of the switch knob unit 20 And is disposed facing the knob housing base 2020 on one side. The rotary encoder 410 may be formed in a slit type. A plurality of rotary encoder slits are formed at the outer circumferential end of the rotary encoder 410 formed in the knob housing outer 2040.

The rotary switch sensor 420 is disposed at the corresponding position of the rotary encoder slit 415 toward the housing portion 10 side with the rear surface of the knob substrate 210. [ That is, the rotary switch sensor 420 is formed as an optical sensor in the present embodiment, and the rotary switch sensor 420 is disposed on the lower surface of the knob substrate 210. A rotary encoder slit is movably disposed at a corresponding position of the rotary switch sensor 420 so that the knob housing outer 2040 of the switch knob portion 20 The rotary switch sensor 420 senses the rotation state of the rotary encoder 410 through the number of times the rotary encoder slit 415 is moved and transmits it to the external device through the substrate 200 .

In order to prevent an undesired rotation state of the rotary switch unit 400 and to generate a more accurate rotation signal so as to prevent a malfunction in the operation state setting of the devices of the vehicle through at least part of the rotation operation of the switch knob unit, 20) side and the rotary encoder 410. In this case, The rotary detent part 430 includes a rotary detent 431, a rotary detent ball 433 and a rotary detent elastic part 430. The rotary detent part 430 includes a rotary detent part 430, (435) and a detent receiving portion (437). The detent accommodating portion 437 is disposed on the outer circumferential side of the knob housing outer engaging portion 2047 on the inner one side of the knob housing outer 2040.

The rotary detent 431 is formed on the bottom surface of the knob housing base 2020 as a facing surface of the knob housing outer fastener 2047 on which the rotary encoder 410 is formed. 2020, the rotary detent 431 in this embodiment has a structure integrally formed on the bottom surface of the knob housing base 2020. [

The rotary detent 431 may be configured as one or more protrusions and recesses in this embodiment, and may be disposed at predetermined predetermined intervals. A rotary stopper (not shown) may be provided to prevent excessive rotation of the outer knob housing, which is not shown in the present embodiment but may be equipped with a rotary encoder as the case may be, A structure may be adopted in which an endless rotation is established and a rotation reference of the rotary switch sensor is initialized when the power is turned off.

A rotary detent elastic portion 435 having a coil spring structure is disposed in the detent receiving portion 437 formed at a corresponding position of the rotary detent 431. The rotary detent elastic portion 435 elastically supports the ball-shaped rotary detent ball 433, and the rotary detent ball 433 forms a normal contact state with the rotary detent 431.

The rotary detent elastic portion 433 and the rotary detent elastic protrusion 435 may be provided in one or more of them. In this embodiment, in addition to the smooth detent operation, when the rotary encoder 410 is rotated, The three rotary detent elastic portions 433 and the rotary detent elastic protrusions 435 are equally spaced on a plane parallel to the rotation axis of the rotary encoder so as to form a stable supporting state.

In this embodiment, the rotary detent elastic portion is realized as a coil spring, but the rotary detent elastic portion is realized as a spiral type plate spring and the punching protruded portion contacts the rotary detent to perform a detent operation, Various configurations are possible within the scope of implementation.

In the above embodiment, the knob switch unit of the switch knob unit includes only a switch having a touch function. However, the present invention is not limited thereto and various complex functions can be realized. The same components as those in the previous embodiment are given the same names and reference numerals, and duplicate descriptions will be omitted and differences will be mainly described.

As in the previous embodiment, the knob housing 2010 of the switch knob portion 20a includes the knob housing base 2020 and the knob housing cover 2030. The knob housing base 2020 and the knob housing cover 2030 mesh with each other to form an internal space and stably accommodate other components, that is, the knob substrate 210 and the knob switch portion 2060.

The knob housing base 2020 includes a knob housing base body 2021 and a knob housing base shaft 2023. The knob housing base body 2021 is formed in a plate structure having a predetermined circular shape and includes a knob housing base body The knob housing base shaft 2023 is disposed at the center of the lower surface of the knob housing 2021. A knob housing base bearing 2029 is disposed on the outer periphery of the knob housing base shaft 2023. The knob housing base bearing 2029 has a bearing structure such as a radial bearing to enable relative rotation between the inside and the outside, It is possible to smoothly rotate relative to the knob housing outer 2040 disposed in the housing 2040. [

In this modification, the knob housing outer 2040 includes a ring-type knob housing outer ring formed with an outer groove 2041, and a knob housing outer body coupled with the knob housing outer ring, The same as in the previous embodiment.

A knob housing latching portion 2027 is disposed on the outer periphery of the knob housing base 2020. A knob housing outer penetrating opening 2045 is formed at the center of the knob housing outer portion 204. A knob housing through opening 2045 is formed in the partition A knob housing outer engaging portion 2047 is formed at an inner end of the knob housing engaging portion 2047. A knob housing base bearing 2029 is disposed between the knob housing outer engaging portion 2047 and the knob housing engaging portion 2027, The knob housing base bearing 2029 is disposed between the knob housing outer engaging portion 2047 and the knob housing retaining portion 2027 in the longitudinal direction of the knob housing retaining portion 2047. That is, since the knob housing base shaft bearing 2029 is disposed between the knob housing outer fastening portion 2047 and the knob housing fastening portion 2027 in the circumferential direction and the shaft longitudinal direction, the switch shaft body The knob housing outer 2040 forms a supporting state with respect to the knob housing base 2020 connected to the knob housing base 2020 and forms a stable pivoting structure.

At least a portion of one side of the knob housing base body 2021 toward the knob housing cover 2030 is provided with at least one knob housing base elastic portion 2025. The knob housing base elastic portion 2025 has a free end The knob housing base 2020 and the knob housing cover 2030 have a wedge shape such as an arrow to provide a predetermined elastic force to the upper side, i.e., the side of the knob housing cover 2030, The knob switch portion 2060 and / or the knob substrate 210 accommodated and disposed can be stably maintained.

Further, a rotary detent 431 of the rotary detent unit 430 described below is provided on the lower surface of the knob housing base body 2020.

The knob housing cover 2030 is engaged with the knob housing base 2020 to form an inner space. A predetermined icon 2031 is formed on one surface of the knob housing cover 2030, and a knob illumination unit 2070 Thereby allowing the user to visually perceive the operation operation.

In some cases, a knob housing decoration 2050a may be disposed on the outer periphery of the knob housing cover 2030 to enhance the appearance and enhance the finishing quality of the component.

The knob substrate 210 is disposed between the knob housing base 2020 and the knob housing cover 2030. The knob substrate connector 211 is disposed on one side of the knob substrate 210, And is connected to the side of the substrate 200 through a knob substrate connecting line 215 to be connected

On the other hand, the knob illumination unit 2070 is disposed in the switch knob unit 20 as a component for enabling the user to recognize the light through the operation by the user's operation. The knob illumination unit 2070 may include a knob illumination lamp 2071 and a knob illumination guide 2073. The knob illumination lamp 2071 may be implemented as a led, and the light emitted from the knob illumination lamp 2071 is transmitted to the upper portion through the knob illumination guide 2073. The knob illumination guide 2073 is also provided with a circumferentially arranged region corresponding to the corresponding position of the icon 2031 and also has a serrated inclined region disposed toward the center so as to guide the light toward the knob housing cover 2030 .

The knob illumination guide 2073 has a support portion at the lower end thereof and penetrates the knob substrate 210 and contacts the knob housing base body 2020 to form a stable supporting state.

Implementation of the rotary rotary operation through the switch knob portion 20a is the same as the previously described embodiment. The rotary pivoting operation of the present invention is performed between at least a part of the switch knob portion 20a and the switch shaft portion 300. [ That is, the knob housing 2010 of the switch knob portion 20a further includes a knob housing outer 2040, which is disposed so as to be rotatable relative to the outer periphery of the knob housing base 2020. The knob housing base 2020 is engaged with the upper end of the switch shaft body 310 of the switch shaft portion 300 through the knob housing base shaft 2023 at the lower end to be pivotally restricted and only a predetermined pushing or tilting operation is allowed .

A knob housing outer 2040 is disposed on the outer periphery of the knob housing base 2020. The knob housing outer 2040 has an inner space to allow the knob housing base 2020 and the knob housing cover 2030 to be disposed.

A knob housing outer through hole 2045 is formed at the center of the knob housing outer 204 and a knob housing outer engaging portion 2047 is formed at an inner end of the knob housing outer through hole 2045, The knob housing base bearing 2029 is disposed between the latching portion 2047 and the knob housing latching portion 2027 and the knob housing latching portion 2047 and the knob housing latching portion 2027 are disposed between the knob housing base bearing 2029 and the knob housing base bearing 2029. That is, since the knob housing base shaft bearing 2029 is disposed between the knob housing outer fastening portion 2047 and the knob housing fastening portion 2027 in the circumferential direction and the shaft longitudinal direction, the switch shaft body The knob housing outer 2040 is formed in a supporting state with respect to the knob housing base 2020 connected to the knob housing base 2020 and the knob housing base 2020 connected to the knob housing base 2020. The structure in which the knob housing outer 2040 may form a stable pivoting structure is as described above.

A predetermined outer groove 2041 may be formed on an outer circumferential surface of the knob housing outer member 2040 to provide a predetermined grip feeling to the user to perform a slip prevention function.

A rotary switch unit 400 is provided as a component for detecting at least a part of the switch knob unit 20a, that is, a rotation operation of the knob housing outer unit 2040. [

The rotary switch unit 400 senses the axial rotation of the knob housing outer member 2040 which is at least a part of the switch knob unit 20a with respect to the switch shaft unit 300 and outputs a signal to an external device such as a control unit .

The rotary switch unit 400 includes a rotary encoder 410 and a rotary switch sensor 420. The rotary encoder 410 is connected to the inside of the knob housing outer 2040 as the knob housing 2010 of the switch knob unit 20a And is disposed facing the knob housing base 2020 on one side. The rotary encoder 410 may be formed in a slit type. A plurality of rotary encoder slits are formed at the outer circumferential end of the rotary encoder 410 formed in the knob housing outer 2040.

The rotary switch sensor 420 is disposed at the corresponding position of the rotary encoder slit 415 toward the housing portion 10 side with the rear surface of the knob substrate 210. [ That is, the rotary switch sensor 420 is formed as an optical sensor in the present embodiment, and the rotary switch sensor 420 is disposed on the lower surface of the knob substrate 210. The rotary encoder slit is movably disposed at the corresponding position of the rotary switch sensor 420 so that the knob housing outer 2040 of the switch knob portion 20a The rotary switch sensor 420 senses the rotation state of the rotary encoder 410 through the number of times the rotary encoder slit 415 is moved and transmits it to the external device through the substrate 200 .

In order to prevent an undesired rotation state of the rotary switch unit 400 and to generate a more accurate rotation signal so as to prevent a malfunction in the operation state setting of the devices of the vehicle through at least part of the rotation operation of the switch knob unit, 20a and the rotary encoder 410. In this case, In the above embodiment, the detent ball and the coil spring as the detent elastic portion are used. However, in the modification of this embodiment, the rotary detent ball and the rotary detent elastic portion are formed as the plate-spring-shaped rotary detent elastic projection 433a Is replaced.

That is, the rotary switch unit 400 of the present invention includes a rotary detent unit 430, and the rotary detent unit 430 includes a rotary detent 431 and a rotary detent elastic protrusion 433a.

The rotary detent 431 is formed on the bottom surface of the knob housing base 2020 as a facing surface of the knob housing outer fastener 2047 on which the rotary encoder 410 is formed. 2020, the rotary detent 431 in this embodiment has a structure integrally formed on the bottom surface of the knob housing base 2020. [

The rotary detent 431 may be configured as one or more protrusions and recesses in this embodiment, and may be disposed at predetermined predetermined intervals. A rotary stopper (not shown) may be provided to prevent excessive rotation of the outer knob housing, which is not shown in the present embodiment but may be equipped with a rotary encoder as the case may be, A structure may be adopted in which an endless rotation is established and a rotation reference of the rotary switch sensor is initialized when the power is turned off.

A rotary detent elastic projection 433a of a leaf spring structure is disposed at a corresponding position of the rotary detent 431. [ The rotary detent elastic projection 433a has a predetermined elastic projection in the form of a leaf spring, and elastically supports the elastic projection so as to form a normal contact state with the rotary detent 431.

In addition, the switch knob unit 20a as another example of the present invention enables switching or mode implementation through gesture switching and NFC detection by gesture detection in addition to the touch function. In addition, the switch knob unit 20a of the multi- 10 is disposed at the upper end of the switch shaft body 310 of the switch shaft portion 300 so as to enable the operation of the operation by the user. The switch knob portion 20 of this embodiment includes a knob substrate 210, a knob housing 2010, and a knob switch portion 2060.

The knob switch 2060 is connected to the knob substrate 210 to implement a predetermined switching operation by a user's operation. In the previous embodiment, the knob switch 2060 is focused on implementing a touch switch having a touch function, In a modification of this embodiment, the knob switch 2060 takes a structure that enables a complex function implementation.

The knob switch portion 2060 includes a knob switch touch pattern portion 2061, an NFC antenna portion 2090 and a gesture sensor 2080 on one surface of a substrate such as a flexible substrate (FPCB) . That is, the knob switch touch pattern portion 2061 is formed on one surface of the substrate. The knob switch touch pattern portion 2061 has a lattice structure occupying the center in the present embodiment. However, The pattern portion 2061 is not limited to this shape. For smooth operation of the touch function, the knob switch 2060 is disposed on the lower surface of the knob housing cover 2030 with a minimum clearance. A double-sided tape or the like is provided between the lower surface of the knob housing cover 2030 and the knob switch 2060 A knob switch adhering portion 2039 may be further provided. In the modification of the present embodiment, the configuration of the above-described knob housing elastic portion and the like may be excluded, but in some cases, a predetermined upward pressing force acts on the knob base portion or the like to minimize the gap therebetween.

An NFC antenna unit 2090 is formed on the outer periphery of the knob switch unit 2060 and an NFC communication element for NFC communication may be further disposed on the knob substrate 210. The NFC antenna unit 2090 forms a circular line, and its shape can be variously deformed within a range in which it communicates with an external NFC device or tag. It is possible to implement an operation mode stored in a storage unit (not shown) communicating with an apparatus or the like recognized through the NFC antenna unit 2090 or a tag. For example, in an operation mode set through tag recognition, for example, a route guidance is set by setting a destination of vehicle navigation as home, and a voice communication with a family is made possible by establishing a telephone communication with a home telephone And so on.

In addition, a plurality of gesture sensors 2080 are disposed on the base of the knob switch portion 2060, and the gesture sensor 2080 is implemented as an infrared sensor in this embodiment. The order and time of the sensed signals of the gesture sensor 2080 pointing to the plurality of positions may be checked and stored in advance to implement the set operation mode stored in the storage unit (not shown). In this embodiment, a gesture sensor functioning as a light receiving unit is disposed at the center and a gesture sensor functioning as a plurality of light emitting units in the circumferential direction is disposed outside the gesture sensor. However, various modifications are possible according to the design specification.

The gesture sensor 2080 is disposed in the upward direction through a knob switch portion through-hole 2063 formed in the knob switch portion 2060. The gesture sensor 2080 includes a knob switch portion 2060, A gesture sensor filter 2089 may be further disposed between the housing cover 2030a and the knob switch portion 2060. [ Also in this case, the light-receiving filter can have a structure in which the light-emitting filter is arranged on the outer circumference in correspondence with the gesture sensor of the light-receiving unit / light-emitting unit.

The knob housing cover 2030a is formed with a knob housing cover filter through hole 2031a so that the infrared ray detecting function can be smoothly performed. Thus, the knob housing cover and the knob switch adhering portion 2039 are formed to have a through structure, and the unwanted noise generation factors such as crosstalk can be prevented from being minimized through the gap between the knob housing cover and the knob switch portion, Or minimized.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

1 .... multi-operating switch device for vehicle
10 ... multi-operating switch unit for vehicle
20 ... switch knob section 20 ... button switch section
100 .. Housing part 110 ... Housing cover
120 ... housing holder 130 ... housing base
200: substrate 300: switch shaft portion
400 ... Rotary switch part 500 ... Directional switch part
600 ... push switch part

Claims (20)

A housing having at least a part thereof housed in the housing part; a housing having one end housed in the housing part and the other end exposed to the housing part so as to be movable in a movable manner, And a switch knob portion connected to one end of the switch shaft portion to sense and output a push-in push operation of the switch shaft portion, and a switch knob portion connected to one end of the switch shaft portion The knob housing including a knob housing base at least a portion of which is connected to one end of the switch shaft portion and fixed to the switch shaft portion, and a knob housing outer portion rotatably supported by the knob housing base; , And is accommodated in the interior of the knob housing A knob substrate connected to the knob switch portion inside the knob housing and electrically connected to the substrate disposed inside the housing portion; And a rotary switch unit disposed between the knob housing and the knob switch unit to detect a relative rotation between the knob housing outer and the knob housing base,
Wherein the switch knob portion includes: an NFC antenna portion formed on one surface of the substrate of the switch knob portion;
Wherein the switch knob portion includes: a plurality of gesture sensors on one side of the substrate of the switch knob portion;
The gesture sensor is implemented as an infrared sensor including a light receiving unit and a light emitting unit, a gesture sensor filter 2089 is provided at a corresponding position of the gesture sensor,
Wherein the switch shaft hinge includes: a switch shaft hinge disposed at one end of the housing portion and capable of hinge operation and having a shaft hinge guide disposed on the outer periphery thereof; a switch shaft hinge connected to the switch shaft hinge, And a switch shaft body having a predetermined length and the other end connected to the knob housing base, wherein the rotary switch unit includes: a rotary encoder having a plurality of rotary encoder slits toward the knob substrate on one inner surface of the knob housing outer; And a rotary switch sensor disposed on the knob substrate to face the rotary encoder and sensing movement of the rotary encoder slit when the knob housing outer shaft rotates about the switch shaft body with respect to the knob housing base ,
Wherein the rotary switch unit further comprises a rotary detent unit detenting the rotary operation of the rotary encoder disposed in the knob housing outer,
The rotary detent portion includes: a rotary detent integrally formed on the bottom surface of the knob housing base toward the knob housing outer portion; a rotary detent disposed at a corresponding position of the rotary detent, And a rotary detent elastically projecting portion (433a) having a leaf spring structure elastically supported to form the rotary detent elastically projecting portion (433a). delete delete delete delete delete delete The method according to claim 1,
The knob housing having a knob housing cover engaged with the knob housing base,
The switch knob unit further includes a knob illumination unit 2070 for enabling recognition through light in response to a user's operation or operation,
The knob illumination unit 2070 includes:
A knob illumination lamp 2071 disposed on one side of the knob substrate,
A knob illumination guide 2073 is disposed at a corresponding position of the knob illumination lamp so that the knob switch portion is positioned between the knob housing cover and the knob illumination cover and the light emitted from the knob illumination lamp is transmitted to the knob housing cover And a control unit for controlling the operation of the multi-operating switch unit. The method according to claim 1,
The directional switch unit includes: a directional slide unit that is position-adjustable within the housing unit by a tilting directional operation of the switch shaft unit; and a controller that is disposed on the substrate and is operated by varying a position of the directional slide unit, And a directional return unit for returning the directional slide unit and the switch shaft unit to a home position on a plane,
The directional return unit includes:
A return plunger movably disposed in the housing portion,
A return elastic portion accommodated in the housing portion and elastically supporting the return plunger;
And a return groove including a position for establishing a normal contact with the return plunger and returning the return plunger to the home position,
Wherein the return plunger is movable in the axial direction of the switch shaft portion with respect to the housing portion, and the return groove is formed in the directional slide portion. 10. The method of claim 9,
The housing part includes a housing base for supporting the substrate,
And a housing cover formed with a return mounting portion formed with an internal space by engaging with the housing base and in which the return plunger is movably disposed. 11. The method of claim 10,
The directional slide unit includes:
A directional medium slide which is disposed between the housing base and the housing cover and in which the switch shaft portion is disposed,
A directional bottom slide disposed between the directional medium slide and the housing base and penetrating the outer periphery of the switch shaft portion,
And a directional top slide formed on a bottom surface of the housing cover toward the directional medium slide, the directional top slide being engaged with the directional medium slide in a relatively movable manner. 12. The method of claim 11,
A medium upper guide formed to be engageable with the directional top slide is formed on one side of the directional medium slide,
Wherein a medium lower guide is formed on the other side of the directional medium slide, and the medium lower guide is formed to engage with the bottom guide formed on the directional bottom slide relatively movably. 13. The method of claim 12,
The directional bottom slide comprises:
A bottom slide body on which the bottom guide is formed and on which the switch shaft portion is inserted and whose inner side is in contact with the switch shaft portion;
A bottom slide side formed on the side surface of the bottom slide body and forming the return groove,
And a bottom slide movable portion formed at a lower portion of the bottom slide body to move the directional switch. 14. The method of claim 13,
Wherein when the medium upper guide and the medium lower guide are projected on the same plane, the medium upper guide and the medium lower guide are crossed at 90 degrees. 14. The method of claim 13,
The return groove includes:
A groove table position for forming a contact state with the return plunger in a steady state in which no external force is applied to the switch shaft portion,
And a groove moving position which is disposed outside the groove table position and forms a contact state with the return plunger when an external force is applied to the switch shaft portion. 14. The method of claim 13,
Wherein the bottom slide movable portion is a protrusion formed so as to protrude from a lower portion of the slide body, and the directional switch is a contact switch. The method according to claim 1,
The switch shaft portion includes:
A switch shaft hinge that is disposed at one end of the housing portion and that is capable of hinge operation and has a shaft hinge guide disposed on the outer periphery thereof,
And a switch shaft body connected to the switch shaft hinge and having one end exposed to the housing part and having a predetermined length and the other end connected to the knob housing base,
Wherein the push switch portion comprises:
At least a part of which is disposed at the lower portion of the switch shaft hinge 320 and is vertically movable together with the switch shaft hinge 320 when the switch shaft 300 is vertically moved,
A push switch 620 disposed on the substrate and generating a changed signal when the push holder 610 is vertically displaced,
And a push return unit (630) disposed at a lower portion of the push holder and elastically supporting the push holder (610). 18. The method of claim 17,
Said push holder comprising:
A push-holder body for receiving and contacting the switch shaft hinge,
A push holder side extending from a side surface of the push holder body,
And a push-holder moving unit extended from the push holder side in parallel with a vertical moving direction of the switch shaft unit to move the push switch when the switch shaft unit is vertically operated. 19. The method of claim 18,
The push return portion includes:
A push-return body in contact with the push-holder body,
A push-return side extending from the side of the push-return body,
And a push-return rubber cap disposed on one side of the push-return side and elastically supporting the push-holder side. 19. The method of claim 18,
Wherein the push holder body is formed with a push holder body through hole, the push return body is formed with a push return body through hole,
A shaft hinge stopper is provided on a bottom surface of the switch shaft hinge,
Wherein a base push tolerance is provided at a corresponding position of the shaft hinge stopper of the housing part,
The shaft hinge stopper can be accommodated in the base pushing tolerance when only an external force that makes a push operation is applied to the switch shaft portion,
Wherein the shaft hinge stopper is prevented from being received in the base pushing tolerance when the shaft hinge stopper comes into contact with the outside of the base pushing tolerance when an external force for tilting operation is applied to the switch shaft portion. Switch unit.

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