KR101555378B1 - Steering wheel switching unit - Google Patents

Abstract

The present invention relates to a semiconductor device comprising: a housing; A printed circuit board disposed within the housing; A push switch movable portion disposed at a lower portion of the switch knob at a position corresponding to the center of the switch knob, a switch knob for connecting the switch knob and the push switch movable portion, A push switch portion including a push switch tilting portion for enabling movement of the push switch, and a push switch operated by the push switch movable portion, a plurality of push switch portions disposed on one surface of the printed circuit board, And a directional switch unit including a directional switch operated by the switch knob.

Description

{STEERING WHEEL SWITCHING UNIT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switch device, and more particularly, to a switch device of a complex structure that enables a push operation and a direction selection 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. Accordingly, various kinds of convenience facilities and various switches for operating and controlling the various facilities are provided in the vehicle, and various switches tend to be concentrated in the steering unit in consideration of the operability of the driver.

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 the steering light, an audio switch for driving audio, and a wiper switch for driving the wiper.

The multifunctional switch 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 frontal attention during operation of various devices. Or as a lever switch on the side of the steering wheel. An airbag is provided at the upper end of the steering wheel to secure the safety of the driver.

However, in addition to these various switch devices, components such as SRC (Steering Roll Connector) / slip ring and the like, which supply power to the switches, are arranged at the lower end of the steering wheel. These SRCs and the slip rings have a considerable structure Compactness of other components such as a switch mounted on the steering wheel is required to efficiently use the space of the limited steering portion in terms of occupying the volume. In addition, it is necessary to enable more accurate operation of the switches and the like.

However, the switch according to the prior art has increased the sense of operation by the user as a seesaw type switch, but it is difficult to integrate the compactness of the device and the complicated switch function into a single switch unit, and the durability due to the mechanical operation is considerably inhibited .

The present invention provides a composite structure capable of realizing a push operation and a tilting operation, a compact configuration enabling a more accurate operation of the switching function, And to provide a unit.

According to an aspect of the present invention, A printed circuit board disposed within the housing; A push switch movable portion disposed at a lower portion of the switch knob at a position corresponding to the center of the switch knob, a switch knob for connecting the switch knob and the push switch movable portion, A push switch portion including a push switch tilting portion for enabling movement of the push switch, and a push switch operated by the push switch movable portion, a plurality of push switch portions disposed on one surface of the printed circuit board, And a directional switch unit including a directional switch operated by the switch knob.

The tilting knob guide includes a tilting knob guide disposed in the switch knob toward the push switch movable part, and a tilting knob guide disposed at a position corresponding to the tilting knob guide in the push switch movable part toward the switch knob. A tilting movable guide spaced apart from the tilting knob guide, and a tilting medium contacting the ends of the tilting knob guide and the tilting movable guide, respectively.

In the composite switch unit, the tilting medium is configured as a ball type, and both ends of the tilting medium contact the movable knob of the switch knob and the push switch to provide an elastic force between the switch knob and the push switch movable part And a switch knob stopper extending along the radial direction of the switch knob to prevent the switch knob from separating from the housing.

In the composite switch unit, a knob-tilting elastic portion guide for supporting one end of the tilting elastic portion is disposed on one surface of the switch knob, and a movable knob tilting elastic portion for supporting the other end of the tilting elastic portion is formed on one surface of the push- A guide may be provided.

In the composite switch unit, a push switch movable part guide is disposed on the outer periphery of the push switch movable part, and the housing is provided with a push switch movable part guide which is engaged with the push switch movable part guide so as to be able to move relative to the corresponding position of the push switch movable part guide. A guide corresponding part may be provided.

In the above-described composite switch unit, the directional switch unit may include: a directional switch movable part extending from the switch knob toward the directional switch; and a directional switch movable part, And a directional switch medium that is operated by the housing and is arranged to operate the directional switch.

In the above-described composite switch unit, a directional switch movable pad may be disposed between the end of the directional switch moving part and the directional switch medium, which can contact the medium of the directional switch, to prevent contact noise between them.

In the composite switch unit, the directional switch medium may include: a directional switch medium body movable along the body direction moving part through hole formed in the housing between the directional switch moving part and the directional switch; And a directional switch medium base disposed at an end of the switch medium body and disposed so as to be in contact with the directional switch, wherein the end of the body direction moving part through-hole facing the directional switch is operable to move the directional switch medium A medium stopper disposed in contact with the directional switch medium base may be provided.

The tilting knob guide includes: a pair of tilting knob guide protrusions extending from the switch knob; and a tilting knob guide groove formed in the tilting knob guide protrusion, wherein the tilting knob guide includes: And a tilting movable guide groove formed in the tilting movable guide protrusion, wherein the tilting knob guide and the tilting movable guide are configured such that the push switch movable part and the push Or may be arranged alternately in a plane perpendicular to the line segments connecting the switches.

Wherein the tilting medium is constituted by a universal joint type and the tilting medium is formed by a tilting knob between the tilting knob guide and the tilting movable guide on a plane perpendicular to a line segment connecting the push switch movable part and the push switch, A tilting medium body disposed at an angle of 90 degrees from the tilting medium body and inserted into the tilting movable guide groove and the tilting knob guide groove.

The composite switch unit according to the present invention having the above-described configuration has the following effects.

First, the composite switch unit according to the present invention is capable of selectively operating a push operation and a directional operation, thereby providing a composite switch structure of a compact structure.

Second, the composite switch unit according to the present invention can generate a predetermined electrical signal by precluding the interference of the push operation and the tilting operation through the push switch tilting unit and performing the correct selection operation.

Third, the composite switch unit according to the present invention may enable smooth tilting operation and accurate push operation through a ball type tilting medium.

Fourth, the composite switch unit according to the present invention may enable smooth tilting operation and accurate push operation through a tilting medium of a universal joint type.

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 composite switch unit according to the present invention will be described with reference to the drawings.

FIG. 1 is a schematic perspective view of a composite switch unit 10 according to an embodiment of the present invention. FIG. 2 is a schematic partial exploded perspective view of a composite switch unit 10 according to an embodiment of the present invention. FIG. 3 is a schematic partial exploded perspective view of the composite switch unit 10 according to another embodiment of the present invention, and FIG. 4 is a schematic cross-sectional perspective view of the composite switch unit according to an embodiment of the present invention. 5 is a schematic partial enlarged perspective view of the push switch tilting portion of the composite switch unit 10 according to the embodiment of the present invention. FIG. 7 is a schematic enlarged perspective view of a movable portion of a directional switch of a composite switch unit 10 according to an embodiment of the present invention, and FIG. 7 is a cross- A schematic partial exploded perspective view of the push switch tilting portion and the push switch movable portion of the tooth unit 10 is shown, and FIG. 8 is a schematic sectional partial state view of a portion of the push switch tilting portion according to another embodiment of the present invention 9 is a schematic partial cross-sectional view of a push switch moving part according to another embodiment of the present invention, and FIG. 10 is a schematic view of a part of the push switch tilting part according to another embodiment of the present invention Is shown.

The composite switch unit 10 according to an embodiment of the present invention includes a housing 100, a printed circuit board 200 and a composite switch unit 300. The printed circuit board 200 is mounted on the housing 100, And the composite switch unit 300 is movably mounted on the housing 100. [

The housing 100 includes a housing cover 101, a housing body 110 and a housing base 120. The housing cover 101, the housing body 110, and the housing base 120 are coupled together, Are formed in the inner space of the housing.

The housing cover 101 is disposed symmetrically with the housing base 120 with the housing body 110 therebetween. Although the housing cover 101 is shown as a square frame structure in FIG. 1, it is only one example for explaining the present invention, and the structure of the housing 100 of the present invention is not limited thereto. The housing cover 101 is coupled to the housing body 110. The housing cover 101 is provided with a through hole through which one side of the switch knob 310 described below can be exposed to the outside. The housing body 110 is disposed between the housing cover 101 and the housing base 120 so that the component body of the composite switch unit 300 can be stably operated . The housing base 120 is disposed under the housing body 110 to form an inner space together with the housing body 110. Although not explicitly shown, housing receptacles (not shown) are provided on the outside of the housing body 110 / housing base for mounting to other components, such as a steering wheel of a vehicle and / or various components such as a center fascia Thereby enabling smooth operation of the switching function.

The printed circuit board 200 is disposed in the inner space of the housing 100. The printed circuit board 200 is formed with a plurality of circuit wiring lines and other electrical components of the composite switch unit 300 . Although not shown, a connector (not shown) or the like is disposed on the lower portion of the housing base 120. The printed circuit board 200 is connected to an external electric device such as a control unit of a vehicle by placing a connector terminal (not shown) Can be achieved.

The composite switch unit 300 includes a switch knob 310, a push switch unit 320, and a directional switch unit 330. Although the composite switch unit 300 according to the present embodiment is configured to include the push switch unit 320 and the directional switch unit 330, in some cases, a separate button-type switch unit is provided outside the switch knob And various modifications are possible.

The switch knob 310 is rotatably disposed on the housing 100, more specifically, the housing cover 101. The switch knob 310 is disposed such that one side thereof is exposed to the outside through a cover through hole formed in the housing cover 101, And is disposed toward the inner space of the housing 100 to allow contact with other components of the composite switch unit 300. The switch knob 310 is formed of a circular plate type, which is only one example, and various modifications are possible according to the design specification.

The push switch unit 320 is operated by a user's external force so that the switch knob 310 is operated in a direction perpendicular to a plane to which the plate type switch knob 310 belongs, that is, in a direction perpendicular to the housing base 120, The switch knob 310 is operated by the switch knob 310 to generate a change in the electrical signal. The push switch portion 320 includes a push switch movable portion 3220, a push switch tilting portion 3210, and a push switch 3230. That is, the push switch movable portion 3220 is disposed in the inner space of the housing 100 at a position corresponding to the center of the switch knob 310 and below the switch knob 310, and the push switch tilting portion 3210 is connected to the switch knob 310, The push switch 3230 is connected to the push switch movable part 3220 to enable the tilting movement of the housing 100 with respect to the center of the switch knob 310, The external force applied to the switch knob 310 is moved in a direction perpendicular to the plate-shaped switch knob 310 directly through the push switch tilting portion 3210 and the push switch moving portion 3220. [

2, 3 and 4 show a schematic partial exploded perspective view and a partial cross-sectional view of a composite switch unit 10 according to an embodiment of the present invention. In the housing body 110 of the composite switch unit 10, A switch movable part 3220 is disposed below the switch knob 310. [ More specifically, a body push movable part penetration part 111 is protrudingly formed on one surface of the housing body 110 at a position corresponding to the center of the switch knob 310, and is disposed to be stepped from one surface of the housing body 110. A body push movable part through hole 112 is disposed at the center of the body push movable part through part 111. The body push movable part through hole 112 has a structure that passes through the housing body 110. [ The push switch movable portion 3220 is movably disposed in the body push movable portion through-hole 112. [

The push switch movable part 3220 may further include a component for more stably operating the push switch movable part 3220. That is, as shown in FIGS. 2 and 3, the push switch movable portion 3220 further includes a push switch movable portion guide 3221. In this embodiment, the push switch movable portion 3220 is formed in a cylindrical shape, and the push switch movable portion guide 3221 is disposed on the outer periphery of the push switch movable portion 3220. The push switch movable part guide 3221 is formed along the moving direction of the push switch movable part 3220, and has a protruding line structure protruded in the present embodiment. The push switch movable portion guide corresponding portion 113 is disposed on the inner side surface of the body push movable portion through hole 112 of the housing 100 in which the push switch movable portion 3220 is movable to a corresponding position of the push switch movable portion guide 3221 do. The push switch movable part guide counterpart 113 is formed as a concave type in the present embodiment. The push switch movable part guide counterpart 113 is engaged with the push switch movable port guide 3221 in a relatively movable manner. Therefore, when the push switch movable part 3220 is operated, the push switch movable part 3220 is moved along the body push movable part through hole 112 by the engagement between the push switch movable part guide 3221 and the push switch movable part guide corresponding part 113 The vertical motion can be stably performed.

A push switch movable portion shaft 3223 is disposed at an end of the push switch movable portion 3220 and more specifically at an end portion thereof facing the printed circuit board 200. The push switch movable portion shaft 3223 is disposed on the side of the printed circuit board 200 It is possible to actuate the push switch 3230 disposed on one surface. The push switch movable part shaft 3223 forms a contact state with the push switch 3230 disposed at the lower part, and the push switch movable part shaft 3223 is formed of a soft material to prevent noise generated during operation and to improve click feeling And an elastic pad formed of an elastic material may be further disposed at the end of the push switch movable part shaft as occasion demands.

The push switch 3230 is disposed on one side of the printed circuit board 200 and the push switch 3230 is implemented as a tact switch or the like in the present embodiment. The push switch 3230 pushes the push operation of the switch knob 310 Or may be realized by a piezoelectric element switch for generating an electrical signal through the switch knob.

The push switch tilting portion 3210 connects the switch knob 310 and the push switch movable portion 3220 and enables the tilting movement of the switch knob 310. When the user moves away from the center of the switch knob 310 and presses one side portion The switch knob 310 can achieve a tilting motion that is tilted with respect to the center. That is, a sufficient elastic supporting force is provided through the push switch tilting portion 3210 and the push switch movable portion 3220 and the push switch 3230 in the region where the push switch movable portion 3220 is disposed at the central portion of the switch knob 310, The switch knob 310 can be prevented from vertically moving unless the force exceeding the external force of the switch knob 310 is applied to the switch knob 310. Therefore, . The push switch tilting portion 3210 includes a tilting knob guide 3211, a tilting movable guide 3213 and a tilting medium 3215. The tilting knob guide 3211 and the tilting and moving guide 3213 guide the tilting medium 3215, Thereby forming a contactable state. The tilting knob guide 3211 is disposed toward the push switch movable portion 3220 on one side of the switch knob 310, more specifically the switch knob 310 toward the printed circuit board 200, Is disposed on the tilting knob guide 3211 at a position corresponding to the tilting knob guide 3211 toward the switch knob 310 on one surface of the pushing-position movable portion 3220. The tilting medium 3215 contacts the end portions of the tilting knob guide 3211 and the tilting and moving guide 3213 to transmit the vertical pressing force applied to the center portion of the switch knob 310 to the push switch moving portion 3220 A tilting motion of the switch knob 310 is enabled by forming a relative rotational movement between the tilting knob guide 311 and the tilting and moving guide 3213 when a pressing force is applied to the outside of the center of the switch knob 310. [

2 to 4, the tilting knob guide 3211 includes a tilting knob guide protrusion 32111 extending from the lower surface of the switch knob 310. At an end portion of the tilting knob guide protrusion 32111, And a knob guide projection groove 32113 is formed. The tilting movable guide 32131 has a tilting movable guide projection 32131 extending from one surface of the push switch movable portion 3220 toward the switch knob 310. The tilting movable guide projection 32131 is tilted The movable guide projection groove 32133 is formed. In this embodiment, the tilting knob guide protrusion 32111 and the tilting movable guide protrusion 32131 are arranged to cross each other at an angle of 90 degrees, and the tilting knob guide protrusion groove 32113 and the tilting movable guide protrusion groove 32133 Are formed as circular or spherical grooves having a constant inner diameter.

In this embodiment, the tilting medium 3215 is disposed between the tilting knob guide projection groove 32113 and the tilting movable guide projection groove 32133. In this embodiment, the tilting medium 3215 is formed as a ball type, and the tilting medium 3215 smoothly contacts the tilting knob guide protrusion groove 32133 and the tilting movable guide groove 32113 so that the push switch tilting portion 3210, But it may be formed of various materials within a range that can maintain a predetermined strength, maintain a smooth surface, and minimize surface damage.

The tilting medium 3215 forms a structure that can be seated between the tilting knob guide projection grooves 32113 and the tilting movable guide projection grooves 32133 which are arranged at an angle of 90 degrees with each other as described above, The tilting knob guide protrusion 32111 and the tilting movable guide protrusion 32131 are mutually pivoted about the tilting knob guide protrusion groove 32113 and the tilting movable guide protrusion groove 32133 with the tilting medium 3215 interposed therebetween The tilting motion of the switch knob 310 can be assured. The tilting knob guide protrusion groove 32113 and the tilting movable guide protrusion groove 32133 are arranged in line with the tilting medium 3215 so that the vertical external force Can be sufficiently transmitted to the push switch movable part 3220, so that the push operation for operating the predetermined push switch 3230 can be stably performed.

Between the switch knob 310 and the push switch movable part 3220, a component for forming a clicking feeling of the switch knob by the user and returning the switch knob to the home position may further be provided. 2 to 5, the push switch tilting portion 3210 further includes a tilting elastic portion 3217, which includes a switch knob 310 and a push switch movable portion 3217. [ 3220). Both ends of the tilting elastic portion 3217 come into contact with the switch knob 310 and the push switch movable portion 3220 and are connected to the switch knob 310 and the push switch movable portion 3220, And provides an elastic force between the movable parts 3220. In this embodiment, the tilting elastic part 3217 is implemented as a coil spring type, which is an example of the present invention. The tilting elastic part 3217 has a vertical elastic force between the switch knob 310 and the push switch moving part 3217 Various configurations are possible within the range provided.

A knob tilting elastic portion guide 3110 is provided on the lower surface of the switch knob 310. A movable knob tilting elastic portion guide 3325 is disposed on one side of the push switch movable portion 3220. In this embodiment, The guide portion 3110 and the movable portion knob tilting elastic portion guide 3325 are opposed to each other at a corresponding position. In some cases, the knob tilting elastic portion guide and the movable portion knob tilting elastic portion guide are connected to the switch knob 310 And the push switch movable part 3220 may have a circular groove, and may have various constructions in the range of fixing the positions of the opposite ends of the tilting elastic part 3217.

The tilting elastic part 3217 is resiliently deformed when the switch knob 310 is pressed. After the external force applied to the switch knob 310 is removed, the tilting elastic part 3217 is elastically restored, To the home position. At this time, a component for preventing the switch knob 310 from being detached from the housing 100 may be further provided. The switch knob 310 is provided with a switch knob stopper 311. The switch knob stopper 311 extends in the radial direction from the outer periphery of the switch knob 310. [ The switch knob stopper 311 has a larger radius than the cover through hole formed in the housing cover 101. The switch knob stopper 311 has a structure in which the switch knob 310 can contact the inside of the cover through- 100 from being undesirably detached from the apparatus. When the switch knob 310 is formed integrally with the switch knob 310, the switch knob 310 may be formed of a soft material. The switch knob 310 may be formed as a separate component from the switch knob 310, Thereby making it possible to eliminate the noise that can be generated when the switch knob stopper 311 is in contact with the housing cover of the hard material and to maintain a stable contact state.

The directional switch unit 330 includes a plurality of directional switches 3330. The directional switch chip 3330 is disposed on one surface of the printed circuit board 200 such that a plurality of Respectively. 2 and 3, the directional switch unit 330 according to the present embodiment includes four directional switches 3330. The directional switch unit 330 includes a push switch 3230, And is equally spaced on one side of the printed circuit board 200. [ Here, the total number of directional switches 3330 is four. However, the number of directional switches according to the present invention is not limited to eight, and may have a variety of configurations. Of course, in this case, when the directional switch in the specific area is operated, it is possible to prevent the interference in which the directional switch is operated in the other area, or in the case of interference, the signal processing control for processing the electrical signal from the plurality of directional switches A method may be added, and various configurations are possible.

The directional switch unit 330 includes a directional switch moving unit 3310 and a directional switch medium 3320 in addition to the directional switch 3330. The directional switch medium 3320 includes a directional switch moving unit 3310, And a directional switch 3330 so as to connect or force the two.

The directional switch moving part 3310 is formed on the lower surface of the switch knob 310 in correspondence with the position of the directional switch 3330. The directional switch moving part 3310 is connected to a directional switch 3330, respectively. A body directional moving part penetrating part 115 is disposed in the housing body 120 at a position corresponding to the position of the directional switch 3330 with respect to the body push moving part penetrating part 111. The body direction moving part penetrating part 115 are formed with body directional moving part through-holes 116. A directional switch medium 3320 is movably disposed in the body direction moving part through hole 116. One end of the directional switch medium 3320 is disposed so as to be in contact with the directional switch moving part 3310, And is capable of being in contact with the channel switch 3330.

The directional switch medium 3320 includes a directional switch medium body 3321 and a directional switch medium base 3323. The directional switch medium body 3321 includes a directional switch moving part 3310 and a directional switch 3330, and the directional switch medium base 3323 is disposed at the end of the directional switch medium body 3321 and is connected to a directional switch (not shown) 3330, respectively. The directional switch medium base 3323 has a radius larger than that of the directional switch medium body 3321 in order to make a smooth contact with the directional switch 3330 and has an effective area larger than that of the directional switch medium body. Also, in this case, when the external force deviates from the center of the switch knob 310, that is, when the external force for actuating the directional switch is removed, the directional switch 3330, implemented as a tact switch type, A directional switch medium 3323 is provided at a position corresponding to an outer frame portion of the directional switch base 3323 so as to prevent noise generated when the terminal 331 bounces upwards and is in contact with the directional switch again, A medium stopper 117 for restricting the stopper 117 may be disposed. The medium stopper 117 can maintain the stable position of the directional switch medium 3320.

In this embodiment, the directional switch medium 3320 is normally disposed in a downward direction by its own weight, so that the directional switch medium base 3323 and the directional switch 3330 can be always in contact with each other. On the other hand, a contact noise may occur between the directional switch movable portion 3310 disposed at the switch knob 310 and the end portion of the directional switch medium 3320. The directional switch unit 330 may further include a directional switch movable pad unit 3317 to prevent noise from occurring and provide a smooth operation feeling. 6, a directional switch movable part groove 3311 is formed at an end of the directional switch movable part 3310, and a directional switch movable pad part 3317 can be disposed. The directional switch movable pad portion 3317 includes a directional switch movable pad body 3315 and a directional switch movable pad mounting portion 3313. The directional switch movable pad mounting portion 3313 includes a directional switch movable portion groove 3311 Or the directional switch movable pad body 3315 may be rounded to minimize the contact resistance with the end of the directional switch medium body 3321. [ Here, the directional switch movable pad portion 3317 may be formed of a soft material, an elastic material, or the like so as to minimize or prevent the generation of contact noise between the directional switch moving portion and the directional switch medium.

The push switch tilting portion of the composite switch unit according to the present invention is described as taking a ball type configuration. However, the push switch tilting portion according to the present invention is not limited to this but allows vertical push movement of the switch knob, Various modifications are possible within a range that smoothly achieves the tilting motion of the knob. 7 to 9, a part of the push switch tilting portion 3210a is disposed on the switch knob side and on the push switch movable portion 3220a side, and the same components as those in the above embodiment Shall be replaced with the above to avoid duplicate descriptions. The structure in which the push switch movable part guide 3221a is disposed on the outer periphery of the push switch movable part 3220a and the push switch movable part 3223a is disposed on the lower side of the push switch movable part 3320a is the same as that of the above embodiment. The push switch tilting portion 3210a includes a tilting knob guide 3211a, a tilting movable guide 3213a and a tilting medium 3215a. The tilting knob guide 3211a extends from the switch knob 310 And a tilting knob guide protrusion groove 32113a formed in the tilting knob guide protrusion 32111a and the tilting knob guide protrusion 32113a extending from the push switch moving portion 3210a And a pair of tilting movable guide projections 32131a and tilting movable guide projections 32133a formed on the tilting movable guide projections 321131a. Here, the tilting knob guide and the tilting movable guide are described as being formed integrally with the switch knob and the push switch movable part, but the present invention is not limited thereto. Do.

The tilting knob guide 3111a and the tilting movable guide 3213a are arranged in a plane perpendicular to a line segment connecting the push switch movable portion 3220a and the push switch 3230 Are arranged alternately on the plane perpendicular to the direction of operation.

The tilting medium 3215a is configured as a universal joint type, and the tilting medium 3215a includes a tilting medium body 32153a and a tilting media branch 32151a. The tilting medium body 32153a is disposed on a plane perpendicular to a line segment connecting the push switch movable portion 3220a and the push switch 3230 (see Fig. 2), that is, parallel to the switch knob 310 3111a and the tilting movable guide 3213a. The tilting medium branch 32151a has a structure in which four tilting medium branches 32151a are arranged at an angle of 90 degrees from the tilting medium body 32153a. The tilting medium branch 32151a has a tilting motion guide groove 32133a, Grooves 32113a.

This tilting medium of the universal joint structure enables smooth tilting motion of the switch knob. At this time, a predetermined clearance may be formed between the tilting medium and the tilting knob / movable guide in order to prevent the pushing operation due to the vertical movement when the switch knob is tilted. 8, a tilting medium branch 32151a is disposed on a tilting movable guide 3213a disposed on one side of the push switch movable part 3220a, and the tilting movable guide projection 3213a of the tilting movable guide 3213a, The tilting medium branch 32151a inserted in the groove 32133a is allowed to have a clearance d of the gap d1 from O1 to 02 so as to prevent the push switch from being actuated by an external force applied to the switch knob during tilting motion .

In another embodiment, the tilting medium branch of the universal joint structure and the tilting knob / movable guide of the ring type are shown, but the modification may further include a modification for facilitating the coupling of both. 10, the tilting movable guide 32131b includes a tilting movable guide protrusion 32131b, and the tilting movable guide protrusion 32131b is formed with a tilting movable guide protrusion groove 32133b. The through hole 32133b communicates with the outside through the through hole 32132b. The tilting movable guide protrusion 32131b is made of an elastic material and can be restored to its original position by an elastic restoring force even after deforming without causing deformation unless a predetermined external force or more is applied. Therefore, the tilting media branch 32151a can be mounted as the tilting movable guide projection groove 32133b through the groove through-hole 32132b, is not subjected to a force exceeding a predetermined external force, and is not detached from the tilting movable guide projection It is also possible to take a structure that allows for smooth assembly of the components.

The embodiments are illustrative of the present invention, and the present invention is not limited thereto, and various modifications are possible within the scope of providing a composite switch unit having a wheel static switch and a wheel optical proximity switch.

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

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

3 is a schematic partial exploded perspective view of a composite switch unit according to another embodiment of the present invention.

4 is a schematic partial cross-sectional view of a composite switch unit according to an embodiment of the present invention.

5 is a schematic enlarged perspective view of a push switch tilting unit of a composite switch unit according to an embodiment of the present invention.

6 is a schematic partially enlarged perspective view of a movable portion of a directional switch of a composite switch unit according to an embodiment of the present invention.

7 is a schematic partially exploded perspective view of a push switch tilting portion and a push switch moving portion of a composite switch unit according to another embodiment of the present invention.

8 is a schematic cross-sectional partial state view of a portion of a push switch tilting portion according to another embodiment of the present invention.

9 is a schematic partial cross-sectional view of a push switch moving part according to another embodiment of the present invention.

10 is a schematic cross-sectional view of a portion of a configuration of a push switch tilting portion according to another embodiment of the present invention.

Description of the Related Art [0002]

10 ... composite switch unit 100 ... housing

200 ... printed circuit board 300 ... compound switch section

310 ... switch knob 320 ... push switch part

330 ... Directional switch part

Claims (10)

housing; A printed circuit board disposed within the housing; A push switch movable portion disposed at a lower portion of the switch knob at a position corresponding to the center of the switch knob, a switch knob for connecting the switch knob and the push switch movable portion, A push switch portion including a push switch tilting portion for enabling movement of the push switch, and a push switch operated by the push switch movable portion, a plurality of push switch portions disposed on one surface of the printed circuit board, And a directional switch part including a directional switch operated by the switch knob The tilting knob guide includes a tilting knob guide disposed toward the push switch movable part on the switch knob, and a tilting knob guide disposed on the tilting knob guide toward the switch knob in the push switch movable part to a corresponding position of the tilting knob guide And a tilting medium which is in contact with an end of each of the tilting knob guide and the tilting movable guide, Wherein the tilting medium is configured to be of a ball type and the push switch tilting portion further includes a tilting elastic portion that has both ends thereof contact with the switch knob and the push switch movable portion to provide an elastic force between the switch knob and the push switch movable portion, Further comprising a switch knob stopper extending along a radial direction on the outer periphery of the switch knob to prevent the switch knob from separating from the housing. delete delete The method according to claim 1, A knob tilting elastic part guide for supporting one end of the tilting elastic part is disposed on one surface of the switch knob and a movable part knob tilting elastic part guide for supporting the other end of the tilting elastic part is provided on one surface of the push switch movable part. A composite switch unit. The method according to claim 1, A push switch movable part guide is disposed on the outer periphery of the push switch movable part, Wherein the housing is provided with a push switch movable part guide corresponding part which is engaged with the push switch movable part guide so as to be able to move relative to the corresponding position of the push switch movable part guide. The method according to claim 1, The directional switch unit comprises: A directional switch movable part extending from the switch knob toward the directional switch, And a directional switch medium disposed to move the directional switch to the corresponding position of the directional switch movable part by the moving part of the directional switch to operate the directional switch. The method according to claim 6, Wherein a directional switch movable pad for preventing contact noise between the movable switch and the directional switch medium is disposed between the end of the movable switch and the directional switch medium. The method according to claim 6, The directional switch medium comprises: A directional switch medium body movable along the body direction moving part through hole formed in the housing between the directional switch moving part and the directional switch, And a directional switch medium base arranged at an end of the directional switch medium body and arranged to be in contact with the directional switch, And a medium stopper disposed at an end of the body direction moving part through hole toward the directional switch so as to be able to contact with the medium base of the directional switch for restricting the operation of the directional switch medium. . The method according to claim 1, The tilting knob guide includes: A pair of tilting knob guide protrusions extending from the switch knob, And a tilting knob guide groove formed in the tilting knob guide protrusion, The tilting movable guide includes: A pair of tilting movable guide projections extending from the push switch movable part, And a tilting movable guide groove formed in the tilting movable guide projection, Wherein the tilting knob guide and the tilting movable guide are alternately and equally arranged on a plane perpendicular to a line segment connecting the push switch movable portion and the push switch. 10. The method of claim 9, The tilting medium is constructed as a universal joint type, The tilting medium comprises: A tilting medium body disposed between the tilting knob guide and the tilting movable guide on a plane perpendicular to a line segment connecting the push switch movable part and the push switch, And a tilting videm branch disposed at an angle of 90 degrees from the tilting medium body and inserted into the tilting movable guide groove and the tilting knob guide groove.

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