KR20180007884A - Power window switching device unit with sliding switch - Google Patents

Abstract

The present invention relates to a power window switch unit (10) which includes a switch knob (20) rotatably arranged in a unit housing (11) and a switch module (100) having a switch driving part (110) driven by the rotation of the switch knob (20). A detent holder cover (201) having at least a part of a switch detent part (200) forming a cutting operation when the switch knob (20) is operated is disposed on the outside of the switch module. The contact state of the switch can be enhanced.

Description

POWER WINDOW SWITCHING DEVICE UNIT WITH SLIDING SWITCH [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switch device, and more particularly to a power window switch unit mounted on an armrest for enabling more accurate and selective control of operation of a vehicle window.

BACKGROUND ART 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, the vehicle is equipped with various convenience facilities and various switches for operating and controlling the same.

A seesaw switch device or a sliding switch device is used in which, for example, the upward and downward movement of the window corresponds to the operation of the front end portion and the rear end portion such as window opening and closing of the vehicle, The rotary switch is used to select the mode. Particularly, since various switch devices and convenience facilities are installed around the driver's seat, such switch devices are required to be compact, and the prevention of interference between the switch devices is a necessity of the design.

Meanwhile, the micro switch provided in the window switch according to the prior art usually employs a slide contact method. However, due to the characteristics of the slide contact method, there is a problem that the slide contact failure or malfunction occurs due to repeated penetration of dust or foreign matter after use The push switch of the user by the weight of the slider causes a possibility of wear of the contact terminal of the slide contact type micro switch to be increased and the durability is remarkably reduced.

In addition, in the case of the conventional window switch, detent function is provided through the structure of a simple spherical detent ball, so that the assembling property is not good and the possibility of assembling is high.

Korean Published Patent Application No. 2013-0066038 (Disclosure Date, June 20, 2013)

Accordingly, it is an object of the present invention to provide a slide unit switch employing a contact method capable of enhancing the contact state of a switch, and to provide a power window switch module having the slide unit switch.

In order to achieve the above object, the present invention provides a switch module comprising a switch knob 20 rotatably arranged in a unit housing 11, a switch module having a switch movable part 110 operated by the rotation of the switch knob 20, And a detent holder cover (201) having at least a part of a switch detent part (200) forming a braking operation during operation of the switch knob (20) And a power window switch unit disposed outside the switch module.

In the power window switch unit, the detent holder cover 201 allows the knob movable part 23 to pass therethrough such that the switch movable part 110 is connected to the knob movable part 23 of the switch knob 20, A detent holder cover through-hole 202 may be provided.

In the power window switch unit, the switch detent unit 200 may include: a detent slider 230 movably received in the switch knob; a detent elastic portion 220 elastically supporting the detent slider 230; And a detent bending portion 210 disposed in the detent holder cover 201 and contacting the detent slider 230 to form a bending operation of the switch knob.

In the power window switch unit, the detent bending portion 210 includes: a detent bending base 211 mounted on the detent holder cover 201 and having a bent shape; and the detent bending base 211 A detent bending insertion portion 213 formed at an upper end of the detent bending insertion portion 213 and contacting the detent slider 230 to form a detent operation of the switch knob; A bending mounting portion may be provided.

In the power window switch unit, the detent bending mounting portion may be formed of stainless steel, and the detent bending portion 210 may be insert-molded.

In the power window switch unit, the detent slider 230 includes: a detent slider shaft 231 having one end received in a knob elastic portion receiving portion 25 formed in the switch knob 20; And a detent slider ball 235 disposed at an end of the tent slider shaft 231 and in contact with the detent bending mount in a relatively movable manner.

The detent slider shaft (231) includes a detent slider shaft (231) and a detent slider shaft (231). The detent slider shaft (231) A guide 233 may be provided.

In the power window switch unit, the detent slider guide 233 may be disposed at an angle of 180 degrees, two of the detent slider guides 233 being perpendicular to the longitudinal direction of the detent slider shaft 231.

In the power window switch unit, the detent slider ball 235 may contact the detent bending mount at a plurality of points.

In the power window switch unit, the detent slider ball 235 is formed on the side of the detent slider ball 235 in the longitudinal direction of the detent slider 230, And a slider ball side protrusion 237 contacting the slider ball side protrusion 237.

The power window switch unit may include a slider ball transverse protrusion 238 connected to the slider ball side protrusion 237 and disposed perpendicularly to the longitudinal direction of the slider ball side protrusion 237.

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

First, the power window switch unit according to the present invention can utilize the conventional switch module through a configuration in which a part of the power window switch unit is disposed in the detent holder cover, and can perform a predetermined accurate detent operation.

Second, the power window switch unit according to the present invention improves the assemblability through the structure of the detent slider ball connected to the detent slider shaft, thereby minimizing the defective rate due to misassembly and securing excellent operation durability.

Third, the power window switch unit according to the present invention may be accompanied by an increase in durability due to an improvement in abrasion resistance through the stainless steel structure of the detent bending mounting portion.

Fourth, the power window switch unit according to the present invention can achieve a stable operation state through the protrusion structure of the detent slider ball.

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.

1 is a schematic exploded perspective view showing a power window switch unit according to the present invention.
2 is a partially enlarged perspective view of a power window switch unit according to the present invention.
3 is an enlarged partial perspective view of a power window switch unit according to the present invention.
4 is a partially enlarged cross-sectional view of a power window switch unit according to the present invention.
5 is a partially enlarged perspective view of a switch module and a detent holder cover of a power window switch unit according to the present invention.
6 is a bottom perspective view of the switch knob of the power window switch unit according to the present invention.
7 is a schematic perspective view of a detent slider of a power window switch unit according to the present invention.
8 is a state view showing a contact state of a detent slider ball and a detent bend portion of a power window switch unit according to the present invention.
9 to 11 are operational state diagrams showing an operating state of the power window switch unit according to the present invention.

Hereinafter, a power window switch unit according to the present invention will be described with reference to the drawings.

FIG. 1 is a schematic exploded perspective view of a power window switch unit according to the present invention. FIG. 2 is a partially enlarged perspective view of a power window switch unit according to the present invention. 4 is a partially enlarged cross-sectional view of a power window switch unit according to the present invention. FIG. 5 is a sectional view of a switch module of a power window switch unit according to the present invention and a portion of a detent holder cover 6 is a bottom perspective view of a switch knob of a power window switch unit according to the present invention, and FIG. 7 is a schematic perspective view of a detent slider of a power window switch unit according to the present invention, FIG. 8 is a sectional view of a detent slider of a power window switch unit according to the present invention. Is a state diagram illustrating the ball and detent bent contact portion is shown, it is 9 to 11 is shown an operation state diagram showing the operating state of the power window switch unit according to the present invention.

The power window switch module 10 includes a switch knob 20 rotatably disposed in the unit housing 11 and a switch module 100 having a switch movable part 110 operated by the rotation of the switch knob 20, And a power window switch unit (10).

The switch knob 20 is rotatably disposed on the unit housing 11. The unit housing hinge 13 formed on the unit housing 11 and the knob hinge 21 formed on the switch knob 20 rotate relative to each other Possibly interlocked.

The knob movable part 23 disposed at the lower end of the switch knob 20 actuates the switch module 100 through the seesaw rotation operation of the switch knob 20 of the operation electron. The knob movable part 23 is connected to the switch movable part 110 which is exposed and arranged at the upper end of the switch module 100. The linear movement of the switch movable part 110 changes the electrical signal through a predetermined switching operation, And the unit housing base 11b implemented as a base substrate into which wiring is inserted and injected.

The switch module 100 can be variously selected within a range of a switch element forming a sliding operation, so that a detailed description thereof will be omitted.

The power window switch unit 10 of the present invention includes a detent holder cover 201. The detent holder cover 201 includes a switch detent unit 200 that forms a braking operation when the switch knob 20 is operated, As shown in FIG.

The detent holder cover 201 is disposed outside the switch module. The detent holder cover 201 is provided with at least a part of a component that enables the operation of the detent, that is, the detent operation. The detent holder cover 201 Are arranged in a structure surrounding the switch module.

A detent holder cover through-hole 203 is disposed at an upper end of the detent holder cover 201 to allow connection between the switch movable part 110 and the movable part 23 disposed at the lower end of the switch knob 20 .

More specifically, the detent holder cover 201 is provided with a detent holder cover through-hole 202 for allowing the knob movable portion 23 to pass therethrough so that the switch movable portion 110 is connected to the knob movable portion 23 of the switch knob 20. [ The detent holder cover through-hole 202 is preferably formed so as not to interfere with the sliding movement of the switch movable part 110.

The switch detent portion 200 includes a detent slider 230, a detent elastic portion 220, and a detent bend portion 210.

 The detent slider 230 is movably received in the switch knob 20, the detent elastic portion 220 elastically supports the detent slider 230, and the detent bent portion 210 is detent- Is disposed in the detent slider (201) and contacts the detent slider (230) to form the swinging motion of the switch knob (20).

The knob elastic body accommodating portion 25 is formed on the bottom surface side of the switch knob 20, and the detent elastic portion 220 is accommodated therein. The detent elastic portion 220 is formed of a coil spring and the detent slider 230 has a structure in which one end of the detent slider 230 is accommodated in the knob elastic body receiving portion 25 and elastically supported via the detent elastic portion 220 .

A knob elastic body accommodating guide portion 27 is formed on an outer periphery of the knob elastic body receiving portion 25. The knob elastic body accommodating guide portion 27 is engaged with the detent slider guide 233 of the detent slider 230, 230).

The detent bending portion 210 is disposed on the side of the detent holder cover through-hole 202 at the upper end of the detent holder cover 201. [

The detent bending portion 210 includes a detent bending base 211, a detent bending insertion portion 213, and a detent bending mounting portion 215.

That is, the detent bending base 211 is formed on the outer surface of the detent holder cover through-hole 202 on one surface of the detent holder cover 201 and has a bent shape. The detent bending insertion portion 213 is formed at the upper end of the detent bending base 211, and can form a predetermined protrusion structure. The detent bending mounting portion 215 engages with the detent bending insert 213 and contacts the detent slider 230 to form the bending operation of the switch knob. The detent bending mounting portion 215 has a detent curved surface And a bending mount 216 is provided at the center to form an insertion engagement structure of the detent bending insertion portion 213 of the protruding structure.

The detent bending mounting portion 215 may be formed of stainless steel and the detent bending portion 210 may be formed by insert injection. It is possible to prevent a change in operating state due to an increase in abrasion resistance of the bending mounting portion 215. [

Meanwhile, the detent slider 230 includes a detent slider shaft 231 and a detent slider ball 235.

The detent slider shaft 231 is accommodated in a knob elastic portion receiving portion 25 having one end formed in the switch knob 20 and the detent slider shaft 231 is accommodated in the knob elastic portion receiving portion 25 And is elastically supported by the detent elastic portion 220. The detent slider ball 235 is disposed at the end of the detent slider shaft 231 and is in contact with the detent bending mount 215 in a relatively movable manner.

The detent slider shaft 231 and the detent slider ball 235 may be separately formed and connected to each other. Alternatively, the detent slider ball 235 may be integrally formed as in the present embodiment.

As described above, the detent slider 230 may further include a detent slider guide 233. The detent slider guide 233 is disposed on the outer periphery of the detent slider shaft 231, And is engaged with the knob accommodating portion guide 27 formed in the accommodating portion 25 so as to be relatively movable. With this configuration, the smooth linear movement of the detent slider shaft 231 can be guided.

The detent slider guide 233 may be disposed at an angle of 180 degrees with respect to the longitudinal direction of the detent slider shaft 231. 7, two detent slider guides 233 are formed perpendicularly to the longitudinal direction of the detent slider shaft 231. Each of the detent slider guides is 180 degrees apart from each other, . It is possible to prevent the detent slider shaft 231 from rotating when the detent slider shaft 231 is received in the knob elastic body receiving portion 25. [

In addition, the detent slider ball 235 may contact the detent bending mounting portion 215 at a plurality of points so that the detent slider ball 235 can stably perform a relative operation when the detent slider ball 235 comes in contact with the detent bending mounting portion 215. More specifically, the detent slider ball 235 may include a slider ball side protrusion 237, and the slider ball side protrusion 237 may include a detent slider 230, (235) to contact the detent bending mount.

Further, the detent slider ball 235 may include a slider ball transverse protrusion 238 in addition to the slider ball side protrusion 237. That is, the slider ball transverse protrusion 238 connects the slider ball side protrusion 237 and is disposed perpendicular to the longitudinal direction of the slider ball side protrusion 237.

9 to 11 show a state sectional view showing the operation process of the power window switch unit 10 according to the present invention. First, when no external force is applied to the switch knob 20, the detent slider ball 235 of the detent slider 230 forms a contact state at the lowermost bending point of the detent bending mounting portion 215 (see FIG. 8 ).

Then, when a predetermined external force is applied, the detent slider ball 235 of the detent slider 230 is moved out of contact with the lowest bending point of the detent bending mounting portion 215, (See FIG. 9).

Then, when a predetermined external force is continuously applied, the detent slider ball 235 of the detent slider 230 is brought into contact with the maximum point of bending at both ends beyond the bending rising point of the detent bending mounting portion 215 And the knob movable part 23 disposed at the lower end of the switch knob 20 actuates the switch movable part 110 of the switch module 100 to generate a changed electrical signal due to the change of the contact state so as to correspond to this state (See Fig. 10).

The embodiments are illustrative of the present invention, and the present invention is not limited thereto. For example, in the above-described embodiment, the slider movable terminals are disposed on both sides of the slider block. However, the slider movable terminals may be disposed on only one side of the slider block and the slider block may be resilient on the other side. The movable terminal is disposed on the side surface of the slider block.

10 ... Power window switch unit 20 ... Switch knob
100 ... switch module 200 ... switch detent portion
210 ... detent bent portion 220 ... detent elastic body
230 ... detent slider

Claims (11)

A power window switch unit (not shown) including a switch knob 20 rotatably arranged in the unit housing 11 and a switch module 100 having a switch movable part 110 operated by the rotation of the switch knob 20 10)
Wherein a detent holder cover (201) having at least a part of a switch detent part (200) forming a braking operation when the switch knob (20) is operated is disposed outside the switch module Unit.
The method according to claim 1,
The detent holder cover 201 has a detent holder cover through-hole (not shown) allowing the knob movable part 23 to pass therethrough so that the switch movable part 110 is connected to the knob movable part 23 of the switch knob 20 202) connected to the power window switch unit.
3. The method of claim 2,
The switch detent unit 200 includes:
A detent slider 230 movably received in the switch knob,
A detent elastic part 220 for elastically supporting the detent slider 230,
And a detent bend portion (210) disposed in the detent holder cover (201) and contacting the detent slider (230) to form a bending operation of the switch knob.
The method of claim 3,
The detent bending portion 210 includes:
A detent bending base 211 mounted on the detent holder cover 201 and having a bent shape,
A detent bending insertion portion 213 formed at an upper end of the detent bending base 211,
And a detent bending mounting unit for engaging with the detent bending insert 213 and contacting the detent slider 230 to form the bending operation of the switch knob.
5. The method of claim 4,
The detent bending mounting portion is formed of stainless steel,
Wherein the detent bending portion (210) is formed by insert injection.
5. The method of claim 4,
The detent slider 230 includes:
A detent slider shaft 231 whose one end is received in the knob elastic portion receiving portion 25 formed in the switch knob 20,
And a detent slider ball (235) disposed at an end of the detent slider shaft (231) and relatively in contact with the detent bending mount (231).
The method according to claim 6,
And a detent slider guide 233 disposed on the outer periphery of the detent slider shaft 231 and adapted to engage with the knob accommodating portion guide 27 formed in the knob elastic portion receiving portion 25 in a relatively movable manner Features a power window switch unit.
8. The method of claim 7,
Wherein the detent slider guide (233) is vertically disposed in the longitudinal direction of the detent slider shaft (231) such that two of the detent slider guides (233) are equally spaced by 180 degrees.
9. The method of claim 8,
Wherein the detent slider ball (235) is in contact with the detent bending mount at a plurality of points.
10. The method of claim 9,
The detent slider ball 235 may be formed by,
And a slider ball side projection (237) formed on a side of the detent slider ball (235) in the longitudinal direction of the detent slider (230) and in contact with the detent bending mounting portion Windows switch unit.
11. The method of claim 10,
And a slider ball transverse protrusion (238) connecting the slider ball side protrusion (237) and disposed perpendicularly to the longitudinal direction of the slider ball side protrusion (237).

Images