KR101599609B1 - Vehiclular tumbler switiching unit - Google Patents

Abstract

The present invention relates to a semiconductor device comprising: a housing; A printed circuit board portion disposed inside the housing; A slider switch unit disposed on the printed circuit board unit and capable of varying a contact state to change an operation state of a window motor for moving up and down a vehicle window; And a switch knob which is rotatably disposed on the housing to move the slider switch unit, wherein a pivot axis of the switch knob is perpendicular to a plane in which the slider switch unit is operated. .

Description

Power window switch module {VEHICLULAR TUMBLER SWITCHING UNIT}

The present invention relates to a power window switch module, and more particularly to a simple structure power window switch module that enables smoother operation and a compact deployment structure.

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, a micro switch provided in a window switch according to the related art adopts a slide contact method, and utilizes an electrical signal change due to a change in the position of a movable contact mounted on a slide movably arranged inside the housing. However, the conventional slide switch has a complicated structure guide for guiding the sliding movement of the slide, and has a problem that the material cost and the process cost are increased due to a large number of steps in mounting the slide in the housing in which the slide is disposed.

In addition, in the case of the slide type switch provided in the conventional window switch, the slider type switch operated by the knob is mounted on the substrate below the knob on the substrate, whereby the height of the window switch is vertical There is a physical limitation that it is difficult to design a compact device.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a power window switch module of a simple structure which is capable of rapidly performing an assembling process and which eliminates the constraint of a compact structure due to a stacking structure of a knob and a switch .

According to an aspect of the present invention, A printed circuit board portion disposed inside the housing; A slider switch unit disposed on the printed circuit board unit and capable of varying a contact state to change an operation state of a window motor for moving up and down a vehicle window; And a switch knob which is rotatably disposed on the housing to move the slider switch unit, wherein a pivot axis of the switch knob is perpendicular to a plane in which the slider switch unit is operated. .

In the power window switch module, the slider switch unit may include at least one slider switch.

The slider switch according to claim 1, wherein the slider switch comprises: a slider switch housing fixedly positioned on the printed circuit board portion; a slider switch housing movable in the slider switch housing, connected to the switch knob, A slider switch movable contact mounted on the slider and a slider switch fixed contact disposed on the printed circuit board portion in correspondence with the movable area of the slider switch movable contact, .

In the power window switch module, the slider movable contact includes: a U-shaped slider movable contact body mounted on the slider switch; and a movable contact body disposed on both ends of the slider movable contact body and in contact with the slider fixed contact in a U- A slider movable contact contact portion may be provided.

The power window switch module according to claim 1, wherein the printed circuit board portion comprises: a main board horizontally disposed on a rotation axis of the switch knob; a main board disposed vertically to the main board and the switch knob rotation axis, And a slider substrate on which the slider switch fixed contact is formed on one surface.

In the power window switch module, the slider switch unit may include a plurality of slider switches.

In the power window switch module, the slider substrate is formed of a double-sided substrate, and the slider switch may be disposed symmetrically on both surfaces of the slider substrate.

In the power window switch module, the slider is provided with a slider knob connection portion. The switch knob includes: a switch knob body mounted seetably in the housing; a switch knob body disposed at a lower end of the switch knob body, And a switch knob moving part connected to the switch knob body to transmit a seesaw motion of the switch knob body to the slider.

The switch knob movable portion includes: a switch knob movable linear portion extending from a bottom surface of the switch knob body perpendicularly to a seesaw axis of the switch knob body; and a switch knob movable linear portion extending from an end of the switch knob movable linear portion, And a switch knob movable connection portion that is extended at a preset angle on the movable linear portion of the switch knob and is directly connected to the slider knob connection portion.

In the power window switch module, the slider knob connection portion may be formed as a groove, and the switch knob movable connection portion may be inserted into the slider knob connection portion.

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

First, the power window switch module according to the present invention can be implemented through a simple structure of seesaw motion, thereby improving the process efficiency and productivity of the co-worker.

Second, the power window switch module according to the present invention has a structure in which a slider switch is arranged on a movable surface or a parallel plane formed by a switch knob beyond a continuous simple arrangement of a switch knob and a lower slider switch, Thereby minimizing the mounting space and reducing the manufacturing cost.

Third, a power window switch module according to the present invention has a structure in which a slider switch is disposed on a movable surface or a parallel plane formed by a switch knob beyond a continuous simple arrangement of a switch knob and a lower slider switch, It is also possible to take symmetrically arranged structures to further strengthen the compact construction and mitigate the fatigue increase due to repeated loads in certain directions through symmetrical placement of repetitive operations.

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 conceptual plan view of a power window switch module according to an embodiment of the present invention.
2 and 3 are a schematic partial concept side view and a front cross-sectional view of a power window switch module according to an embodiment of the present invention.
4 is a schematic partial conceptual side view of some components of a power window switch module according to an embodiment of the present invention.
5 is a schematic conceptual cross-sectional view of a slider and a slider switch fixed contact and a movable contact of a power window switch module according to an embodiment of the present invention.
6 to 14 are a schematic perspective view and a partial perspective view, a front view, and a side view, respectively, of an actual manufacturing model of a power window switch module according to an embodiment of the present invention.

Hereinafter, the power window switch module will be described with reference to the drawings.

The power window switch module 10 according to an embodiment of the present invention is mounted on a vehicle and used as a switch module for raising and lowering a vehicle window. The vehicle window motor (not shown) is driven by the operation of the tumbler switch unit 10 for a vehicle. The operation of the vehicle window motor is controlled and the vehicle window (not shown) connected to the vehicle window motor is raised and lowered.

The switch knob of the power window switch module 10 according to the embodiment of the present invention is shown to have a structure for performing a seesaw operation. However, the switch knob may be operated in a straight line sliding manner, Various implementations are possible within the scope of realizing.

The power window switch module 10 includes a housing 101, printed circuit board units 400 and 500, a slider switch unit 200 and a switch knob 110. The power window switch module 10 includes a printed circuit board unit 400 and a slider switch unit 200 Are stably arranged in the housing 101, but the positional relationship between the printed circuit board portion and the housing will be described below. 1 to 5 are conceptual diagrams of a power window switch module 10 according to one embodiment of the present invention, and specific drawings are shown in Figs. 6 to 14. Fig.

In the present embodiment, the housing 101 has a housing cover (not shown), a housing body and a housing base (not shown), while the housing body has a single structure. And the housing cover and the housing base, and they can be fastened together to form an internal space, thereby stably arranging other components.

A housing cover (not shown) may be provided with a housing cover opening (not shown) that allows external exposure of the top of the switch knob 110 to minimize external exposure of other components.

Other components are stably disposed in the inner space formed by engaging the housing base (not shown) with the housing body 110. Although not clearly shown, a fastening portion such as a mounting rib for supporting the housing body is further provided Or a separate fastening means such as a bolt may be further provided, and various structures are possible within a range of stably supporting the housing body in the inner space formed by the housing base and the housing cover.

The housing 101 is provided with a housing knob mounting portion 102 for supporting the seesaw motion of the switch knob 110 described below. A housing knob mounting protrusion 103 is formed on the outer side of the housing knob mounting portion 102. The housing knob mounting protrusion 103 forms a rotation axis of the switch knob 110 indicated by a line I-I (see FIG. 6).

The printed circuit board portions 400 and 500 are fixedly positioned inside the housing 101. The printed circuit board portions 400 and 500 include a main board 400 and a slider board 500. The main board 400 is disposed horizontally on the rotation axis of the switch knob 110. The slider substrate 500 is disposed perpendicularly to the main substrate 400 and perpendicularly to the rotation axis of the switch knob 110. A slider switch housing 301 of the slider switch 300 of the slider switch unit 200 described below is fixedly mounted on one surface of the slider substrate 500.

On the slider substrate 500, a slider switch fixed contact 340 is disposed. In some cases, the slider substrate 500 of the present invention may have a double-sided substrate structure so that the slider switch fixed contacts 340 are formed on both sides of the slider substrate 500.

The slider switch unit 200 is disposed on the printed circuit board units 400 and 500 and changes the operating state of the window motor (not shown) that changes the contact state of the contact state to the vehicle window of the vehicle. The slider switch unit 200 includes at least one slider switch 300. In this embodiment, the slider switch unit 200 includes a plurality of slider switches 300. [

More specifically, the slider switch 300 includes a slider switch housing 301, a slider 303, a slider switch fixed contact 340, and a slider switch movable contact 360.

The slider switch housing 301 is fixedly disposed on the printed circuit board portions 400 and 500, more specifically, on the slider substrate 500. The slider 303 is movably disposed in the slider switch housing 301. In the slider switch housing 301, a space is formed inside the slider switch housing, and the slider 303 is disposed so as to be linearly movable.

A slider knob connection portion 305 is formed at an upper end of the slider 303, and the slider knob connection portion 305 is connected to the switch knob movable connection portion.

The slider movable contact 360 is mounted inside the slider 303, and the slider movable contact 360 is exposed to the slider substrate 500. The slider movable contact 360 includes a slider movable contact body 361 and a slider movable contact abutment 363. The slider movable contact body 361 is mounted on the slider switch housing 301 of the slider switch 300 and is formed in a U shape and the slider movable contact body 363 is disposed at both ends of the slider movable contact body 361 And is structured such that it can be in direct contact with the slider fixed contact 340. [

The slider fixed contact 340 is disposed on the printed circuit board 400 or 500 in correspondence with the movable area of the slider movable switch movable contact 360.

The slider substrate 500 may be formed on both sides of the slider substrate 500. The slider substrate 300 may be formed on both sides of the slider substrate 500, And can be symmetrically arranged on both sides. A structure in which the slide substrate 500 is symmetrically disposed on both sides of the slide substrate 500 is maximized to maximize the compact arrangement structure and to achieve a stable mounting state by balancing to minimize the deformation due to biased action during frequent operation. In the present embodiment, four slider switches for adjusting four individual windows are disposed, and a structure is provided in which both front and rear seats are arranged in correspondence with the front and rear seats, and both sides are arranged corresponding to the left and right seats. In the present embodiment, the movable knobs of the switch knobs are symmetrically arranged. However, the connecting portion 113 of the switch knob connected to the slider switch of the window for the driver's seat, It is possible to adopt a structure in which a longer straight portion is provided and a stroke range of the slider switch is formed to have a larger range and a structure for relieving the load burden due to frequent operation through a closer arrangement to the main board side may be adopted, It is possible.

The switch knob 110 is rotatably disposed on the housing 101 so as to move the slider switch unit 200 and more specifically the slider 303 of the slider switch 300, The movable contact 360 changes the connection position of the slider switch fixed contact 340 on the slider substrate 500 to change the electrical signal.

The switch knob 110 includes a switch knob body 111 and a switch knob movable portion 130. The switch knob body 111 is seesawably mounted on the housing 101. [ A switch knob body mounting portion 112 is formed on a side surface of the switch knob body 111 and a housing knob mounting portion 102 formed on the housing 101. The switch knob body mounting portion 112 includes a housing knob mounting portion 102 And the switch knob body 111 of the switch knob 110 has a structure capable of seesawing with respect to the housing 101. [ The switch knob moving part 130 is disposed at the lower end of the switch knob body 111 and connected to the slider knob connecting part 305 to transmit the seesaw motion of the switch knob body 111 to the slider 300.

More specifically, the switch knob moving part 130 includes a switch knob movable linear part 131 and a switch knob movable connection part 133. The switch knob movable linear part 131 extends from the lower surface of the switch knob body 110, And the switch knob movable connection portion 133 is extended from the end of the switch knob movable linear portion 131 to the switch knob movable linear portion 131 at a predetermined angle And is directly connected to the slider knob connection portion 305. [

8, the switch knob movable linear portion 131 and the switch knob movable connection portion 133 of the present invention are disposed on the lower surface of the switch knob body 111, and the switch knob movable linear portion 131 is disposed on the lower surface of the switch knob body 111, And the switch knob movable connection portion 133 are connected and arranged at predetermined angles with respect to each other. Through the above-described structure, the movable force generated by the seesaw rotational motion due to the seesaw motion of the switch knob body 111, which performs a seesaw motion about the horizontal rotation axis of the main board 400, is transmitted to the slider substrate The slider 303 of the slider switch 300 mounted on the slider switch fixed contact 340 and the slider switch movable contact 360 can be changed to form a contact state change of the slider switch fixed contact 340 and the slider switch movable contact 360.

The slider knob connection portion 305 directly connected to the switch knob movable connection portion 133 may have a groove structure corresponding to the protrusion structure. That is, the switch knob movable connection portion 133 has a protruding extension structure. The slider knob connection portion 305 is formed in a groove structure, and the switch knob movable connection portion 133 is inserted into the slider knob connection portion 305 and connected thereto Structure.

At this time, the slider knob connection part 305 forms a predetermined width in a direction toward the switch knob body mounting part 112 constituting the rotation axis of the switch knob 110. That is, a slider knob connection portion 305 is provided on one surface of the slider 303. The slider knob connection portion 305 is connected to the switch knob 110. The switch knob movable connection portion 133 has a predetermined clearance gap in the direction toward the center of rotation of the switch knob 110 with respect to the slider knob connection portion 305 so that the switch knob 110 Even if the position of the switch knob movable connection portion 113 changes somewhat from the initial connection position with the slider 303 toward the center of rotation of the switch knob 110 during the seesaw rotation toward the center of rotation of the slider knob connection portion 305, Smooth seesaw motion of the switch knob 110 and smooth linear operation of the slider switch unit 300 can be achieved without interference between the components due to the margin width of the slider switch unit 300. [

The embodiments are illustrative of the present invention, and the present invention is not limited thereto. Various modifications are possible within the scope of achieving stable seesaw motion.

100 ... power window switch module 101 .. housing
400,500 ... printed circuit board part 200 ... slider switch unit
300 ... Slider switch 301 ... Slider switch housing
303 ... Slider 340 ... Slider switch fixed contact
360 ... Slider switch movable contact

Claims (10)

housing; A printed circuit board portion disposed inside the housing; A slider switch unit disposed on the printed circuit board unit and capable of varying a contact state to change an operation state of a window motor for moving up and down a vehicle window; And a switch knob which is rotatably disposed on the housing to move the slider switch unit. The rotation axis of the switch knob is perpendicular to a plane in which the slider switch unit is operated,
Wherein the slider switch unit includes at least one slider switch,
Wherein the slider switch includes: a slider switch housing fixedly disposed on the printed circuit board portion; a slider switch housing movably disposed in the slider switch housing, connected to the switch knob, A slider switch movable contact mounted on the slider and a slider switch fixed contact disposed on the printed circuit board portion in correspondence with the movable area of the slider switch movable contact,
Wherein the printed circuit board portion comprises: a main board disposed horizontally on a rotation axis of the switch knob; a main board and a slider switch housing vertically disposed on the main board and the switch knob rotation axis, And a slider substrate on which a fixed contact is formed. delete delete The method according to claim 1,
The slider switch movable contact includes:
A slider switch movable contact body mounted on the slider switch,
And a slider switch movable contact portion disposed at both ends of the slider switch movable contact body and capable of contacting the slider switch fixed contact in a U-shape. delete The method according to claim 1,
Wherein the slider switch unit includes a plurality of slider switches. The method according to claim 6,
Wherein the slider substrate is formed as a double-sided substrate,
Wherein the slider switch is symmetrically disposed on both sides of the slider substrate. The method according to claim 1,
The slider is provided with a slider knob connection portion,
The switch knob comprises:
A switch knob body mounted seetably on the housing,
And a switch knob movable unit disposed at a lower end of the switch knob body and connected to the slider knob connection unit to transmit a seesaw motion of the switch knob body to the slider. 9. The method of claim 8,
The switch knob moving part includes:
A switch knob movable linear portion extending from a bottom surface of the switch knob body perpendicularly to a seesaw axis of the switch knob body,
And a switch knob movable connection portion extending from an end of the movable linear portion of the switch knob at a predetermined angle to the movable linear portion of the switch knob and directly connected to the slider knob connection portion. 10. The method of claim 9,
The slider knob connection portion is formed as a groove,
Wherein the switch knob movable connection portion is inserted into the slider knob connection portion.

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