KR101594626B1 - Power window switching system with sliding switching unit - Google Patents

Abstract

The present invention relates to an electric power steering system comprising a main power window switch module operated by a driver to adjust the opening and closing of a vehicle window, an adjustable sub power window switch module electrically communicable with the main power window switch module, Wherein the sub power window switch module comprises a slide switch unit capable of adjusting the opening and closing of the vehicle window, the main power window switch module for the vehicle window, When the output signal of the sub power window switch module is different from the output signal of the sub power window switch module, the output signal of the sub power window switch module is transmitted to the window driving motor It provides a generic system.

Description

POWER WINDOW SWITCHING SYSTEM WITH SLIDING SWITCHING UNIT

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a switch device, and more particularly, to a power window switch system that makes it possible to more comfortably adjust a boarding environment of an occupant.

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 vehicle power window device, the integrated control is enabled by the driver's seat so that driver-centric operation is enabled. However, in the case where the passenger and the driver are conflicting with each other, Communication has been demanded, which has weakened the driver's frontal attention, resulting in the possibility of a safety accident, and it has been difficult to smoothly adjust the comfort of the passengers directly affected by the vehicle window.

Accordingly, it is an object of the present invention to provide a slide unit switch employing a contact-type contact method capable of securing a contact state of a switch, provide a power window switch module having the same, and provide a power window switching system having the same. It is another object of the present invention to provide a power window switching system that enables individual control of windows.

According to an aspect of the present invention, there is provided a vehicular drive system including a main power window switch module that is operated by a driver to adjust opening and closing of a vehicle window, an adjustable sub- A power window switching system comprising a power window switch module and a vehicle window drive motor for driving up and down a vehicle window, the sub power window switch module comprising a slide switch unit capable of adjusting the opening and closing of a vehicle window, When the output signal of the sub power window switch module is different from the output signal of the sub power window switch module for the vehicle window driving module It provides a power window switch that is passed to the system.

In the power window switching system, the slide switch unit may include: a unit housing; A slider movable terminal disposed on both sides of the slider block on a side surface of the slider block parallel to the moving direction of the slider block and a slider movable terminal disposed on the inner side of the unit housing, And a unit slider having a slider fixed terminal arranged to be contactable with a terminal.

The slider fixed terminal includes: a motor slider fixed terminal contact portion connected to the vehicle window driving motor; a connection slider fixed to the motor slider fixed terminal contact portion and connected to the main power window switch module; A rising slider fixed terminal contact portion for transmitting an electrical signal for raising the vehicle window to the vehicle window drive motor of the vehicle window and an electrical signal for lowering the vehicle window to the vehicle window drive motor of the vehicle window And the connection slider fixed terminal contact portion is disposed between the rising slider fixed terminal contact portion and the falling slider fixed terminal contact portion with respect to the advancing direction of the slider block May.

In the power window switching system, one of the rising slider fixed terminal contact portion and the falling slider fixed terminal contacting portion of the slider fixed terminal corresponding to one side of the slider block is connected to the power source and the other is connected to the ground, The slider fixed terminal corresponding to the other side surface of the slider block may have a connection structure opposite to the slider fixed terminal corresponding to one side of the slider block.

The power window switching system may further include a slider elastic member accommodating portion provided on a side surface of the slider block facing the slider movable terminal and a slider elastic member accommodated in the slider elastic member accommodating portion.

In the power window switching system, the slider block may be provided with a block moving terminal mounting portion, and the slider movable terminal may be provided with a movable terminal mounting portion which is engaged with the block moving terminal mounting portion to a corresponding position of the block moving terminal mounting portion have.

In the power window switching system, the slider movable terminal may have a U-shape, and the block movable terminal mount may be disposed on a side of the slider block perpendicular to a moving direction of the slider block.

In the power window switching system, a block knob extending from the slider block may be disposed on one side of the slider block.

The power window switch module according to the present invention having the above-described configuration and the power window switching system having the same have the following effects.

First, the power window switch module and the power window switching system including the power window switch module according to the present invention maintain the window lock switching function, but when the operation of the driver and the operation of the occupant are arranged, First, the comfort of the occupant can be doubled.

Second, the power window switch module and the power window switching system including the power window switch module according to the present invention can smoothly operate without hindering the user's operation feeling due to the contact noise between the terminals during slide movement through the side contact method.

Third, the power window switch module and the power window switching system including the power window switch module according to the present invention can prevent or reduce the possibility of a contact failure or a malfunction due to the inflow of foreign matter through long- .

Fourth, the power window switch module and the power window switching system including the power window switch module according to the present invention may form a stable operation state by forming the terminals contact manner on both sides of the slider block.

Fifth, the power window switch module and the power window switching system having the same according to the present invention can simplify the assembling process through the simple circuit and terminal configuration, while maintaining the window lock function, and independently controlling the vehicle window of the passenger The process cost can be remarkably reduced.

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 power window switch module according to the present invention and a power window switching system having the same will be described with reference to the drawings.

FIG. 1 is a schematic perspective view of a main power window switch module 10 including a slide switch unit 100 according to an embodiment of the present invention. FIG. 2 is a perspective view of the slide switch unit according to an embodiment of the present invention. 3 is a schematic exploded perspective view of a slide switch unit 100 according to an embodiment of the present invention, and FIG. 4 is a perspective view of a slide unit 100 according to an embodiment of the present invention. 5 is a schematic perspective view of some components of the switch unit 100, and FIG. 5 is a schematic perspective view of the slider fixing terminal 340 of the slide switch unit 100 according to an embodiment of the present invention, 6 is a schematic partial cross-sectional side view of a slide switch unit 100 according to an embodiment of the present invention, and FIG. 7 is a cross-sectional view of another slide according to an embodiment of the present invention. 8 is a schematic perspective view of the switch unit 100-1. FIG. 8 is a schematic exploded perspective view of another slide switch unit 100-1 according to an embodiment of the present invention, and FIG. A schematic circuit diagram of a power window switching system 1 according to an embodiment is shown, in which FIG. 10 shows a partially enlarged view of a reference A in FIG. 9, and in FIGS. 11 and 12, And the operation states of the slide switch units 100 and 100-1 according to the first embodiment are shown.

The power window switching system 1 of the present invention includes a main power window switch module 10, a sub power window switch module 10-1 (see FIG. 9), and a power window drive motor, ) Denotes a power window switch module operated by the driver, and the sub power window switch module 10-1 denotes an individual power window switch module disposed corresponding to each vehicle window, and the main power window switch module 10 Unlike the sub power window switch module 10-1, it is possible to control opening and closing for another window. Power window driving motors 5M and 5S for the vehicle window are driven through control signals from the main power window switch module 10 and the sub power window switch module 10-1 to perform forward and reverse rotations It is possible to drive up and down the vehicle window.

The main power window switch module 10 includes a housing 30 (40,50), a substrate 60, a switch knob 20 and a slide switch unit 100. The main power window switch module 10 includes a substrate 60 The unit 100 is stably disposed in the inner space of the housing 30. [

The housing 30 includes a housing body 40 and a housing base 50 wherein the housing body 40 and the housing base 50 are fastened together to form an interior space for receiving other components. Body base fastening portions 41 and 43 are provided outside the housing body 40 and base body fastening portions 51 and 53 are provided at corresponding positions of the body base fastening portions 41 and 43 to the outside of the housing base 50 Which are engaged with each other to fix the fastening state of the housing body 40 and the housing base 50 to prevent unwanted separation and separation of the both. Here, the body base fastening portions 41 and 43 and the base body fastening portions 51 and 53 may have a protrusion and / or groove structure, respectively, but may have a configuration opposite to that shown in the drawings. A body extension part 45 is provided on one side of the housing body 40. The body extension part 45 protrudes from the body knob part. A connector pin (not shown) is disposed in the base connector 55 and the connector pin electrically communicates with the substrate 60 to be electrically connected to the external electrical apparatus Thereby enabling the electrical communication between the electrodes.

The switch knob 20 is rotatably mounted on the housing body 40. The switch knob 20 is provided with a knob turning part 21. [ The knob turning portion 21 is formed in a groove or a through-hole structure and the body knob turning portion 46 is formed in a protruding structure. The body knob turning portion 46 and the knob turning portion 21 are rotatably engaged with each other . Here, it is apparent from the above that the body knob pivoting portion and the knob pivoting portion are formed in a projecting / recessed structure, respectively, but they may be configured to be opposite to each other. The switch knob 20 is provided at its lower surface with a knob movable part 23 extended toward the slider switch unit 100 disposed at the lower part. The knob movable part 23 actuates the slider switch unit 100 described below. The movable portion slider connection portion 25 is provided at the lower end of the knob movable portion 23 so that the movable portion slider connection portion 25 is relatively pivotally connected to allow the sliding movement of the slider switch unit 100 described below. In the present embodiment, the movable portion slider connection portion 25 is formed as a groove structure, but this is merely an example, and the movable portion slider connection portion of the present invention is not limited thereto. In this case, the knob movable part is integrally formed with the switch knob. However, the knob movable part may be formed of a separate material and fixedly mounted on the lower surface of the switch knob.

Also, although not shown here, the main power window switch module 10 may further include a knob elastic portion (not shown) for returning the switch knob 20 to the home position. That is, when the external force is applied to the switch knob 20 by the user, the knob elastic portion elastically deformed by the applied external force is removed, and the switch knob is also restored to the original shape by the elastic restoring force And returned to the home position. The knob elastic portion may have a structure in which each end portion of the knob elastic portion as an elastic member formed on one surface of the housing body 40 elastically supports the end portion of the switch knob. It is possible to arrange the elastic knob to return to the home position of the switch knob, and various modifications are possible according to the design specification.

A substrate 60 (see FIG. 6) is disposed inside the housing 30, which is embodied as a printed circuit board in this embodiment. The circuit board 60 is provided with circuit wiring and electrical elements that are in electrical communication with the external electrical device through a base connector 55 formed in the housing base 50 via a connector pin (not shown) .

The slider switch unit 100 includes a unit housing 200 and a unit slider 300. The unit slider 300 is rotatably disposed inside the unit housing 200. [

The unit housing cover 200 includes a unit housing cover 210 and a unit housing body 220. The unit housing cover 210 and the unit housing body 220 are engaged with each other and are coupled to each other with the unit housing cover 210 and the unit housing body 220. [ At least a part of the unit slider 300 is disposed in the inner space formed by the housing body 220. The unit housing cover mounting portion 211 is provided on the outer periphery of the unit housing cover 210 and the unit housing body mounting portion 221 is provided on the outer periphery of the unit housing body 220 at a corresponding position of the unit housing cover mounting portion 211 .

The unit housing cover mounting portion 211 and the unit housing body mounting portion 221 are engaged with each other to prevent unwanted separation of the both. A body mounting portion entrance guide 215 for facilitating the entry of the unit housing body mounting portion 221 formed as a projecting structure may be further provided below the unit housing cover mounting portion 211 to the inside of the unit housing cover 210 have.

In this embodiment, the unit housing cover mounting portion 211 is formed as a groove and / or a through-hole structure, and the unit housing body mounting portion 221 is formed as a protrusion structure. This is possible.

The unit housing cover 210 has a bottom open structure and a unit housing cover through hole 213 is formed on the top surface of the unit housing cover 210 to cover the unit housing cover 210 through the unit housing cover through- 210 and the lower portion of the unit housing cover 210 can communicate with each other.

The unit housing body 220 has a top surface opened and a bottom surface closed. The unit housing body 220 is engaged with the unit housing cover 210 as described above to form a space inside the unit . The unit housing body 220 is disposed on one side of the substrate 60 (see FIG. 6). Although not shown in the figure, in order to prevent the unit housing body from moving on the substrate, The mounting portion may be protruded and the substrate body mounting portion may be formed at the corresponding position of the substrate so that the substrate body mounting portion may be formed into a groove and may be engaged with each other.

The unit slider 300 is disposed in the unit internal space formed by the unit housing body 210 and the unit housing cover 220. The unit slider 300 includes a slider block 310, a slider movable terminal 320 and a slider fixed terminal 340 (see FIG. 5), the slider block 310 being movably disposed in the unit housing, The slider fixing terminal 340 is disposed on the side surface of the slider block 310 parallel to the moving direction of the slider block 310 and the slider fixed terminal 340 is capable of contacting the slider moving terminal 320 to the inner side surface of the unit housing 200 .

The slider block 310 is movably disposed in a unit internal space formed by the unit housing cover 210 and the unit housing body 220 of the unit housing 200. On one side of the slider block 310, 311). The block knob 311 extends from one surface of the slider block 310 toward the unit housing cover 210. The unit block cover knob 311 includes a unit housing cover through hole 213 formed in the unit housing cover 210, And is exposed to the outside of the unit housing 200. The block knob 311 is exposed to the outside of the unit housing 200 through the unit housing cover through hole 213. The block knob 311 is disposed at the end of the knob movable part 23 disposed at the lower end of the switch knob 20, And the movable part slider connection part 25 formed in the movable part 25. The movable part slider connection part 25 is connected to the block knob 311 so that the operation force of the switch knob 20 by the user is transmitted to the slider block 310 through the movable part slider connection part 25 and the block knob 311. The block knob 311 has a block knob base 311a and a block knob body 311b and a block knob 311b so as to allow the movable block slider connection portion 25 and the block knob 311 to rotate smoothly, Block knob head 311c is disposed on one side of the slider block 310 and the block knob body 311b is connected to the end of the block knob base 311a, 311c are arranged to extend from the end of the block knob body 311b and the block knob body 311b is formed to have a smaller cross sectional area than the block knob base 311a and the block knob head 311c. The block knob base 311a has a cross sectional area larger than that of the block knob body 311b in order to take a support structure so that other components can be stably connected from the slider block, and the block knob head 311c has a movable portion slider connection portion 25, And has a larger cross-sectional area than the block-knob body 311b in order to prevent undesired detachment and detachment from the block-knob body 311b. In addition, the block knob head 311c has a circular cross-section when viewed on a plane parallel to the advancing direction of the slider block, and the corresponding movable portion slider connection portion also has a corresponding shape, Separation and separation can be prevented.

The slider movable terminal 320 is disposed on a side surface of the slider block 310 on a side parallel to the advancing direction of the slider block 310. The slider movable terminal 320 is provided at one side of the inner side surface of the unit housing body 220, more specifically toward the slider fixed terminal 340 formed on the inner side surface of the unit housing body 220, May be protruded. A block movable terminal accommodating portion 313 is provided on a side surface of the slider block 310 and a slider movable terminal 320 is disposed on the block movable terminal accommodating portion 313. [ In some cases, the slider movable terminal 320 may be further provided with a component for preventing unwanted detachment of the slider movable terminal 320. 3, the slider block 310, more specifically, the block movable terminal mount 317 is provided and the slider movable terminal 320 is connected to the corresponding position of the block movable terminal mount 317, And a movable terminal mounting portion 323 engaged with the terminal mounting portion 317 is disposed. The movable terminal mounting portion 323 may be engaged with the block movable terminal mounting portion 317 to prevent the slider movable terminal 320 from separating from the slider block 310. [ Here, the movable terminal mounting portion is formed in a wedge shape, and the block movable terminal mounting portion is formed in a shape of a groove or a through-hole arranged on a plane perpendicular to the moving direction of the slider block. This is an example of the present invention, It is possible to take a variety of variants. The slider movable block may be moved in a direction perpendicular to the moving direction of the slider block on a plane parallel to the plane in which the slider block is moved to allow predetermined movement of the slider movable terminal within a range that prevents the slider movable terminal from being detached from the slider movable block. The movable terminal mounting portion is formed to have a wider opening structure so that the wedge-shaped (or arrowhead-shaped) movable terminal mounting portion is movable within a predetermined range within the block movable terminal mounting portion, and the movable terminal mounting portion and the block movable terminal mounting portion Or may be formed with a predetermined mutually movable structure.

The slider movable terminal 320 and the slider block 310 may further have a structure for achieving a stable mounting structure between the slider movable terminal 320 and the slider block 310. [ 3, the slider movable terminal 320 is formed in a U-shape, and the block movable terminal mount 317 is slid in the advancing direction of the slider block 310 in the side surface of the slider block 310 And is disposed on a vertical side. The position of the block movable terminal mounting portion for enhancing the mounting force between the slider block and the slider movable terminal is set to a position where interference does not occur when the slider block is in contact with the slider fixed terminal disposed on the inner side surface of the unit housing body 220 So that a smooth and stable sliding motion can be achieved.

The slider fixed terminal 340 is disposed in the unit housing body 220 so that a portion of the slider fixed terminal 340 that contacts the slider movable terminal 320 is exposed to the inner surface of the unit housing body 220 and electrically communicates with the substrate 60. [ And the lower end of the unit housing body 220 is exposed. That is, the slider fixed terminal 340 includes a slider fixed terminal contact portion 342 and a slider fixed terminal contact portion 342. The slider fixed terminal contact portion 342 contacts the inner surface of the unit housing body 220 at least partially And a slider fixed terminal pin 341 electrically communicating with the slider fixed terminal contact portion 342 is disposed so as to be exposed under the unit housing body 220 and electrically communicates with the substrate 60 . The slider fixed terminal contact portion 342 may include several fixed terminal contact portions 342 (see FIG. 5) according to design specifications.

The slider fixing terminal 340 according to the present embodiment is insert-injected into the unit housing body 220. The slider fixing terminal 340 is integrally formed with the unit housing body 220 to secure a stable position, A smooth contact state maintaining structure with the movable terminal can be formed.

On the other hand, the switch unit 100 may further include a component for establishing a normal contact state between the slider movable terminal and the slider fixed terminal, respectively. 3, the unit slider 300 of the switch unit 100 further includes a slider elastic member 330. The slider elastic member 330 elastically applies a resilient force to the slider movable terminal 320 So that the slider fixing terminal 340 can be in normal contact with at least a part of the slider fixing terminal 340. A slider elastic member receiving portion 315 is provided on a side surface of the slider block 310 facing the slider movable terminal 320. The slider elastic member accommodating portion 315 is formed on one side of the block movable terminal accommodating portion 313 so that one end of the slider elastic member accommodating portion 315 is closed and the other end thereof facing the slider movable terminal 320 is opened . A slider elastic member 330 is received in the slider elastic member receiving portion 315. One end of the slider elastic member 330 is held in contact with one end of the closed slider elastic member receiving portion 315, Is in contact with the inner surface of the slider movable terminal 320 to elastically support the slider movable terminal 320. [

The elastic contact bars of the slider movable terminal, the slider fixed terminal and / or the slider elastic member may be arranged on both sides of the slider block in a pair. That is, the slider movable terminals 320 may be disposed on both sides of the slider block 310 and the slider fixed terminals 340 may face the inner sides of the unit housing body 220 and two slider fixing terminals 340 may be disposed. May be disposed on each side surface of the slider block so as to maintain a normal contact state between the slider movable terminal and the slider fixed terminal. The slider block can stably balance the force through the arrangement of the pair of side surfaces parallel to the moving direction of the slider block, thereby achieving a sliding movement in which the stable connection state is established inside the unit housing. In this case, the slider fixing terminals are arranged symmetrically with respect to the diagonal line. Such a symmetrical structure makes it possible to perform stable driving and, in some cases, various modifications according to design specifications are possible.

Meanwhile, the power window switching system 1 of the present invention includes a sub power window switch module 10-1 arranged corresponding to an assistant seat, a back seat, and the like. 7, the power window switch module 10-1 includes a slider switch unit 100-1. The arrangement of the slider switch unit 100-1 is similar to that of the main power window switch And has a structure that is stably arranged in the housing, and is connected to the switch knob to perform a predetermined switching function. The same components as those of the slider switch unit in the main power window switch module are denoted by the same reference numerals and duplicate descriptions are omitted.

The slider switch unit 100-1 includes a unit housing 200 and a unit slider 300-1. The unit slider 300-1 is rotatably disposed inside the unit housing 200. [ The unit housing 200 has the same configuration as that of the above embodiment.

The unit slider 300-1 is disposed in the unit internal space formed by the unit housing body 210 and the unit housing cover 220. [ The unit slider 300-1 includes a slider block 310, a slider movable terminal 320-1 and a slider fixed terminal 340-1. The slider block 310 is movably disposed in the unit housing, The movable terminal is disposed on the side of the slider block 310 parallel to the moving direction of the slider block 310 and the slider fixed terminal 34 is connected to the inner side of the unit housing 200 via the slider movable terminal 320-1 As shown in Fig.

The slider block 310 is movably disposed in a unit internal space formed by the unit housing cover 210 and the unit housing body 220 of the unit housing 200. On one side of the slider block 310, 311). The block knob 311 extends from one surface of the slider block 310 toward the unit housing cover 210. The unit block cover knob 311 includes a unit housing cover through hole 213 formed in the unit housing cover 210, And is exposed to the outside of the unit housing 200. The block knob 311 is exposed to the outside of the unit housing 200 through the unit housing cover through hole 213. The block knob 311 is disposed at the end of the knob movable part 23 disposed at the lower end of the switch knob 20, And the movable part slider connection part 25 formed in the movable part 25. The movable part slider connection part 25 is connected to the block knob 311 so that the operation force of the switch knob 20 by the user is transmitted to the slider block 310 through the movable part slider connection part 25 and the block knob 311. The block knob 311 has a block knob base 311a and a block knob body 311b and a block knob 311b so as to allow the movable block slider connection portion 25 and the block knob 311 to rotate smoothly, Block knob head 311c is disposed on one side of the slider block 310 and the block knob body 311b is connected to the end of the block knob base 311a, 311c are arranged to extend from the end of the block knob body 311b and the block knob body 311b is formed to have a smaller cross sectional area than the block knob base 311a and the block knob head 311c. The block knob base 311a has a cross sectional area larger than that of the block knob body 311b in order to take a support structure so that other components can be stably connected from the slider block, and the block knob head 311c has a movable portion slider connection portion 25, And has a larger cross-sectional area than the block-knob body 311b in order to prevent undesired detachment and detachment from the block-knob body 311b. In addition, the block knob head 311c has a circular cross-section when viewed on a plane parallel to the advancing direction of the slider block, and the corresponding movable portion slider connection portion also has a corresponding shape, Separation and separation can be prevented.

The slider movable terminal 320-1 is disposed on a side surface of the slider block 310 on a side parallel to the moving direction of the slider block 310. [ One end of the slider movable terminal 320-1 is connected to one side of the inner side surface of the unit housing body 220, more specifically, toward the slider fixed terminal 340-1 formed on the inner side surface of the unit housing body 220, The terminal contact 321-1 may be protruded. A block movable terminal accommodating portion 313-1 is provided on a side surface of the slider block 310 and a slider movable terminal 320-1 is disposed on a block movable terminal accommodating portion 313-1. In some cases, the slider movable terminal 320-1 may further include an element for preventing unwanted detachment of the slider movable terminal 320-1. 8, the slider block 310, more specifically, the block movable terminal mount 317-1 is provided and the slider movable terminal 320 (see FIG. 8) is connected to the corresponding position of the block movable terminal mount 317-1. -1 is provided with a movable terminal mounting portion 323-1 which is engaged with the block movable terminal mounting portion 317-1. The movable terminal mounting portion 323-1 may be engaged with the block movable terminal mounting portion 317-1 so as to prevent the slider movable terminal 320-1 from being detached and separated from the slider block 310. [ Here, the movable terminal mounting portion is formed in a concave shape and the block movable terminal mounting portion is formed in a protruding shape arranged on a plane perpendicular to the advancing direction of the slider block. However, this is an example of the present invention, Various variations are possible.

The slider movable terminal 320-1 and the slider block 310 may further have a structure for achieving a stable mounting structure between the slider movable terminal 320-1 and the slider block 310. [ 8, the slider movable terminal 320-1 is formed in a U-shape, and the block movable terminal mount 317-1 is slidably mounted on the slider block 310 in the side surface of the slider block 310, On the side perpendicular to the direction of travel The position of the block movable terminal mounting portion for enhancing the mounting force between the slider block and the slider movable terminal is set to a position at which interference does not occur when the slider block is in contact with the slider fixed terminal disposed on the inner side surface of the unit housing body 220 So that a smooth and stable sliding motion can be achieved. The slider movable terminal contact portion 321-1 has a slider movable terminal contact portion 321-1. The slider movable terminal contact portion 321-1 can make the contact with the slider fixed terminal described below more clearly, . In the present embodiment, four slider movable terminal contact portions 321-1 are provided on one side surface, and a total of eight slider movable terminal contact portions are provided on the slider movable terminals disposed on both sides of the slider block. This makes it possible to perform a separate operation function independent of the main power window switch module of the sub power window switch module in which the slider unit 300-1 is disposed through the mutual connection relationship with the slider fixed terminal.

The slider fixed terminal 340-1 is disposed on the unit housing body 220. The portion of the slider fixed terminal 340-1 contacting the slider movable terminal 320-1 is exposed to the inner surface of the unit housing body 220, Is exposed to the lower portion of the unit housing body (220). That is, the slider fixed terminal 340-1 includes a slider fixed terminal contact portion and a slider fixed terminal pin 341. The slider fixed terminal contact portion 342-1 (FIGS. 11 and 12) And a slider fixed terminal pin 341 electrically communicating with the slider fixed terminal contact portion 342 is disposed to be exposed at a lower portion of the unit housing body 220 to electrically communicate with the substrate . The slider fixed terminal contact portion may have several fixed terminal contacts 342-1 (RU (+/-), RM, RG, RD (+/-)) according to design specifications. A total of eight slider fixed terminal contacts are arranged on each side in correspondence with the slider movable terminals on both sides.

Here, one of the rising slider fixed terminal contact portion and the falling slider fixed terminal contacting portion of the slider fixed terminal corresponding to one side of the slider block is connected to the power source and the other is connected to the ground, The fixed terminal has a connection structure opposite to the slider fixed terminal corresponding to one side of the slider block. That is, each slider fixed terminal contact portion includes a motor slider fixed terminal contact portion RM connected to the vehicle window driving motor 5S, a connection slider fixed terminal contact portion RG connected to the main power window switch module to enable electrical communication, A rising slider fixed terminal contact RU (+/-) for applying an electrical signal to the vehicle window drive motor to cause the window to rise, a downward slider fixed to allow an electrical signal to be applied to the vehicle window drive motor to lower the vehicle window A power source for providing a driving force at the time of raising and lowering the vehicle window driving motor 5S is provided with the rising slider fixed terminal contact RU (+) and the lower slider fixed terminal contact RD (+/-) (-)) are supplied via the lead terminal RD (+) and the other rising slider fixed terminal contacting portion RU (-) and the falling slider fixed terminal contacting portion RD Line to form a ground state, which can be controlled by the sub-power window switch module 10-1 through the ground intermittent control via the window lock switch 6. With this configuration, independent power supply through the rising slider fixed terminal contacting portion RU (+) and the falling slider fixed terminal contacting portion RD (+), the rising slider fixed terminal contacting portion RU (-) and the falling slider fixing The terminal is contacted via the terminal contact portion RD (-) to enable smooth individual driving, so that the driver controls opening and closing of a predetermined vehicle window corresponding to a seat other than the driver's seat, and at the same time, The operator of the occupant can preferentially perform a predetermined opening and closing operation on the vehicle window.

The slider fixing terminal 340-1 is inserted and formed in the unit housing body 220. The slider fixing terminal 340-1 is integrally formed with the unit housing body 220 so that a stable position So that a smooth contact state maintenance structure with the slider movable terminal can be formed.

On the other hand, the switch unit 100-1 may further include a component for establishing a normal contact state between the slider movable terminal and the slider fixed terminal in the ON / OFF state, respectively. 8, the unit slider 300-1 of the switch unit 100-1 further includes a slider elastic member 330. The slider elastic member 330 includes a slider movable terminal 320- 1 so that the slider fixed terminal 340-1 can be in constant contact with at least a part of the slider fixed terminal 340-1. A slider elastic member receiving portion 315 is provided on a side surface of the slider block 310 facing the slider movable terminal 320-1. The slider elastic member accommodating portion 315 is formed on one side of the block movable terminal accommodating portion 313-1 so that one end of the slider elastic member accommodating portion 315 is closed and the other end Form an open state. A slider elastic member 330 is received in the slider elastic member receiving portion 315. One end of the slider elastic member 330 is held in contact with one end of the closed slider elastic member receiving portion 315, Is in contact with the inner surface of the slider movable terminal 320-1 to elastically support the slider movable terminal 320-1.

The elastic contact structures of the slider movable terminal, the slider fixed terminal and / or the slider elastic member as described above are paired and disposed on both sides of the slider block. That is, the slider movable terminals 320-1 may be disposed on both sides of the slider block 310 and the slider fixed terminals 340-1 may be disposed on the inner side of the unit housing body 220, The elastic member 330 may be disposed on each side of the slider block to maintain a normal contact state between the slider movable terminal and the slider fixed terminal. The slider block can stably balance the force of the slider block through a pair of side surfaces parallel to the moving direction of the slider block, thereby achieving a sliding movement in which the stable connection state is established inside the unit housing.

Hereinafter, a structure and operation of a power window switching system 1 including a main power window slider switch module 10 and a sub power window slider switch module 10-1 according to an embodiment of the present invention will be described with reference to the drawings. .

The power window switching system 1 includes a main power window switch module 10 and a plurality of sub power window switch modules 10-1, The sub power window switch module 10-1 is provided with a slider switch unit 100-1 capable of operating the opening and closing of the corresponding vehicle window, The power window driving motor 5M corresponding to the vehicle window of the driver's seat is directly connected to the main power window switch module 10 and is driven by the power window driving motor 5M, (5S) is in electrical communication with the main power window switch module (10) through the sub power window switch module (10-1). The main power window switch module 10 is provided with a power window lock switch 6. The power window lock switch 6 controls the interruption of the ground line to control the operation of the sub power window switch module 10-1 Are the same as those described above.

Figs. 11 and 12 show operation states of the slider switch unit before and after the operation by the user. In each figure, (a) shows a slider switch unit 100 (B) shows the terminal contact state of the slider switch unit 100-1 disposed in the sub power window switch module 10-1 disposed on the seat side other than the driver's seat. The slider movable terminals 320 of the unit slider 300 of the slider switch unit 100 disposed in the main power window switch module 10 disposed on the driver's seat side are provided with four slider operations A total of six slider fixed terminal contact portions 342 are disposed on the slider fixed terminal 340 of the unit slider 300. The slider fixed terminal contact portion 342 includes a motor slider fixed terminal contact portion And a downward slider fixed terminal contact portion FD (+/-), wherein the motor slider fixed terminal contact portion is a power window drive motor (not shown) for the driver's seat 5M or each sub power window switch module 10-1 is connected and the rising slider fixed terminal contact FU (+) and the falling slider fixed terminal contact FD (+) are connected to each other, And the other rising slider fixed terminal contacting portion FU (-) and the falling slider fixed terminal contacting portion FD (-) are grounded. When no external force is applied, the unit slider 300 points to a predetermined position, and the slider movable terminal 320 forms a non-contact state with the slider fixed terminal 340.

On the other hand, when no external force is applied to the sub power window switch module 10-1, the slider movable terminal contact 321-1 of the slider movable terminal 320-1 of the unit slider 300-1 is fixed to the motor slider fixed terminal It is possible to control the open / close state of the window of the seat through the main power window switch module 10 of the driver's seat by forming a contact state between the contact RM and the connecting slider fixed terminal contact RG.

When the vehicle window opening / closing state other than the driver's seat is to be controlled through the main power window switch module 10 to the sub power window switch module 10-1, the unit sliders 300, It is possible to perform the descending operation. 12 (a), the unit slider 300 of the main power window switch module 10 is adjusted so that the slider movable terminal 320 and the motor slider are fixed It is possible to drive the power window driving motor 5S in a predetermined direction by forming the contact state of the terminal contact portion FM and the rising slider fixed terminal contact portion FU (+/-) -1 is adjusted so that the contact state between the slider movable terminal 320-1 and the motor slider fixed terminal contact FM and the rising slider fixed terminal contact FU (+/-) And can drive the power window drive motor 5S in a predetermined direction.

In this case, for example, when the driver wants to lower the vehicle window and the passenger wants to raise the vehicle window, when both the driver and the passenger wish to output operation signals different from each other for the vehicle window, In the case where the signal to raise / lower the corresponding vehicle window outputted from each of the switch module 10 and the sub power window switch module 10-1 in the opposite direction is different, As shown in the circuit structure, the operation intention of the passenger can be individually controlled over the driver through the supply line that is separately supplied. It goes without saying that the window lock function through the control of the window lock switch 6 through the ground line is, of course, still in this case.

The embodiments are illustrative of the present invention, and the present invention is not limited thereto. Various modifications are possible within a range in which the slider movable terminals are disposed on both sides of the slider block and the individual operation priority of the power window switch module other than the driver's seat is taken.

1 is a schematic perspective view of a main power window switch module including a slide switch unit according to an embodiment of the present invention.

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

3 is a schematic exploded perspective view of a slide switch unit according to an embodiment of the present invention.

4 is a schematic perspective view of some components of a slide switch unit according to an embodiment of the present invention.

5 is a schematic perspective view of a slider fixed terminal of a slide switch unit according to an embodiment of the present invention.

6 is a schematic partial cross-sectional view and partial plan view of a main power window switch module having a slide switch unit according to an embodiment of the present invention in a neutral state.

7 is a schematic perspective view of another slide switch unit according to an embodiment of the present invention.

8 is a schematic exploded perspective view of another slide switch unit according to an embodiment of the present invention.

9 is a schematic circuit diagram of a power window switching system according to an embodiment of the present invention.

10 is a partially enlarged view of the reference numeral A in Fig.

11 and 12 are schematic operational state diagrams showing an operation state of the slide switch unit according to an embodiment of the present invention.

Description of the Related Art [0002]

1 ... Power window switching system 6 ... Windows lock switch

10 ... main power window switch module 20 ... switch knob

30 ... housing 60 ... substrate

100 ... Slide switch unit 200 .. Unit housing

300 ... unit slider 310 ... slider block

320 ... Slider movable terminal 330 ... Slider elastic member

340 ... Slider fixed terminal

Claims (8)

A main power window switch module which is operated by a driver to adjust the opening and closing of a vehicle window; and an adjustable sub power window switch module which is electrically communicable with the main power window switch module and adjusts the vehicle window of the vehicle assistant and rear window, The sub power window switch module including a slide switch unit capable of adjusting the opening and closing of a vehicle window and for outputting an output signal of the main power window switch module for the vehicle window The output signal of the sub power window switch module is transmitted to the vehicle window driving motor which drives the opening and closing of the vehicle window when the output signal of the sub power window switch module is different, The slide switch unit includes: a unit housing; A slider movable terminal disposed on both sides of the slider block on a side surface of the slider block parallel to the moving direction of the slider block and a slider movable terminal disposed on the inner side of the unit housing, And a unit slider having a slider fixed terminal arranged to be able to contact the terminal, The slider fixed terminal includes: a motor slider fixed terminal contact portion connected to the vehicle window driving motor; a connection slider fixed terminal contact portion spaced apart from the motor slider fixed terminal contact portion and connected to the main power window switch module; A rising slider fixed terminal contact portion for transmitting an electric signal for raising the vehicle window to the vehicle window driving motor and a falling slider fixed terminal contact portion for transmitting an electric signal for lowering the vehicle window to the vehicle window driving motor of the vehicle window And the connection slider fixed terminal contact portion is disposed between the rising slider fixed terminal contact portion and the falling slider fixed terminal contact portion with respect to the advancing direction of the slider block, Wherein one of the rising slider fixed terminal contact portion and the falling slider fixed terminal contacting portion of the slider fixed terminal corresponding to one side of the slider block is connected to the power source and the other is connected to the ground, The fixed terminal has a connection structure opposite to the slider fixed terminal corresponding to one side of the slider block, A slider elastic member accommodating portion provided on a side surface of the slider block facing the slider movable terminal and a slider elastic member accommodated in the slider elastic member accommodating portion, When no external force is applied to the sub power window switch module, the slider movable terminal contact of the slider movable terminal of the unit slider is in contact with the motor slider fixed terminal contact RM and the connection slider fixed terminal contact RG Closing state of the window of the corresponding seat through the main power window switch module of the driver's seat, Wherein the slider movable terminals are disposed on both sides of the slider block and the slider fixed terminals are arranged in pairs on side surfaces of the unit housing body that are opposed to each other and parallel to the moving direction of the slider block. Switching system. delete delete delete delete The method according to claim 1, The slider block is provided with a block movable terminal mounting portion, Wherein the slider movable terminal is provided with a movable terminal mounting portion which is engaged with the block movable terminal mounting portion to a corresponding position of the block movable terminal mounting portion. The method according to claim 6, Wherein the slider movable terminal has a U-shape, and the block movable terminal mounting portion is disposed on a side of the slider block perpendicular to a moving direction of the slider block. The method according to claim 1, And a block knob extending from the slider block is disposed on one side of the slider block.

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