KR101856948B1 - Manual mode switch for automatic transmission shift lever - Google Patents

Abstract

The present invention relates to a manual mode switch for an automatic shift lever, and an object thereof is to provide a manual mode switch for an automatic shift lever that enables downsizing of a manual mode switch. To this end, the present invention is characterized to include: a circuitry part composed of elements in such a way that a switching terminal having a first insulation portion is disposed on one side of a ground terminal, and a down output terminal and an up output terminal are disposed adjacent to the other side of the ground terminal via a second insulation portion; a terminal part composed of: a first contact terminal moving to a first connection position connecting the ground terminal and the switching terminal or to a first insulation point connecting the ground terminal and the first insulating part, a second contact terminal moving to a second connection position connecting the ground terminal and the switching terminal at a position different from the first contact terminal or to a second insulation point connecting the ground terminal and the first insulating part, a third contact terminal moving to a third connection position connecting the ground terminal and the down output terminal or to a third insulation point connecting the ground terminal and the second insulating part, a fourth contact terminal moving to a fourth connection position connecting the ground terminal and the up output terminal or to a fourth insulation point connecting the ground terminal and the second insulating part; and an operational mechanism part including a first slide that moves together with the first and third contact terminals and a second slide that moves together with the second and fourth contact terminals, and moving the first and second slides in the direction that both slides are to be separated from each other or that both slides are to be at one end or the other end of the ground terminal, in response to a movement of the shift lever.

Description

The manual mode switch of the automatic shift lever (automatic transmission shift lever)

[0001] The present invention relates to a manual mode switch used in an automatic transmission shift lever of an automobile, and more particularly, to a manual mode switch in which an automatic shift lever And the manual mode switch of the automatic shift lever.

Generally, the torque generated from an automobile engine is almost constant regardless of the change in the rotational speed, and the output has a characteristic that the output varies greatly depending on the rotational speed.

The driving force required when the vehicle travels greatly changes depending on the road conditions and the traveling speed in the state in which the passenger and the cargo are loaded. Therefore, a device for changing the torque between the engine and the driving wheel is required in order to cope with this situation. The same device is called a transmission.

The transmission may be divided into a manual transmission and an automatic transmission.

The manual transmission is a transmission in which a driver directly performs a gear shift operation. In the case of shifting, the operation of shutting off the power of the engine is required by a clutch. If the operation of the clutch is not smooth, not only the gear operation for shifting is impossible, It is hard to shift.

However, those who want quick response or high fuel economy prefer a manual transmission because they can make better use of the engine's capabilities compared to cars equipped with automatic transmissions.

The automatic transmission is a transmission that literally shifts automatically. The torque converter, which plays an important role among them, is a device that induces the power interrupting and torque by the fluid flow.

Such an automatic transmission automatically changes the speed change stage according to the predetermined shift pattern according to the degree of depression of the accelerator pedal and the vehicle speed, so that even the novice user can easily operate the vehicle and relieve fatigue of the driver.

However, since the automatic transmission has a structure that transmits power through the oil charged to the torque converter, the loss of power is greater than that of the manual transmission, which transmits power through the engagement of gears and gears. And it has a disadvantage that dynamic running is difficult.

To overcome the drawbacks of the automatic transmission, an automatic shift lever including a manual mode has been developed and used.

The automatic shift lever including the manual mode may be configured such that the shift lever is operated in an up-down manner in addition to the automatic shift control portion in which the shift lever is operated in the steps of Park (P) - Reverse (R) - Neutral So that the driver can arbitrarily adjust the speed change stage in accordance with the driving situation of the vehicle.

In the case of the automatic shift lever including the manual mode, a manual mode switch for detecting a movement of the shift lever and generating a signal for switching the transmission controller to the manual mode when the driver switches to the manual mode through operation of the shift lever And an example of the manual mode switch is disclosed in Patent Document 1.

FIG. 1 is a perspective view of a manual mode switch disclosed in Patent Document 1. FIG.

The manual mode switch according to Patent Document 1 includes a manual sensing portion 10 for operating the manual mode switch while receiving the movement of the shift lever.

The manual sensing part 10 moves downward of the manual mode switch when the shift lever 20 is operated by the manual operating part and the terminal provided in the manual sensing part 10 is connected to the manual sensing part 10 The manual mode selection unit, the terminal and the circuit, the guide for guiding the movement of the manual mode selection unit, and the spring for restoring the manual sensing unit to the original position are provided on the upper and lower sides of the switch The size of the manual mode switch is inevitably increased.

In addition, the manual mode switch is required to have a larger manual mode switch as the operating direction of the manual sensing unit 10 is different from the up-down sensing unit 30, which allows the driver to manually adjust the speed of the shift.

Patent Registration No. 0913535 (issued on August 21, 2009)

The present invention has been made in view of the above problems, and an object of the present invention is to provide a manual mode switch of an automatic shift lever that enables downsizing of a manual mode switch.

It is another object of the present invention to provide a manual mode switch of an automatic shift lever capable of simplifying an operating structure to reduce costs and performing more reliable operation.

According to an aspect of the present invention, there is provided a semiconductor device including: a ground terminal; a ground terminal; a ground terminal; a ground terminal; A circuit portion having a down output terminal and an up output terminal arranged apart from each other with a second insulation portion interposed therebetween on the other side of the ground terminal; A first contact terminal for connecting the ground terminal and the switching terminal to a first connecting position for connecting the ground terminal and the switching terminal or a first insulating terminal for connecting the ground terminal and the first insulating part, A second contact point for connecting the ground terminal and the down output terminal to the second connection point for connecting the ground terminal and the first insulation part to the second connection point for connecting the ground terminal and the down output terminal, A fourth contact point for connecting the ground terminal and the up output terminal or a fourth contact point for connecting the ground terminal and the second insulation portion to the fourth insulation point for connecting the ground terminal and the up output terminal, A terminal portion comprising a contact terminal; A first slide which is coupled with the first and third contact terminals and moves together with the first and third contact terminals, and a second slide which is engaged with the second and fourth contact terminals and moves together with the second and fourth contact terminals, The first and second slides are moved in a direction in which the first and second slides are separated from each other or the first and second slides are moved in the direction of one end of the ground terminal in accordance with the movement of the shift lever provided in the automatic shift lever, And an operating mechanism for moving the two sliders toward the other end of the ground terminal.

Meanwhile, in the manual mode switch of the automatic shift lever, the operating mechanism unit is coupled to the first contact terminal and the third contact terminal to move the first and third contact terminals in the longitudinal direction of the ground terminal, Position or the first and third insulated positions; A second slide coupled to the second contact terminal and the fourth contact terminal to move the second and fourth contact terminals to the second and fourth connection positions or the second and fourth insulation positions while moving the second and fourth contact terminals in the longitudinal direction of the ground terminal; The first and third contact terminals respectively located at the first connection position and the third connection position are moved to the first and third insulation positions and the second and fourth contact terminals respectively positioned at the second connection position and the fourth connection position are connected to the second, An elastic member for elastically supporting the first and second slides so as to move to an insulated position; And the first and second slides are interposed between the first slide and the second slide to move the first and second contact terminals in the first and second insulation positions to the first and second connection positions respectively, The third contact terminal at the third insulation position is moved to the third connection position while the first slide or the second slide is received while the movement of the shift lever is received while being inserted between the two slides, And an operating pin for moving the fourth contact terminal in the second connecting position to the fourth connecting position.

Meanwhile, in the manual mode switch of the automatic shift lever, the first and second slides are interlocked with the insertion of the actuating pin in the upper end of the first and second slides located on the entry side where the actuating pin is inserted, The inclined surface can be further formed.

Meanwhile, in the manual mode switch of the automatic shift lever, the lower case is formed in a structure in which an upper end portion is opened, and the circuit portion, the terminal portion, and the operating mechanism portion are installed therein. And an upper case coupled to an upper portion of the lower case to prevent disengagement of an operating mechanism provided in the lower case; And a guide structure for supporting the movement of the first and second slides by engaging the case and the first and second slides is formed between the case and the first and second slides.

Meanwhile, in the manual mode switch of the automatic shift lever, the guide structure may have a structure protruding from both side surfaces of the first slide and both side surfaces of the second slide, A protruding support vane; A guide bar which is in close contact with a bottom surface of the support vane and protrudes from upper ends of both side walls of the lower case to support the support vane from below; And a guiding jaw formed in a structure recessed at the lower ends of both side walls of the upper case so as to form guide grooves for guiding the movement of the support vane while facing the guide bars with the support vanes supported by the guide bars interposed therebetween. have.

On the other hand, in the manual mode switch of the automatic shift lever, the elastic member is disposed so as to be positioned between the case and the first slide formed inside the circuit portion, the terminal portion and the operating mechanism portion, A first return spring elastically supporting to push out; And a second return spring arranged to be positioned between the case and the second slide and elastically supporting the second slide so as to push the second slide in the first slide direction.

According to the present invention having such characteristics as described above, a method of inducing the connection between the terminal portion and the circuit portion so that the first and second slides are opened or closed in response to the movement of the shift lever, or a signal corresponding to the movement of the shift lever is generated So that the circuit elements, the terminal portions, and the actuating mechanisms are sequentially stacked in such a manner that the components are not arranged long in accordance with the moving directions of the first and second slides. In particular, the manual mode switching signal and the up / 2 slider. Therefore, the structure of the manual mode switch can be simplified and miniaturized.

1 is a perspective view of a conventional manual mode switch,
FIG. 2 is a perspective view showing a manual mode switch according to a preferred embodiment of the present invention connected to a shift lever;
3 is a perspective view of a manual mode switch according to a preferred embodiment of the present invention,
4 is an exploded perspective view of a manual mode switch according to a preferred embodiment of the present invention,
5 is a top view of a circuit part according to the invention,
6 is a perspective view of a terminal portion according to the present invention,
7 is a view showing an example in which a terminal portion according to the present invention is in a moving state,
8 is a perspective view of an operating mechanism according to the present invention,
9 is a front view of an operating mechanism according to the present invention,
10 is a perspective view showing a structure of a case according to the present invention,
11 is a state diagram of the manual mode switch according to the present invention when the shift lever is operated in the automatic shift mode,
12 is a state diagram of the manual mode switch according to the present invention when the shift lever is positioned in the manual mode,
13 is a state diagram of the manual mode switch according to the present invention when the shift lever is located in the up mode,
14 is a state diagram of a manual mode switch according to the present invention when the shift lever is located in the down mode;

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

FIG. 2 is a perspective view showing a manual mode switch according to a preferred embodiment of the present invention connected to a shift lever, FIG. 3 is a perspective view of a manual mode switch according to a preferred embodiment of the present invention, Fig. 3 is an exploded perspective view of a manual mode switch according to an embodiment.

The manual mode switch 10 according to the present invention includes a circuit unit 100, a terminal unit 200 and an operating mechanism unit 300. The circuit unit 100 includes a terminal unit 200, an operating mechanism unit 300, ), Which are sequentially stacked.

The manual mode switch 10 is provided on the side of the shift lever 20 so that the shift lever 20 is shifted to the side direction of the automatic shift lever, that is, the manual mode switch When the shift lever 20 is moved in the direction of the shift lever 10, a signal corresponding to the position of the shift lever 20 is generated by inducing proper contact between the circuit portion 100 and the terminal portion 200 .

Hereinafter, the circuit unit 100, the terminal unit 200, the actuating unit 300, and the case 400 will be described in detail.

Figure 5 shows a top view of a circuit part according to the invention.

The circuit unit 100 is formed on the inner surface of the case 400 to generate a signal in contact with the terminal unit 200. The circuit unit 100 includes a ground terminal 110, a switching terminal 120, a down output terminal 130, And an up output terminal 140.

The ground terminal 110 extends in the horizontal direction so as to extend in a direction parallel to the moving direction of the first and second slides 310 and 320 of the operating mechanism 300, As shown in FIG.

The ground terminal 110 is formed to have a length sufficiently long to maintain a connected state with the terminal unit 200 moving with the first and second slides 310 and 320 irrespective of the positions of the first and second slides 310 and 320 .

The switching terminal 120 is installed on the inner side of the case 400 so as to have a structure parallel to the ground terminal 110 while being spaced apart from the ground terminal 110 on the side of the ground complex.

A first insulating portion 151 is formed at the center of the switching terminal 120.

When the automatic shift lever is operated in the automatic shift mode, the first insulating portion 151 is formed by partially removing the center portion of the lateral side located at the ground terminal 110 side of both sides of the switching terminal 120, In other words, when the shift lever 20 is positioned at any one of the steps of parking (P) -backward (R) -neutral (N) -drive (D) and the movement of the shift lever 20 is detected by the operation mechanism 300 The first contact terminal 210 and the second contact terminal 220 provided on the terminal unit 200 are positioned so as to be positioned.

When the movement of the shift lever 20 is not transmitted to the operating mechanism 300, the first contact terminal 210 and the second contact terminal 220 are located in the first insulating portion 151, The electrical connection between the switch 110 and the switching terminal 120 is released and no signal is generated from the manual mode switch 10. [

The down output terminal 130 is disposed on the opposite side of the ground terminal 110 so as to have a structure parallel to the switching terminal 120 with the ground terminal 110 interposed therebetween.

The down output terminal 130 is isolated from the ground terminal 110 and maintains an insulation state with respect to the ground terminal 110 and has a length corresponding to approximately half of the switching terminal 120.

The up output terminal 140 is disposed so as to be spaced apart from the down output terminal 130 via the second insulation portion 152. A portion of the up output terminal 140 is located on the same line as the down output terminal 130, And the other part is formed to have a structure extending in a direction parallel to the ground terminal 110, so as to have an overall shape.

The third contact terminal 230 and the fourth contact terminal 240 provided in the terminal unit 200 are connected to the first contact terminal 240 and the second contact terminal 240, respectively, in the case where there is no up / down operation of the shift lever 20, And is longer than the first insulating portion 151 so that the actuating mechanism 300 is operated by the movement of the shift lever 20 so that the first and second slides 310 and 320 are separated from each other The third contact terminal 230 and the fourth contact terminal 240 are positioned in the interior of the shift lever 20 so that the ground terminal 110 and the down output terminal 130, So that the insulation state between the first output terminal 110 and the first output terminal 140 can be maintained.

The ground terminal 110, the switching terminal 120, the down output terminal 130 and the up output terminal 140 are made of a conductive material such as a copper plate and are separately manufactured through a press work or a PCB Or may be installed in the case 400 by an insert injection method in which each terminal manufactured through a press operation or a PCB (printed substrate) is included in an injection process of the case 400 have. And may be installed in the case 400 by assembling each terminal to the case 400. [

FIG. 6 is a perspective view of a terminal unit according to the present invention, and FIG. 7 is an exemplary view showing a terminal unit according to the present invention in a moving state.

The terminal unit 200 is connected to the circuit unit 100 at different positions according to the position of the shift lever 20 while moving together with the first and second slides 310 and 320 provided in the operating mechanism 300, A second contact terminal 220, a third contact terminal 230, and a fourth contact terminal 240. The first contact terminal 210, the second contact terminal 220, the third contact terminal 230, .

The first, second, third, and fourth contact terminals are disposed directly above the circuit unit 100 and move along with the first and second slides 310 and 320, which are moved by the movement of the shift lever 20, 100).

The first contact terminal 210 connects the ground terminal 110 and the switching terminal 120 and connects the ground terminal 110 and the switching terminal 120 to the first connection position P1 or the ground terminal 110) and the first insulating portion (151).

The first contact terminal 210 includes a first fixing piece 211 fixed to the bottom of the first slide 310 and a second grounding terminal 110 formed on one side of the first fixing piece 211. [ And the first switch connection piece 213 connected to the switching terminal 120 or the first insulation portion 151 is formed so as to protrude in the form of a cantilever.

The first ground connection piece 212 and the first switch connection piece 213 are connected to the ground terminal 110 and the switching terminal 120 in a stable manner, The terminal is processed in a rounded shape so as to maintain the connection state and is formed so as to have a predetermined elasticity by being machined into a shape tilted from the first fixing piece 211 toward the ground terminal 110 and the switching terminal 120 .

sure. A separate spring may be used to allow the first ground connection piece 212 and the first switch connection piece 213 to more stably connect to the ground terminal 110 and the switching terminal 120.

The first contact terminal 210 configured as described above is fixed to the bottom surface of the first slide 310 and moves together with the first slide 310 to the first connection position P1 or the first insulation position P2 .

The second contact terminal 220 connects the ground terminal 110 and the switch terminal 120 and connects the ground terminal 110 and the switch terminal at different positions from the first contact terminal 210, To the second connection position P3 connecting the switching terminal 110 and the switching terminal 120 or to the second insulation position P4 connecting the ground terminal 110 and the first insulation portion 151. [

The second contact terminal 220 includes a second fixing piece 221 fixed to the bottom of the second slide 320 and a second fixing piece 221 formed in a shape of a cantilever from one side of the second fixing piece 221 A second ground connection piece 222 protruding from the first ground connection piece 222 and connected to the ground terminal 110 and a second ground connection piece 222 protruding from the second fixing piece 221 in the form of a cantilever And a second switching connection piece (223) connected to the switching terminal (120) or the first insulation part (151).

The second contact terminal 220 is installed on the second slide 320 and moves together with the second slide 320 to move to the second connection position P3 and the second insulation position P4. The second contact terminal 220 is substantially the same as the first contact terminal 210, so that a detailed description of the second contact terminal 220 will be omitted.

The third contact terminal 230 and the fourth contact terminal 240 to be described later also differ from the first contact terminal 210 in the installation position and the movement range, The third and fourth contact terminals 230.240 will be briefly described.

The third contact terminal 230 connects the ground terminal 110 and the down output terminal 130 and is connected to the third connection position P5 for connecting the ground terminal 110 and the down output terminal 130, And moves to the third insulated position P6 connecting the terminal 110 and the second insulator 152. [

The third contact terminal 230 includes a third fixed piece 231 fixed to the bottom surface of the first slide 310 and a third fixed piece 231 formed in a cantilever shape from one side of the third fixed piece 231 A third ground connection piece 232 protruding from the third ground connection piece 232 and connected to the ground terminal 110 and a third fixing piece 231 protruding from the third ground connection piece 232 in the form of a cantilever And a down output connecting piece 233 connected to the down output terminal 130 or the second insulating portion 152.

The third contact terminal 230 is fixedly installed on the bottom surface of the first slide 310 so as to be parallel to the first contact terminal 210 while being spaced from the first contact terminal 210, 310).

The fourth contact terminal 240 connects the ground terminal 110 and the up output terminal 140 and is connected to a fourth connection position P7 for connecting the ground terminal 110 and the up output terminal 140, And moves to the fourth insulation position P8 connecting the terminal 110 and the second insulation part 152. [

The fourth contact terminal 240 includes a fourth fixed piece 241 fixed to the bottom surface of the second slide 320 and a third fixed piece 241 formed in a cantilever shape from one side of the fourth fixed piece 241 A fourth ground connecting piece 242 formed so as to protrude from the fourth ground connecting piece 242 and connected to the ground terminal 110 and a fourth ground connecting piece 242 protruding from the fourth fixing piece 241 in the form of a cantilever And an up output connecting piece 243 connected to the up output terminal 140 or the second insulating portion 152.

The fourth contact terminal 240 is fixedly installed on the bottom surface of the second slide 320 so as to be parallel to the second contact terminal 220 while being spaced apart from the second contact terminal 220, 320).

The first, second, third, and fourth contact terminals are made of a conductive material. When the first, second, third, and fourth contact terminals are moved to the connection position, the two terminals are electrically connected.

Fig. 8 is a perspective view of an operating mechanism according to the present invention, and Fig. 9 is a front view of an operating mechanism according to the present invention.

The operating mechanism 300 receives a signal corresponding to the position of the shift lever 20, that is, a manual of the shift lever 20, in such a manner that the first and second slides 310 and 320 are moved in response to the movement of the shift lever 20, The terminal unit 200 is connected to the circuit unit 100 so that a signal corresponding to the mode is generated while moving in conjunction with the mode, the up mode, and the down mode. The first slide 310, the second slide 320, An elastic member 330, and an operation pin 340.

The first slide 310 is connected to the first and third contact terminals 210 and 230 to move the first and third contact terminals 210 and 230. The first slide 310 is a hexahedral block made of a nonconductive material such as plastic, The first and third contact terminals 210 and 230 are connected to the circuit unit 100 through a plurality of fixing protrusions 311 on which the three contact terminals 210 and 230 are installed and the first and third contact terminals 210 and 230 while the bottom surface of the first slide 310 is separated from the inner surface of the case 400. [ A plurality of spacing protrusions 312 are formed to protrude so as to maintain a predetermined gap with the spacing protrusions 312.

In the upper surface of the first slide 310, a first guide block 313 protrudes vertically upward in a region close to the second slide 320. At this time, a side of the first guide block 313 facing the second slide 320 is inserted with the actuating pin 340 moved by the shift lever 20 positioned in the manual mode And an inclined surface 314 for moving the first and second slides 310 and 320 in a mutually spaced direction in cooperation with the insertion of the actuating pin 340. [

The first and third contact terminals 210 and 230 located at the first connection position P1 and the third connection position P5 are connected to the first and third insulation positions P2 and P3, P6 are formed on the side where the support groove 315 is formed and two side surfaces adjacent to the side where the support groove 315 is formed are coupled to the case 400, A support blade 316 for guiding the support member 310 to move stably along a predetermined path is protruded.

At this time, the support vanes 316 are formed at the upper end portions of both side surfaces of the first slide 310 so as to face the inner side surface of the upper case 420 to be described later.

The second slide 320 is coupled to the second and fourth contact terminals 220 and 240 to move the second and fourth contact terminals 220 and 240. The second slide 320 is a hexahedron block made of a non- A plurality of fixing protrusions 321 for mounting the four contact terminals 220 and 240 and a plurality of spacing protrusions 322 for maintaining a predetermined distance from the inner surface of the case 400 are formed, And a support groove 325 and a support vane 326 are formed on a side surface of the second guide block 323.

Since the second slide 320 is different from the first slide 310 in that it is symmetrical with the first slide 310, the first slide 310 is substantially identical in structure to the first slide 310, 2 Slide 320 will not be described in more detail.

The elastic member 330 moves the first and third contact terminals 210 and 230 located at the first connection position P1 and the third connection position P5 to the first and third insulation positions P2 and P4, The first and second slides 310 and 320 move the second and fourth contact terminals 220 and 240 located at the second and third connection positions P3 and P7 to the second and fourth insulation positions P4 and P8, A first return spring 331 for elastically supporting the first slide 310 and a second return spring 332 for elastically supporting the second slide 320. [

The first return spring 331 is coupled to the first slide 310 by inserting one end of the first return spring 331 into the support groove 315 formed on the side surface of the first slide 310, The first return spring 331 is installed between the first slide 310 and the case 400 to accumulate energy and store the energy of the first slide 310 and the case 400, The first slide 310 is moved in the direction of the second slide 320.

The second return spring 332 is coupled to the second slide 320 by inserting one end of the second return spring 332 into the support groove 325 formed on the side surface of the second slide 320, The second return spring 332 is installed between the second slide 320 and the case 400 so as to accumulate the energy while compressing the energy between the second slide 320 and the case 400, The second slide 320 is moved in the direction of the first slide 310.

The actuating pin 340 is a structure having a tapered portion or a conical structure and moves the first and second slides 310 and 320 while receiving the movement of the shift lever 20, The actuating pin 340 is installed on the shift lever 20 so as to have a structure protruding from the side surface of the shift lever 20 and is configured to move together with the shift lever 20. Further,

Meanwhile, when the shift lever 20 is positioned in the manual mode, the operation pin 340 is inserted into the first and second slides 310 and 320 to move the first and second slides 310 and 320 in a mutually spaced direction At this time, the first and second contact terminals 210 and 220 at the first and second insulation positions P2 and P4 move to the first and second connection positions P1 and P3.

When the shift lever 20 is positioned in the up mode in the manual mode, the operation pin 340 pushes the first slide 310 to move the third contact terminal 230 to the third connection position P5.

When the shift lever 20 is positioned in the down mode in the manual mode, the operation pin 340 pushes the second slide 320 to move the fourth contact terminal 240 to the fourth connection position P7).

10 is a perspective view showing a structure of a case according to the present invention.

The case 400 includes a lower case 410 and an upper case 420.

The lower case 410 is formed in a structure in which the upper end is opened, and the circuit unit 100, the terminal unit 200, and the operating mechanism unit 300 are sequentially stacked from the inner bottom.

A guide bar 411 which is in close contact with the bottom surface of the support vane 316 formed on the first and second slides 310 and 320 and supports the support vane 316 from below, The guide bar 411 supports the support blade 316 while being inserted into the upper case 420 when the upper case 420 and the lower case 410 are engaged with each other.

The upper case 420 is installed at the upper end of the lower case 410 to close the upper end of the opened lower case 410 to prevent the operating mechanism 300 installed in the lower case 410 from being separated, The pin 340 is inserted between the first and second slides 310 and 320 and the operating pin 340 interposed between the first and second slides 310 and 320 is inserted into the opening 421 are formed on the upper surface.

In this upper case 420, a guide groove for guiding the movement of the support vane 316 while facing the guide bar 411 with the support vane 316 supported by the guide bar 411 therebetween, Guide tongues 422 having a structure recessed from the inner surface of the upper case 420 are formed at the lower ends of both side walls of the upper case 420 so as to be formed together with the bar 411.

The support wings 316 formed on the first and second slides 310 and 320 and the guide bars 411 formed on the lower case 410 and the guide tabs 422 formed on the upper case 420 are gathered to form the first And a guide structure for supporting the movement of the two slides 310 and 320 is formed.

In the guide structure, a partition wall protrusion 423 is formed at the center of the guide wall 422 so that the first and second slides 310 and 320 can move only within a limited range without touching each other's operating range .

The partition wall protrusion 423 has a guide groove 422 formed in a first area Z1 in which a support blade 316 formed in the first slide 310 is inserted and a support blade 316 formed in the second slide 320 The first and second slides 310 and 320 are prevented from being excessively moved in such a manner as to restrict the movement of the support vane 316 in a central portion of the guide step 422 so as to be divided into a second zone Z2 .

As described above, the upper case 420 and the lower case 410 may be configured to be coupled to each other by hooks, and may be formed of a non-conductive material such as plastic.

As described above, when the shift lever 20 is positioned in the manual mode, the up mode, and the down mode, the manual mode switch 10 configured as described above generates a signal corresponding to the corresponding mode, The signal generation process will be described with reference to the drawings.

11 shows a state diagram of the manual mode switch according to the present invention when the shift lever is operated in the automatic shift mode.

When the shift lever 20 is in the automatic shift mode, the operation pin 340 is not inserted between the first and second slides 310 and 320 so that the first and second slides 310 and 320 are rotated by the first and second return springs 331 and 332 So that they are in close contact with each other.

At this time, the first contact terminal 210 installed on the bottom of the first slide 310 is at the first insulation position P2, the second contact terminal 220 is at the second insulation position P4, The contact terminal 230 is at the third insulation position P6 and the fourth contact terminal 240 is at the fourth insulation position P8 so that no signal is generated in the manual mode switch 10. [

12 shows a state diagram of the manual mode switch according to the present invention when the shift lever is located in the manual mode.

When the shift lever 20 is positioned in the manual mode, the operation pin 340 moving together with the shift lever 20 is inserted between the first and second slides 310 and 320 so that the first and second slides 310 and 320 Are moved away from each other.

Due to the movement of the first and second slides 310 and 320, the first contact terminal 210 moves from the first insulated position P2 to the first connected position P1 and the second contact terminal 220 moves 2 from the insulation position P4 to the second connection position P3.

Accordingly, the ground terminal 110 and the switching terminal 120 are connected to each other through the first and second contact terminals 210 and 220, thereby outputting a signal for the manual mode.

Since the third contact terminal 230 moves together with the first slide 310 and the third contact terminal 230 moves in the inner area of the second insulation part 152, The fourth contact terminal 240 is also maintained in the insulated state while moving in the inner region of the second insulation part 152. [

13 shows a state diagram of the manual mode switch according to the present invention when the shift lever is located in the up mode.

When the shift lever 20 is placed in the up mode, the second slide 320 is pushed and moved by the actuating pin 340 moving together with the shift lever 20, whereby the fourth contact terminal 240 Is moved from the fourth insulation position P8 to the fourth connection position P4 to connect the ground terminal 110 and the up output terminal 140 so that an up signal is output.

The second contact terminal 220 installed on the second slide 320 and moving together with the fourth contact terminal 240 moves while maintaining the connection state of the ground terminal 110 and the switching terminal 120 The manual mode signal is also output.

On the other hand, in the case of the first slide 310, the first return spring 331 moves in the direction of the second slide 310 and is restored to the initial position. The first and second slides 310 and 320 are guided in the guide tab 422 formed in the upper case 420 to guide the support vanes 316 formed on the first and second slides 310 and 320, When the first and second slides 310 and 320 are moved by the first and second slides 331 and 332, the partition protrusions 423 are formed to allow the first and second slides 310 and 320 to move only to the positions where the first and second slides 310 and 320 face each other The first slide 310 moving in the direction of the second slide 320 by the first return spring 331 stops at the initial position without touching the operating range of the second slide 320. [

Since the first contact terminal 210 is moved from the first connection position P1 to the second insulation position P2 by the movement of the first slide 310, Since the connection between the ground terminal 110 and the switching terminal 120 by the second contact terminal 220 is maintained as described above, the connection of the normal manual mode signal 110 and the switching terminal 120 is canceled. Output is enabled.

14 shows a state diagram of the manual mode switch according to the present invention when the shift lever is located in the down mode.

When the shift lever 20 is positioned in the down mode, the first slide 310 is pushed and moved by the operation pin 340 that moves together with the shift lever 20, whereby the third contact terminal 230 Moves from the third insulated position P6 to the third connected position P5 and connects the ground terminal 110 and the down output terminal 130, thereby outputting the down signal.

The first contact terminal 210 installed on the first slide 310 and moved together with the third contact terminal 230 moves from the first insulated position P2 to the first connected position P1, (110) and the switching terminal (120) are connected, and a manual mode signal is outputted together with a down signal.

The second slide 320 is moved to the initial position by the second return spring 332. At this time, the second contact terminal 220 is moved to the second insulation position P4 and the fourth contact terminal 240 are moved to the fourth insulation position P8.

As described above, the manual mode switch 10 according to the present invention is configured such that when the operation pin 340 moving together with the shift lever 20 is inserted between the first and second slides 310 and 320, It is not necessary to arrange the first and second slides 310 and 320 in a direction parallel to the moving direction of the operation pin 340 and the circuit part 100 and the terminal part 200 and the first and second slides 310 and 320 can be arranged in a laminated form and the manual mode signal and the up signal and the down signal can be outputted through the movement of the first and second slides 310 and 320 The miniaturization of the manual mode switch becomes possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
10: manual mode switch 20: shift lever
100: circuit part 110: ground terminal
120: switching terminal 130: down output terminal
140: up output terminal 151: first insulation part
152: second insulation part 200: terminal part
210: first contact terminal 220: second contact terminal
230: third contact terminal 240: fourth contact terminal
300: actuating mechanism part 310: first slide
311: Fixing projection 312:
313: first guide block 314: inclined surface
315: support groove 316: support blade
320: Second slide 321: Fixing projection
322: spacing retaining projection 323: second guide block
324: slope surface 325: support groove
326: Supporting blade 330: Elastic member
331: first return spring 332: second return spring
340: actuating pin 410: lower case
411: Guide bar 420: Upper case
421: opening 422: guide chin

Claims (6)

And a switching terminal having a structure in parallel with the ground terminal and having a first insulation portion formed at a central portion thereof is disposed on one side of the ground terminal and a down output terminal and a down output terminal spaced apart from each other by the second insulation portion beside the other side of the ground terminal, A circuit part consisting of self-disposed;
A first contact terminal for connecting the ground terminal and the switching terminal to a first connecting position for connecting the ground terminal and the switching terminal or a first insulating terminal for connecting the ground terminal and the first insulating part, A second contact point for connecting the ground terminal and the down output terminal to the second connection point for connecting the ground terminal and the first insulation part to the second connection point for connecting the ground terminal and the down output terminal, A fourth contact point for connecting the ground terminal and the up output terminal or a fourth contact point for connecting the ground terminal and the second insulation portion to the fourth insulation point for connecting the ground terminal and the up output terminal, A terminal portion comprising a contact terminal; And
A first slide coupled with the first and third contact terminals and moving together with the first and third contact terminals, and a second slide coupled with the second and fourth contact terminals and moving together with the second and fourth contact terminals The first and second slides are moved in a direction in which the first and second slides are spaced apart from each other or the first and second slides are moved in the direction of one end of the ground terminal in response to the movement of the shift lever provided in the automatic shift lever, 2 slider in the direction of the other end of the ground terminal. The method according to claim 1,
The operating mechanism includes:
A first slide coupled to the first contact terminal and the third contact terminal to move the first and third contact terminals to the first and third connection positions or the first and third insulation positions while moving the first and third contact terminals in the longitudinal direction of the ground terminal;
A second slide coupled to the second contact terminal and the fourth contact terminal to move the second and fourth contact terminals to the second and fourth connection positions or the second and fourth insulation positions while moving the second and fourth contact terminals in the longitudinal direction of the ground terminal;
The first and third contact terminals respectively located at the first connection position and the third connection position are moved to the first and third insulation positions and the second and fourth contact terminals respectively positioned at the second connection position and the fourth connection position are connected to the second, An elastic member for elastically supporting the first and second slides so as to move to an insulated position; And
The first and second slides are separated from each other while being inserted between the first slide and the second slide to move the first and second contact terminals in the first and second insulation positions to the first and second connection positions respectively, The third contact terminal at the third insulation position is moved to the third connection position while moving the first slide or the second slide while receiving the movement of the shift lever while being inserted between the two slides, And an operating pin for moving the fourth contact terminal to the fourth connecting position. The method of claim 2,
And an inclined surface is formed at the upper end of the first and second slides on the entry side where the operation pin is inserted. The inclined surface is interlocked with the insertion of the operation pin so that the first and second slides are moved in mutually spaced directions. Manual mode switch of the lever. The method according to claim 1,
A lower case formed in a structure in which an upper end portion is opened and in which the circuit portion, the terminal portion, and the operating mechanism portion are installed; And
And an upper case coupled to an upper portion of the lower case so as to prevent disengagement of the operating mechanism provided in the lower case,
And a guide structure for supporting the movement of the first and second slides by engaging the case and the first and second slides is formed between the case and the first and second slides. The method of claim 4,
The guide structure comprises:
A support vane having a structure protruding from both side surfaces of the first slide and both side surfaces of the second slide, the support vane protruding from a height facing the inner side surface of the upper case;
A guide bar which is in close contact with a bottom surface of the support vane and protrudes from upper ends of both side walls of the lower case to support the support vane from below; And
A guide jaw formed at a lower end of both side walls of the upper case so as to form guide grooves for guiding the movement of the support vane facing the guide bars with the support vanes supported by the guide bars therebetween; And the manual mode switch of the automatic shift lever. The method of claim 2,
The elastic member
A first return spring disposed between the case and the first slide, the first return spring elastically supporting the first slide to push the first slide in the second slide direction; And
A second return spring arranged to be positioned between the case and the second slide and elastically supporting the second slide so as to push the second slide in the first slide direction; And the manual mode switch of the automatic shift lever.

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