KR100622480B1 - inhibiter switch - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inhibitor switch, comprising a plurality of contacts respectively corresponding to shift stages of an operating lever having a plurality of shift stages, and one of the contacts connected to the operating lever through a shift cable. And a main body provided with a select lever connected to the main body, and an opening having a predetermined width formed to communicate with the outside at one end of the main body, and an end of the select lever is discharged to the outside through the opening. . This eliminates the need for a manual control lever, thereby preventing malfunction of the inhibitor switch due to a poor synchronization between the manual control lever and the inhibitor switch, and preventing an incorrect assembly of the manual control lever and the inhibitor switch during assembly. The assembly process is reduced by reducing the number of assembly parts.

Inhibitor switch, shift cable

Description

Inhibitor switch

1 is a plan view of an inhibitor switch according to the present invention;

2 is a side cross-sectional view of the inhibitor switch along line A-A of FIG.

3 is a plan view of the sealing rubber according to the present invention,

4 and 5 are a plan view of a conventional inhibitor switch,

<Description of Symbols for Major Parts of Drawings>

 1: Inhibitor switch 2: Select lever

10: connector 20: shift cable

30: sealing rubber 31: sealing reinforcement blocking plate

The present invention relates to an inhibitor switch, and more particularly, to a structure of an inhibitor switch having a select lever which is rotated by a shift cable connected to a plurality of contacts and an operating lever of a driver's seat and connected to any one contact.

The control lever of the automatic transmission mounted on the vehicle (hereinafter referred to as auto lever) includes a P (Parking) stage for parking, an N (Neutral) stage for maintaining idling, an R (Reverse) stage for reversing, and driving of the vehicle. It consists of a drive stage, 2, L (Low) stage, and is connected to the inhibitor switch for outputting the shift signal.

Inhibitor switch is a passive part that can be moved to each shift stage only by physical force from the outside, and the shift stage (PRND-2-L) selected by the auto lever according to the driver's shift will be converted into an electrical signal. It transmits to a TCU (Transmission Control Unit). This is, as shown in Figure 4, there is a respective contact of the PRND-2-L inside the inhibitor switch 100, when the driver operates the auto lever, the shift cable, the manual control lever 105, the manual control shaft The kinematic connection energizes the contacts inside the inhibitor switch to transfer the gearshift stage to the TCU.

Referring to the process of shifting by the inhibitor switch 100, when the driver wants to shift from the P-range to the R-range, when the driver pulls the auto lever from the P-range to the R-range, the auto lever and A / T (Auto / The shift cable connected between the manual control lever 105 of the transmission pulls the manual control lever 105 from the P-range to the R-range, and thus the inhibitor switch 100 which is assembled to the manual control shaft. ), The select lever 101 is rotated so that the contacts of the P-range are dropped and the contacts of the R-range are attached. Only through this physical action is the P-> R shift in the TCU.

However, the kinematic transmission structure of the shift stage applied to the automatic transmission consists of auto lever-> shift cable-> manual control lever-> manual control shaft-> manual lever of the valve. The beater switch must be assembled and correctly synchronized with the manual control lever. However, the inhibitor switch and the manual control lever are parts that are assembled to the manual control shaft, and it is difficult to realize full synchronization.

In addition, the gear shift stage generated from the manual control lever and the inhibitor switch according to the driver's operation should be exactly matched.If it is not matched, it may be impossible to start, sudden start, incorrect repair or misassembly due to bad code generation of a normal inhibitor switch. Problems such as assembly process defects are occurring. This problem is caused by a change in play of the shift cable, poor assembly of the manual control lever and the inhibitor switch, and poor synchronization between the selector shaft of the inhibitor switch and the manual control lever.

In addition, since the manual control lever and the inhibitor switch must be assembled in place, the assembly of the dedicated jig is used to fix the position of the manual control lever to the inhibitor switch and to connect with the shift cable. Has

Accordingly, the present invention has been made to solve the above problems, and an object thereof is to provide an inhibitor switch that does not require a manual control lever.

The present invention for achieving the above object, in the inhibitor switch, a plurality of contacts respectively corresponding to the shift stage of the operation lever having a plurality of shift stages, and the operation lever is connected to the operation lever via a shift cable Has a main body provided with a select lever connected to one of the contacts when the lever is operated, and an opening of a predetermined width is formed at one end of the main body so as to communicate with the outside, and an end of the select lever is opened through the opening Can be achieved by being discharged.

Here, an end portion of the select lever is bent downward, and the opening portion is formed so that the end portions of the upper plate surface and the lower plate surface forming the main body are downwardly bent to prevent water from being directly introduced into the main body.

In addition, the sealing rubber is inserted into the central region and the inlet region of the opening to prevent the inflow of moisture. And, the sealing rubber is formed with a slit, the sealing rubber inserted into the inlet area is attached to the sealing reinforcing blocking plate formed with a small slit compared to the width of the slit of the central area to block the inflow of moisture more effectively. Can be.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of an inhibitor switch according to the present invention, Figure 2 is a side cross-sectional view of the inhibitor switch along the line A-A of FIG. As shown in Fig. 1, the inhibitor switch 1 is provided with a select lever 2 for selecting a contact between each of the PRND-2-L contacts and one of the contacts according to the operation of the operating lever of the driver's seat. Bolts (3, 4, 5) for connecting the actuator switch body to the manual shaft, the automatic transmission casing, and the manual shaft, and the select lever (2) provided inside the inhibitor switch body. It has an opening for connecting to the shift cable 20.

As shown in FIG. 2, the opening 10 is a connecting pipe 10 having an opening formed by bending the ends of the upper plate surface and the lower plate surface constituting the main body of the inhibitor switch 1. It is preferable that the connection pipe 10 is a rectangular cylindrical shape of a predetermined width. Since the connection pipe 10 has a downwardly bent shape, moisture may be prevented from flowing into the inhibitor switch.

According to the present invention, the end of the selector lever 2 of the inhibitor switch 1 is bent downward as shown in FIG. 2 and discharged to the outside through the connecting pipe 10. The contact point (not shown) which makes contact with the contact of the inhibitor switch 1 is provided at a predetermined position A of the select lever 2 discharged to the outside through the outside of the select lever 2. The shift cable 20 is connected and connected to the edge part. Here, the structure of the connecting portion 6 of the select lever 2 and the shift cable 20 is formed by forming protrusions (not shown) on the select lever 2 and forming grooves (not shown) on the shift cable 20. It is possible to, and can be configured in a variety of connection methods, such as fastening the select lever 2 and the shift cable 20 with a bolt.

On the other hand, the sealing rubber 30 is inserted into the central region and the inlet region of the connecting pipe 10 of the inhibitor switch 1 to prevent the inflow of moisture. As shown in FIG. 3, the sealing rubber 30 is formed with slits in which the central region is divided by a predetermined amount horizontally. When the shift cable 20 is moved left and right through the slit of the sealing rubber 30, the select lever 2 of the inhibitor switch 1 can be moved left and right. In addition, a sealing reinforcing blocking plate 31 is further attached to the sealing rubber 30 inserted into the inlet region of the connecting pipe 10. The sealing reinforcement blocking plate 31 is formed with a slit having a smaller width than that of the slit of the sealing rubber 30 inserted into the inlet area, thereby preventing moisture from being introduced from the outside.

As such, the sealing rubber 30 inserted into the inlet region of the connecting pipe 10 primarily blocks water from entering the inlet side, and the sealing rubber 30 inserted into the central area of the connecting pipe 10 is Secondly block the ingress of water.

When the shift cable 20 is moved to the left and right by the inhibitor switch 1 having the above structure, the select lever 2 connected to the shift cable 20 is moved to the left and right, so that the main body of the main body of the inhibitor switch 1 is formed. PRND-2-L contacts each contact.

With this configuration, conventionally, the manual control lever is connected to the select lever in the inhibitor switch, and the select lever is operated by moving the shift cable connected to the manual control lever when the select lever is moved left and right, but according to the present invention, the select lever is directly connected with the shift cable. The connection eliminates the need for a manual control lever.

As described above, the present invention eliminates the need for the manual control lever, thereby preventing malfunction of the inhibitor switch due to a failure in synchronizing the manual control lever and the inhibitor switch and preventing the manual control lever and the inhibitor switch from occurring during assembly. Prevents erroneous assembly and reduces the assembly process by reducing the number of assembly parts.

Claims (5)

In the inhibitor switch, The main body is provided with a plurality of contacts respectively corresponding to the shift stage of the operation lever having a plurality of shift stages, and a select lever connected to the operation lever via a shift cable and connected to one of the contacts when the operation lever is operated. Has, An opening of a predetermined width is formed at one end of the main body to communicate with the outside, And an end of the select lever is discharged to the outside through the opening. The method of claim 1, An end of the select lever is bent downwardly. The method of claim 1, And the opening is formed by bending the ends of the upper and lower plate surfaces forming the main body downwardly. The method of claim 1, An inhibitor switch, characterized in that the sealing rubber is inserted in the central region and the inlet region of the opening. The method of claim 4, wherein The sealing rubber is formed with a slit, the inhibitor switch, characterized in that the sealing rubber inserted into the inlet region is attached to the sealing reinforcing blocking plate formed with a small slit compared to the width of the slit of the central region.

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