KR200188460Y1 - Transmission cable attaching structure - Google Patents

Abstract

The present invention relates to a transmission cable in which a transmission cable for controlling a transmission can be more firmly connected to prevent the cable from falling off when the transmission is excessively shifted, and the cable 10 is connected to the housing 20. To connect through the center of the connection, the front end of the cable 10 is inserted into the rod 30, the arc-shaped locking groove 31 is formed in the rod 30, the locking groove 31 of the rod 30 To be coupled to the arc) to the end of the cable 10 to form an arc-shaped locking projection 11, and the outer peripheral surface of the rod 30 to which the cable 10 is connected is swaged in a hexagon.

[Index]

Transmission, cable, connection structure

Description

Transmission cable connection structure

The present invention relates to a transmission cable connection structure, and more particularly, to a transmission cable for controlling a transmission, wherein the cable is more rigidly connected to prevent the cable from falling off during excessive shifting of the transmission. .

1 is a diagram illustrating a connection configuration of a transmission cable, and FIG. 2 is a cross-sectional view of a main part separated state of a conventional transmission cable.

As shown in the figure, the cable 10 is connected through the center of the housing 20, the tip of the cable 10 is inserted and connected to the rod 30, the rod 10 is connected to the cable ( The outer peripheral surface of 30) is hexagonal swaging.

However, in the conventional cable connection structure, the connection structure of the cable 10 to the rod 30 is weak, which causes the cable 10 to be separated from the rod 30 during excessive operation of the transmission.

It is an object of the present invention to provide a transmission cable connection structure that keeps the cable connected firmly and prevents it from being separated from the rod.

In order to achieve the above object, the present invention connects the cable through the center of the housing, inserts and connects the front end of the cable to the rod, and forms an arc-shaped locking groove in the rod, and is coupled to the locking groove of the rod. An arc-shaped locking protrusion is formed at the tip of the cable, and the outer circumferential surface of the rod to which the cable is connected is hexagonally swung.

1 is a connection diagram of a transmission cable.

2 is a cross-sectional view of main parts of a conventional transmission cable.

3 is a cross-sectional view of a main part of a transmission cable of the present invention.

4 is a plan view of the main portion coupled state of the transmission cable of the present invention.

* Explanation of symbols for main parts of the drawings

10 cable 11 jamming protrusion

20: housing 30: rod

31: locking groove 32: entry path

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

1 is a connection configuration diagram of the transmission cable, Figure 3 is a cross-sectional view of the main portion of the transmission cable of the present invention, Figure 4 is a plan view of the main portion coupling state of the transmission cable of the present invention, respectively.

As shown in the drawing, the cable 10 is connected through the center of the housing 20, and the front end of the cable 10 is inserted into the rod 30, but the arc-shaped locking groove 31 in the rod 30 And an arc-shaped locking protrusion 11 is formed at the distal end of the cable 10 to be coupled to the locking groove 31 of the rod 30, and the outer circumferential surface of the rod 30 to which the cable 10 is connected. It is configured by swaging the hexagon.

More specifically, the end portion of the cable 10 is formed integrally with the disk-shaped locking projection 11, and the locking groove 31 of the cylindrical cross section is formed in the rod 20, the rod The volume of the locking groove 31 of the 20 is formed larger than the volume of the locking protrusion 11.

In addition, the path between the engaging groove 31 of the rod 20 and one side of the rod 20 is a path into which the cable 10 including the engaging projection 11 is inserted, the same length as the diameter of the engaging projection An elongated oval entry path 32 is formed.

Accordingly, when the locking protrusion 11 of the cable 10 is inserted into the locking groove 31 via the entry path 32 and the cable 10 is rotated by 90 °, the locking protrusion 11 is locked by the locking groove ( 31) close to the hanger will not hang.

In the above state, the surface of the rod 30 is swaging (a type of forging operation, in which the material is compressed in the longitudinal direction to reduce the cross section of a part or the whole), and this swaging is performed. The work proceeds with air pressure such that the upper and lower surfaces of the rod 30 become flat surfaces and pressurization such that both sides are V-shaped.

Accordingly, due to the swaging operation, the original rod diameter is reduced in the vertical direction and at the same time, both sides thereof are elongated to be compressed and pressurized into a hexagonal cross section, and the entry path 32 of the rod 30 is almost elliptical in a long oval shape. And it is in a compressed state, the internal volume of the locking groove 31 is also in close contact with the locking projection 11 is inserted and caught at the same time the vertical direction is reduced by the swaging pressure.

More specifically, the locking projection 11 at the time of initial insertion into the locking groove 31 was inserted in a slightly loose state because it was smaller than the volume of the locking groove 31, but was caught due to the swaging pressure. As the groove 31 decreases in volume, the locking groove 31 and the locking protrusion 11 are completed so that the locking protrusion 11 is not detached.

Thus, the present invention, as shown in FIGS. 1, 3, and 4, the cable 10 is operated by moving integrally with the rod 30 during the operation of the transmission, where the obstacle of the cable 10 in the excessive operation of the transmission As the outer circumferential surface of the rod 30 close to the machine 11 is swaged to the hexagonal surface, the arc-shaped hooking protrusion 11 of the cable 10 is pressed against the arc-shaped catching groove 31 of the rod 30. Since the cable 10 is caught, it is possible to prevent the cable 10 from being separated from the rod 30.

As described above, the present invention connects the cable through the center of the housing, inserts the front end of the cable into the rod, and forms an arc-shaped locking groove in the rod, and is coupled to the end of the cable to be coupled to the rod's locking groove. By forming an arc-shaped locking projection and by swaging the outer circumferential surface of the rod to which the cable is connected in a hexagon, it has the advantage of preventing the cable from being separated from the rod when the transmission force acts excessively.

Claims (2)

A locking projection is formed at the tip of the transmission cable, and an access path and a locking groove are sequentially formed on the rod so that the locking projection is inserted and coupled, and the outer peripheral surface of the rod is swung on the hexagonal surface while the locking projection is inserted into the locking groove. Transmission cable connection structure, characterized in that made. The transmission cable connection structure according to claim 1, wherein the locking groove of the rod and the locking protrusion of the cable are formed in an arc shape.