KR200149925Y1 - Ball joint - Google Patents

Abstract

The present invention relates to a ball joint to eliminate the play of the ball stud inserted into the housing socket has a suitable rotational torque and to lighten the loss of power transmission.

According to the present invention, a ball stud 20 for connecting one shaft is inserted into a housing socket 10 for connecting another shaft, and a groove 111 is formed on an inner wall of the housing socket 10, and the groove 111 is formed. In the ball joint formed by the ring-shaped spring 130 is formed, the spring 130 is composed of a compression spring 130, the groove 111 is the ball stud 20 is the housing socket 10 When inserted into the spring 130 is formed to have a depth to be hit.

Description

Ball joint

The present invention relates to a ball joint, and more particularly, to a ball joint to remove the play of the ball stud inserted into the housing socket has a suitable rotational torque and to reduce the loss of power transmission.

The ball joint is used to transfer the force by changing the direction of operation through smooth rotation during the control of the mechanical element using a ball stud rotating in the housing socket.

As shown in FIG. 1, the conventional ball joint has a housing socket 10 connected to one side thereof and a ball stud 20 connected to the other side in order to connect an input shaft and an output shaft having different force transmission directions. The ball stud 20 is inserted into the housing socket 10, and a ring-shaped spring 30 is fitted into the groove 11 formed at the upper end of the inner wall of the housing socket 10 so that the ball stud 20 is inserted into the housing socket 10. In order not to escape from the housing socket 10, the ball stud 20 is rotated in the housing socket 10 to transmit the force.

However, the conventional ball joint is because the spring 30 fitted into the groove 11 of the housing socket 10 is a tension spring 30 which serves as a jaw to prevent the ball stud 20 from being pulled out. There is a gap between the 30 and the ball stud 20 so that the ball stud 20 has a play in the spring 30 direction. Accordingly, there is a problem that it is not possible to guarantee the proper rotation torque, the loss of the power transmission is large, the efficiency of the output shaft relative to the input shaft is low.

The present invention to solve this problem is to provide a ball joint to eliminate the play of the ball stud inserted into the housing socket has a suitable rotational torque and to reduce the loss of power transmission.

1 is a cross-sectional view of a conventional ball joint.

2 is a cross-sectional view of the ball joint of the present invention.

Figure 3 is a cross-sectional view of the ball joint assembly showing the action of the spring of the present invention.

* Explanation of symbols for main parts of the drawings

10: housing socket 111: groove

20: ball stud 130: spring

According to the present invention, a ball stud 20 for connecting one shaft is inserted into the housing socket 10 for connecting the other shaft, a groove 111 is formed on the inner wall of the housing socket 10, and the groove ( In the ball joint formed by the ring-shaped spring 130 is formed in the 111, the spring 130 is composed of a compression spring 130, the groove 111 is the ball stud 200 is the housing socket 10 Ball joint is provided, characterized in that formed when the spring 130 has a depth to be hit.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention in more detail.

Figure 2 is a cross-sectional view of the configuration of the ball joint of the present invention, Figure 3 is a cross-sectional view of the ball joint assembly state showing the action of the spring of the present invention.

2 is a view of the present invention, the ball stud 20 for connecting one axis is inserted into the housing socket 10 for connecting the other shaft, the groove 111 in the upper portion of the inner wall of the housing socket 10 In the ball joint formed by the ring-shaped spring 130 is formed in the groove 111, the spring 130 is composed of a compression spring 130, the groove 111 is the ball stud 20 ) Is formed to have a depth that the spring 130 is fully indented when inserted into the housing socket 10.

As described above, when the compression spring 130 having a compression elasticity suitable for the spring 130 is adopted, and the depth S of the groove 111 is formed at least deeper than the diameter d of the spring 130, As shown in FIG. 3, when the ball 111 assembles the ball stud 20 into the housing socket 10 when the ball joint is assembled, the spring 130 is completely inserted into the groove 111 so that the ball stud ( 20 can be inserted into the housing socket 10 without difficulty. Therefore, when assembling the ball joint, conventionally, after inserting the ball stud 20 into the housing socket 10, the spring 130 is opened in the groove 111, but the present invention provides a groove formed in the inner wall of the housing socket 10. When the spring 130 is first inserted into the 111 and then the ball stud 20 is press-fitted into the housing socket 10, the spring 130 enters the groove 111 and the ball stud 20 is inserted into the spring 111. It is inserted inwardly of the 130 and is rotatably fixed.

In the present invention configured as described above, in the ball joint in which the ball stud 20 is inserted into the housing socket 10 and the spring 130 is opened in the groove 111 formed on the inner wall of the housing socket 10, By configuring the spring 130 as a compression spring 130, there is no gap between the spring 130 and the ball stud 20 opened in the groove 111 of the housing socket 10, the ball stud 20 ) Does not have a play in the direction of the spring (130). Therefore, the ball joint of the present invention has an appropriate rotation torque during power transmission, so that the efficiency of the output shaft relative to the input shaft is good.

As described above, the present invention has a compressive elastic force of the spring opened in the ball joint, so that the ball joint does not have a clearance, so that power is transmitted with an appropriate rotational torque, thereby improving the efficiency of the output shaft with respect to the input shaft. There is.

Claims (1)

A ball stud 20 for connecting one shaft is inserted into the housing socket 10 for connecting the other shaft, a groove 111 is formed on the inner wall of the housing socket 10, and a ring-shaped groove is formed in the groove 111. In the ball joint formed by the spring 130, the spring 130 is composed of a compression spring 130, the groove 111 has a depth (S) of at least the diameter (d) of the spring (130) Ball joint, characterized in that formed so that deeper than the ball stud (20) can be inserted without interference to the spring 130 when the ball stud (200) is inserted into the housing socket (10).