KR101076097B1 - ball joint assembly - Google Patents

Abstract

The present invention is to prevent the grease from being damaged by external contaminants without being easily damaged from external impact by using a metal ball slider and not using rubber boot to seal the grease filled in the ball joint part. To prevent the ball joint assembly,

An inner race connected to one end of the shaft being rotated by receiving rotational power, an outer race installed outside the inner race, a ball for transmitting the rotational power of the inner race to the outer race, And a cage for supporting the ball and a ball slider for sealing the ball joint part by press-connecting an inner circumferential surface to the shaft and contacting an outer circumferential surface of the outer race.

Outer Race, Inner Race, Cage, Ball Slider, Ball, Ball Joint

Description

Ball joint assembly

The present invention relates to the field of constant velocity joints, and more specifically, by using a metal ball slider and not using a rubber boot to seal the grease filled inside the ball joint part without being easily damaged from external impact. A ball joint assembly, which can prevent grease from being damaged by external contaminants.

In general, a joint is used to transmit rotational power (torque) to a rotation shaft having different angles of rotation. In the case of a propulsion shaft having a small power transmission angle, a hook joint or a flexible joint is used, and a drive shaft of a front wheel drive vehicle having a large power transmission angle is used. In the case of constant velocity joints are used.

The constant velocity joint is mainly used for the axle shaft of an independent suspension type front wheel drive vehicle because it can smoothly transmit power at constant speed even when the drive shaft and the driven shaft have a large crossing angle, and the engine side is a tripod constant velocity around the shaft. It is made of a joint, and the tire side around the shaft is made of a ball joint assembly.

1 is a cross-sectional configuration diagram of a general constant velocity joint.

As shown in FIG. 1, a general constant velocity joint has a tripod-type constant velocity joint at the right side (engine side) around the shaft 1, and a left side (wheel side) at the center of the shaft 1. It consists of a ball joint assembly.

The above-described configuration of the tripod constant velocity joint, which is provided on the right side (engine side) around the shaft 1, transmits the rotational power of the engine (not shown) and has a housing in which a track groove is formed. ), The shaft (1) rotated by receiving the rotational power of the housing (2), and is connected to one end of the shaft (1) to connect the housing (2) and the shaft (1) A spider 3 installed inside the housing 2 and having three trunnions formed therein and inserted into the track groove, and an inner roller 5 installed on the outer circumferential surface of the trunnion of the spider 3; , An outer roller 4 installed on an outer circumferential surface of the inner roller 5 to reduce friction between the housing 2 and the shaft 1, and a retainer ring installed on an upper end of the inner roller 5. (8) and one end connected to the housing (2) and one end connected to the shaft (1) It may comprise the boot 10 and the clamping band (11, 12) for fixing each of the boot (10) above.

The ball joint assembly, which is provided on the left side (tire side) around the shaft 1, is connected to one end of the shaft 1 that is rotated by receiving the rotational power of the tripod constant velocity joint. Ball for transmitting the inner race 15, the outer race 13 installed outside the inner race 15, and the rotational power of the inner race 15 to the outer race 13 ( 16, a cage 14 for supporting the ball 16, a sensor ring 17 installed outside the outer race 13, and one end connected to the shaft 1 A boot 18 having one end connected to the outer race 13 and clamping bands 19 and 20 for fixing the boot 18 are formed.

The action of the general constant velocity joint by the above configuration is as follows.

When the rotational power output from the engine (not shown) is transmitted to the housing 2 via a transmission (not shown), the housing 2 is rotated. The rotational power of the housing 2 is the outer roller 4, It is transmitted to the spider 3 through the inner roller 5 to rotate the shaft 1 connected to the spider 3. In addition, the rotational power of the shaft 1 is transmitted to the outer race 13 through the inner race 15 and the ball 16 to rotate the wheel (not shown) connected to the outer race 13. .

In this case, in the tripod constant velocity joint provided on the right side (engine side) about the shaft 1, the outer roller 4 can slide back and forth in the track groove of the housing 2, and the shaft 1 In the ball joint assembly installed on the left side (wheel side) around the center, the angle of rotation of the outer race 13 is changed up, down, left and right around the point P by the ball 16, and the angle is cut according to the displacement of the vehicle. .

In addition, the tripod constant velocity joint side boot 10 and the ball joint assembly side boot 18 are each a tripod constant velocity joint and a ball joint assembly by enclosing and sealing the outside of the tripod constant velocity joint and the ball joint assembly. Grease filled inside the ball joint assembly and ball joint assembly is protected from damage by external contaminants.

However, in the conventional ball joint assembly, the grease, which is filled inside, in the process of rotating the ball joint part up, down, left, and right about the point P, the boot 18 and the outer race 13 or the boot ( There is a problem that leakage occurs between 18) and the shaft 1.

In addition, the conventional ball joint assembly, the material of the boot 18 is made of rubber and is always exposed to the lower part of the vehicle, so it is easy to tear due to an external impact during aging, and when such tearing occurs The grease, which is filled in the inside of the ball joint part, completely escapes to the outside, thereby making it impossible to operate the vehicle.

An object of the present invention is to solve the conventional problems as described above, by using a metal ball slider without using a rubber-like boot to seal the grease filled in the ball joint portion easily from the external impact It is to provide a ball joint assembly that can prevent grease from being damaged by external contaminants without breaking.

As a means for achieving the above object, the configuration of the present invention, the inner race is connected to one end of the shaft that is rotated by receiving the rotational power, the outer race is provided outside the inner race, and the inner race Ball for transmitting the rotational power of the outer race, the cage for supporting the ball, the inner circumferential surface is press-connected to the shaft and the outer circumferential surface is in contact with the outer race, the ball joint portion It consists of a ball slider to seal.

It is preferable that the structure of this invention is good if the part which contact | connects the above-mentioned ball racer of the outer race consists of the structure which the metal seal part is processed.

It is preferable that the structure of this invention is good if the part which contact | connects the above-mentioned ball racer of an outer race is made into the structure in which the high speed grinding | polishing part is formed by processing with a high speed grinding machine.

The structure of this invention is preferable when the said ball slider consists of metal materials.

The configuration of the present invention, the ball slider is preferably made of a structure in which a hollow portion is formed inside to reduce the weight.

The present invention is to prevent the grease from being damaged by external contaminants without being easily damaged from external impact by using a metal ball slider and not using rubber boot to seal the grease filled in the ball joint part. It has an effect that can be prevented.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe in detail enough to enable those skilled in the art to easily carry out the present invention. . Other objects, features, and operational advantages, including the object, operation, and effect of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment Rather, various changes, additions, and changes are possible within the scope without departing from the spirit of the present invention, as well as other equivalent embodiments.

2 is a cross-sectional view of a ball joint assembly according to a first embodiment of the present invention.

As shown in FIG. 2, the configuration of the ball joint assembly according to the first embodiment of the present invention includes an inner race 15 connected to one end of the shaft 1 that is rotated by receiving rotational power, and An outer race 13 'installed outside the inner race 15, a ball 16 for transmitting the rotational force of the inner race 15 to the outer race 13, and the ball ( 16, a ball slider 18 'for sealing the ball joint part by press-connecting a cage 14 for supporting the shaft 14 and an inner circumferential surface of the shaft 1 and contacting an inner circumferential surface of the outer race 13'. )

The part which contact | connects the ball slider 18 'of the said outer race 13 consists of a structure which the metal seal part is processed.

The ball slider 18 ′ is made of a metal material, and is pressed into the shaft 1 to have a structure moving at the same angle as that of the shaft 1. The ball slider 18 'has a structure in which a hollow portion 19' is formed in order to reduce weight.

With the above configuration, the action of the ball joint assembly according to the first embodiment of the present invention is as follows.

Rotational power output from the engine (not shown) is transmitted to the shaft 1 via a transmission (not shown) and through a triport constant velocity joint to rotate the shaft 1.

The rotational power of the shaft 1 is transmitted to the outer race 13 'via the inner race 15 and the ball 16 to rotate the wheel (not shown) connected to the outer race 13'. do.

In this case, the outer race 13 'is rotated up, down, left, and right by the ball 16, so that the angle of the outer race 13' is articulated according to the displacement of the vehicle. The inner side of the outer race 13 'is the ball slider 18'. Take the outer circumferential surface of the) to make the engraving.

The ball slider 18 'seals the ball joint to prevent the grease filled inside the ball joint assembly from being damaged by external contaminants. In addition, the ball slider 18 'is made of metal and can be used semi-permanently without being torn by external impact. In addition, the ball slider 18 ′ may minimize the amount of encapsulated grease by reducing the internal space by reducing the distance L1 from the end of the cage 14.

3 is a cross-sectional view of a ball joint assembly according to a second embodiment of the present invention.

As shown in FIG. 3, the ball joint assembly according to the second embodiment of the present invention includes an inner race 15 connected to one end of the shaft 1 that is rotated by rotational power, and The outer race 13 "installed outside the inner race 15, the ball 16 for transmitting the rotational power of the inner race 15 to the outer race 13, and the A ball slider 18 for sealing the ball joint part by press-connecting a cage 14 for supporting the ball 16 and an inner circumferential surface to the shaft 1 and contacting an inner circumferential surface of the outer race 13. ").

The portion of the outer race 13 ″ in contact with the ball slider 18 ″ is processed by a high speed polishing machine to have a structure in which the high speed polishing portion 21 is formed.

The ball slider 18 "is made of a metal material, and is pressed into the shaft 1 to have a structure moving at the same angle as the angle of the shaft 1. The ball slider 18" has an internal curved portion ( R) is used to make the grease, which is scattered during high-speed rotation and flows outward, flows back into the ball joint internal parts.

With the above configuration, the action of the ball joint assembly according to the first embodiment of the present invention is as follows.

Rotational power output from the engine (not shown) is transmitted to the shaft 1 via a transmission (not shown) and through a triport constant velocity joint to rotate the shaft 1.

The rotational power of the shaft 1 is transmitted to the outer race 13 "through the inner race 15 and the ball 16, thereby rotating the wheel (not shown) connected to the outer race 13". Let's go.

In this case, the outer race 13 "is rotated up, down, left and right by the ball 16, and is cut off according to the displacement of the vehicle, and the high-speed polishing part formed in the inner peripheral surface of the outer race 13". The 21 moves along the outer circumferential surface of the ball slider 18 "

The ball slider 18 " seals the ball joint to prevent the grease, which is filled in the inside of the ball joint assembly, from being damaged by external contaminants. The ball slider 18 " It can be used semi-permanently without being torn by external impact. In addition, the ball slider 18 ″ may minimize the amount of encapsulated grease by reducing the internal space by reducing the distance L2 from the end of the cage 14.

1 is a cross-sectional configuration diagram of a general constant velocity joint.

2 is a cross-sectional view of a ball joint assembly according to a first embodiment of the present invention.

3 is a cross-sectional view of a ball joint assembly according to a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

13 ', 13 ": Outer Race 14: Cage

15: Inner Race 16: Ball
18 ', 18 ": Ball slider 19': Hollow

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Claims (5)

Inner race connected to one end of the shaft is rotated by receiving the rotational power, An outer race installed outside the inner race, A ball for transmitting the rotational power of the inner race to the outer race, A cage for supporting the ball, An inner circumferential surface is press-connected to the shaft, and the outer circumferential surface is in contact with the outer race, thereby including a ball slider for sealing a ball joint part. The ball joint assembly, characterized in that the high-speed polishing portion is formed by the portion of the outer race in contact with the ball slider of the outer race. delete delete The method of claim 1, The ball slider assembly is characterized in that made of a metal material. The method of claim 1, The ball slider assembly is a ball joint assembly, characterized in that made of a structure in which a hollow portion is formed inside to reduce the weight.

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