KR20050101368A - Shock absorption structure of universal joint - Google Patents

Abstract

The disclosed invention relates to a vibration absorbing structure of a universal joint, the technical configuration of which is provided with a vibration-proof diaphragm provided for vibration absorption between the planjoke of the universal joint and the shaft to which the axial force is transmitted for vibration absorption. At least a plurality of plates (30) provided to adjust the axial stiffness of the universal joint, the shock absorbing member (32) interposed between the plates 30 to ensure the axial flexibility of the universal joint, and the It is a summary that includes a plurality of auxiliary members 34 provided between the plate and the surface contact portion of the shock absorbing member.

According to the present invention, it is possible to separately adjust the axial stiffness and the torsional rigidity of the rotational direction with respect to the rotational force, thereby optimally adjusting the axial flexibility and the torsional rigidity in the rotational direction to further secure the durability and vibration of the device. The effect which can absorb effectively is expressed.

Description

Shock absorption structure of universal joint

The present invention relates to a vibration absorbing structure of a universal joint, and more particularly, is provided for vibration reduction between a planjoke of a universal joint and an inter mediate shaft connected to the planjoke and transmitting rotational force to the other side. By improving the anti-vibration plate, it is possible to reduce the vibration of the device by improving the axial flexibility with respect to the rotational force, as well as improve the torsional rigidity in the axial direction, ensuring the durability of the device and accurate rotation from one shaft to the other shaft. It relates to a vibration absorbing structure of a universal joint that allows torque to be transmitted.

In general, when the two axes are not in a straight line and cross each other, universal joints are used to transmit shaft power. Such universal joints have flange flanges which are interlocked and connected to a portion where rotational force is transmitted. It is connected to the yoke and consists of a shaft that transmits rotational force to the other side, and is installed to transmit shaft power to a vehicle.

Figure 1 is a perspective view of such a conventional universal joint, as shown here, the plan yoke 100 is arranged to occlude two yokes provided so that the pins can be installed in a radial direction at one end; In the meantime, the cross spider 400 is installed between the yoke on one side and the yoke on the other side even when the cross spider 400 is refracted to a predetermined angle or less.

In addition, the other side of the flange yoke 100 is connected to the shaft (Inter Mediate Shaft) 200 which transmits the rotational force transmitted from the joint of the flange yoke 100 to the other side, such a shaft 200, tubular Part of the inner shaft is inserted into one end of the outer shaft, and the inner shaft becomes contractible by a predetermined distance, thereby compensating for the length change due to the change in the installation angle of the universal joint.

On the other hand, a damping diaphragm 300 for damping is installed between the planjoke 100 and the shaft 200, such a conventional anti-vibration diaphragm 300, generally, hard rubber (rubber) or plastic It is made of a synthetic resin material of the one-piece, it is possible to absorb and reduce when the vibration load is reversely input from the external shock, the rotational torque of the plan yoke 100 in a state with a certain degree of rigidity in the axial direction Will be delivered.

However, in the conventional universal joint configured as described above, since the anti-vibration diaphragm 300 provided between the flange yoke 100 and the shaft 200 is integrally formed with a rubber or plastic material as described above, the temperature is changed. Variation in stiffness is severe, and particularly at high temperatures, there is a drawback that the stiffness for the rotational force is very low. Therefore, when the stiffness control in the manufacturing step to solve this drawback, there is a problem that it is difficult to adjust the stiffness separately because the axial stiffness is also increased when the rigidity in the axial direction (rotational direction) is conventionally integrated.

The present invention has been made to solve the above problems, the object of which is to improve the anti-vibration diaphragm provided for vibration reduction between the planjoke and the shaft (Inter Mediate Shaft), axial direction and axial perpendicular direction It is possible to adjust the stiffness separately, thereby improving flexibility in the axial direction with respect to the rotational force, thereby reducing vibration load and noise inputted along the shaft, and improving the torsional rigidity in the axial direction. It is to provide a vibration absorbing structure of the universal joint that can ensure the durability of and to ensure accurate power transmission from one shaft to the other shaft.

As a technical means for achieving the above object, the present invention, the planjok is connected to each other and connected to the site where the rotational force is transmitted in the state having a certain refractive angle, and the rotational force is connected to the other side and the rotational force is transmitted to the other side In the universal joint comprising a shaft and a dustproof diaphragm provided between the flange yoke and the shaft, the dustproof diaphragm is at least a plurality of plates provided to adjust the axial rigidity of the universal joint as a plate-like body; And a shock absorbing member interposed between the plates to ensure axial flexibility of the universal joint, and a plurality of auxiliary members provided between the plate and the surface contact portion of the shock absorbing member. It is based on the vibration absorbing structure of the universal joint.

Herein, the present invention may adjust the axial rigidity of the universal joint as the thickness and the number of plates are increased or decreased, and the plate is made of a material of any one of metal, hardened plastic or fiber composite hardened material. .

The ball invention, on the other hand, can adjust the axial flexibility by varying the installation thickness of the shock absorbing member.

On the other hand, the present invention is characterized in that the axial displacement of the universal joint according to the load is adjusted by changing the axial length of the auxiliary member provided between the plate and the shock absorbing member.

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

First, briefly explaining the accompanying drawings, Figure 2 is an exploded perspective view showing a vibration isolation plate according to the vibration absorption structure of the universal joint of the present invention, Figure 3 is a vibration isolation plate according to the vibration absorption structure of the universal joint of the present invention is assembled It is a perspective view shown.

As shown in the figure, the vibration absorbing structure of the universal joint of the present invention is provided with a pair of planjokes (1a, 1b) corresponding to the portion to which the rotational force is transmitted in the state having a certain refractive angle through the cross spider (4) Interlocked with each other, one side of the flange yoke (1b) is connected to the shaft 2, which is an elastic structure in the axial direction.

In particular, the present invention is characterized in that an anti-vibration diaphragm 3 having an easy axial and rotational rigidity adjustment is provided between the shaft and the flange yoke.

As shown in FIG. 2, the dustproof diaphragm 3 includes a plurality of plates 30, which are hard plate-shaped bodies, and an impact absorbing member 32, which is an elastic body interposed between the plates 30, and the plates. And a plurality of auxiliary members 34 provided between the surface contact portion of the shock absorbing member.

Here, the plate 30 is a rigid plate-like body, the bolt hole for bolting is drilled in the corners of the four sides, the material is a metal or hardened plastic or a fiber composite cured material is selectively used according to the characteristics of the device.

In particular, by increasing or decreasing the thickness and the number of installation of the plate 30 is configured to adjust the rigidity of the axial direction and the rotation direction of the universal joint.

On the other hand, the shock absorbing member 32 interposed between the plurality of plates (30) is an elastic body that has the flexibility to absorb and mitigate the back (Kick-back) back from the vehicle body, the corners of the plate The bolt hole, which is in communication with the bolt hole, is drilled, and the axial flexibility is configured to be adjusted as the axial length of the shock absorbing member is changed during installation.

Wherein the shock absorbing member as described above, the rubber, spring washers, lattice paper, coil springs, soft plastics, etc. in which natural rubber or tires are embedded is made of a composite of a single or mixed form.

On the other hand, among the components of the present invention, the auxiliary member 34 is provided between the surface contact portion through which the bolt penetrates the plate 30 and the shock absorbing member 32, and has a disc shape having a predetermined thickness. And a bolt hole for bolt through is drilled in the same as the plate and the shock absorbing member.

The auxiliary member 32 is made of a hard natural rubber or synthetic rubber, a hardened plastic, a fiber composite cured material alone or mixed, the installation of the universal joint according to the external load according to the change in the axial length It is composed of a configuration that can adjust the displacement in various ways.

Therefore, the assembly, operation, and effect of the vibration absorption structure of the present invention having the above configuration will be described.

As shown in FIG. 3, the anti-vibration diaphragm 3 having the above-described configuration is installed through a bolt and a nut between the flange 10 and the flanges 10 and 20 of the shaft 2. At this time, between the dustproof diaphragm 3 and the flange portion 10, 20 is provided with a bush 38 for the axial vibration absorption and mutually spaced installation. That is, as shown in FIG. 3, the bolts are assembled to sequentially pass through the bolt hole of the dustproof diaphragm 3, the bush 38, and the flange portions 10 and 20 in a direction opposite to each other, and then on the other side of the flange portion. The assembly is completed between the parts by tightening the nut.

Therefore, the anti-vibration diaphragm applied to the present invention assembled as described above, while transmitting the rotational torque between the flange yoke (1) and the shaft (2) at the same time performs the shock absorption function in the axial direction.

That is, when the vibration load is reversely input from the shaft 2 in the assembled state as described above, it is absorbed by the axial flexibility of the anti-vibration diaphragm 3, such flexibility is a plurality of plates It is possible by the shock absorbing member 32 interposed as an elastic body between the 30 and can also absorb the noise generated with the vibration.

Since the shock absorbing member 32 is made of natural rubber or tire cords, rubber, spring washers, lattice paper, coil springs, soft plastics, or the like, may be made of soft materials such as a composite of a single or mixed form. In this case, the elastic deformation in the axial direction is possible to effectively absorb the vibration caused by the load input from the shaft as described above.

In the present invention, since the rigid plate 30 is laminated so as to sandwich the shock absorbing member 32 as described above, the rigid plate 30 can be sufficiently secured in the rotational direction. This prevents torsion.

In this case, the plate 30 may selectively use a metal, a hardened plastic, a fiber composite cured product, and the like, and thus, the material may be selected and tuned according to the axial rigidity of the axial rotation.

In addition, since the thickness and the number of installation of the plate 30 can be varied, the axial rigidity of the universal joint suitable for the vehicle load can be properly tuned.

Subsequently, the present invention is provided with a plurality of auxiliary members 34 between the plate 30 and the shock absorbing member 32 as described above, and according to the change of the length of the auxiliary member 34 to the external load. According to the device characteristics, the displacement of the universal joint can be adjusted in various ways.

Like the above-described components, the auxiliary member may be selectively used in various materials, that is, hard natural rubber or synthetic rubber, cured plastic, and fiber composite cured product, alone or in combination. This is diverse.

Therefore, according to the present invention, the rotational direction rigidity of the universal joint can be adjusted separately according to the increase and decrease of the thickness and the number of installations of the rigid plate 30, and at the same time, the shock absorbing member 32 interposed between the plates 30 is provided. By adjusting the axial flexibility separately it is possible to absorb or mitigate vibration and noise.

As described above, according to the vibration absorbing structure of the universal joint of the present invention, a hard plate is laminated on both sides of the shock absorbing member of the anti-vibration diaphragm provided to reduce vibration between the planjoke and the shaft (Inter Mediate Shaft). Therefore, the stiffness of the rotational direction can be prevented from changing according to the temperature change, and the stiffness of the axial direction and the rotational direction can be adjusted separately, which effectively blocks the vibration load and noise inputted back along the shaft. .

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the following claims. Those of ordinary skill will want to know easily.

1 is a perspective view showing a conventional universal joint.

Figure 2 is an exploded perspective view showing the anti-vibration diaphragm according to the vibration absorption structure of the present invention universal joint.

Figure 3 is a perspective view showing a vibration absorbing structure of the universal joint is assembled vibration-proof diaphragm according to the present invention.

<Code Description of Major Parts of Drawing>

1 ... Plangejok 2 ... Inter Mediate Shaft

3 ... dustproof plate 4 ... spider

30 ... plate 32 ... shock absorbing member

34 ... Auxiliary member 36 ... Bush

Claims (1)

The flange yoke (1) connected to each other in the state where the rotational force is transmitted in a state having an arbitrary refraction angle, the shaft (2) connected to the flange yoke (1) to transmit the rotational force to the other side, and the flange yoke In the universal joint consisting of a dustproof diaphragm (3) provided between (1) and the shaft (2), The anti-vibration diaphragm 3 includes at least a plurality of plates 30 which are provided to adjust the axial rigidity of the universal joint as a plate-like body; A shock absorbing member (32) interposed between the plates (30) to ensure axial flexibility of the universal joint; And And a plurality of auxiliary members provided between the plate and the surface contact portion of the shock absorbing member.