KR200477569Y1 - Rotate torque transmission buffered shaft - Google Patents

Abstract

The present invention relates to an electric rotating torsional vibration damping shaft, and more particularly to an electric rotating torsional damping damping shaft including a first tube, an axial tube and a second tube, one end of the first tube being fitted with bearing parts and oil seal parts in order, An internal gear engagement portion is formed in the first tube, a front end of the axial tube is installed in a first tube, an external gear engagement portion corresponding to the internal gear engagement portion is provided in the axial tube, A first bearing, a first gasket, a resilient part, a second gasket, a second bearing, and a fixing part are mounted on the shaft, the fixing part is fixed on an axial tube, the second tube is installed outside the shaft tube, And the electric rotating torsional vibration buffer shaft of the present invention is mainly applied to a large-sized transportation means such as a ring-shaped line, a speedboat, and an automobile, So that it is possible to absorb the momentary rotational twist generated instantaneously and to reduce the torsional value of the interlocking torsion caused by the motion of the engine and the transmission.

Description

[0001] ROTATE TORQUE TRANSMISSION BUFFERED SHAFT [0002]

The present invention relates to a cushioning shaft, and more particularly, to a motorized cushioning torsion shaft that rotates or rolls a torsion force to a tire through a shift box or an automatic transmission to output an automobile or engine power.

No matter how the engine and drive wheel are assembled, the power of the engine is transmitted to the clutch, transmission box and transmission shaft only if a complete electric line is installed between the engine and the drive wheel. Finally, the electric train, So that the tire can rotate and the electric shafts between the vehicles can be moved together. At this time, all of the damage, wear, deformation, and balance failure of the electric shafts are caused by abnormal sound and vibration during operation of the automobile. In case of serious damage, related parts are also damaged. In addition, since the electric shafts rotate at a high speed while the supporting shafts are small, the equilibrium of the transmission shafts is a very important key factor.

When driving a general vehicle, the engine power is generated when the gears are shifted by shifting gears or when the road surface is roughly undulated. Also, a maximum speed difference is generated between the tires, and the transmission speed is instantaneously exceeded, Resulting in a problem that devices such as an engine, a change-over box, a car shipment machine and the like are easily broken down.

The object of the present invention is to provide an electric rotating torsional damping shaft that is simple in structure, reduces the burden of vehicle gear shifting, and reduces the degree of vibration.

In order to achieve the above-mentioned object, the present invention provides an electric rotating twist buffer shaft including a first tube, an axial tube, and a second tube. One end of the first tube is mounted with a bearing part and an oil seal part in order, and an internal gear engaging part is formed inside the first tube.

The front end of the shaft tube is installed in a first tube, and an external gear engagement portion corresponding to the internal gear engagement portion is provided in the shaft tube, and a first bearing, a first gasket, a resilient member, , A second bearing, and a fixed part, and the fixed part is fixedly installed on the shaft tube. The second tube is installed outside the shaft tube, and the second tube is coupled with the first tube.

The internal gear engaging portion and the external gear engaging portion are formed in a threaded shape.

The internal gear engaging portion and the external gear engaging portion are formed in a gear shape.

A universal joint is provided at the front end of the shaft tube, and a universal joint is also provided at the other end of the second tube.

Among them, the electric rotating torsional vibration buffer shaft is mainly used on a large-sized transportation means such as a ring-shaped line, a speedboat, an automobile, etc., and can be connected to a transmission structure of a motor driving source.

The electric rotating torsional damping shafts are also applied on the vehicle's axle so that the engine of the vehicle passes through the transmission box and the electric rotating torsional damping shafts transmit the twisting force to the tires to rotate or roll the tires, Thereby achieving the function of driving. The electric rotary torsion buffer shaft is twisted with respect to each other between the inner gear engagement portion of the first tube and the outer gear engagement portion of the shaft tube and the axial tube pressurizes and compresses the elastic member, The power generated during compression can be stored and absorbed, so that the momentarily generated rotational twisting force is balanced. As a result, the difference between the torsional value of the driving power generated during the operation of the engine and the transmission is effectively lowered, the tension is generated, the instantaneous pushing force is generated to generate the continuous thrust, and the life of the engine, So that it can be extended.

In addition, the electric rotary torsion damping shafts protect the main parts of the engine drive to effectively prevent inadvertent operation of the engine or rupture of the engine, such as rupture of the engine of the transmission gearbox due to abrupt change of the driving environment, At the same time, the safety of the vehicle can be enhanced, and the service life of the device such as the tire, the engine, the shift box, and the car shoe can be increased.

The present invention provides an electric rotating twist buffer shaft having the following advantages.

1. Absorbs and balances the violent rotational twisting force that instantaneously strikes and reduces the difference in the torsional value of the motive power generated during the movement of the engine and transmission.

2. It can protect engine, transmission box, car shipment machine, etc., and extend service life of engine, transmission box, and car shoe.

3. When the vehicle is operated at high speed or low speed, it is possible to obtain an effect of keeping the ride comfortably.

4. When the driver or the operating personnel are able to lower the mental fatigue when operating or operating for a long time, the road safety can be maintained when driving for a long time.

5. Gear shifting It is possible to start operation smoothly without wasting unnecessary hassles in large and medium-sized or small-sized vehicles such as cars, trucks, hill roads, and clutches.

6. It is possible to increase the stability of the car and extend the mileage of the tire use.

7. It is possible to secure the stability of acceleration state at high speed and high gear ratio, automatic gear shifting, and to reduce the force and vibration generated when the vehicle is shifted.

8. When a car is curving at high speed, it can effectively prevent a car's tires from slipping.

9. The main parts of the engine can be protected and the problems such as rupture of the engine crankshaft due to improper operation or sudden change of the driving environment, rupture of the gearbox of the shift box gear, rupture of the gearbox gear and rupture of the gearbox gearbox Can be prevented.

10. If the electric rotating twist shock absorber shaft is installed on the cruise ship shock absorber, the installation cost and occupied space can be reduced.

1 is an exploded view of the present invention.
2 is an assembled view of the present invention.
3 is a perspective view showing another form of the internal gear engagement portion and the external gear engagement portion of the present invention.
4 is a perspective view showing another embodiment of the present invention.
5 is a perspective view showing still another embodiment of the present invention.
6 is a perspective view showing still another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

1 and 2, the electric rotating twist buffer shaft of the present invention includes a first tube 1, an axial tube 2, and a second tube 3 . One end of the first tube 1 is installed with a bearing part 10 and an oil seal part 11 in order and an internal gear engaging part 12 is formed inside the first tube 1 do. The front end of the shaft tube 2 is installed in the first tube 1. The shaft tube 2 is provided with an external gear engaging portion 20 corresponding to the internal gear engaging portion 12, The first bearing 21, the first gasket 22, the elastic member 23, the second gasket 24, the second bearing 25, and the shaft tube 2 of the stationary component 26 And the second tube 3 is connected to the first tube 1 by being coupled with each other.

3, the internal gear engaging portion 12 and the external gear engaging portion 20 may be formed in a screw shape as well as in a gear form, The shaft tube 2 can be moved in the first tube 1 and the second tube 3 in the same manner.

Referring to FIGS. 4 and 5, as shown in the drawing, the electric rotary torsional vibration damping shafts according to the present invention have the shaft tube 2 installed inside the first tube 1 and the second tube 3, The axial tube 2 can be rotationally moved in the first tube 1 and the second tube 3 by using the gear engaging portion 20 and the inner gear engaging portion 12, The elastic member 23 can compress and compress the elastic component 23 while rotating, and the elastic component 23 can store and absorb the power generated at the compression. Therefore, the momentarily generated rotational twisting force can be balanced, As a result, the difference between the torsional value of the driving power generated during the operation of the engine and the transmission is effectively lowered, the tension is generated, and the momentary pushing force is generated to generate the constant thrust force. In addition, the electric rotating torsion buffer shaft of the present invention is applied to a large-sized transportation means such as a drawing wheel, a speedboat, a car, etc., and is applied to the motor structure of the motor power source, thereby providing a very good buffer space for inversion or advancement.

Finally, referring to the contents of FIG. 6, the electric rotating torsional vibration buffer shaft of the present invention is mainly applied to a large-sized transportation means such as a ring carrier, a speedboat, and a car (in this embodiment, The universal joint 4 is installed at the front end of the shaft tube 2 and the universal joint 4 is installed at the other end of the second tube 3.

The structure of the vehicle includes a universal joint 4, a slide connection portion 5, an electric rotating twist damping shaft 6 and a rear axle train 7, The torsion force is transmitted to the tire through the transmission box 8 via the electric rotary torsion buffering shaft 6 so that the tire is rotated or rolled so that the function of the driving operation is completed. The electric rotating torsional vibration damping shaft 6 absorbs an intense rotational torsional force generated mainly instantaneously and as a result effectively lowers the difference in the torsional value of the operation power generated during engine and transmission operation, , The car shipment, etc., and can further extend the life of the engine, transmission box (8), car shoe, and increase the safety of the vehicle and the mileage of tire use.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed, and it is to be understood that changes and variations may be made without departing from the spirit and scope of the invention. And variations are included in the claims of the present invention.

1: first tube 10: bearing part
11: Oil seal part 12: Inner gear engaging part
2: shaft tube 20: external gear engaging portion
21: first bearing 22: first gasket
23: elastic member 24: second gasket
25: second bearing 26: fixed part
3: second tube 4: universal joint
5: slide connection part 6: electric torsion buffer shaft
7: rear axle train 8: speed change box

Claims (6)

An electric rotating twist buffer shaft,
The electric rotating twist buffer shaft includes a first tube, an axial tube, and a second tube, and one end of the first tube is mounted with bearing parts and oil seal parts in order, And an outer gear engagement portion corresponding to the inner gear engagement portion is provided on the axial tube, and a first bearing, a first gasket, a resilient force Wherein the second tube is installed outside the shaft tube, and the second tube is connected to the first tube and the first tube, and the second tube is fixed to the shaft tube, Wherein the electric rotating torsion damper shaft is installed in the housing. The method according to claim 1,
Wherein the internal gear engaging portion and the external gear engaging portion are formed in a thread-like shape. The method according to claim 1,
Wherein the internal gear engaging portion and the external gear engaging portion are formed in a gear shape. The method according to claim 1,
Wherein a universal joint is provided at the front end of the shaft tube and a universal joint is provided at the other end of the second tube. The method according to claim 1,
Wherein the electric rotating torsional vibration damping shaft can be applied to a vehicle. 6. The method of claim 5,
Wherein the transportation means can be a vehicle, a ring carrier, a speedboat, and can be connected to the transmission structure of a motor drive source.

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