KR100482078B1 - Cooling device od shock absorber in vehicle - Google Patents

Abstract

The present invention relates to a shock absorber cooling device for a vehicle, and the compressed air of the air spring discharged to the atmosphere by the operation of the leveling valve when the garage descends to the shock absorber to cool the heat generated in the shock absorber. There is a purpose.

The present invention for achieving the above object is operated in accordance with the load acting on the vehicle body is opened to the atmosphere of the leveling valve 10 for opening and closing the air passage between the air spring (1) and the air tank (7). An air supply line 20 leading to the shock absorber S is connected to the air passage, and the compressed air discharged from the air spring 1 through the air supply line 20 into the cylinder of the shock absorber S. Characterized in that it is to be introduced.

Description

Shock absorber chiller of vehicle {Cooling device od shock absorber in vehicle}

The present invention relates to a shock absorber cooling device for a vehicle, and more particularly, to a shock absorber cooling device for a vehicle that is capable of cooling heat by using compressed air discharged from the air spring to the atmosphere.

In general, suspension of a large vehicle such as a bus or truck has a sufficient clearance in the vehicle body, so by changing the pressure of the internal air through a separate compressed air supply device, the spring deformation of the vehicle regardless of the load applied to the vehicle The non-linear air spring can be used to keep the constant constant.

The air spring is a leveling valve is used to maintain a stable garage by supplying or releasing compressed air in accordance with the front and rear garage, which is variable by the change in the body load, the leveling valve 10 is shown in FIG. The air support line is connected to an air spring 1 provided between both ends of the support frame 3 fastened to the end of the axle 5 on which the wheel 4 is mounted and the lower end of the side surface of the vehicle body 2. It is connected to the middle of the frame 3 and is operated by the load assembly 6 which opens and closes the air passage of the air tank 7 according to the load acting on the vehicle body.

That is, as shown in FIG. 2, when the vehicle load is not applied to the proper value or the road while driving, the rotating load assembly 6 which varies according to the vehicle load does not change and the leveling valve 10 connected thereto operates. On the other hand, if a lot of cargo of the vehicle is loaded, the load assembly 6 rotates counterclockwise to open the air passage of the leveling valve 10 to supply air from the air tank 7 to the air spring 1 to open the garage. After this, the air spring 1 is gradually increased by such an action, and then the load assembly 6 returns to the horizontal position to block the air passage to stop the air inflow of the air tank 7.

On the other hand, when the load decreases on the vehicle body, the air spring 1 is extended, so that the rod assembly 6 is rotated clockwise, thereby connecting the air passage S of the leveling valve 10 to the atmosphere to provide air in the air spring 1. After the air is discharged to the atmosphere, the pressure in the air spring 1 is lowered to discharge the air in the air spring 1 to the atmosphere until the load assembly 6 returns to the horizontal position.

In addition, shock absorbers are used to absorb the natural vibrations caused by bumps or rebounds generated during driving even in suspension of large vehicles such as buses and trucks, while damping vibrations quickly to improve ride comfort. Of course it will be used.

However, the shock absorber that absorbs and attenuates vibration while being tensioned and compressed under continuous external force while the vehicle is running generates heat in response to such frequent stroke changes, thereby maintaining airtightness in the cylinder of the shock absorber. When the sealing member of the rubber material is hardened and the life is shortened, there is a disadvantage that the internal oil is leaked to the outside and can not be used.

Therefore, the present invention has been invented in view of the above, and the compressed air of the air spring discharged to the atmosphere by the operation of the leveling valve during the descent of the garage flows into the shock absorber to cool the heat generated in the shock absorber. The purpose is to.

The present invention for achieving the above object, a leveling valve for forming an air passage of the compressed air discharged from the air spring for adjusting the height according to the load applied to the vehicle, and an air passage opened to the atmosphere of the leveling valve The air supply line is connected to an air supply line connected to the outer cylinder that receives the upper portion of the inner cylinder filled with the fluid and tensions and compresses the bumps and rebounds and circulates the fluid in the inner cylinder to damp vibration. It is characterized by consisting of shock absorbers.

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

Figure 3 shows the structure of the shock absorber cooling device using a leveling valve according to the present invention, the present invention is an air spring (1) provided between the support frame 3 and the lower side of the vehicle body is mounted wheel (4) And a leveling valve 10 which opens and closes the air passage through the rod assembly 6 which is connected to the air passage line and operated according to the load acting on the vehicle body, and is opened to the atmosphere of the leveling valve 10. The air supply line 20 is connected to the air passage to the shock absorber (S) and the air supply line 20 is connected to the shock absorber (S) for receiving the compressed air discharged from the air spring (1) to the inside Lose.

Here, the shock absorber (S) is connected to the air supply line (20) through a hole formed in a predetermined portion of the outer cylinder to maintain the airtight while receiving the inner cylinder filled with oil inside, the air supply line ( Of course, an opening hole is formed in a predetermined portion so that the compressed air introduced into the air 20 is circulated in the cylinder and then discharged to the atmosphere. In this case, the shock absorber S is generally a The shock absorbers have the same general structure, that is, the inner cylinder (Si) and the lower cylinder fixed to the lower arm or the knuckle portion while having a structure for filling and circulating fluid therein, and the inner cylinder (Si) Of course, it is composed of an outer cylinder (So) that is fixed to the vehicle body to form the upper portion of the shock absorber (S) while receiving therein. In addition, the air supply line 20 is as shown in FIG. The compressed air discharged through the air passage connected to the outer cylinder So of the shock absorber S and opened to the atmosphere of the leveling valve 10 is, of course, injected into the outer cylinder So.

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

According to the present invention, when the vehicle body load is not applied to the proper value or the road while driving, the rotating load assembly 6 which varies according to the vehicle body load does not change and the leveling valve 10 connected thereto operates. On the other hand, when a lot of cargo is loaded on the vehicle and the load assembly 6 rotates counterclockwise, the air passage of the leveling valve 10 is opened to supply air from the air tank 7 to the air spring 1 and to the garage. Then, the air spring 1 is gradually increased by the above-described action, and then the load assembly 6 returns to the horizontal position to block the air passage to stop the air inflow of the air tank 7.

However, according to the present invention, when the load applied to the vehicle body decreases, the rod assembly 6 is rotated clockwise to connect the air passage S of the leveling valve 10 to the atmosphere to bring air in the air spring 1 into the atmosphere. The garage is lowered while being discharged. At this time, the compressed air discharged from the air spring 1 through the leveling valve 10 is rolled up through the air supply line 20 connected to the port, which is an air passage of the leveling valve 10. It is supplied to the server (S).

That is, as shown in FIG. 3, the compressed air in the air spring 1 supplied to the shock-up server S receives an inner cylinder Si filled with oil therein and maintains an airtight outer cylinder So. Shock absorber due to frequent stroke changes as it is inflated and compressed by bumps and rebounds, which are external forces continuously applied while the vehicle is running. It cools the heat generated in (S).

At this time, the compressed air introduced through the air supply line 20 is discharged to the atmosphere through the opening hole formed in a predetermined portion of the outer cylinder.

As described above, according to the present invention, the cylinder of the shock absorber is connected between the leveling valve and the shock absorber by an air supply line so that the compressed air discharged from the air spring for adjusting the height according to the load applied to the vehicle body is supplied to the shock absorber. As it circulates inside, it cools down the heat generated by frequent stroke changes. Therefore, temperature rise is prevented. Therefore, it prevents hardening of rubber material that maintains air tightness in the cylinder of shock absorber. It is effective to greatly reduce the external leakage phenomenon of the.

1 is a configuration diagram of a suspension device centering on a leveling valve in a large vehicle according to the related art

Figure 2 is an enlarged view of a conventional leveling valve

3 is a block diagram of a shock absorber cooling device using a leveling valve according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: Air spring 2: Body

3: support frame 4: wheel

5: Axle 6: Rod Assembly

7: air tank 10: leveling valve

20: air supply line

Claims (1)

A leveling valve 10 for forming an air passage of compressed air discharged from the air spring 1 for adjusting the height according to the load applied to the vehicle, An air supply line 20 connected to an air passage opened to the atmosphere of the leveling valve 10 and The air supply line accommodates the upper portion of the inner cylinder (Si) filled with the fluid, and the outer cylinder (So) reduces the vibration by circulating the fluid in the inner cylinder (Si) while being tensioned and compressed at the time of bump and rebound. Speed absorber cooling device for vehicles consisting of a shock absorber (S) 20 is connected.