KR100425768B1 - Shock absorber - Google Patents

Abstract

The present invention relates to a vehicle shock absorber. The invention includes a piston valve for separating an interior of a cylindrical tube into a tension chamber and a compression chamber, and a piston rod for linearly reciprocating the piston valve, wherein the tension chamber is compressed with the tension chamber below the piston rod. A first communication hole for communicating the chamber is formed; At the lower end of the piston rod, a space is formed therein, a second communication hole communicating with the first communication hole is formed above the space part, and a valve having a plurality of third communication holes communicating with the compression chamber below the space part. A body is installed; Ring-shaped protrusions are formed on the upper and lower surfaces of the space of the valve body so as to face each other; Between the ring-shaped protrusions in the space portion is characterized in that the disk is installed to block and connect the second communication hole and the third communication hole while being in contact with them. Therefore, it is possible to smoothly absorb the residual shock generated in the low stroke high frequency region.

Description

Car shock absorber {SHOCK ABSORBER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle shock absorber, and more particularly, to a vehicle shock absorber in which residual shock generated in a low stroke high frequency region is not transmitted to a vehicle body.

In general, a shock absorber for a vehicle has a function of improving ride comfort and driving stability by preventing both ends of the shock absorber from being fixed to the vehicle body and the wheels so as not to be transmitted to the vehicle body by absorbing various vibrations or shocks transmitted from the wheels in contact with the road surface while driving. Perform.

1 shows a conventional shock absorber 1 for a vehicle, a piston valve 5 separating the inside of a cylindrical tube 2 into a tension chamber 3 and a compression chamber 4 and the piston valve 5. A piston rod 6 for linear reciprocating motion.

The piston valve 5 includes an orifice hole 7 and 8 for communicating the tension chamber 3 and the compression chamber 4, a disc 9 and a disc for opening and closing the orifice hole 7 and 8. It consists of a ring 10 and a disc guide 11.

In addition, an end portion of the piston rod 6 connected to the vehicle body is fixedly installed at the central portion of the piston valve 5, and the tension chamber 3 separated from the inside of the cylindrical tube 2, that is, the piston valve 5, and The compression chamber 4 is filled with fluid.

In the conventional vehicle shock absorber 1 configured as described above, when the piston rod 6 is linearly reciprocated, a pressure difference is generated between the tension chamber 3 and the compression chamber 4, and the tension chamber is caused by this pressure difference. Fluid filled in the chamber 3 and the compression chamber 4 circulates through the orifice holes 7 and 8 formed in the piston valve 5 to generate a constant damping force.

That is, in the case of the compression stroke in which the piston rod 6 descends, the lower compression chamber 4 is compressed, and the fluid inside the compression chamber 4 is shown by the dotted arrows in FIG. 1 due to the pressure generated at this time. As described above, the disk 9 is pushed upward through the orifice hole 7 formed in the piston valve 5 and flows into the tension chamber 3.

In the case of the tension stroke in which the piston rod 6 rises, the upper tension chamber 3 is compressed, and due to the pressure generated at this time, the fluid inside the tension chamber 3 is shown by the solid arrows in FIG. Likewise, the disk 9 is introduced into the compression chamber 4 by pushing the disk 9 downward through the orifice hole 8 formed in the piston valve 5.

Therefore, the conventional vehicle shock absorber 1 has an orifice hole 7 having a fluid filled in the tension chamber 3 and the compression chamber 4 in the piston valve 5 according to the linear reciprocating motion of the piston rod 6 ( 8) generates a constant damping force while circulating.

However, in the conventional vehicle shock absorber configured as described above, the damping force is generated by using the pressure difference between the tension chamber 3 and the compression chamber 4 generated by the linear reciprocation of the piston rod 6 connected to the vehicle body. In the low frequency region, the movement stroke of the piston rod 6 or the low frequency region generates an appropriate damping force, so that the vibration can be smoothly absorbed. There was this.

That is, when the moving stroke of the piston rod 6 or the impact generated in the high frequency region, for example, the residual impact due to intermittent fine stones on the pavement, is applied, the tension chamber 3 and the compression chamber ( Since the pressure difference generated in 4) is small, the operation of the piston valve 5 is not smooth, so that appropriate damping force cannot be obtained. Accordingly, there is a problem that the vibration of the cup due to the shock of the shock is not completely absorbed and transmitted to the driver, thereby lowering the riding comfort.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a shock absorber for a vehicle capable of smoothly absorbing a residual shock generated in a low stroke high frequency region in which a piston rod has a low moving stroke. .

In order to achieve the above object, the present invention is a vehicle shock absorber comprising a piston valve for separating the interior of the cylindrical tube into a tension chamber and a compression chamber, and a piston rod for linearly reciprocating the piston valve,

A first communication hole is formed in the lower portion of the piston rod to communicate the tension chamber and the compression chamber; At the lower end of the piston rod, a space is formed therein, a second communication hole communicating with the first communication hole is formed above the space part, and a valve having a plurality of third communication holes communicating with the compression chamber below the space part. A body is installed; Ring-shaped protrusions are formed on the upper and lower surfaces of the space of the valve body so as to face each other; It is characterized by providing a shock absorber for a vehicle provided with a disk for blocking and connecting the second communication hole and the third communication hole while being in contact with and separated from the ring-shaped projections in the space.

1 is a cross-sectional view showing a conventional vehicle shock absorber.

2 is a cross-sectional view showing a vehicle shock absorber according to the present invention.

3a to 3c is an operation of the vehicle shock absorber according to the present invention.

<Description of the code | symbol about the principal part of drawing>

22: cylindrical tube 23: tension chamber

24: compression chamber 25: piston valve

26,27: orifice hole 28: disk

29: disc ring 30: disc guide

31: piston rod 32: first communication hole

33: valve body 34: space

35: second communication hole 36: third communication hole

37,38: ring-shaped protrusion 39: disc

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

Figure 2 is a cross-sectional view showing a vehicle shock absorber according to the present invention, Figures 3a to 3c is an operation view showing the main portion of the vehicle shock absorber according to the present invention.

The vehicle shock absorber 20 according to the present invention has a piston valve 25 for separating the inside of the cylindrical tube 22 into the tension chamber 23 and the compression chamber 24, as shown in FIG. 2. . The piston valve 25 includes an orifice hole 26 and 27 for communicating the tension chamber 23 and the compression chamber 24, and a disk 28 and a disc for opening and closing the orifice hole 26 and 27. It consists of a ring 29 and a disc guide 30.

In addition, an end portion of the piston rod 31 connected to the vehicle body is fixedly installed at the central portion of the piston valve 25, and the tension chamber 23 separated from the inside of the cylindrical tube 22, that is, the piston valve 25, and The compression chamber 24 is filled with fluid.

In addition, a first communication hole 32 communicating with the tension chamber 23 and the compression chamber 24 is formed in the lower portion of the piston rod 31 according to the present invention, and the first communication hole 32 is a piston. It consists of the vertical hole 32a formed in the predetermined depth along the center from the edge part of the rod 31, and the horizontal hole 32b branching in the radial direction of the piston rod 31 from the end part of this vertical hole 32a.

The lower end of the piston rod 31 has a space 34 formed therein, and a second communication hole 35 communicating with the first communication hole 32 is formed above the space 34. A valve body 33 having a plurality of third communication holes 36 communicating with the compression chamber 24 is provided below the space 34.

In addition, ring-shaped protrusions 37 and 38 are formed on the upper and lower surfaces of the space portion 34 of the valve body 33, and between the ring-shaped protrusions 37 and 38 in the space portion 34. A disk 39 is provided to block and connect the second communication hole 35 and the third communication hole 36 while being in contact with and separated from each other.

The vehicle shock absorber according to the present invention configured as described above operates as follows.

First, when the moving stroke of the piston rod 31 or the impact generated in the high frequency region, for example, the residual impact due to intermittent fine stones on the pavement, is applied, the tension chamber 23 and the compression chamber ( 24 Since the pressure difference inside is small, the orifice holes 26 and 27 formed in the piston valve 25 and the disk 28 for opening and closing the orifice holes 26 and 27 are not operated.

Accordingly, in the present invention, the fluid in the tension chamber 23 and the compression chamber 24 is formed in the first communication hole 32 formed in the piston rod 31 and the second communication hole 35 formed in the valve body 33 and the first fluid. As it circulates into the compression chamber 24 and the tension chamber 23 through the three communication holes 36, the vibrations from the impact of the residual shock are absorbed and prevented from being transmitted to the vehicle body.

That is, when the piston rod 31 moves a small distance downward, as shown by the solid arrows in FIG. 3A, the fluid inside the compression chamber 24 passes through the third communication hole 36 of the valve body 33. After entering the space 34 and passing between the disk 39 and the ring-shaped protrusions 37 and 38 in the space 34, the second communication hole 35 and the piston rod 31 are formed. While moving to the tension chamber 23 through the first communication hole 32 to absorb the residual vibration due to the residual impact.

When the piston rod 31 is moved upward by a small distance, as shown by a dotted arrow in FIG. 3A, the fluid in the tension chamber 23 is formed in the piston rod 31 and the first communication hole 32 and the valve. After entering the space 34 through the second communication hole 35 of the main body 33, after passing between the disk 39 and the ring-shaped projections 37 and 38 in the space 34, While moving to the compression chamber 24 through the three communication hole 36 to absorb the residual vibration due to the residual impact.

Therefore, the present invention can smoothly absorb the residual shock generated in the low stroke high frequency region, which could not be absorbed smoothly in the conventional method, thereby improving the riding comfort of the vehicle employing the same.

In the case where the moving stroke of the piston rod 31 is increased or an impact generated in the low frequency region is applied, the pressure difference between the tension chamber 23 and the compression chamber 24 becomes large, so that the space of the valve body 33 is increased. As shown in FIG. 3B, the disk 39 installed inside the part 34 is in contact with the upper ring-shaped protrusion 37 in a state in which the disk 39 is pushed upward by the pressure of the fluid to form a third communication hole ( 36C and the second communication hole 35, or in contact with the lower ring-shaped protrusion 38 in a state in which the disk 39 is pushed downward, as shown in FIG. 3C. 36) and the second communication hole 35 is blocked.

Accordingly, the fluid in the tension chamber 23 and the compression chamber 24 circulates through the orifice holes 26 and 27 formed in the piston valve 25 into the compression chamber 24 and the tension chamber 24 while damping force. Will be generated.

Although the present invention has been illustrated and described with reference to certain preferred embodiments, the present invention is not limited to the above-described embodiments, and a person skilled in the art to which the present invention pertains has the present invention set forth in the claims below. Various modifications may be made without departing from the spirit of the invention.

As described above, according to the vehicle shock absorber of the present invention, it is possible to smoothly absorb the residual shock generated in the low stroke high frequency region. Therefore, it provides an effect that can improve the riding comfort of the vehicle compared to the conventional method.

Claims (1)

A vehicle shock absorber comprising a piston valve for separating an interior of a cylindrical tube into a tension chamber and a compression chamber, and a piston rod for linearly reciprocating the piston valve. A first communication hole is formed in the lower portion of the piston rod to communicate the tension chamber and the compression chamber; At the lower end of the piston rod, a space is formed therein, a second communication hole communicating with the first communication hole is formed above the space part, and a valve having a plurality of third communication holes communicating with the compression chamber below the space part. A body is installed; Ring-shaped protrusions are formed on the upper and lower surfaces of the space of the valve body so as to face each other; The shock absorber for a vehicle, characterized in that the disk is provided between the ring-shaped projections in the space that is in contact with and separated from the second communication hole and the third communication hole blocking and connecting.