KR100664383B1 - Separator tube of damping force adjustable shock absorber - Google Patents

Abstract

The present invention relates to a separator tube of a damping force variable shock absorber, comprising: a separator tube of a damping force variable shock absorber in which a tension oil port and a compression oil port of a damping force variable valve communicate with each other on a flat surface along a vertical direction on the separator tube. A plurality of opening holes are formed, and each of the opening holes is provided with a tension port portion and a compression port portion inserted from the outside, and each port portion has a ring shape along the circumferential direction to be pressed to the outer surface of the opening hole on its outer circumferential surface. A protruding fixing jaw is formed, and a bent portion is formed at an end extending from the fixing jaw to provide a separator tube of a damping force variable shock absorber that is pressed against the inner surface of the opening hole. Therefore, the weight of the separator tube can be reduced, and the size of the shock absorber can be reduced by reducing the protruding length of the port portion, and the port portion is prevented from escaping due to pressure or oil leakage, thereby improving the performance.

Description

Separator tube of damping force variable shock absorber {SEPARATOR TUBE OF DAMPING FORCE ADJUSTABLE SHOCK ABSORBER}

1 is a cross-sectional view showing a conventional damping force variable shock absorber,

Figure 2a is a cross-sectional view showing a separator tube of one embodiment in a conventional damping force variable shock absorber,

Figure 2b is a cross-sectional view showing a separator tube of another embodiment in a conventional damping force variable shock absorber,

3 is a cross-sectional view of the separator tube of the damping force variable shock absorber according to the present invention,

4 is an assembled state diagram of the separator tube of the damping force variable shock absorber according to the present invention.

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

1: Shock absorber 2: External view

3: inner tube 9: sealing member

20: damping force variable valve 22: tension oil port

23: compressed oil port 80: separator tube

81: opening hole 82a: tension port portion,

82b: compression port 83: fixed jaw

84: bend portion 85: projection ring

86: pressing ring 90: riveting means

The present invention relates to a separator tube of a damping force variable shock absorber, and more particularly, to a separator tube of a damping force variable shock absorber installed on an outer circumferential surface of an inner tube and communicating with a damping force variable valve side to form an oil passage.

In general, a shock absorber mounted on a suspension of a vehicle is installed between the axle and the vehicle body to absorb vibrations or shocks received by the axle from the road surface to improve ride comfort. Oil and / or gas is filled.

Such a shock absorber has a damping force variable type shock absorber that can adjust the damping force characteristics appropriately to improve ride comfort or maneuvering stability according to the road surface and driving conditions. It has a form provided with a damping force variable valve for.

1 is a cross-sectional view showing a conventional damping force variable shock absorber.

The shock absorber 1 is a double tube including a coaxial inner tube 3 and an outer tube 2, and a storage chamber 4 is formed between the inner tube 3 and the outer tube 2. Inside the inner tube 3, a piston 6 fixed to the lower end of the piston rod 7 is provided to be able to slide up and down to compress the inside of the inner tube 3 to the upper tension chamber 10a and the lower portion. The chamber 10b is partitioned. The upper end of the piston rod (7) extends through the upper end of the inner tube (3) and the outer tube (2), the body valve (5) separating the compression chamber (10b) and the storage chamber (4) is an inner tube ( 3) is installed at the bottom.

In addition, a compression passage 6b and a tension passage 6a are formed in the piston 6 so that the tension chamber 10a and the compression chamber 10b communicate with each other, and the body valve 5 has a compression chamber 10b and a storage chamber ( The compression passage 5b and the tension passage 5a are formed to communicate 4).

The separator tube 8 surrounding the outer circumferential surface of the inner tube 3 is sealed by an annular sealing member 9 at the top, bottom, and middle of the inner tube 3, and on the separator tube 8 a fluid passage ( 8a and 8b are partitioned to form the sealing member 9, and the fluid passages 8a and 8b are respectively tension chambers through communication holes 3a and 3b provided on the upper and lower sides of the inner tube 3, respectively. It communicates with 10a and the compression chamber 10b.

In addition, the separator tube 8 is provided with a protrudingly formed tension-side port portion 8a-1 and a compression-side port portion 8b-1, each of which is a circular hole, and has a cylindrical shape in which an end portion thereof is opened to surround the outer side thereof. The reservoir guide 11 is mounted with a slight gap, and the supply guide port portion 11a, which is an elliptical hole, also protrudes from the reservoir guide 11.

Meanwhile, the damping force variable valve 20 is mounted on one side of the outer tube 2, and the damping force variable valve 20 has three connection ports formed in the housing 21, that is, the tension side port part 8a-1. And a fluid passage through a tension oil port 22 connected to the supply oil port 23, a compression oil port 23 connected to the compression side port part 8b-1, and a supply oil port 24 connected to the supply side port part 11a. 8a, 8b and the storage chamber 4 communicate with each other, and the fluid flowing through the fluid passages 8a, 8b is supplied to the compression chamber 10b and the storage chamber 4 to vary the damping force.

Then, the damping force is varied by adjusting the ejection pressure of the oil by changing the area of the internal flow path according to the application of the current of the solenoid actuator 29 attached to the lower end of the housing 21 of the damping force variable valve 20.

In the conventional damping force variable type shock absorber 1 described above, FIG. 2A shows a compression-side port portion 8a-1 and a compression hole, which are circular holes in the separator tube 8, as described, for example, in US Pat. No. 53,538,98. The side port portion 8b-1 is integrally formed by a mold, and the tension oil port 22 and the compressed oil port 23 are forcibly sandwiched in each of the port portions to form a seal.

In this case, the tension side port portion 8a-1 and the compression side port portion 8b-1 must protrude to a sufficient length to include the tension oil port 22 and the compression oil port 23, and form a port portion. In order to do this, the separator tube 8 had to have a thickness more than a certain limit.

This increases the overall size of the shock absorber due to the sufficient protrusion of the port portion, there was a problem that a lot of weight.

In addition, another embodiment has been proposed to improve this, which is the same as FIG. 2B where US Pat. No. 5,988,331 is shown.

In FIG. 2B, the tension side groove hole 41 and the compression side groove hole 42 opened on the separator tube 40 are formed, and the tension side port part separately manufactured in each of the groove holes 41 and 42 ( 43) and the compression-side port portion 44 as the O-ring 45 is press-fitted and fixed.

In addition, the tension oil port 22 and the compressed oil port 23 are inserted into each port part to form a sealing.

Therefore, the separately manufactured port portion can reduce the protruding length, and can reduce the weight of the separator tube, but this also has a high possibility that each port portion press-fitted from the inside of the separator tube to the outside is separated by the pressure change, and the wrong press-fit process Due to this, there was a possibility of oil leakage.

The present invention is to solve the conventional problems as described above, it is possible to reduce the size of the shock absorber by reducing the weight of the separator tube, reduce the length of the port protrusion, the port portion is separated by pressure or oil leakage It is an object of the present invention to provide a separator tube of a damping force variable shock absorber capable of preventing the same.

In order to achieve the above object, the present invention provides a separator tube of a damping force variable shock absorber in which a tension oil port and a compression oil port of a damping force variable valve communicate with each other, wherein an opening hole is formed on a flat surface in a vertical direction on the separator tube. It is formed in plural, and each of the opening hole is provided with a tension port portion and a compression port portion is inserted from the outside, each port portion is fixed in a ring shape protruding along the circumferential direction to be pressed on the outer surface of the opening hole on its outer peripheral surface A jaw is formed, and a bent portion is formed at an end extending from the fixing jaw to provide a separator tube of a damping force variable shock absorber that is pressed against the inner surface of the opening hole.

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

Figure 3 is a cross-sectional view of the separator tube of the damping force variable shock absorber according to the present invention, Figure 4 is an assembly state diagram of the separator tube of the damping force variable shock absorber according to the present invention, the same as the embodiment shown in the prior art The same reference numerals will be described with reference to FIG.

The separator tube 80 sealed by the annular sealing member 9 on the upper, lower and middle portions of the inner tube 3 of the shock absorber 1 is connected to the fluid passage 8a by the sealing member 9. , 8b are partitioned, and the fluid passages 8a and 8b are provided through the tension holes 10a and 3b through the communication holes 3a and 3b respectively provided on the upper and lower sides of the inner tube 3. 10b).

As shown in FIG. 3, the separator tube 80 according to the present invention is formed with two opening holes 81 spaced apart from each other by a predetermined distance on a flat surface in a vertical direction on one side thereof. The tension port portion 82a and the compression port portion 82b are inserted into the tension port portion 82a.

The port portions 82a and 82b, which are manufactured separately from the separator tube 80, are formed in a ring shape and are inserted from the outside of the opening hole 81. As shown in FIG.

The port portions 82a and 82b are formed in the outer circumferential surface by the fixing jaw 83 protruding in the circumferential direction, so that the inner side of the fixing jaw 83 and the outer surface of the opening hole 81 when inserted into the opening hole 81. This compression is achieved.

Furthermore, a pressing ring 86 is installed on the inner side thereof to seal the separator tube 80.

The bent portion 84, which is stepped from the fixing jaw 83 and is horizontally pressed, is pressed into the opening means 81 as the riveting means 90 while being in close contact with the inside of the separator tube 80. Is formed.

Preferably, the riveting means 90 is operated by a driving means such as a motor or a cylinder, and one end for the riveting forms a curved surface to be crimped by riveting the bent portion 84.

In addition, the protruding ring 85 is provided on the inner surfaces of the port portions 82a and 82b to seal the tension oil port 22 and the compressed oil port 23 to be inserted and installed.

The action of the separator tube of the damping force variable shock absorber according to the present invention configured as described above is as follows.

Referring to FIG. 4, the tension port portion 82a and the compression port portion 82b are inserted from the outside toward each opening hole 81 of the separator tube 80.

At this time, the pressing ring 86 of the fixing jaw 83 is pressed to the outer surface of the opening hole 81, the end inserted into the opening hole 81 is formed by the riveting means 90 The bent portion 84 makes close contact with the inner surface of the opening hole 81.

In this way, the tension port portion 82a and the compression port portion 82b tightly fixed to the opening hole 81 are provided with a projection ring 85 on the inner side thereof. Sealing is made with the port 23.

Therefore, the port portions 82a and 82b, which are separately manufactured and press-fitted into the opening hole 81 of the separator tube 80, are inserted from the outside of the opening hole 81, with the opening hole 81 interposed therebetween. Compression fixing is performed by the fixing jaw 83 and the bent portion 84, thereby preventing the separation by the change of the internal pressure.

In addition, the installation of the projection ring 85 and the compression ring 86 is to prevent the oil leakage.

In addition, the tension port portion 82a and the compression port portion 82b of the present invention have a protruding length of the port portions 82a and 82b in order to secure a press-fit space between the tension oil port 22 and the compression oil port 23. Since the length of the separator tube 80 can be reduced as much as possible, the weight of the separator tube 80 is eliminated since there is no reason for the thicknesses of the port portions 82a and 82b and the separator tube 80 to match. This has become lighter.

Although the present invention has been illustrated and described with respect 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, the separator tube of the damping force variable shock absorber of the present invention can reduce the size of the shock absorber by reducing the weight of the separator tube and reducing the protruding length of the port portion, and the port portion is separated by pressure or oil is leaked. There is an effect of improving the performance by preventing that.

Claims (3)

In the separator tube of the damping force variable shock absorber in which the tension oil port of the damping force variable valve and the compressed oil port communicate. A plurality of opening holes are formed on a flat surface in the vertical direction on the separator tube, and each of the opening holes is provided with a tension port portion and a compression port portion inserted from the outside . Each port portion has a ring-shaped fixing jaw protruding along the circumferential direction to be pressed on the outer circumferential surface thereof to the outer surface of the opening hole, A separator tube of a damping force variable shock absorber is formed at the end that is stepped from the fixing jaw and is bent to be pressed against the inner surface of the opening hole. The method of claim 1, A separator tube of the damping force variable shock absorber is further provided on the inner side of the port portion is sealed when the tension oil port and the compression oil port is coupled. The method of claim 1, The separator tube of the damping force variable shock absorber is further installed on the inner surface of the fixing jaw and sealed with the separator tube.

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