KR200152639Y1 - Electrode plug of apparatus asorbing shock - Google Patents

Abstract

The present invention aims to prevent oil leakage by freely controlling the pressing force of the electrode plug of the shock absorber using an ER (Electro-Rheological) fluid as a working fluid.

The present invention compresses the gas in the gas chamber 5 while the floating piston 4 moves up and down whenever the piston 3 connected to the piston rod 2 of the damper 1 repeats the tension and compression stroke. In the installation of a power plug 6 for external power connection to the gas-sealed shock absorber to absorb the shock, it is fixed to the outer cylinder (7) of the damper (1) to the inner inner cylinder (8) The electrode terminal 63, 64, which is fitted into the body 60 of the electrode plug 6 and the nut 61 for supplying external power and forms a contact point, retains elasticity by the spring 65. Will.

Description

Electrode Plug of Shock Absorber

As is well known, recently, particles dispersed in a fluid move freely under an electric field and exhibit isotropic properties.However, when an electric field is applied to an ER fluid, particles dispersed in a fluid generate induced polarization and move toward the electrode. By forming the fibrous structure of the structure, it has an anisotropic behavior, which is resistant to the flow of the fluid or the shear force applied from the outside.It is an ER (Electro-Rheological) as a working fluid for driving a vehicle suspension. There is a trend that a lot of fluid is used.

The gas-filled shock absorbing device is configured to absorb the external shock by compressing the gas in the gas chamber while the floating piston moves up and down whenever the piston connected to the piston rod repeats the tension and compression stroke.

The ER fluid charged into the damper is a solution in which a solvent and a solute are mixed to form a solid solute particle, and connects an electrode plug for supplying external power to the ER fluid (working fluid) charged into the damper.

Conventionally, as shown in FIG. 1 so that the other + and-electrodes can be energized to supply external power to the working fluid of the damper, the nut 300 is screwed to the body 200 through which the electrodes are energized. Non-conductive material inside the body 200 and the nut 300 so that the electrode is energized, so that the electrode is energized into the body 200 and the nut 370 through which the electrode is energized. After the insulation is insulated with the insulators 400a and 400b, the + electrodes 500a and 500b are in contact with the insulator.

As such, in the related art, in order to connect the + and-electrodes for external power supply to the damper 100, the body 200 and the nut 300 through which the electrodes are energized are insulated with the insulators 400a and 400b, and then + By inserting the electrode terminals 500a and 500b, there is a problem in which the working fluid is leaked through the body 200 into which the + electrode 500a is inserted and the insulator 400b into which the + electrode 500b is inserted, and the + electrode 500a. ) Increases the size of the pressing force (assembly clamping force) forming the contact with the inner cylinder, there is a risk of contact failure and breakage, there was a difficulty in controlling the contact.

The object of the present invention is to improve the structure of the electrode plug that connects the external power source to the gas-filled shock absorber so that the pressure of the electrode can be freely adjusted and oil leakage can be prevented. .

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

1 is an illustration of a conventional shock absorber electrode plug.

2 is an exemplary view of a shock absorbing device to which the present invention is applied.

3 is a main view detail of the electrode plug according to the present invention.

* Explanation of symbols for main parts of the drawings

1: damper 2: piston rod

3: piston 4: floating piston

5 gas chamber 6 electrode plug

60: body 61: nut

63,64: Terminal 65: Spring

66a, 66b: insulator

2 is an exemplary view of a gas-filled shock absorbing device to which the present invention is applied, and FIG. 3 illustrates a detailed cross-sectional view of main parts of a contact plug according to the present invention.

The present invention compresses the gas in the gas chamber 5 while the floating piston 4 moves up and down whenever the piston 3 connected to the piston rod 2 of the damper 1 repeats the tension and compression stroke. In the installation of a power plug 6 for connecting an external power source to the gas-sealed shock absorbing device to absorb the shock, it is fixed to the outer cylinder (7) of the damper (1) to the inner inner cylinder (8) The electrode terminal 63, 64, which is fitted into the body 60 and the nut 61 of the electrode plug 6 for supplying external power and forms a contact point, is configured to retain elasticity by the spring 65. It features.

Reference numerals 66a and 66b denote an insulator insulated from the electrode terminals 63 and 64 so as to be in contact with each other.

In this way, the present invention is fixed to the outer cylinder (7) of the damper (1) is connected to the inner cylinder (7) and the external power supply is connected to the inner cylinder (7) to supply external power to the inner cylinder (7) A nut 61 assembled to the body 60 of the electrode plug 6 by interposing a spring 65 between the electrode terminals 64 so that both electrode terminals 63 and 64 retain the elasticity of the spring 65. By adjusting the pressing force of the electrode, it is possible to prevent the electrode plug from being broken by adjusting the pressing force applied to the ends of both terminals 63 and 64 constituting the mutual contact.

In addition, the body 60 and the insulator 66a may be inserted between the body 60 and the insulator 66a of the electrode plug 6 by inserting an O-ring for preventing leakage of oil. By preventing leakage between the insulator 66a and the terminal 63, there is an advantage of greatly contributing to the increase in the damping force.

As described above, according to the present invention, in connecting the terminal of the electrode plug to supply external power to the damper, a spring is provided between both terminals to retain the elasticity of the spring, thereby loosening and tightening the nut. Since the pressing force can be adjusted, there is an advantage such that there is an effect of preventing breakage and leakage of the electrode plug.

The present invention relates to an electrode plug of a shock absorbing device using an ER (Electro-Rheological) fluid as a working fluid, and more particularly to prevent leakage by controlling the pressing force of the electrode plug freely.

Claims (1)

Whenever the piston 3 connected to the piston rod 2 of the damper 1 repeats the tension and compression stroke, the floating piston 4 moves up and down to compress the gas in the gas chamber 5 to absorb external shocks. In the installation of the power plug 6 for connecting the external power to the gas-sealed shock absorbing device, it is fixed to the outer cylinder (7) of the damper (1) to supply external power to the inner inner cylinder (8) It is characterized in that the electrode terminal (63) and (64), which are fitted into the body (60) of the electrode plug (6) for supplying and the nut (61), form a contact point, retain elasticity by the spring (67). Electrode plug of shock absorber.