SU1420263A1 - Hydraulic elastic element - Google Patents

Abstract

The invention relates to a transport engineering, in particular to hydraulic elastic elements of vehicle suspension systems. The purpose of the invention is to increase the capacity and reliability due to the forced deformation of the bellows and isolation of the chamber with a high pressure of the working fluid.

Description

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enclosed multiformer sylphdnas and seal operation at relatively low pressure. Under the influence of external disturbances, the stepped plunger 7 is inserted into the cavity of the housing 1, compressing the bellows 8 of the largest diameter. Because the diameter of the bellows 8 is smaller than the diameter of the largest step of the stepped plunger 7, the pressure in it increases more intensely than in the housing 1. From the further introduction of the stepped plunger 7 into the cavity of the housing 1, the pressure of the pressure chamber 2 is compressed . At a certain moment, the stepped plunger 7 interacts with the bellows 9, along with the compressive fluid in the pressure chamber 2, an additional deforming effect on it. Because when the compressibility of the fluid in the bellows 9 is exhausted faster than in the bellows 8 and the pressure chamber 2, then at a certain point in time the bellows 9 begins to play the role of a dynamic retarding stroke of the elastic element. 2 Il.

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FIELD: transport engineering, in particular, hydraulic elastic elements of vehicle suspension systems.

The purpose of the invention is to increase the energy capacity and reliability by forcibly deforming the bellows, isolating the chamber with a high pressure of the working fluid in concentrically installed different stiffness bellows and working the seal at a relatively low pressure.

FIG. Figure 1 shows a hydraulic resilient element with a passage w; a plunger is shown through the pressure chamber, npio is a longitudinal section; FIG. 2 - the same with insulated volumes of high-pressure chamber bellows, longitudinal section.

The hydraulic elastic element contains a housing 1 filled with working fluid, a pressure chamber 2, respectively closed with lids 3,4 with openings (not indicated), in which, respectively, seals 5,6 and a stepped plunger 7 passing through them are located. The bellows 8 having the greatest diameter, is connected to a larger step of the step-type plunger 7 and to the bottom of the housing 1. A bellows 9 is installed inside the pressure chamber 2 and has an end cover 10. The bellows 9 has the greatest rigidity.

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the dimensions of the stiffness of the bellows decrease.

Hydraulic elastic element works as follows.

Under the influence of external disturbances, the stepped plunger 7 is inserted into the cavity of the housing 1, compressing the bellows 8. Due to the fact that the diameter of the bellows 8 is smaller than the diameter of the largest step of the stepped plunger 7, the pressure increases more intensely than in the housing 1, i.e. a differential pressure is created in the fluid located in the cavities of the housing 1 and the bellows 8, the differential pressure being optimal for ensuring the elasticity of the bellows 8. Further introduction of the stepped plunger 7 into the cavity of the housing 1 causes the pressure chamber 2 to be compressed. At this time, the pressure in the cavity of chamber 2 rises more intensively. At a certain moment, the stepped plunger 7 interacts with the bellows 9, which, along with the compressive fluid in the pressure chamber 2, exerts an additional deforming effect on it. At the same time, the compressibility of the fluid in the bellows 9 is exhausted faster than in the bellows 8 and the pressure chamber 2, and at some point the bellows 9 begins to play the role of a dynamic retarding stroke of the elastic element.

When an external load is applied to the stepped plunger 7 (Fig. 2), the latter is inserted into the cavity of the housing 1, compressing the bellows 8 of the largest diameter. The fluid pressure in the bellows 8 acts on the lid 4 of the pressure chamber 2 and compresses the chamber 2 until the pressure in the bellows is equalized.

8 and chamber 2. For its part, the pressure in chamber 2 acts on the face cap 10 and deforms the bellows

9 until the pressure in bellows 9 and chamber 2 is increased. A further increase in pressure in the cavity of chamber 2

and the bellows 9 occurs under the influence of the stepped plunger 7 and the stop (not shown) of the cover 4 of the bellows 2.

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formula of invention

A hydraulic elastic element comprising a housing, a pressure chamber with elastic walls, covers with openings covering them and passage of the GDy through the housing of the plunger, characterized in that, in order to increase energy intensity and reliability, the elastic walls are bellows, the plunger is made stepwise in length , and the elastic element is provided with coaxially and concentrically mounted bellows, of which the maximum diameter bellows are connected to the plunger and the housing, and the other is installed inside the pressure chamber and has a face one. krsh1ku.

Claims (1)

Claim A hydraulic elastic element comprising a housing, a pressure chamber with elastic walls, ⁵ covers with openings covering them and a plunger passing through the housing cover, characterized in that, in order to increase energy intensity and reliability, 10 elastic walls are a bellows, the plunger is made stepwise in length and the elastic element is equipped with coaxially and concentrically mounted bellows, of which the largest diameter bellows is connected to the plunger and the housing, and the other is installed inside the pressure chamber and has an end face. cover. figure 2