SU1105707A1 - Air spring - Google Patents

Abstract

A PNEUMATIC RESEAR, containing a plate, a body, a rubber-cord elastic element between them and a damper installed in it, comprising a cylinder connected to the body, a rubber-cord balloon placed in a cylinder, attached with one end to the cylinder head and a cavity which communicates with the cylinder cavity and a housing, a lid mounted on the other end of the rubber-cord balloon, and a tie connected to the plate, passing through the axial hole in the cylinder head and attached to the clad of the rubber-cord balloon, The fact that, in order to improve the efficiency of damping oscillations in a wide range of frequencies, the damper is provided with a covering rubber-cord cylinder and a glass with a hole in the bottom attached to the cylinder head, an additional rubber-cord balloon, one end of which is attached to the bottom of the glass and the cavity which is connected to the cylinder cavity, with an axial hole installed on the other end of the additional rubber-cord bal-. the core, and the rod attached to the top of the main rubber-cord cylinder, passing through the axial holes of the bottom of the glass and the key of the additional rubber-cord cylinder and having a stop mounted with a gap relative to the cover of the additional rubber-cord cylinder.

Description

The invention relates to transport suspensions jCpeflCTB, in particular to pneumatic suspension springs.

A pneumatic spring is known which contains a rubber-cord elastic element and a damper mounted therein consisting of a body fixed on the movable end of the elastic element and a displacer of compressed gas placed in it, connected by a tie with a fixed end of the elastic element, while the latter’s cavity is pneumatically connected to cavity damper 1.

The disadvantage of this spring is low reliability due to the presence of rubbing surfaces.

Closest to the present invention is a pneumatic spring containing a plate, a body, a rubber-cord elastic element placed between them, and a damper mounted therein, including a cylinder connected to the body, a rubber-cord ball placed in a cylinder, attached to one end of the cylinder and a cavity which is connected to the cavity of the cylinder and the body, a bolt mounted on the other end of the rubber-cord cylinder, and a tie connected to the plate passing through the axial hole in the cylinder head and attached to the lip rubber-cord cylinder 2.

However, the known spring does not provide effective damping of oscillations in a wide range of oscillation frequencies. This is due to the fact that the rigidity of a rubber-cord cylinder is constant and does not depend on the amplitude of oscillations of the vibration-insulating object, therefore, when a damping object oscillates in the resonance frequency domain with slight amplitudes of displacements, the system turns out to be over-damped, and when the spring works in the region of resonant frequencies, the damper rigidity insufficient to damp oscillations of nickel-frequency oscillations with a large amplitude of displacements, i.e. the oscillatory system is underdeveloped.

The purpose of the invention is to increase the efficiency of damping of oscillations in a wide frequency range.

The goal is achieved by the fact that in a pneumatic spring containing a plate

a body placed between them a rubber-cord elastic element and a damper mounted therein comprising a cylinder associated with the body, a rubber-cord cylinder placed in the cylinder-, re, attached at one end to the cylinder cap and cavity which communicates with the cavity of the cylinder and body, cover mounted on the other end of the rubber-cord cylinder, and the clamp connected with the plate, the passage of the schu1o through the axial hole in the cylinder head and attached to the cover of the rubber-cord cylinder, the damper is provided covering the rubber-cord cylinder and etc. fixed to the cylinder cylinder with an opening in the bottom, an additional rubber-cord cylinder, one end attached to the glass bottom and the cavity of which is connected with the cylinder cavity, the cylinder with an axial hole installed on the other end of the additional rubber-cord cylinder, and a rod attached to the cylinder of the main rubber-cylinder passing through the axial holes of the bottom of the glass and the upper section of the additional rubber-cord cylinder and having a stop mounted with a gap relative to the upper side of the additional rubber rubber-cord cylinder.

The drawing shows a pneumatic spring, longitudinal section.

The pneumatic spring contains a rubber-cord elastic element 1, a plate 2, which is associated with a depreciable object, a housing 3 and a damper. The damper includes a cylinder 4 with 5, a rubber-cord cylinder 6 with a lid 7 connected to the plate 2 of the clamp 8. An additional rubber-cord cylinder 9 is mounted on the bottom of the glass 10 and has a key 11 with an axial bore 12 in which the rod 13 is attached to the lid 7 with an emphasis 14. In the static position of the pneumatic spring between the anvil 14 and the upper section 11 of the additional rubber-cord cylinder 9, a gap is formed in p. The cavity of the rubber-forming cylinder 6 communicates with the cavity of the cylinder 4 through the hole 15, blocked by valve 16, and the hole 17. The cavity of the additional rubber-cord cylinder 9 is connected with the cavity of the cylinder 4 by hole 18, open valve 19.

The cavity of cylinder 4 is in communication with the cavity of the housing by 3 openings 20.

The clamp 8 is connected to the plate 2 by means of a hinge 21, the cylinder 4 is connected to the case 3 by a hinge 22.

Pneumatic spring works as follows.

When the pneumatic spring oscillates in the resonance frequency domain with insignificant displacement amplitudes, the magnitude of which does not exceed the gap fi between the stop 14 and the cover 11, the air during the compression of the spring freely flows into the cavity of the rubber-elastic spring 1, the cavity of the housing 3, the cavity cylinder 4 through the openings 17, into the cavity of the rubber-cord cylinder 6 through the valve 16 and the cavity of the additional rubber-cord cylinder 9 through the valve 19. The air pressure in all cavities of the pneumatic spring increases equally.

During the recoil, the plate 2 moves upward, carried away by means of a stitch 8 7, which leads to compression of the rubber-cord cylinder 6. The valve 16 blocks the opening 12, the air pressure in the cylinder 9 increases. . The pressure drop across the crack 7 causes a downward force that is transmitted through the tie rod 8 to the plate 2, impeding its upward movement. The parameters of the cylinder 6 are selected from the conditions of effective quenching of high-frequency aresonance oscillations. Since in the indicated frequency domain the amplitudes of displacements of a depreciable object are insignificant and do not exceed the size of the gap h, the additional rubber-cord balloon does not take part in the damping.

When the pneumatic spring oscillates in the resonant region, when the amplitudes of its movements increase significantly and exceed the size of the gap n between the stop 14 and the lid 11, an additional rubber-cord cylinder 9 is included in the spring return operation. Simultaneously the resistor 14 touches the lid 11 compression of rubber-cord cylinders 6 and 9, therefore, the rigidity of the damping device during the recoil increases sharply, which allows to effectively suppress low-frequency resonant oscillations.

The air spring makes it possible to increase the efficiency of damping oscillations in a wide frequency range, reducing the amplitude of oscillations in the resonant and resonant frequency regions and increasing the smoothness of the vehicle.

Claims (1)

PNEUMATIC RESOURCE, comprising a plate, a housing, a rubber-cord elastic element placed between them and a damper installed therein, including a cylinder connected to the housing, a rubber-cord cylinder placed in the cylinder, attached at one end to the cylinder cover and the cavity of which is in communication with the cavities of the cylinder and the housing, a lid mounted on the other end of the rubber cord balloon and a coupler connected to the plate passing through the axial hole in the cylinder cover and attached to the lid of the rubber cord balloon, characterized in that o, in order to increase the efficiency of damping oscillations in a wide range of frequencies, the damper is equipped with a rubber-cord cylinder and a glass attached to the cylinder cover with an opening in the bottom, an additional rubber-cord cylinder, one end attached to the glass bottom and the cavity is in communication with the cylinder cavity, with a lid an axial hole mounted on the other end of the additional rubber cord ball. bosom, and a rod attached to the lid of the main rubber-cord balloon passing through the axial openings of the bottom of the glass and the lid of the additional rubber-cord balloon and having a stop installed with a gap relative to the cap of the additional rubber-cord balloon. About m