SU1084506A1 - Pneumatic oscillation damper - Google Patents

Abstract

1. PNEUMATIC DIFFUSER OF VIBRATIONS, containing heads, a rubber-cord shell, a reservoir and a partition located between them with a calibrated orifice and valves, characterized in that, in order to increase the efficiency of damping, it is equipped with a corrugated cylinder attached to one of the heads and moving relative to the reservoir, pneumatic pumps mounted on the reservoir, the rods of which interact with the corrugated cylinder, axially spring-loaded rod mounted inside the reservoir ra connected to the other head and the annular groove imeyushih triangular shape, and the fixing elements mounted in the tank and cooperating with the rod. 2. A damper according to claim 1, characterized in that the valves are counter-directed.

Description

The invention relates to mechanical engineering, namely to vehicle suspensions.

Known pneumatic damper containing heads, rubber-cord shell, a reservoir and a partition located between them with a calibrated hole and valves [1].

The disadvantage of this vibration damper is its low energy intensity, i.e., a small amount of energy dissipated during the oscillations.

The purpose of the invention is to increase the efficiency of damping oscillations.

This goal is achieved by the fact that the pneumatic damper containing heads, rubber-cord shell, reservoir and a partition between them with a calibrated hole and valves, is equipped with a corrugated cylinder attached to one of the heads and moving relative to the reservoir, pneumatic pumps mounted on the reservoir, the rods of which interact with a corrugated cylinder, an axially spring-loaded rod mounted inside the tank, connected to another head and having a count piezoquartz recesses of triangular shape, and the fixing elements mounted in the tank and cooperating with the rod.

In addition, the valves are made in opposite directions.

The drawing schematically shows a pneumatic damper.

The pneumatic vibration damper comprises heads 1 and 2, a rubber-cord casing 3, a reservoir 4, a partition 5 located between them with a calibrated bore 6 and valves 7 and 8, a corrugated cylinder 9 attached to the head 1 and moving relative to the reservoir. 4 mounted on the last air pump 10, the rods 11 of which interact with the corrugated cylinder 9, an axially spring-loaded rod 12 mounted inside the tank 4, connected to the head 2 and having annular recesses 13 of a triangular shape, as well as locking elements 14 installed in the tank 4 and interacting with the rod 12.

The rod 12 interacts with the return spring 15, and the locking elements 14 are spring-loaded using elastic elements 16 and screws 17.

Pneumatic damper operates as follows.

During compression and stretching, the corrugated cylinder 9 moves relative to the reservoir 4, causing the piston 11 of the air pumps 10 to reciprocate ^5. As a result, the pressure in the rubber-cord casing 3 and reservoir 4 rises. If the amplitude of the oscillations remains small, then during compression the air 10 from the rubber-cord casing 3 throttles into the tank 4, and when stretched - in the opposite direction. Energy dissipation when this consists of work performed by the pneumatic pump 10 and the energy dissipated by throttling air Th ¹⁵ cut orifice 6. By increasing the amplitude of oscillation between the reservoir 4 and the rubber-shell 3 is increased pressure drop. At the end of the compression stroke, valve 8 opens and compressed air _{20 is} discharged into the reservoir 4. At the end of the expansion stroke, valve 7 opens and air flows in the opposite direction. This ensures the maximum pressure difference during compression and extension, and, consequently, an increase in the work performed by the vibration damper.

With increasing static suspension deflection, the distance between heads 1 and 2 decreases. This causes an increase in pressure in the rubber-cord casing 3, reservoir 30 4 and an increase in the force exerted on the reservoir 4. When it exceeds the initial compression forces of the elastic element 16 and the return spring 15, the reservoir 4 moves downward relative to the rod 12. As a result, the pressure in the 35 rubber-cord the shell 3 and the reservoir 4 falls, while the deformation of the rubber-cord shell does not exceed the permissible.

With a decrease in the static suspension deflection, the distance between the heads ₄₀ and 1 and 2 increases, the pressure in the rubber-cord casing 3 and the reservoir 4 decreases, and under the action of the force of the return spring 15, the latter pushes up relative to the rod 12. As a result, the deformation of the rubber-cord casing 3 does not exceed the permissible value .

The proposed vibration damper compared with the base object, which is adopted as a prototype, provides an improvement in driving performance of vehicles ⁵⁰ by 10% and a reduction in material consumption of the structure by 50%.

Editor A. Ogar Order 1960/29 Compiled by S. Taratukhin Tehred I. Veres Corrector A. Ferenc Circulation 913 Subscription

VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Branch of the PPP Patent, Uzhgorod, ul. Project, 4

Claims (2)

1. PNEUMATIC OSCILLATOR, containing heads, rubber-cord casing, a reservoir and a partition located between them with a calibrated hole and valves, characterized in that, in order to improve the damping of vibrations, it is equipped with a corrugated cylinder attached to one of the heads and moving relative to the reservoir pneumatic pumps mounted on the tank, the rods of which interact with a corrugated cylinder, an axially spring-loaded rod mounted inside the tank, with United with another head and having annular grooves of a triangular shape, and locking elements installed in the tank and interacting with the rod. 2. The absorber according to π. 1, characterized in that the valves are made in opposite directions.