SU1273675A1 - Damper - Google Patents

Abstract

The invention relates to the field of hydraulic engineering and can be used in devices for eliminating oscillations of the working fluid in hydraulic systems. The purpose of the invention is to increase the efficiency of the device by reducing the volume of fluid circulating in the heating zone. The cavity of the heater (H) 4 is separated from the flow part of the housing 1 by an elastic wall 6. A resilient partition 7 with openings 8 along the edge is installed between the wall of the casing 3 and H 4. The cavity between the latter and the casing 3 communicates with the housing 1. Dry bubbles of the saturated vapor (SNP) formed during boiling near the surface of H 4 are elements of damping pressure fluctuations, the passage of nls through the wall 6. When exposed to a compression wave, the volume of the SNP puzzles decreases and increases: the volume occupied by the liquid, which contributes to the absorption of the wave. Under the action of a rarefaction wave, the volume of bubbles of the SNP increases, which is the way (L C to maintain the pressure in the pipeline at the same level. 1 Il.

Description

The invention relates to mechanical engineering and can be used in devices to eliminate vibrations of the working fluid in hydraulic systems.

The purpose of the invention is to increase the efficiency of the device.

The drawing shows a damper, General view.

Damper consists of. the housing 1 with connecting flanges 2 for installation in the highway, the casing 3, in which the heater is placed 4. Near the surface of the heater, bubbles of boiling liquid 5 are formed. The heater cavity is separated from the flow part of the housing by an elastic wall 6. ' Between the heater 4 and the wall of the casing 3 is installed an elastic partition 7 with holes 8 at the edges. The cavity between the casing and the partition 7 is communicated by pipelines 9 with the flow part of the housing 1.

Damper works as follows.

When fluid enters the damper, the cavity around the heater 4 is filled with liquid through the upper (in the drawing) pipe 9, the cavity between the casing wall and the elastic partition 7, the upper hole 8 in the partition 7. The gas plug is forced out of the heater cavity through the lower hole 8 in the partition 7 and piping 9. At steady state, a boiling bubble mode is organized near the surface of the heater. Bubbles of dry saturated steam are elements of damping of pressure fluctuations passing through the elastic partition 6. Thus, under the action of a compression wave, a decrease in the volume (condensation) of pu1273675 ² bubbles of dry saturated steam and an increase in the volume occupied by the liquid, expansion of the liquid absorbs the entire compression wave of 5 frequency range from zero to 1000 Hz. Pressure fluctuations of a higher frequency are partially damped, since the processes of condensation and evaporation of the liquid have a limited speed and 10 do not correspond to pressure gradients at frequencies above 1000 Hz. Under the influence of a rarefaction wave, an increase in the volume of bubbles of dry saturated steam occurs, which contributes to maintaining the pressure in the pipeline at the same level.

High efficiency of the damper is achieved by the fact that a zone with a very small 20 fluid circulation is formed near the heater. The communication of the damping cavity with the flowing part is limited by two holes in the elastic partition. As a result, the thermal energy supplied from the heater is localized in the damping cavity, facilitating the process of vaporization.

Claims (1)

The invention relates to machine-building and can be used in devices for eliminating oscillations of a working fluid in hydraulic systems. The purpose of the invention is to increase the economy of the device. The drawing shows the damper, the overall appearance. The damper consists of. bodies 1 with connecting flanges 2 for installation in the main, casing 3 in which the heater is placed D. Boiling liquid bubbles 5 are formed near the surface of the heater. The heater cavity is separated from the flow housing part by an elastic wall 6; Between the heater 4 and the wall of the casing 3, an elastic partition wall 7 is installed with openings 8 along the edges. The cavity between the casing and the partition 7 is connected by pipelines 9 to the flow part of housing 1. The damper works as follows. When fluid enters the damper, the fluid cavity fills around heater 4 through the upper pipe (in the drawing) 9, the cavity wall and the elastic wall 7, the upper hole 8 in the wall 7. The gas plug is displaced from the cavity through the bottom hole 8 in the partition 7 and the pipeline 9. In the steady state, near the surface of the heater, bubble boiling is organized. Dry nascent steam bubbles are formed by damping elements of pressure fluctuations passing through elastic partition 6. Thus, when subjected to a compression wave, there will be a decrease (condensation) of dry thickened vapor and an increase in the volume occupied by the liquid. The expansion of the fluid contributes to the absorption of the entire compression wave in the frequency range from zero to 10.4 Hz. Higher-frequency pressure oscillations are partially damped, since the processes of condensation and evaporation of liquids have a limited velocity and do not correspond to pressure gradients at frequencies above 1000 Hz. When exposed to a rarefaction wave, an increase in the volume of puffed dry steam vapor occurs, which helps to maintain the pressure in the pipeline at the same level. The high efficiency of the damper is achieved by the fact that a zone with very little liquid circulation is formed near the heater. The communication of the damping cavity with the flow path is limited to two holes in the elastic partition. As a result, the heat supplied from the heater is localized in the damping cavity, facilitating the vaporization process. Claims of the invention A damper comprising a housing with connecting flanges placed in a heat-insulated casing and a heater installed in the cavity between the walls of the casing and the casing, characterized in that, to increase efficiency, the casing wall on the heater side is made elastic, between the casing wall and the heater In addition, an elastic partition with holes along the edges is installed, while the cavity between the wall of the casing and the elastic partition is connected by pipes with the housing.