SU1399572A1 - Arrangement for damping water hammers - Google Patents

Abstract

Invention m. used to protect trunk pipelines. The purpose of the invention is to improve the reliability of damping shocks. The cylindrical case 1 of the quencher covers the pipeline, and the cylindrical shell 9 - the case with the formation of the waste cavity (P) 10. In the case with the formation of damping, it P 8 has pistons 4, 5, 6 and 7, made in the form of spring-loaded perforated discs and fitted with non-return valves 14 communicating the inlet 2 with P 8. On the side of the nozzle 2, the valves 14 are installed in the first disk in the direction of flow of the liquid, and on the side of the outlet nozzle 3 in the latter. The bypass device is made in the form of a cylindrical pusher 12 installed on the side of the pipe 2 and connected to the piston, and a spring-loaded hollow perforated rod 13 installed coaxially with the pusher with the ability to interact with it and the message P 8 and 10. Pressure increase in pipe 2 is compensated for by the valves 14 and the springs 15 of the pistons, as well as by the discharge of fluid into the P 10. 2 Il. with s

Description

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The invention relates to mechanical engineering and can be used to protect trunk pipelines, in particular oil pipelines, from hydraulic shocks.

The purpose of the invention is to improve the reliability of damping hydraulic shocks.

FIG. 1 schematically presents the proposed device, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The device for damping shock hydraulic waves contains a hollow cylindrical body 1 with an input 2 and an output 3 nozzles, spring-loaded pistons 4-7, a damping cavity 8, a cylindrical: sheath 9, a waste cavity 10, a bypass 11 with cylindrical; CMM pusher 12 and hollow perforated i-rod 13, check valves 14,: springs 15-19, hollow tube 20, drain nipple 21.

: A device for damping hydraulic shock works as follows.

At steady flow of fluid in the steps from the inlet nozzle 2 to the outlet nozzle 3, the fluid passes through the hollow tube 20, the spring-loaded perforated pistons 4-7, while the position of the latter is determined by the pressure drop flowing through the perforations of the fluid and the force of the springs 15, 17 and 18. When an insignificant increase in pressure occurs in the inlet pipe 2, the latter is compensated for by the energy dissipation on the valves 14 and the compression of the springs 15. The further pressure dissipation is carried out on the pistons 6 and 7 with valves 14 at the outlet nozzle 3. When a significant pressure pressure develops in the inlet nozzle 2, the latter presses the spring 15 and pulls together the pistons 5 and 6, which overlap the check valves 14. Kine. the force generated on the rod 13. The latter presses the springs 17 and 18, moves in the direction of the outlet nozzle 3 and communicates a damping cavity 8 with a discharge cavity 10, which causes a discharge of fluid with overpressure and the extinction of overpressure in the master whether. When the pressure decreases, the pistons 5 and 6 return to their initial position by the springs 15, 17, 18. To empty the waste cavity 10 from the liquid, a drain pipe 21 is provided in the device.

Claims (1)

Invention Formula A device for extinguishing hydraulic shocks, comprising a hollow cylindrical body enclosing a pipeline with inlet and outlet nozzles and spring-loaded pistons installed in the housing with the formation of a damping cavity communicated with the pipeline, characterized in that, in order to improve the reliability of hydraulic impact damping, the damper is provided with a cylindrical shell covering the body with the formation of the waste cavity, and the bypass device, made in the form installed on the side of the inlet pipe of the cylinder In other words, a classical pusher, kinematically connected with a piston, and a spring-loaded hollow perforated rod, installed coaxially with the pusher with the possibility of interacting with it and communicating the damping cavity with the waste, the pistons are made in the form of two spring-loaded perforated discs and are equipped with check valves. each of which is communicated with the inlet and the outlet with a damping cavity, in each piston from the inlet side, check valves are installed in the first disk in the direction of the fluid flow, and weekend leave pipe - in the latter. 20 (Pu.2