SU1749559A1 - Pressure-free emergency valve - Google Patents

Abstract

The invention relates to a distribution hydraulic apparatus and can be used to block the supply of pumps in emergency situations. The purpose of the invention is to increase reliability and reduce energy consumption. In housing 1, having an inlet 2, an outlet 3 and a discharge tube 14, a spool 4 is installed with a transverse bore 5 and a discharge sleeve 12, 13. If the pipeline is damaged after the exit 3, the spool 4 is moved due to a pressure difference of 6.7 in the bottom extreme position. The liquid at the same time from the inlet 2 through the outlet sleeves 12,13 and the outlet tube 14 enters the hydraulic tank. 1 il.

Description

The invention relates to distribution hydraulic equipment and can be used to block the supply of pumps in emergency situations. '

Known non-pressure emergency valve containing a cylindrical hollow body with closed ends, inlet and outlet, a cylindrical spool with a transverse hole located inside the body with the formation of the nadzolotnikovy and podzolotnikovy channels, nadzolotnikovy and podzolotnikovy channels that connect the input and output respectively with nadzolotnikovoy and podzolotnikovy cavities , a spring located in the podzolotnik cavity and squeezing the spool to its highest position at which its transverse hole is connected to the input ' and exit.

A disadvantage of the known technical solution is the high energy consumption with a sharp overlap of the pipeline and an increase in pressure in it, as well as low reliability due to the high probability of pipeline breakage before the valve.

The purpose of the invention is to increase reliability and reduce energy consumption. ;

This goal is achieved in that a pressure-free emergency valve containing a cylindrical hollow body with closed ends, an inlet and an outlet, a cylindrical spool with a transverse hole located inside the body with the formation of a nadzolotnikovy and podzolotnikovy cavities, nadzolotnikovy and podzolotnikovy channels connecting the input and output respectively nadzolotnikovoy and podzolotnikovym cavities, a spring located in the podzolotnikovy cavity and squeezing the spool to its highest position, at which its transverse the hole is connected to the inlet and outlet, is equipped with a branch pipe connected to the hydraulic reservoir, and the upper and lower branch sleeves are made in the spool, connecting the transverse hole to the side surface of the valve and made to combine the upper sleeve with the inlet and lower sleeve with the branch pipe when moving the spool to its lowest position. - ¹

The drawing shows a valve axial section.

The non-pressure emergency valve contains a cylindrical hollow body 1 with closed ends, as well as an inlet 2 and an outlet 3. Inside the body 1, there is a cylindrical spool 4 with a transverse hole 5. connecting the inlet 2 to the outlet 3 with the upper extreme position of the spool 4.

The spool 4 is placed in the housing 1 with the formation of the nadzolotnogo 6 cavities and 7 podzolotnogo cavities and is pressed by a spring 8 located in the podzolotnogo cavity .7, to the upper stop 9 located in the nadzolotnogo cavity 6. Nadzolotnikovaya cavity 6 is connected by the nadzolotnik channel 10 with input 2, and the podzolotnik cavity 7 is connected by the podzolotnik channel 11 with the outlet 3, In the spool 4 there are made upper 12 and lower 13 outlet arms connected to the transverse hole 5 and blocked by the housing 1 at the extreme upper position of the spool 4. In the housing 1 and there is a branch pipe 14 connected to a hydraulic reservoir (not shown). The axes of elements 2, 3, and 10-14 are in the same plane.

The spool 4 is located in the housing 1 with the ability to move to the lower stop 15 and lock in this position by a lock 16 that interacts with the socket 17 on the spool 4. In this position, the input 2 is connected to the upper outlet sleeve 12, and the tube 14 is the lower outlet sleeve thirteen. '. .

The valve operates as follows.

Input 2 and output 3 of the valve are connected to a pipe (not shown). With a working pipeline, the hole 5 of the spool 4 to the outlet 3. Moreover, the pressure in all valve elements is the same and equal to the pressure of the pumped working fluid.

If the pipeline is damaged on the output side 3, the pressure in the podzolotnik cavity 7 sharply sets. The pressure in the nadolotnogo cavity 6 with the appropriate selection of the spring 8 will move the spool 4 to the stop 15. This will fix the spool 4 lock 16, and the working fluid entering the inlet 2 will flow through the outlet sleeves 12 and 13 to the outlet pipe 14 and then to hydraulic capacity.

The proposed technical solution improves the reliability of the valve and the hydraulic system in which it is included, as well as reduce the energy consumption for pumping liquid after a pipeline accident.

Claims (1)

Claim A non-pressure emergency valve comprising a cylindrical hollow body with closed ends, an inlet and an outlet, a cylindrical spool with a transverse hole located in the body with the formation of an over- and podzolotnik cavities, an over- and podzolotnik channels connecting respectively the inlet and outlet of the over- and podzolotnik cavities, a spring located in the podzolotnik cavity and squeezing the spool to its highest position, in which its transverse hole is connected to the inlet and outlet, and with the aim of it being higher tions reliability and reduce power consumption, it is equipped with the discharge pipe. connected to the hydraulic reservoir, and the upper and lower branch sleeves are made in the spool, connecting the transverse hole to the side surface of the spool and made to combine the upper sleeve with the inlet and the lower sleeve with the branch tube when the spool is moved to its lowest position.