SU1143920A1 - Device for protecting hydraulic systems from water hammers - Google Patents

Abstract

The device for protection from hydrodynamics of hydrosystems containing a cap, a section of the school (the bottom and top parts respectively of the pipeline to be protected and the duct provided with thermostatic valves, and an overflow tank with a drain hole connected with water and air pipes correspondingly of the center part of the cover and the pipe and the pipe of the cover and one of the cover and one of the cover and outlet pipe connected with water and air pipes corresponding to the center part of the cover and the pipe and the center pipe the duct, located between the check valves, is so that in order to increase its reliability by automating the protection against water hammer, the bypass tank is equipped with stop valves and a counterweight mounted on its bottom and installed with the possibility of tilting around an axis displaced relative to its geometric center toward the counterweight, the container being connected to the water pipe through one of the locking bodies, normally opened in the initial position of the container its upturned position, and the other shut-off element is installed on the drain of the container and is filled with a normally closed position in its original position and is openly open (in the tilted position of the container).

Description

The invention relates to hydraulics and can be used to extinguish hydraulic shocks in a network of pipelines. A hydraulic protection device against hydraulic systems is known, which contains a cap connected by its lower part to the protected pipeline and electrodes placed at the calculated level of the fluid in the cap and connected to a current source CO. The disadvantage of such a device is that it has a lower efficiency due to the need for supplying electricity, which is difficult for field conditions, and because of its high costs under conditions of continuous condensation of the vapor vapors forming the discharge causing a constant supply of electricity. The closest to the invention according to the technical essence is a device for protection against hydraulic impacts of hydraulic systems, containing a cap connected to the lower and upper parts, respectively, to the protected pipeline and duct provided with non-return valves, and a bypass tank with a drain hole, a connected water and air pipe | W respectively with the middle part of the cap and the area of the duct, located between the reverse caps C2. A disadvantage of the known device is the reduced reliability due to manual air pumping into a stake for protection against hydro-shock systems. The aim of the invention is to increase the reliability of the hydraulic shock protection device of the hydraulic system by automating the protection against hydraulic shock. The goal is achieved by the fact that in the device for protection against hydroscopes of hydro systems containing a cap, a plug. the lower and upper parts respectively to the protected pipeline and the pipeline supplied with non-return valves, and the overflow tank With a drain hole connected to water and air pipes respectively to the middle part of the bag and the duct section located to the mezvdu non-return valves, the overflow tank is equipped with locking bodies as well as a counterweight fixed on its bottom and fixed with the possibility of tilting around an axis displaced relative to the geometric center towards the counterweight, What capacity is connected to the water pipe through one of the locking bodies, made normally open in the initial position of the container and normally closed in its upturned position, and the other locking element mounted on the drain hole of the container and made normally closed in the original position and normally open in the upturned position capacity. FIG. 1 schematically shows a device for protection against hydraulic shock systems; in fig. 2 - overflow tank in the upturned position. The hydraulic impact protection device of the hydraulic system contains a cap 1, connected to the lower and upper parts, respectively, to the protected pipeline 2 and to the duct 3, equipped with check valves 4 and 5, foam. reposting tank 6 with drain hole 7. Capacity 6 is connected by a water pipe 8 to the middle part of the cap t and by an air pipe 9 to the duct section 3 located between the check valves 4 and 5. The overflow capacity 6 is equipped with zaporny bodies 10 and tt fixed to it the bottom of the counterweight 12 and installed with the possibility of tilting around the axis 13, displaced relative to the geometric center (not shown) of the tank 6 towards the counterweight 12. The tank 6 is connected to the water pipe 8 through a shut-off element 10, made normally open the initial position of the tank 6 and normally closed 1 | m in its upturned position. The locking body 11 is installed on the drain hole 7 of the container 6 and is made normally closed in the initial position and normally open in the tilted position of the container. The counterweight 12 is provided with an abutment 14, and the locking member 11 with an emphasis 15. The overflow tank 6 is located above the drain tank 16. The pipes 8 and 9 are made flexible in the form of hoses. Device for protection from water hammer works as follows. With a sufficient amount of air in the cap 1, the liquid level in it is lower than the calculated one. Overflow capacity

Claims (1)

DEVICE FOR PROTECTION FROM HYDRAULIC SYSTEMS OF HYDRAULIC SYSTEMS, comprising a cap, connections of the lower and upper parts, respectively, to the protected pipe and duct, equipped with non-return valves, and a bypass container with a drain hole connected by water and air pipes, respectively, with the middle part of the cap and the duct section located between the non-return valves , characterized in that, in order to increase its reliability by automating protection against water hammer, the overflow tank is equipped with locking elements, as well as not mounted on its bottom counterweight and installed with the possibility of tipping around an axis offset relative to its geometric center towards the counterweight, and the tank is connected to the water pipe through one of the locking elements, made normally open * in the initial position of the tank and normally closed in its overturned position and another locking element is installed on the drain hole of the container and is made normally closed in the initial position and normally open * in the tilted position of the container. ) gbeng ^{<, and} W "1143920 2