SU881449A1 - Apparatus for relieving pressure - Google Patents

Description

The invention relates to noise suppressors in valves for damping water hammer and is intended for use in hydraulic engineering in systems for protecting hydraulic networks from increasing pressure. $

Closest to the proposed device is a pressure relief device containing a main shutoff member connected to a membrane actuator, a supmembrane cavity of which is connected to a pressure pipe, an auxiliary shutoff orgdn connected to a stand-alone drive, communicating a supranembrane cavity of a main shutoff actuator with drainage, and sensitively DJ driving element · A disadvantage of the known device is that it cannot provide the opening speed of the main locking element that is necessary with increasing pressure in the systems at the time of the water hammer, since they have a link that includes a sensitively 2 setting element and an auxiliary locking element, it works according to the law of proportional regulation and, consequently, the delay time for the main valve to open completely is quite large due to the backwater pressure in the over-piston cavity.

The purpose of the invention is to increase the response time of the discharge device.

This goal is achieved by the fact that the device is equipped with a mechanical relay connected with a sensitive-defining element and an auxiliary locking element, 'and a nozzle that relieves pressure from the corresponding cavities of the main and autonomous ^{- -} ' waters.

In this case, the mechanical relay is made in the form of kinematically interconnected cam, damper rod, return springs, cam and lever.

The drawing schematically shows the proposed device.

The pressure relief device that protects the pressure pipe 1 contains a housing 2, a main shut-off device 5, an actuator 4, a sensitive element 5, an auxiliary shut-off element with an autonomous drive 6, a nozzle 7, a mechanical turnip consisting of a cam 8, a rod damper 9, 10 return springs. 10 and 11, cam 12 and lever 13.

The device operates as follows.

When the pressure in the pressure pipe reaches the actuating pressure, the sensitive-generating element 5 rotates the cam 8 with its rod through an angle, which ensures free movement of the forces of the spring 11 and pressure through the nozzle 7 of the rod-20 of the shutter 9 upwards. Through the nozzle 7, pressure is released from the supranembrane cavity of the drive of the auxiliary locking member 6, which, under the influence of pressure, opens from below, 25 providing pressure relief from the supranembrane cavity of the drive of the main locking member and the opening of the latter by pressure from the pressure pipe.

During the opening process, the main locking element rotates the eccentric 12 with its elongated upper end of the rod, thereby shutting off the nozzle 7, ³⁵ by means of the lever 13 and the damper rod 9, water from the discharge pipe 1 closes the auxiliary locking element through the throttle 14 and then the main one. At the moment of closure of the main locking element, the eccentric 12 and the lever 13 of the ustag ^{40 are} pushed back to their initial positions. There is no discharge through the nozzle 7, since the cam 8, which is returned by the spring 10 when the pressure line of the working pressure is established to its original position, prevents the movement of the up-rod-damper.

The technical and economic effect is to increase the reliability of the protection of water (steam) systems from water hammer by increasing the response speed of the discharge device.

Effective protection using the invention is possible with a pressure rise rate in systems of 15 kgf / cm ^ per second versus 1 kgf / cm ^ per second when using known designs.

Claims (2)

The invention relates to noise absorbers in valves for damping hydraulic shocks and is intended for use in hydraulic engineering in the protection systems for hydraulic networks against pressure build-up. Closest to the present invention is a pressure relief device comprising a main shut-off member connected to a membrane drive, the supermembrane cavity of which is connected to the discharge pipe, an auxiliary shut-off member connected to an independent drive that communicates the over-membrane drive cavity of the main stop organ to the drainage and the sensitive-driver element of the GONEDRESS of a known device is that it cannot provide the speed of opening of the main closure member that is necessary and when pressure builds up in the systems at the moment of water hammering, since they have a link, including a sensory driver element and an auxiliary shut-off element, it works according to the law of proportional control and, therefore, the delay time of the full opening of the main valve is quite large due to the presence of back pressure in nadporshnevoy cavity. The purpose of the invention is to increase the response speed of the waste device. The goal is achieved by the fact that the device is equipped with a mechanical relay connected with a sensitive-setting element and an auxiliary shut-off organ, and a nozzle that releases pressure from the corresponding cavities of the main and independent actuators. In this case, the mechanical relay is made in the form of kinematically interconnected cam, stem-valve, return springs, eccentric and lever. Cha drawing schematically shows the proposed device. The pressure relief device dp, protecting the pressure pipe 1, contains a body 2, a main shut-off body 3, its actuator 4, a sensing element 5, an auxiliary shut-off body j with an independent drive 6, a nozzle 7, a mechanical turnip consisting of a cam 8, a rod-damper 9 , return springs. 10 and And, the eccentric 12 and the lever 13. The device operates as follows. When the pressure in the discharge pipe is reached, the sensing-release actuation element 5 with its rod turns the cam 8 by an angle, ensuring free running by the forces of the spring 11 and pressure through the nozzle 7 with the rod casing 9 up. Through the nozzle 7, pressure is released to the supramembrane cavity of the auxiliary shut-off valve 6, which opens under the pressure, providing pressure relief from the drive valve of the main valve body and opening the latter by pressure from the discharge pipe. in the process of opening, the main valve body turns the eccentric 12 with its elongated upper end of the stem, thereby using the lever 13 and the rod-valve 9 closing the nozzle 7 water from the discharge pipe 1 through the throttle 14 closes the auxiliary watchdog organ and then the main The eccentric locking member 12 and the lever 13 will be placed in their initial positions. There is no drain through the nozzle 7, since the cam 8, which is returned by the spring 10 at the steady-state pressure head 8, prevents the screw-in-stem-damper from moving. 4 pipeline operating pressure to its original position. The technical and economic effect is to increase the reliability of protecting water (steam) systems from water hammering by increasing the response rate of the waste device. Effective use of the image is possible at a rate of increase in pressure in systems of 15 kgf / cm per second versus 1 kgf / cm per second using known constructions. Claim 1. A pressure relief device comprising a main valve body connected to a membrane drive, a supermembrane cavity of which is connected to a pressure pipe, an auxiliary valve body connected to an autonomous drive, and a supramembrane drive cavity of a main valve body connected to the standalone valve and sensitive A control element, similar to the fact that, with the speed of response, the device is equipped with a mechanical relay associated with a sensitive element and an a powerful shut-off organ, and a nozzle that releases pressure from the respective cavities of the main and autonomous actuators. 2. The device according to claim 1, characterized in that the mechanical relay is implemented in the form of a kinematically interconnected cam, stem valve, return springs, a lever and an eccentric. Sources of information taken into account in examination 1, USSR Copyright Certificate No. 623045, cl. F 16 L 55/02, 1975.