SU1657819A1 - Excessive pressure relieving device - Google Patents

Abstract

The invention relates to a valve and is intended to protect systems from overpressure in them above the permissible value. The aim of the invention is to improve the reliability of the device in a wide temperature range by eliminating the influence of temperature on the mechanical properties of the destroyed node. When the pressure of the working medium increases above the permissible value, the set of split spring washers 8 and 9 loses its stability, resulting in free from the rod 10, it is possible either to latch one of the washers or to break the set into two spirals. In both cases, the node 7 is destroyed, the locking member 5 releases the flow area and The working medium is discharged through the windows 2 Due to the fact that the washers 8 and 9 in the working position are pressed one against the other before touching over the entire surface of the ends, a change in the working temperature can not significantly affect the 3 characteristics of the longitudinal stability of the entire set 1 or less

Description

The invention relates to valve engineering and is intended to protect systems from excess pressure in them more than permissible.

The aim of the invention is to increase the reliability of the device in a wide temperature range by eliminating the influence of temperature on the mechanical properties of the destroyed site.

The drawing shows a device, General view.

The device comprises a housing 1, in the wall of which there are windows 2 for dumping the working medium. The housing 1 is connected by screws 3 to the base 4, and the passage channel of the housing is blocked by a locking member 5 provided with a sealing element

6. The locking body 5 is pressed against the base 4 by a destructible assembly 7. made in the form of a set of split spring washers 8 and 9 in contact with one another (for example, Grover washers) having alternating unequal internal diameters.

The device is also equipped with means for regulating the response pressure, made in the form of a rod 10 connected to the housing 1, on the surface of which a helical groove is made. Washers 8 with a smaller inner diameter are included in the screw groove of the rod 10.

The device is assembled as follows.

The rod 10 is screwed into the housing 1 (for the length of the complete assembly), then the washers 8 and 9 are screwed onto the rod 10 alternately. The washers 8, being paired with the screw groove of the rod 10. slide along it, forming the hollows of the first spiral along which the paired with it washers 9 of the second spiral. As a result of the assembly, a columnar destructible assembly 7 is formed, on which a locking member 5 is freely installed or using an adhesive composition. Further, the device is attached to the base 4 with screws 3 through the sealing element 6. The screws 3 are tightened with a torque wrench in order to achieve destructible node 7 of a given force, Then the rod 10 by rotation is removed from the node 7 by an amount that ensures its destruction at a given pressure value.

The device operates as follows.

In the state of normal operation, the pressure of the working medium acting on the shut-off element 5, through the destructible node 7 and the housing 1 is transmitted to the base

4. In this state, the device remains leakproof.

In the case when the pressure of the working medium exceeds a predetermined limit, the destructible unit 7 loses its stability. The first stage of stability loss is characterized by a joint longitudinal bending of the entire set of washers 8 and 9, as a result of which increasing bending stresses appear in its sections. Due to the fact that tensile bending stresses are not possible in the sections of the destructible assembly free from contact with the rod 10, the further process of buckling goes into the second stage, which is characterized by undocking washers 8 and 9 of the destructible assembly 7, and. as a result, a sharp reduction in the compression zone in its sections. The development of this stage of loss of stability of the destroyed node 7 ends either by snapping out one or several washers 8 and 9, or by dividing the screw pair into separate branches. In both cases, further the destruction of the node 7 to the constituent elements occurs. Next, the locking member 5 departs from the base 4, followed by a pressure relief of the working medium through the bore of the housing 1 and the window 2. To control the response pressure, rotate the rod 10 in a direction that reduces the linear bending stiffness of the destructible unit 7. which leads to a decrease in the value critical pressure

Claims (1)

Claim A device for unloading excess pressure, comprising a housing, the passage channel of which is blocked by a locking member. equipped with a sealing element and destructible node with means for regulating the response pressure, which is different. what. in order to increase the reliability of operation over a wide temperature range, the destructible unit is made in the form of a set of split spring washers in contact with each other with alternating. unequal internal diameters, and the means for controlling the response pressure is made in the form of a rod connected to the housing, on the surface of which screw groove. while spring washers with a smaller inner diameter are included in the screw groove of the rod.