SU1472735A1 - Pressure-releif valve - Google Patents

Abstract

The invention relates to a valve industry and can be used to protect gas systems from exceeding permissible pressure. The purpose of the invention is to increase the reliability of operation by increasing the effective area of sensitive elements with a high rate of increase in pressure. With a sharp increase in pressure in the pipe 2 at the same rate, the pressure in the cavity 11 of the bellows 8 increases, and the pressure in the cavity 13 of the bellows 9 increases more slowly due to the throttles 15, and due to the pressure differences on the bellows 8 and 9, an accelerated opening of the valve will occur. 1 il.

Description

ten

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The invention relates to a valve and can be used to protect gas systems from exceeding the allowable pressure, especially with a high rate of pressure increase.

The purpose of the invention is to increase the reliability of operation by increasing the effective area of sensitive elements with a high rate of increase in pressure.

The drawing shows the proposed valve, a general view.

In case 1 with inlet 2 and outlet 3 nozzle and nozzle 4 of the preset pressure, there is a saddle 5 against which the locking organ 6 is pressed. The force to the locking organ is transmitted through the rod 7. The sensing element consists of the first 8 and an additional 9 bellows fixed by adjacent ends on partition 10 symmetrically to each other. Opposite ends of the sylphons are plugged and connected to the rod 7. The partition 10 is fixedly mounted on the housing 1. The cavity 11 of the first bellows 8 is connected to the input cavity 12 by channel 13, which is made in the DZ of the partition 10. In the partition 10 there is an opening through which free movement of the rod 7, the cavity 14 of the additional bellows 9 is connected to the input cavity 12 of the valve through the throttle 15, which can be adjustable. The inlet pipe 2 valve is connected to the protection. object 16.

9 grows slower due to the presence of droplets 15. As a result, there is a difference between the pressure in the inlet cavity 12 and the pressure in the cavity 14 of the additional bellows 9. And this difference is the greater, the faster the pressure in the object grows. This pressure drop causes an additional force that leads to an earlier opening of the valve. As a result, the valve begins to open before the pressure in the object reaches the setpoint pressure, and a possible overpressure due to the finite valve opening time is completely excluded or reduced to a safe value.

When the pressure in the protected object is slowly increased, the pressure in the inlet cavity and in the cavity of both bellows increases in the same way. The force that causes the valve to open is due to the differential between the pressure in the first bellows 8 and the driving pressure. After the pressure in the object drops to a value less than the reference pressure, the valve closes, due to the difference between the reference pressure and the pressure in the cavity 11 of the first bellows.

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Claims (1)

Invention Formula A safety valve, a shedding body with inlet and outlet pipes and a partition inside, a stop organ and bellows, one torus of which is filled and connected through . l j Ciixxj. The valve operates as follows. Through the stem through the septum With the working pressure of the environment of the protected object, the pressures in the inlet cavity of the valve and in the cavity of both bellows are equal to each other. An increase in zadachnogo pressure overcomes the force from the pressure in the cavity 11 of the first bellows 8 and presses the closure body 6 to the saddle 5, ensuring the density in the gate. With a sharp rise in pressure in the object, the pressure in the inlet cavity 12 of the valve and in the cavity 11 of the first bellows 8 grows the same, and the pressure in the cavity 14 of the additional sylphon 45 50 with a locking organ, and the other is fixed on the side of the partition, the inner cavity of the bellows is connected to the duct with the inlet branch pipe, characterized in that it is equipped with an additional bellows fixed with one end on the opposite side of the partition to increase reliability, and the other end is strong The background is plugged and connected to the indicated rod, and the internal cavity of this bellows is connected via a choke to the inlet. ten 15 25 ZO 472735 9 grows slower due to the presence of droplets 15. As a result, there is a difference between the pressure in the inlet cavity 12 and the pressure in the cavity 14 of the additional bellows 9. And this difference is the greater, the faster the pressure in the object grows. This pressure drop causes an additional force that leads to an earlier opening of the valve. As a result, the valve begins to open before the pressure in the object reaches the setpoint pressure, and a possible overpressure due to the finite valve opening time is completely excluded or reduced to a safe value. When the pressure in the protected object is slowly increased, the pressure in the inlet cavity and in the cavity of both bellows increases in the same way. The force that causes the valve to open is due to the differential between the pressure in the first bellows 8 and the driving pressure. After the pressure in the object drops to a value less than the reference pressure, the valve closes due to the difference between the reference pressure and the pressure in the cavity 11 of the first bellows. 20 Invention Formula A safety valve, a shedding body with inlet and outlet connections and a partition inside, a stop valve and bellows, one end of which is plugged and connected through pass through the bulkhead stock the other body is fixed on the side of the partition, the inner cavity of the bellows is connected to the inlet pipe, characterized in that, in order to improve reliability, it is equipped with an additional bellows fixed with one end on the opposite side of the partition, and the other end of the | the background is plugged and connected to the indicated rod, and the inner cavity of this bellows is connected via a choke to the inlet.