SU932059A1 - Safety valve - Google Patents

Description

The invention relates to a valve industry, in particular to means of protecting pipelines from overloading pressures and can be used in land reclamation to protect pipelines of irrigation networks from water hammer and a static increase in pressure above permissible.

A means of protecting pipelines from overloading pressures is known, in the casing of which, connected by its working nozzle to the protected system, a membrane block body 1 is installed.

The disadvantage of this device is its low reliability due to possible leakage of the working medium from the pipeline due to sealing of the closure member.

The closest in technical essence to the present invention is that containing a main diaphragm valve, the control cavity of which is in communication with the pressure line and with drain channels, closed by a pulse and control valves, and the normally open valve valve stem is connected with a sensitive element made in the form of a membrane with a rigid center, the working cavity of which is facing the shut-off organ and is connected by a channel with a pressure line 2.

A disadvantage of the known device is also its low reliability of operation in the transition mode (when the valve is opened or closed), due to the simultaneous open position of the pulse and control valves.

The purpose of the invention is to increase the reliability of the hydraulic valve.

This goal is achieved by

15 that the valve is provided with a shank valve mounted on the body for the pulse valve stem, the main closure member membrane with its central part is fixed to the guide 20, the channel that connects the pressure line to the control cavity, and the channel that connects the working cavity to pressure highway - in stock, and

25, an additional sensing element connected to the control valve is installed on the rigid center of the pulse valve membrane; the cavity is communicated with the working cavity.

30 channel in the hard center, and the connection

An additional sensitive element with a control valve is made in the form of a two-armed lever.

The drawing shows a valve, a general view.

In the valve body 1, there is a main diaphragm valve 3 communicating with the seat 2, the control cavity 4 of which is connected to the pressure line 5 and with the drain channels b and 7, blocked by the pulse 8 and the control 9 valves. A normally open shut-off valve body 10 of the pulse valve is connected by a rod 11 with a sensitive element made in the form of a membrane 12 with a rigid center 13. The working cavity 14 of the membrane 12 faces the shut-off valve 10 of a pulse valve and is connected by a channel 15 with a pressure line 5. The rod 11 is placed in the guide 16 installed in the housing, and the main diaphragm body with its central part is fixed on the guide 16. Channel 6 is made in the guide, and channel 15 is in the stem.

On the rigid center 13 of the membrane 12, an additional sensing element 17 is installed, the cavity 18 under which communicates with the working cavity 14 by a channel formed in the rigid center, and the control valve is connected to the additional sensitive element 17 via the lever 19.

The hydraulic valve works in the following way.

When fluid is supplied to the pressure line, it passes through the pulse valve through channel 6 to the control cavity 4, the working cavity 14 of the membrane 12 and the cavity 18 of the floor by the sensitive element 17, reliably pressing the locking member 3 to the saddle 2. As the pressure of the liquid increases, the force acting on the membrane 12, forcing the latter to move together with the locking organ 10 in the direction of its closure. The control cavity is separated from the pressure line. A further increase in pressure causes the movement of the sensing element 17, which through the lever 19 acts on the control valve 9, opening it and, together with the control cavity, with a drain. The pressure in the control will fall, and under the pressure of the liquid ao input line the main diaphragm valve rises

from the saddle, together the pressure line with the drain. The valve is open.

The valve closes in reverse order. When the pressure drops, the control valve is first closed, then the pulse valve opens, together with the control cavity with the pressure line, which leads to an increase in pressure over the diaphragm valve, causing the valve to close.

Thus, by eliminating the possibility of simultaneous opening of the pulse and control valves, the reliability of the hydraulic valve is increased.

Claims (2)

1. B.T. Sitnikov and others. Calculation and design of safety and overflow valves. M., Mechanical Engineering, 1972, p. 18, ris.6.23. 2. Authors certificate of the USSR 252795, cl. F 16 K 17/10, 1965.