SU1229498A1 - Safety device - Google Patents

Description

The invention relates to heat and power engineering, namely to devices for protecting pipelines and: Vessels from increasing pressure, and can be used in heat supply systems.

The purpose of the invention is to increase reliability and efficiency by ensuring the locking member is locked in the open position.

The drawing shows a schematic diagram of a safety device.

The safety device includes a housing 1 with an inlet 2 and an outlet 3 pipelines, a shut-off member 4 fixed on the rod 5 of the piston 6 of the actuator 7, a pulse membrane 8 with an outlet 9 and an inlet 10 side connections, the last of which is the inlet chamber 1 1 of the valve 8 connected to the line 12 connecting the cavity 13 of the membrane 14 of the pulse valve 8 with the inlet pipe 2, and the input chamber 11 of the pulse membrane valve: 8 is equipped with an axial outlet nozzle 15 with a check valve IGj connected with the side valve odnym pipe 9 to podporsh- Neva zone 17 of the driving cylinder 7,

To close the closure member 4, the drive cylinder. 7 is provided with a power cord 18, and the pulse diaphragm valve 8 is equipped with a piston 19,

At a nominal pressure of the medium in the supply pipe 2, the force exerted by the pressure of the medium on the shut-off member 4 and on the piston b from the piston 7 of the drive cylinder 7, where the medium enters through the open pulse diaphragm valve 8 is insufficient to overcome the force of the force spring 18 and the locking member 4 separates the supply lines 2 and the discharge pipes 3 trz.

When the pressure in the inlet pipe 2 is higher than the permissible diaphragm 14, under the action of the pressure of the medium, it moves and moves the piston I9 of the pulse diaphragm valve 8, which overlaps

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supplying the medium to the side outlet 9. In the piston zone 17 of the drive cylinder 7, the medium continues to flow through the non-return valve 16 of the axial outlet manifold 5, which leads to a pressure increase in the piston zone 7, the piston 6 and the shut-off member 4 moving upwards; and the discharge of 3 pipelines and discharge of the medium from the supply pipeline.

When the pressure in the inlet pipe 2 but not below the nominal pressure decreases, the diaphragm 14 and piston 19 remain in a displaced position, in which the side outlet 9 remains blocked and the medium cannot escape from the piston zone 17 of the drive cylinder 7 and the safety device remains open. When the pressure drops below the nominal I1Pulse-diaphragm valve 8 opens, this leads to a decrease in the pressure in the sub-piston zone 17 of the drive cylinder 7, the piston b and the shut-off member 4 moving downwards under the action of the spring 18 and the safety device closes.

Thus, the safety device ensures the locking of the locking member 4 depending on the magnitude of the overpressure: with small disturbances a slight lifting of the locking member 4 occurs and its fixation, with large disturbances the lifting up to full opening and also fixing. This mode of operation of the safety device allows. It is necessary to reduce to the lowest possible level the normal pressure in the system is restored. The process of pressure recovery occurs in this case with a minimum of -1-1 medium loss.

The presence of only two elements in the control circuit of a safety device — a check valve and a pulse diaphragm valve controlled by the working medium — increases the reliability of operation and simplifies the design of the device.

Claims (1)

SAFETY DEVICE, mainly a heating system, comprising a housing with inlet and outlet pipelines, a shut-off element fixed to the piston rod of the drive cylinder, a pulse diaphragm valve with an outlet and inlet side pipes, the last of which is the valve inlet chamber connected to the line connecting the cavity of the pulse valve membrane to the inlet the pipeline, characterized in that, in order to increase reliability and efficiency by ensuring the locking of the locking element in the open position, the input The pulse diaphragm valve measure is provided with an axial outlet pipe with a check valve connected together with the side outlet pipe to the sub-portal area of the drive cylinder.