RU2285181C2 - Pulse-safety device - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: pulse-safety device comprises safety valve provided with housing having inlet and outlet branch pipes. The inlet branch pipe is connected with main pipeline of a power plant. The outlet branch pipe is in communication with the atmosphere. The housing receives cut-off member and servodrive. The cut-off member has seat and plate. The servodrive has chamber with piston. The spring-loaded rod of the piston is connected with the plate of the cut-off member. The pulse valve has inlet and outlet branch pipes. The inlet branch pipe is connected with the main pipeline of the power plant. The outlet branch pipe is connected with the above-piston space of the chamber of servodrive. The device is additionally provided with control valve whose inlet is connected with the above-piston space of the servodrive chamber. The outlet of the control valve is connected with the under-piston space of the chamber.

EFFECT: enhanced reliability.

1 dwg

Description

The invention relates to protective power fittings, in particular to pulse-safety devices designed to protect against overpressure in boiler units, pipelines, vessels operating under pressure, and other TPP facilities.

Known pulse-safety device comprising a housing with inlet and outlet pipelines, a shut-off element mounted on the piston rod of the drive cylinder, a pulse diaphragm valve with outlet and inlet side pipes, the last of which the valve inlet chamber is in communication with the line connecting the membrane cavity of the pulse valve with the supply pipe, and the inlet chamber of the pulse diaphragm valve is equipped with an axial outlet pipe with a check valve connected together with the side outlet subpiston zone tube to the drive cylinder (see. the disclosure of AS USSR №1229498, appl. 11/29/84, publ. 05.07.86, cl. F 16 K 17/10).

The claimed and known solutions have the following common essential features: a housing with inlet and outlet pipelines, a shut-off element fixed to the piston rod of the drive cylinder; pulse valve with outlet and inlet nozzles.

A disadvantage of the known pulse-safety device is that it does not allow for a smooth operation of the locking element mounted on the piston rod of the drive cylinder, and reliable protection of power equipment of thermal power plants. In addition, the device has a complex structure.

The closest set of essential features to the claimed technical solution (prototype) is a pulse-safety device containing a safety valve having a body with an inlet and outlet nozzles, the inlet of which is connected to the main pipeline of the power plant, and the outlet with the atmosphere, located in the housing an organ consisting of a seat saddle and a plate, and a servo-drive including a chamber with a piston, the spring-loaded stem of which is connected to the plate of the locking member, and a pulse valve connected with the inlet pipe to the main pipeline of the power plant, and the outlet pipe with a piston space of the servo-drive chamber (see the Industry catalog NIIEINFORMENERGOMASH "Power fittings for TPPs and NPPs" M., 1981, pp. 42-54).

Salient features: safety valve having a housing with inlet and outlet nozzles; connection of the inlet pipe with the main pipeline of the power plant, and the outlet with the atmosphere; placement in the housing of a locking member consisting of a saddle of the housing and a plate; the execution of a servo drive, including a chamber with a piston, a spring-loaded rod of which is connected to the plate of the locking element; the presence of a pulse valve, the inlet pipe connected to the main pipeline of the power plant, and the outlet with the piston chamber space of the servo drive, are common essential features with the claimed technical solution.

The disadvantage of this device is also that it does not provide the possibility of reliable protection of power equipment of thermal power plants with a sharp increase in pressure in the main pipeline.

The problem to which the present invention is directed, is to provide the possibility of reliable protection of power equipment of thermal power plants with a sharp increase in pressure in the main pipeline by smoothly operating the shut-off element of the safety valve.

The problem is solved in that in a pulse-safety device containing a safety valve having a housing with inlet and outlet nozzles, the inlet of which is connected to the main pipeline of the power plant, and the outlet with the atmosphere, located in the closure body, consisting of a housing seat and plates, and a servo-drive, including a chamber with a piston, a spring-loaded rod of which is connected to a plate of a shut-off element, and a pulse valve, an inlet pipe connected to the main pipeline building the power plant, and an outlet to the overpiston space servo chamber according to the invention the pulse-safety device further comprises a control valve having an input connected to the overpiston space servo chamber and with its output subpiston space.

Salient features: presence of a control valve in the pulse safety device; the connection of the control valve inlet with the piston space of the safety valve servo chamber, and the output with its piston space distinguish the claimed invention from its closest analogue.

The invention is illustrated in the drawing.

Pulse safety device contains a safety 1, pulse 2 and control 3 valves. The safety valve 1 has an inlet 4 and an outlet 5 nozzles, the inlet 4 of which is connected to the main pipeline 6 of the power plant (not shown in the drawing), and the outlet 5 to the atmosphere. In the body of the safety valve 1 there is a locking element and a servo-drive. The locking element consists of a saddle 7 of the housing and the plate 8. The servo drive includes a chamber 9 with a piston 10, a spring-loaded rod 11 of which is connected to the plate 8 of the locking element. The pulse 2 valve has an inlet 12 pipe connected to the main pipeline 6 of the power plant, and an outlet 13 connected to the supra-piston space of the servo drive chamber 9. The control valve 3 has an inlet 14, which is connected to the nadporshnevoy space of the chamber 9 of the servo drive, and an outlet 15 connected to its subpiston space.

As a pulse valve, for example, valve 8c-3 manufactured by the Barnaul boiler plant can be used, and as a control valve, a needle valve 10c-1-1.

Pulse safety device operates as follows.

The pulse 2 valve is preliminarily set to act upon a certain excess of pressure in the main pipeline 6 of the power plant and the control valve 3, and when setting the control 3 valve, its flow area is set smaller than the flow area of the pulse 2 valve.

If the steam pressure in the main pipeline 6 of the power plant is exceeded above the permissible value, the pulse 2 valve connected by the inlet 12 to the main pipe 6 opens. Steam from the outlet 13 of the pulse 2 valve pipe is fed into the supra-piston space of the chamber 9 of the servo-drive of the safety valve 1. Due to the vapor pressure in the above-piston space of the servo-drive chamber 9, the piston 10, overcoming the spring force of the rod 11, moves, while the rod 11 presses on the plate 8. Steam from the main pipeline 6 of the power plant through the annular space between the seat 7 of the housing and the plate 8 of the shut-off element comes to the outlet pipe 5, and then to the atmosphere. Since the over-piston space of the chamber 9 is connected to the inlet 14 of the control 3 valve, and the sub-piston space with its output 15, the steam from the output 15 of the control 3 valve simultaneously enters the under-piston space of the chamber 9. The pressure generated by the control 3 valve in the under-piston space of the chamber 9 , prevents the quick operation of the safety valve 1. The speed of the safety valve 1 depends on the setting of the control valve 3.

The claimed invention makes it possible to reliably protect the power equipment of thermal power plants with a sharp increase in pressure in the main pipeline by smoothly operating the shut-off element of the safety valve.

Claims (1)

A pulse-safety device containing a safety valve having a housing with inlet and outlet nozzles, the inlet of which is connected to the main pipeline of the power plant, and the outlet with the atmosphere, a shut-off element consisting of a housing seat and a plate, and a servo-drive including a camera with a piston, a spring-loaded rod of which is connected to the plate of the locking element, and a pulse valve, an inlet pipe connected to the main pipeline of the power plant, and exhaust the overpiston space servo chamber, characterized in that the pulsed-pressure relief device further comprises a control valve having an input connected to the overpiston space servo chamber and with its output subpiston space.