RU2673922C2 - Two-way shutoff valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the field of nuclear power machine building, and can be used in pipelines with potentially hazardous working medium, working at high parameters of the working environment and high reliability requirements, for example, in nuclear power plants. Set task is achieved due to fact that in the known two-way shut-off valve comprising the angular body with axial and lateral branch pipes and two sealing seats, interacting with the latter main and additional locking bodies, located in the internal cavity and connected to coaxially located rods and their independent drives. Main and additional locking bodies are equipped with spools, connected to coaxially located rods and placed on the axial branch pipe side opposite to the side branch pipe. Main locking body spool is connected to the tubular stem. Additional locking body spool is made in the form of cup, which depth is greater than the main locking body stroke.

EFFECT: invention is aimed at creation on the pressure source outlet axial connection mounted double-shut valve design, providing reduced mass-dimensional characteristics by using the self-sealing in the gate principle, due to, that the valve closing is performed in the direction, which coincides with the medium flow direction.

4 cl, 1 dwg

Description

The invention relates to the field of nuclear power engineering and can be used in pipelines with a potentially hazardous working environment, operating at high working medium parameters and high reliability requirements, for example, in nuclear power plants as a localizing shut-off device, for emergency cutting off of a steam generator in 2 circuit when inter-circuit leakage is detected, i.e. leakage of the medium of the first circuit (high pressure water) into the second circuit (the "low pressure" region).

A specific feature in the operation of the localizing reinforcement of the second circuit is the loading of the valve gates, in case of inter-circuit leakage, by the pressure of the primary circuit medium, many times higher than the vapor pressure during normal operation of the installation. For this reason, acceptable mass-dimensional characteristics of the valve can be obtained only by using the pressure of the medium for self-sealing in the valves, i.e. the pressure should act in the direction “to the valve” (in the present description, the terminology according to GOST R 52720-2007 “Pipe fittings, terms and definitions” is used, according to which the valve is “a combination of movable (spool ...) and fixed (saddle) elements fittings forming a bore and a connection that impedes the flow of the working medium). Accordingly, as applied to a double-locking valve, the term “main shutter” as used in the present description means the combination of the main locking member and the corresponding housing seat, and the term “additional shutter” means the combination of the additional locking member and the corresponding housing seat.

A specific field of application of the alleged invention is the use as a shut-off shut-off device located on the vertical outlet pipe of the steam generator, providing double overlap of the passage.

Known three-way valve according to German patent No. 206730, class. 47g 20/01, 1907 g, comprising a housing with two saddles and interacting with them the main and additional locking bodies connected to coaxially located rods connected with actuators providing independent movement of the locking bodies. The purpose of this design is to redistribute the flows of the working environment, it is impossible to use it as a shut-off device.

Known valve A.S. USSR No. SU 1376671, A1 F16K, publ. 01/24/86, containing a housing with inlet and outlet nozzles installed in the housing coaxially with the saddle, the additional nozzle communicating with an additional cavity between the saddles, made in the form of an annular groove offset toward the additional nozzle. This design is designed to organize a full-scale flow of the working medium through an additional pipe. For valves in which the additional nozzle is intended only to divert possible leaks through the main valve, the use of this design is impractical because it has increased mass and dimensional characteristics.

The closest in technical essence and the achieved result is a valve according to AS USSR No. SU 1137848, F16K 11/20, publ. 06/17/83, containing a housing with saddles and interacting with them, the main and additional locking bodies connected to coaxially located rods connected to actuators providing independent movement of the locking bodies, and an additional cavity with a nozzle, the additional cavity is made in the form of an annular collector concentrically located on the outside of the body, in which holes are made along the perimeter between the seats, through which the internal cavity of the valve communicates with the additional cavity.

This design is designed to provide the ability to organize the flow of the working medium through an additional pipe. For valves in which the additional nozzle is intended only to divert possible leaks through the main valve, the use of this design is also impractical due to the increased mass-dimensional characteristics.

A common drawback of these designs, excluding their use in reactor installations with a vertical outlet of the steam generator on which the valve should be placed, is the inability to use the principle of self-sealing in the valve in the closed position of the valve.

The aim of the invention is to create a double-valve design installed on the output axial pipe of the product - a pressure source that provides reduced weight and size characteristics by using the principle of self-sealing in the valve due to the fact that the valve is closed in the direction coinciding with the direction of the medium flow.

This goal is achieved by the fact that in the well-known double-locking valve containing an angular housing with axial and side nozzles and two sealing seats, interacting with the latter, the main and additional locking bodies located in the internal cavity of the housing and connected to coaxially located rods and their independent actuators, the main and additional locking bodies are equipped with spools connected to coaxially located rods and placed opposite to the axial nozzle a lateral conduit, the valve closing the main body is connected to the tubular rod, and the spool further locking body is designed as a nozzle, the depth of which is greater than the closing stroke main body.

The valve body is equipped with a stepped sleeve interacting in the open position of the main shutter with the supporting end surface of the stem of the main locking body.

The stem of the additional locking body is equipped with a supporting end surface that interacts with the actuator housing in the open position of the additional shutter.

A threaded sleeve with a profile inner surface is installed in the axial pipe.

In FIG. The image of the proposed double-valve is presented.

The two-way valve consists of the following components:

- angular-type housings 1 with axial 2 and lateral 3 nozzles, two sealing seats 4 and 5 sequentially placed in the internal cavity, drainage nozzle 6 for diverting possible leaks through an additional shutter from the seat, guides 7 and 8 and axial channel 9 in the upper part , a flange 10 for docking with the rack 11, a fitting 12 for removing leaks from the seals of the axial channel 9 and a screwed threaded sleeve 13 with a profile inner surface. A stepped sleeve 14 is attached to the upper end of the housing 1, which, when controlling the main locking body 15, performs the function of restricting the movement of the rod 16.

Sealing seats 4 and 5 are placed in the inner cavity of the housing 1 from the side opposite to the side pipe 3, and therefore the pressure of the transported medium is used for self-sealing in the valves when the valve is in the closed position, since the valve is closed in the direction coinciding with the direction of the medium flow;

- the main locking body 15, consisting of tubular rods 16 and 17, interconnected by a sleeve 18, a spool 19 and a connecting nut 20;

- an additional locking body 21, consisting of rods 22 and 23 located inside the rods 16 and 17, respectively, interconnected by a sleeve 24, a spool 25 and a nut 26. A spindle screw 27 is fixed to the upper end of the rod 23. The spool 25 of the additional locking body 21 is made in the form of a glass, the depth of the side of which exceeds the stroke B of the main locking body;

- the drive 28 of the main shutter, including a double-acting pneumatic actuator 29, located in the housing 30, and a manual backup drive 31, made in the form of, for example, a worm gear;

- drive 32 additional shutter, made, for example, in the form of a worm gear.

Two-valve valve operates as follows.

During normal operation of the reactor installation, both valve shutters are in the open position, steam from the steam generator through the valve duct part enters the turbine.

Under the action of the drive force 28, the end face of the coupling 18 abuts against the end face B of the stepped sleeve 14 of the housing 1, which ensures a fixed open position of the main locking member 15.

The end face of the lead screw 27 abuts against the end face G of the housing 30 of the pneumatic actuator 29, which is rigidly connected to the valve body 1 through the rack 11, which provides a fixed open position of the additional locking member 21.

When identifying the likelihood of inter-circuit leakage, the main shutter of the double-valve valve is automatically closed in order to localize the accident by maximizing the spread of the potentially dangerous medium of the primary circuit, while the spool 19 abuts the seat 4 of the housing 1.

When confirming the presence of a leak in the primary circuit, the manual actuator 32 is actuated into the secondary circuit, as a result of which the additional shutter is closed in the stop position of the spool 25 in the seat 5 of the housing 1, an opening is opened in the drain fitting 6 and a possible leakage of the medium through the additional shutter is discharged through the drain nipple 6. The main valve operates in the absence of pressure and provides reliable tightness of the cavity of the second circuit from the primary circuit. The placement of the rods 22 and 23 of the additional locking body 21 in the channels of the rods 16 and 17 of the main locking body 15 allows independent operation of the drive bodies 28 and 32 of the main and additional valves. The spool 25 is made in the form of a glass, the depth of which is greater than the distance A between the ends of the spools 19 and 25 in the open position of both locking bodies, which in turn exceeds the stroke B of the main locking body 15, which allows you to control the movement of the locking bodies regardless of their relative position, in in particular, to close the valve with an additional locking body 21, regardless of the position of the main locking body 15 and opening the main locking body 15, regardless of the position of the additional locking body irradiating organ 21.

The force from the pressure of the flow of the medium, acting in the direction "to the shutter", promotes the sealing of the valves, thereby ensuring the principle of self-sealing.

The implementation of the self-sealing principle in the proposed design allowed us to reduce the required drive power and, consequently, the weight and size characteristics of the double-valve and solve the problem of creating a double-valve, designed to double shut off the fluid flow when the valve is mounted with an axial pipe on the pipe of the product - pressure source.

Claims (4)

1. A two-valve valve containing an angular housing with axial and lateral nozzles and two sealing seats, interacting with the latter main and additional locking bodies located in the internal cavity of the housing and connected to coaxially located rods and their independent actuators, characterized in that the main and additional the locking bodies are provided with spools connected to coaxially arranged rods and placed on the side of the axial pipe opposite to the side pipe, and the spider of the main locking body is connected to the tubular rod, and the spool of the additional locking body is made in the form of a glass, the depth of which is greater than the stroke of the main locking body. 2. A double-locking valve according to claim 1, characterized in that the valve body is equipped with a stepped sleeve interacting in the open position of the main shutter with the supporting end surface of the stem of the main locking body. 3. The double-locking valve according to claim 1, characterized in that the rod of the additional locking body is provided with a supporting end surface interacting with the actuator body in the open position of the additional shutter. 4. The two-way valve according to claim 1, characterized in that a threaded sleeve with a profile inner surface is installed in the axial pipe.

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