RU170751U1 - Device for excess pressure in the valve cavity - Google Patents

Abstract

The utility model relates to the design of energy pipe fittings used as a shut-off safety device in pipelines with liquid media, and can be used to prevent abnormal situations associated with an emergency increase in pressure above the design pressure in the valve cavity during heating when the valve is closed, when the internal pressure will grow from the temperature expansion of the medium when the temperature changes, under the influence of a shock wave, which is especially important for increasing safe the operation of existing thermal (TPP) and nuclear power plants (NPPs) with liquid coolant, oil and gas pipelines.

The essence of the utility model lies in the fact that in the device from excess pressure in the valve cavity containing a housing with a saddle with bores and nozzles in communication with the nozzles and valve cavity, in which the shutter connected to the valve cavity is located, according to the utility model, the bores are made of two-chamber the housings are mounted counterclockwise with the possibility of limited axial movement by the value of the installation clearance h between their ends, the rods with spools at mutually opposite ends, preloaded by means of connected to the rods of the elastic elements by the installation force of sealing in the direction of the seats, located in the housing with the formation of valves that are hydraulically connected to the valve cavity, and the housing nozzles are connected with the valve nozzles, while the elastic elements can be made in the form of bellows or membranes and connected on one side rigidly with rods, and on the other - rigidly fixed in the housing; the said elastic elements interact with springs located outside the zone of contact with the medium, providing additional preload force on the rods with spools; in addition, a possible embodiment of the device, in which the elastic elements are configured to adjust the installation force of the preload.

The utility model provides increased reliability of compaction at a temperature of the liquid coolant up to 450 ° C and, as a result, increased safety of work, the ability to work with valve control in automatic mode, as well as expanding the technological capabilities of the device by ensuring operability with two-sided supply of the medium with incomplete and full delta on the locking organ.

Description

The utility model relates to the design of energy pipe fittings used as a shut-off safety device in pipelines with liquid media, and can be used to prevent abnormal situations associated with an emergency increase in pressure above the design pressure in the valve cavity during heating when the valve is closed, when the internal pressure will grow from the temperature expansion of the medium when the temperature changes, under the influence of a shock wave, which is especially important for increasing safe the operation of existing thermal (TPP) and nuclear power plants (NPPs) with liquid coolant, oil and gas pipelines.

Industrial pipe fittings can be of general purpose - for use in various sectors of the national economy, including in the energy sector, and special - for work in special conditions (energy for nuclear power plants). The fittings can be controlled and operated automatically. The valves are controlled manually or using a drive acting from an external source of energy (electric, pneumatic, hydraulic). Automatically operating valves: check valves and safety valves, steam traps, pressure regulators, shut-off devices, etc., it is triggered by the forces created by the pressure of the working medium itself.

It is possible to solve the technical problem associated with an emergency increase in pressure in the valve cavity in different ways:

- the use of safety valves attached to the valve cover (see, for example, A.Kh. Kizhner “Repair of pipeline valves of power plants”);

- explosive membranes;

- the use of bypass tubes of small diameter between the supply pipe and the valve cavity;

- the use of special designs of the main connector, providing a leak in the emergency pressure reduction;

- the use of holes in the plates of the valve, among which the installation of plates with holes as a simple and technological means;

- manual venting of pressure from the cavity (used on main oil pipelines) [A.L. Chekalkin, D.S. Guryanov. A device for relieving excess pressure from a valve body // Oil pipeline transport. 2009. No4. S. 33-34].

However, the described methods are not reliable enough and require additional supply of pipelines, so they have not found application on valves for nuclear power plants.

Also known is the closest in technical essence to the claimed device from excess pressure in the cavity of a single-acting gate valve, designed to relieve excess pressure from the valve body in the main oil and gas pipelines (see RF patent for ПМ No. 157089, IPC F16K 17/00 ( 2006.01), F16K 24/02 (2006.01), published on November 20, 2015), comprising a housing with a saddle and with bores with nozzles communicating with a valve cavity, in which a valve shutter connected to the valve cavity is located, and a compensation chamber, connected by a channel with a cavity valves, wherein the housing is provided with a lid with a sealing member, and piston and driven, and the compensation chamber is designed as a hollow sleeve, in which is mounted a spring-loaded plunger on its bottom.

The described device is mainly used in pipelines for transporting oil and its products. Working environment - oils, oil, fresh and sea water, water emulsions. The temperature of the working medium for materials of sealing of the reciprocating movement of these types is up to + 200 ° C (according to GOST, rubber sealing cuffs or chevron rubber-fabric sealing according to ISO / DIN other names). These types / types and materials of seals are not used in nuclear power plants. (They must be agreed upon in the established manner).

The disadvantages of this device is the low reliability due to the fact that in the compensation chamber it is impossible to use a metal-to-metal seal, because there will be leakage, the seal will not perform its function effectively. And when using a piston seal (rubber cuffs, rings), such a design is unacceptable to use in thermal (TPP) and nuclear power plants (NPPs) with a liquid coolant at temperatures up to 450 ° C, in addition, this device cannot be used for work with bilateral supply of a working medium - liquid coolant.

The technical effects of the claimed device is to ensure operation with valve control in automatic mode, to increase the reliability of compaction at a temperature of a liquid coolant up to 450 ° C, as a result, to increase the safety of operation, as well as to expand the technological capabilities of the device by ensuring operability with two-way flow of the medium when incomplete and a complete drop on the shut-off body, at high temperatures of the working environment.

To achieve the listed technical effects in the device from excess pressure in the cavity of the valve containing the housing with a saddle with bores and nozzles in communication with the pipes and the cavity of the valve, in which the shutter is connected, associated with the cavity of the valve, according to a utility model, the bores of the two-chamber housing are installed counter with the possibility of limited axial movement by the value of the installation clearance h between their ends, the rods with spools at mutually opposite ends, pressed by means of a mouth sealed on the rods of elastic elements with an installation force of sealing in the direction of the seats, located in the housing with the formation of valves that are hydraulically connected to the valve cavity, and the body nozzles are connected to the valve nozzles, while the elastic elements can be made in the form of bellows or membranes and connected on one side rigidly with rods, and on the other - rigidly fixed in the housing; the said elastic elements can work together with springs located outside the zone of contact with the medium, providing additional force pressed on the rods with spools; in addition, a possible embodiment of the device, in which the elastic elements are made with the possibility of adjusting the installation force is preloaded.

Due to the fact that in the proposed device it has become possible to use metal-to-metal seals using flexible elastic elements, for example, a bellows, a membrane, a spring, ensuring tightness with respect to the valve outlet pipe at a complete drop on the valve body of the valve at temperatures up to 450 ° C, provides increased reliability of the seal and, as a result, increased safety of the device as a whole. At the same time, the installation force of the elastic elements allows the device to be leakproof with respect to the valve outlet pipe over the entire pressure range from 0.1 MPa to Pp or Ph, in addition, this device does not require additional maintenance, additional hydraulic or pneumatic control piping systems, and provides in this regard, the automatic operation of the system. The technological capabilities of the device are expanding, as it maintains operability with two-sided supply of the medium on the gate valve body.

In FIG. 1 shows a longitudinal section of the claimed device with bellows as elastic elements; in FIG. 2-3 - the same, with membranes and springs as elastic elements.

The device for excess pressure in the cavity of the valve consists of a two-chamber housing 2 with nozzles "B" in communication with the cavity of the valve 1, in the bores of which (chambers) there are opposed to the gap h between their ends rods 4-5 with spools 3 at mutually opposite ends , which are locked with the help of the elastic elements 6-11 (Figs. 1-3) mounted on the rods 4-5 (Figs. 1-3) of the saddle 13, which are located in the housing 2 with the formation of valves I and II. These closures I and II of the housing 2 are connected by means of tubes 14 to the valve cavity “c”, and the nozzles of the housing “a” and “b” are connected to the nozzles “a” and “b” of the valve 1; elastic elements can be made in the form of bellows 6, 7 (Fig. 1) or membranes 8, 9 (Fig. 2-3) and provide the possibility of limited axial movement of the rods 4-5 by the value of the installation clearance h between their ends under the action of excessive pressure in the pipe "a" or pipe "b" of the valve 1. The elastic elements 6-9 also perform the function of a separator of the working medium in relation to the external environment. A possible embodiment of the proposed device, in which it is additionally equipped with springs 10, 11 located outside the zone of contact with the working medium, providing additional compressive force to the rods with spools; an embodiment of the proposed device is also possible with adjusting the installation force of the seal in the valves I and II using the adjusting nuts (screws) 12 (Fig. 2, Fig. 3) kinematically connected with the said elastic elements.

The device from excess pressure in the cavity of the valve works as follows.

When the valve 1 is open, the device from excess pressure does not affect its operation. After closing the valve 1 during heating of the pipeline (valve 1) in the cavity of the valve 1 begins to increase the pressure of the medium P ₃ . The pipeline from the pipe "a" valve 1 operates the pressure P ₁ on the resilient element 7 (7, 11) or elastic members 9, 11, and from the nozzle "b" of the valve 1 operates as pressure P ₂ on the second elastic member 6 (6 , 10) or 8, 10.

The valves I and II of the device are affected by the same forces from pressure P ₃ . When the operating pressure P ₃ is reached, the valve cavity 1 communicates with the valve branch pipe 1 in which the greater pressure is applied. The response pressure of the device depends on the choice of the characteristics of the elastic elements 6-11, the effective area of the elastic elements 6-9, the diameter in the saddle 13 of the valves I and II, on the magnitude of the pressure difference P ₁ and P ₂ . When the pressure of the medium acts on the effective area of the corresponding elastic element 6-9 (in the form of bellows or membranes), the latter is compressed and thus unloads the spool 3 from the installation force, which is compressed, thereby opening one of the valves I or II, after which the inlet pipe a "or" b "with a valve cavity 1" c ", and the stem 4 (5) moves axially by h, thereby increasing the sealing force on the opposite shutter I or II, acting on the stem 5 (4), and this effort will increase under the condition of increasing the pressure in the inlet pipe "a" or "b" respectively and the cavity in the reported "a", which acts on an effective area of the resilient element 6-9.

Thus, the device is sealed both at low pressures of the working media with the installation force of the elastic elements 6-11, and at high pressures due to the force from the medium, which acts on the effective area of the elastic elements. The installation forces of the seal in the valves I or II can be adjusted using the adjusting nuts (screws) 12.

Claims (4)

1. The device from excess pressure in the cavity of the valve, comprising a housing with a saddle with bores and nozzles in communication with the nozzles and the cavity of the valve, in which the shutter is connected, connected with the cavity of the valve, characterized in that the bores of the two-chamber housing are installed counterclockwise with the possibility of limited axial displacement by the value of the installation clearance h between their ends, the rods with spools at mutually opposite ends, preloaded by means of the installation rod mounted on the rods of elastic elements iem seal in the direction of saddles arranged in the housing to form a gate fluidly connected with the cavity of the valve and casing pipes are connected with pipe valve. 2. The device according to claim 1, characterized in that the elastic elements are made in the form of bellows or membranes, while the elastic elements are rigidly connected to the rods on one side and rigidly fixed to the body. 3. The device according to p. 1 or 2, characterized in that the said elastic elements interact with springs located outside the zone of contact with the medium. 4. The device according to any one of paragraphs. 1, 2, 3, characterized in that the elastic elements are configured to adjust the installation force of the preload.

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