SU1291777A1 - Three-way quick-acting valve for steam generator - Google Patents

Abstract

The invention can be used in nuclear power engineering as a shut-off and by-pass device for pipelines with a liquid, especially with sodium. When the valve is triggered, the release of the electromagnetic device acts on the lock and releases the two shoulders levers on which the load is held. The load moving down carries the knife, which destroys the membrane that separates the working cavity from the unloading one. At the same time, a movable system of the right opposite direction is actuated, as a result of which a locking member, for example a valve, will close the seat. 2 hp f-ly, 2 ill.

Description

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The invention relates to a reinforcement structure and is intended for use in nuclear power engineering as a shut-off and by-pass device for pipelines with a liquid, especially with sodium.

In steam generators of nuclear power plants with a fast reactor, in which sodium transfers heat to water and water vapor, under normal conditions contact between the two working substances does not occur, however, in the case of a leakage during operation, i.e. If water or water vapor gets into sodium, there is a serious danger of damage to the steam generator or its destruction in a relatively short time. Such a danger can be reduced by the high-quality fabrication of the steam generator, as well as by equipping it with a number of sensors and instruments, which follow the density and are able to detect its change. In the case of water leaking into sodium in steam generators of fast reactors, it is necessary to reduce to the minimum possible level of exposure to the reaction of sodium with water in time and space. Perhaps several solutions. In all cases, the steam generator is quickly disconnected from the circuit of a nuclear power plant while simultaneously unloading it and connecting it to emergency tanks. In this case, turning off the steam generator is effective if it is performed in a short period of time, very shorter than the closing time of the known locking devices during simultaneous unloading. In addition, the outage must be reliable.

Known high-speed valves (for example, on the autor.ChSSR No. 200606, cl. G 21 D 5/00, 1980). can fulfill the requirements for timely and reliable disconnection of the steam generator from the circuit while simultaneously unloading it,

However, the known constructions have a 50 P electromagnet, it acts on some drawbacks. The fixative and frees two shoulders

If, for example, a knife for destroying the levers on which the load is being held, neither the membrane is located in an inert load, when moving downward, pulls up behind the discharge cavity environment, you need a knife that destroys the membrane; resistance of the fluid, so false movement of the tension by a flexible knife, the knife acts like a piston. If the tee sets in motion through the clip

the rod and with it the locking member, for example a valve, which is blocked

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An example is sodium, it helps when a high-speed valve is triggered, but the knife is constantly subject to the corrosive effects of a liquid. Fixing the knife on the stem of the locking member causes certain technological difficulties in the manufacture, and, in addition, when the valve is actuated, the diaphragm must first be bent so that the knife can then pierce it.

The proposed three-way high-speed valve for steam generators contains a valve with a stem, a ruptured membrane placed in the housing, separating the working cavity from the discharge cavity filled with an inert medium, and a cylindrical knife, and the valve stem and knife form a movable system fixed in the initial position lever mechanism. In the unloading cavity of the housing, a load is placed, to which the said knife is suspended, a central opening is made in the load, through which the stem of the locking member is passed, the knife being kinematically connected with the stem of the locking member and mounted for movement in the direction opposite to that of the locking member.

In addition, a block is installed in the case above the load; the kinematic connection of the stem of the locking member and the knife suspended to the load is made in the form of a flexible thread thrown over the block, one end of which is attached to the load and the other is the stem of the locking member; A kinematic connection between the stem of the locking member and the knife is an additional, double-arm lever, one shoulder of which is connected with the stem of the locking member and the other with the knife. Three-way high-speed valve operates as follows.

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Unlocking device, for example

the knife is located on the side of the working cavity, the pressure of the fluid on

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An example is sodium, it helps when a high-speed valve is triggered, but the knife is constantly subject to the corrosive effects of a liquid. Fixing the knife on the stem of the locking member causes certain technological difficulties in the manufacture, and, in addition, when the valve is actuated, the diaphragm must first be bent so that the knife can then pierce it.

The proposed three-way high-speed valve for steam generator. The ditch contains a locking element with a stem placed in the housing, a ruptured membrane separating the working cavity from an unloading cavity filled with an inert medium, and a cylindrical knife, the locking rod and knife forming a moving system fixed in the initial position by a lever mechanism. In the unloading cavity of the housing, a load is placed, to which the said knife is suspended, a central opening is made in the load, through which the stem of the locking member is passed, the knife being kinematically connected with the stem of the locking member and mounted for movement in the direction opposite to that of the locking member.

In addition, a block is installed in the case above the load; the kinematic connection of the stem of the locking member and the knife suspended to the load is made in the form of a flexible thread thrown through the block, one end of which is attached to the load and the other is the stem of the locking member in the case under the load is hinged a kinematic link between the stem of the locking organ and the knife is an additional, double-arm lever, one arm of which is connected with the stem of the locking organ and the other with the knife. Three-way high-speed valve operates as follows.

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Unlocking device, for example

The seat is formed in the valve body. The liquid from the working pipeline, which is unilaterally closed, is discharged into the discharge pipe. Thus, the destruction of the membrane and the closure of the pipeline is divided in time, and at the same time the connection of the working pipeline with the liquid to the discharge pipeline is achieved. This is due to the energy savings required for valve actuation.

When a three-way high-speed valve operates according to another variant, after the load is unblocked by a de-blocking device, such as a magnet, an anti-directional device formed by the Hc yoke (the stem and the second two-arm lever, which presses destroys it. After that, further movement of the rod and closure of the pipeline with liquid occurs, with one part of it being unloaded through the holes in the saddle and connected to the discharge pipe by the water.

The advantage of the proposed three-way quick-acting valve is that the knife for destroying the membrane is not constantly under the influence of the fluid in the pipeline, its shape and design does not increase the energy that is needed to operate the equipment, fixed independently of the valve stem. In addition, when the device is triggered, the membrane only collapses and does not need to bend it first. This brings energy benefits and increases valve reliability.

FIG. 1 shows schematically the proposed valve J in FIG. 2 - the same, constructive option.

The valve (Fig. 1) consists of a body 1 with a saddle in which a shut-off member 2 with a stem 5 is placed, hermetically passing through the destroyed membrane 3, fixed peripherally to the flange 4. The membrane 3 separates the working cavity from the discharge cavity filled inert medium. The discharge cavity is limited by a casing 6 with a pipe 19 of the discharge pipe. Outside the discharge cavity is a release device 18, for example, 77

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measure electromagnet. Inside the unloading cavity is blocked by two double-arm levers 12 resting on the latch 13, the load 10, to which the knife 7, suspended by the suspension 9, is attached. On the rod 5, passing through the discharge cavity, there are located the coupling 8 and the yoke 11, to which is attached along the edge. At least one flexible thread 16 is connected through the block 15 freely with a load 10. The latch 13 is connected to the unlocking device 18. The two shoulders levers 12 and the block 15 are fixed in the supporting tube 14. At least one guide is installed for installation and operation rod 20. Exclusively for installation serves rod 17.

The valve (Fig. 1) works as follows.

The unlocking device 18 releases the retainer 13, and hence the two shoulders levers 12. The load 10 falls on the knife 7, which destroys the membrane 3. At the same time, the movable system with the knife is actuated in the direction opposite to the movement of the locking member, the tension flexible thread 16, through unit 15 and attached to the yoke 11 located on the rod 5. The rod 5 moves the locking member 2 into the seat of the body 1. Thereby, the pipeline with the liquid is closed and connected through the nozzle 19 to the discharge pipe (not shown). The knife 7 is made in the form of a hollow bushing cylinder with a flange on which the load 10 presses. The permeability of the route from the pipeline with liquid to the discharge pipeline when the valve is actuated is provided with at least one radial hole in the load 10. The latter has a central opening through which the stem 5 passes Weight 10 has at least one radial hole, the axis of which is from the end of the load 10 with suspension 9 at the same distance as the axis of the nozzle 19 from the membrane 3. The knife 7. is directed with the cutting edge to the membrane 3.

The valve (Fig. 2) consists of a body 1 with a saddle that closes when the valve is shut off by the locking member 2. A stem 5 is connected to it tightly passing through the flexible membrane 3 fixed in the flange 4. The unloading cavity is limited by a casing 6 with a nozzle 19 attached to the discharge pipeline (n shown). On the side of the discharge cavity, there is an unlocking device 18, for example an electromagnet. Inside the unloading cavity, place the load 10, which rests on at least one double-arm lever 12, rotating around a pin fixed in the housing 6. The upper end of the load 10 simultaneously forms a support for the membrane 3, and a knife 7 is suspended on the suspension 9. the rod 5 is the holder 1t, on which at least one double-shouldered lever 21 is supported, which also rests on the knife 7 and is able to rotate around a pin fixed in the partition 22, the latter is radial, versus for the passage of fluid into the discharge pipe The tubing is actuated when the valve is actuated, and it is rigidly connected to the casing 6. The knife 7 has the shape of a hollow cylinder and is equipped with openings that allow its free movement along the two shoulders lever 12.

The valve (figure 2) works as follows.

The unlocking device 18 moves the core 23 with the latch 13 and releases the double-arm lever 12, while the load 10 acts on the scum 11 and thereby actuates the moving system with a knife. The sleeve 11 through the second double-arm lever 21 moves the knife 7, which destroys the membrane 3. Further movement of the load 10 through the holder 11 carries the rod 5 and with it the locking member 2, which sits in the saddle and thus closes the pipeline with the liquid. Further operation of the valve is similar to the first embodiment, since the cut-off part of the membrane 3 moves with the stem 5 in the direction of the load 10 moving and at a certain length; the cylindrical part of the casing 6 is affected by the fluid pressure in the pipeline, as on a piston. The pressure of the fluid is thus positive for the valve to function. Area 17776

The connected part of the membrane 3 moves further in the expanded part of the casing 6, and the liquid flows around it into the discharge pipe. The permeability of the route to the discharge pipeline is further provided with at least one hole in the partition 22.

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Claims (3)

Invention Formula 1. A three-way quick-acting valve for steam generators containing a closure member with a stem placed in a housing, breakable a membrane separating the working cavity from the unloading cavity filled with an inert medium, and a cylindrical knife, the valve body and the knife forming a movable system fixed in the initial position by a lever mechanism, characterized in that A load is inserted to which the said knife is suspended; a central hole is made in the load through which the stem of the locking member is passed, the knife being kinematically connected with the stem of the locking member and mounted so as to move in the direction opposite to that of the locking member. 2 "Yutapan according to claim 1, characterized in that a block is installed in the body above the load, and the kinematic connection of the stem of the locking member and the knife suspended to the load is made in the form of a flexible thread thrown through the block, one end of which is attached to the load and the other end to the stem of the locking organ. 3. Valve pop. 1, characterized in that in the housing under the load there is a hingedly mounted kinematic connection of the stem of the locking organ and the knife of the doropole two shoulders, with one shoulder connected with the stem of the locking organ and the other with the knife. Recognized as an invention according to the results of the examination carried out by the Office for the Invention of the Czechoslovak Socialist Republic. ten // X / X 21 cV / Compiled by L. Semenov Editor O. Yurkovetskaya Tehred V. Kadar Proofreader E. Sirohman ...-...... e. --- .------ i.- -.-.- "---- i -----" -------- ------- ---- --- - - - ---- Order 219/38 Circulation 812 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing plant, Uzhgorod, st. Project, 4 .2