RU190940U1 - The device is locking and starting - Google Patents

Abstract

The invention relates to shut-off devices with controlled valves, cranes and valves, including, but not limited to, gas-extinguishing systems used as shut-off devices. The locking and starting device, comprising a housing with two internal mutually intersecting cylindrical channels, one of which is the outlet, is designed to interact with the supply line of a gaseous extinguishing agent into the protected room, and the second is equipped with a lid and a gate spring-loaded relative to the lid with the formation of a control chamber between the lid and the shutter and the inlet channel, designed to interact with the source of the gaseous extinguishing agent, while the shutter is installed with the possibility for axial movement with regulation of gas communication between the inlet and outlet channels, the cover is equipped with an opening with a shut-off and start-up valve installed in it, designed for controlled pressure relief in the control chamber, the shutter is equipped with a bypass throttle designed to equalize the pressure between the inlet channel and the control chamber, and in the housing an additional channel is made, the input of which is located in the inlet channel area and is designed to interact with a source of a gaseous extinguishing agent substance, and the outlet is located on the outer wall of the housing and is made in the form of a threaded hole with a thrust ring pad and a ring gasket, a membrane and a fixing threaded outlet fitting successively placed in it, equipped with a centering sleeve, and a fixing threaded outlet fitting is made with a hollow cylindrical shank so, that d = d; d≤d-t; L + 0,5t + t <L <L + t + t, while the centering sleeve is installed to cover the mentioned shank, the membrane and the annular gasket and fit tightly relative to the shank and the annular gasket. EFFECT: increased reliability of the locking-starting device due to timely operation of the membrane. 2 Il.

Description

The invention relates to shut-off devices with controlled valves, cranes and valves, including, but not limited to, gas-extinguishing systems used as shut-off devices.

The prior art switchgear automatic installation of gas fire extinguishing, including

shut-off body, made in the form of a separately located ball valve connected on one side (inlet) to the main supplying gaseous fire extinguishing substances (hereinafter - GOTV) from the GOTV source, and on the other hand (on the output) to the supply line GOTV to the protected the room

a pneumatic actuator of the locking member (hereinafter referred to as a pneumatic actuator), including a cylinder (performing the function of the carrier, the base body of the product), a piston, a rod connected to a movable working (locking) element of the locking member of the ball valve, and a stimulating source of compressed gas made separately from the pneumatic actuator stimulating gas bottle

the main starting device of the electromagnetic (solenoid) type pneumatic actuator (hereinafter referred to as the electromagnetic starting device or EPU),

backup device for manual start (hereinafter URP) of a pneumatic actuator (RF patent for invention №2321438, F16K 31/00, 2006).

The known device, although it allows to provide the supply of GOTV from the automatic installation of gas extinguishing in the required direction, however, part of its design features limits its scope, since it is cumbersome due to the fact that

This device has relatively large weight and size characteristics due to separately located complex blocks and elements, such as, for example, an incentive starting cylinder with a system of pipelines and channels, as well as a ball valve with long rods for connecting it to the pneumatic cylinder stem;

the installation of such a device is difficult and requires quite a lot of time and labor;

additional adjustment of different units located in different places is required, especially of a massive starting cylinder (with increased requirements for its safe operation), taken out of the main body of the product, and precise adjustment of the connecting ball is required;

making a massive starting cylinder outside the main body of the product increases the risk of operating the installation as a whole;

and finally, there is no means in the device that protects against excessive pressure in the GOTV source, which adversely affects its safe operation.

The closest to the stated technical solution - the prototype - is the locking-starting device "ROTAREX" (BRANDSIS [Electronic resource]. - Access mode: http://brandsis.ru/products/zpu/, free - (02.14.2019).

The prototype device comprises a housing with two internal mutually intersecting cylindrical channels, one of which — the outlet — is designed to interact with the supply line of the gaseous extinguishing agent into the protected space, and the second one is provided with a lid and a gate springed relative to the lid to form a control chamber between the lid and the bolt and an inlet channel designed to interact with a source of gaseous extinguishing agent, while the valve is installed with the possibility of axial displacement with regulation of gas communication between the inlet and outlet channels, the lid is provided with a hole with a shut-off valve installed in it, designed for controlled pressure relief in the control chamber, the shutter is equipped with an overflow throttle designed to equalize the pressure between the inlet channel and the control chamber, and the body is made additional channel, the entrance of which is located in the zone of the inlet channel and is designed to interact with a source of gaseous extinguishing agent, and you the stroke is placed on the outer wall of the housing and is made in the form of a threaded hole, a copper gasket, a membrane and a fixing membrane with a gasket for the outlet nipple.

The prototype has a simple and reliable design, free from the drawbacks of the above described analogue, but it has a significant drawback, which consists in the following. In the device according to the prototype, the membrane, folded into a copper gasket, is installed directly in the housing and fixed in it by an outlet nipple.

In the course of rolling, a deformable metal strip, directly interacting with the surface of the membrane, forms a multitude of stress concentrators, such as micro-plates and zones of varying degrees of compaction, negatively affecting the sensitive membrane under the force loading of the latter. The result is a low reliability of the shut-off device, having a pressure in the rest mode of 40 bar and higher, due to the premature actuation (destruction) of the membrane.

The problem solved by the claimed technical solution is the elimination of the formation of voltage concentrators in the zone of contact of the membrane with the surfaces of the mating elements.

The technical result is an increase in the reliability of the shut-off device due to the timely response of the membrane.

This technical problem is solved, and the claimed technical result is achieved by the fact that the shut-off device, including a housing with two internal mutually intersecting cylindrical channels, one of which - exhaust - is designed to interact with the supply line of the gaseous fire extinguishing substance in the protected room, and the second is equipped the lid and the valve spring-loaded relative to the lid with the formation of a control chamber between the lid and the bolt and the inlet channel designed for With a source of gaseous fire extinguishing agent, the shutter is mounted for axial displacement with regulation of gas communication between the inlet and exhaust channels, the lid is equipped with an opening with a shut-off valve installed in it for controlled pressure relief in the control chamber, the shutter is equipped with an overflow throttle designed to equalize the pressure between the inlet channel and the control chamber, and in the case there is an additional channel, the inlet of which is located in the e inlet channel and is designed to interact with a source of gaseous extinguishing agent, and the output is placed on the outer wall of the housing and is made in the form of a threaded hole with an annular thrust pad and successively placed therein an annular gasket, a diaphragm and a locking threaded outlet fitting, equipped with a centering sleeve, and locking threaded outlet fitting is made with a hollow cylindrical shank so that d _n = D _in ; d _n ≤d ₃ -t _in ; L _x + 0,5t _ш + t _м <L _в <L _x + t _ш + t _м , where d _n is the outer diameter of the nozzle stem; D _in - the outer diameter of the ring gasket; d ₃ - inner diameter of the threaded hole of the exit of the additional channel along the bottom of the depression; t _in - wall thickness of the centering sleeve; L _x - the length of the shank; t _W - the thickness of the ring gasket; t _m - the thickness of the membrane; L _in - the length of the centering sleeve, while the centering sleeve is installed with the coverage of the mentioned shank, the membrane and the ring gasket and fit tightly relative to the shank and the ring gasket.

The utility model is illustrated by images, which represent:

FIG. 1 - the locking device in the section;

FIG. 2 is an enlarged view of A in FIG. one.

The positions shown on the images have the following meanings:

1 - case;

2 - exhaust channel;

3 - cover;

4 - spring;

5 - shutter;

6 - control camera;

7 - intake duct;

8 - shipping covers;

9 - bypass choke;

10 - exhaust fitting;

11 - plug;

12 - valve;

13 - final threaded pipe;

14 - inlet threaded pipe;

15 - additional channel;

16 - additional channel input;

17 - threaded hole of the additional channel;

18 - exhaust shank;

19 - ring gasket;

20 - membrane;

21 - centering sleeve;

22 - sealing gasket;

23 - hard annular platform.

According to the presented image (Fig. 1), the shut-off-start device includes a housing 1 with two internal T-shaped and intersecting cylindrical channels. The outlet channel 2 forming the leg of the T-profile is designed to interact with the GOTV supply line to the protected space (the connection with the highway is carried out with the transport cover 8 removed by means of the outlet threaded nozzle 13 in the same way as in the prototype and the analogue; the subject of the claimed utility model is not and not represented in the images). The second of the mentioned channels (forming the T-profile shelf) is provided with a lid 3 and a gate 5 spring-loaded through the spring 4 relative to the lid 3 to form the control chamber 6 between the lid 3 and the gate 5 and the inlet channel 7 intended to interact with the GOTV source (connection to the source GOTV is carried out through the inlet threaded nozzle 14 in the same way as it is implemented in the prototype and analogue, the subject of the claimed utility model is not and is not represented in the images). As in the prototype, the shutter 5 is installed with the possibility of axial movement, thereby opening or blocking the communication between the inlet 7 and outlet 2 channels. The lid 3 is provided with a through-hole with a shut-off valve 12 installed therein, which is intended for controlled pressure relief in the control chamber 6 (the transport lid 8 is removed in working condition). The shutter 5 is equipped with an overflow throttle 9, designed to equalize the pressure between the inlet channel 7 and the control chamber 6. In order to protect against overpressure in the GOTV source, an additional channel 15 is made in the housing 1, the inlet 16 of which is located in the area of the inlet channel 7 and is intended for interaction with a source of gaseous extinguishing agent, and the outlet is placed on the outer wall of the housing 1 and is made in the form of a threaded hole 17. A pre-assembled and tested screw-in hole is screwed into the threaded hole 17 diaphragm assembly, including a hollow locking threaded outlet fitting 10 with a hollow shank 18 and successively placed on the side of the end of the shank membrane 20 and a flat annular gasket 19 (the gasket is usually made of soft metal, for example - copper), which are centered in the assembly of the centering sleeve 21 installed with the coverage of the mentioned shank 18, the membrane 20 and the annular gasket 19 and fit with a fit against the shank 18 and the annular gasket 19, the membrane 20, as in the prototype, centers its convex part in the hole of the annular gasket 19. The functionality of the membrane assembly in the composition of the shut-off device is ensured by the compliance of the geometrical parameters with the following conditions:

d _n = D _in ;

d _n ≤d ₃ -t _in ;

L _x + 0.5t _w + t _m <L _в <L _x + t _w + t _m ,

where d _n - the outer diameter of the shank fitting;

D _in - the outer diameter of the ring gasket;

d ₃ - inner diameter of the threaded hole of the exit of the additional channel along the bottom of the depression;

t _in - wall thickness of the centering sleeve;

L _x - the length of the shank;

t _W - the thickness of the ring gasket;

t _m - the thickness of the membrane;

L _in - the length of the centering sleeve.

The end surfaces of the mating elements of the membrane assembly: the shank 18 of the outlet nipple 10, the annular gasket 19, the annular thrust pad 23 of the threaded hole 17 are subjected to careful treatment (including grinding) for their correct (without distortions and other stress concentrators) interaction with each other. In order to seal the design of the device may include a sealing gasket 22.

The shut-off device works in the same way as the prototype, and does not require explanation in this part. Only the installation procedure of the membrane assembly is different - it is screwed into the threaded hole 17 in the assembly that has been previously tested, which minimizes the formation of stress concentrators in the zone of contact of the membrane with the surfaces of the mating elements.

The experiments showed a reduction in the premature membrane response in the claimed technical solution by 15% or more compared to the prototype when using the same membranes from a single manufacturer.

The foregoing leads to the conclusion that the technical problem — the elimination of the formation of voltage concentrators in the zone of contact of the membrane with the surfaces of the mating elements — has been resolved, and the stated technical result — improving the reliability of the shut-off device due to the timely operation of the membrane — has been achieved.

Claims (13)

The device is shut-off and starts, including a case with two internal mutually intersecting cylindrical channels, one of which - outlet - is designed to interact with the line supplying a gaseous fire extinguishing substance to the protected room, and the second is equipped with a lid and a gate spring loaded relative to the lid to form a control chamber between the lid and shutter and inlet channel designed to interact with a source of gaseous extinguishing agent, while the shutter is installed with the possibility With axial movement with regulation of gas communication between the inlet and outlet channels, the lid is provided with a hole with a shut-off valve installed in it, designed for controlled pressure relief in the control chamber, the shutter is equipped with a bypass throttle, designed to equalize the pressure between the inlet channel and the control chamber, and in the case there is an additional channel, the entrance of which is located in the zone of the inlet channel and is designed to interact with a source of gaseous fire extinguishing agent The output is located on the outer wall of the housing and is made in the form of a threaded hole with a stop ring and successively placed in it an annular gasket, a membrane and a locking threaded outlet fitting, characterized in that it is provided with a centering sleeve, and the locking threaded outlet fitting is made hollow shank so that d _n = D _in ; d _n ≤d ₃ -t _in ; L _x + 0.5t _w + t _m <L _в <L _x + t _w + t _m , where d _n - the outer diameter of the shank fitting; D _in - the outer diameter of the ring gasket; d ₃ is the internal diameter of the threaded hole of the exit of the additional channel along the bottom of the root of the thread section; t _in - wall thickness of the centering sleeve; L _x - the length of the shank; t _W - the thickness of the ring gasket; t _m - the thickness of the membrane; L _in - the length of the centering sleeve while the centering sleeve is installed with the coverage of the mentioned shank, the membrane and the annular gasket and fit with a tightness relative to the shank and the annular gasket.

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