RU122896U1 - GAS-FIRE EXTINGUISHING START-UP DEVICE (ZPU) - Google Patents

Abstract

A locking and starting device (ZPU) of a gas fire extinguishing installation, containing a hollow body with inlet and outlet openings, equipped with fittings for connection, respectively, to a reservoir with a fire extinguishing medium and a manifold of a fire extinguishing system, between which, with the formation of a peripheral axial passage, a locking element is placed, and also containing a safety element, the shut-off element is made in the form of a cylindrical stepped sleeve, sealed relative to the body surface, the inlet fitting of the ZPU on the opposite side of the inlet opening is equipped with a saddle with radial through holes, characterized in that the safety element is made in the form of a membrane safety device (MPU), and in the saddle between the radial through holes coaxially with the axis of symmetry of the saddle is made through a through channel, in which the MPU is fixed.

Description

The utility model relates to fire fighting equipment and is intended for use in gas fire extinguishing installations for releasing a fire extinguishing agent to a protected object.

Known locking and starting device (ZPU) installation of gas fire extinguishing, containing a hollow body with inlet and outlet openings formed by fittings for connecting to the gas line (reservoir with a fire extinguishing medium and the collector of the fire extinguishing system), between which with the formation of a peripheral axial passage is placed shut-off valve; the locking element is installed with the possibility of its reciprocating movement and overlapping of the peripheral axial passage; in the case of the ZPU two spool devices are installed; to move the locking body is the working chamber, made in a cage; the valve is mounted on a spring-loaded piston mounted for displacement in the working chamber, with a hole for supplying gas to the end surface of the piston in the holder, the ZPU has a valve opening and closing mechanism that contains individual actuators for moving the spools, the ZPU body, the spool device body and said spools have and / or form a system of holes located in them so that in the displaced position of the valve opening valve and the initial position of the valve In the case of a valve, said openings form a channel for the gas outlet from the working chamber to the atmosphere, and in the displaced position of the valve closing valve, a gas supply channel from the inlet of the housing to the working chamber, RU 2288764 C1.

The disadvantage of this device is the great complexity of the design. In addition, this design of the ZPU requires a check valve to be connected to the fire extinguishing system manifold when the fire extinguishing medium is sequentially supplied from various tanks combined by a common collector. Otherwise, when the pressure at the inlet and outlet of the fire extinguishing device is equalized, the pressure of the shut-off valve-valve against the seat is significantly reduced, and the air cooler may be depressurized, which will lead to spontaneous discharge of an expensive fire extinguishing medium into the fire extinguishing system manifold (false response).

It is known ZPU installation of gas fire extinguishing, containing a hollow body with inlet and outlet openings, equipped with fittings for connecting respectively to a tank with a fire extinguishing medium and a fire extinguishing system manifold, between which a shut-off body is installed with the formation of a peripheral axial passage, installed with the possibility of its reciprocating movement and overlapping the peripheral axial passage, while a spool device is installed in the housing of the ZPU and there is a working camera for moving control Niemi shut-off device; the locking element is made in the form of a cylindrical step sleeve with two ring steps, sealed relative to the surface of the housing, the working chamber is formed between the step sleeve and the hollow body, the ring step of the step sleeve from the side of the working chamber has an area greater than or equal to the area of the ring stage, which is located in the peripheral axial passage, the inlet fitting of the ZPU from the opposite side to the inlet opening is provided with a saddle with radial through holes and an annular protrusion, neither the upper part of the outer cylindrical surface of the stepped sleeve is sealed relative to the inner surface of the annular protrusion of the saddle, the bypass channel is made in the stepped sleeve with the possibility of communicating the working chamber with the peripheral axial passage when the ZPU is closed, and the channel connecting the working chamber to the spool device is made in the hollow housing of the ZPU, RU 104468 U1.

This technical solution was made as a prototype of this utility model.

The disadvantage of the prototype is the fact that when the pressure in the tank with a fire extinguishing medium is exceeded, for example, when heated, it is released into the environment through the safety element-valve installed in the protector housing shown in FIG. 1. This poses a threat to maintenance personnel, causes environmental pollution, and also leads to the loss of an expensive fire extinguishing medium.

The objective of this utility model is to prevent the release of the extinguishing medium into the environment when its pressure in the tank is exceeded.

According to a utility model, a gas fire extinguishing installation in a shut-off-starting device (ZPU) containing a hollow body with inlet and outlet openings equipped with fittings for connecting, respectively, to a tank with a fire-extinguishing medium and a fire extinguishing system manifold, between which, with the formation of a peripheral axial passage, a shut-off body, as well as containing a safety element, the locking body is made in the form of a cylindrical stepped sleeve, sealed relative to the surface of the housing, the inlet fitting on the opposite side of the inlet hole of the ZPU is equipped with a saddle with radial through holes, the safety element is made in the form of a membrane safety device (MPU), and in the saddle between the radial through holes aligned with the axis of symmetry of the saddle, a through channel is made in which the MPU is mounted.

The applicant has not identified any technical solutions identical to the claimed one, which allows us to conclude that the utility model meets the criterion of “Novelty”.

The essence of the utility model is illustrated by drawings, which depict:

figure 1 is a top view;

figure 2 is a section aa in figure 1;

figure 3 is a saddle with a safety element on an enlarged scale.

ZPU installation of gas fire contains a hollow body 1 with inlet and outlet openings equipped with fittings 2 and 3, respectively. The fitting 2 is designed to connect to a tank with a fire extinguishing medium (not shown), the fitting 3 is designed to connect to a collector of a fire extinguishing system (not shown).

Between the fittings 2, 3 in the cavity of the housing 1 with the formation of the peripheral axial passage 4 there is a locking element made in the form of a stepped sleeve 5, which has the ability to reciprocate along the longitudinal axis of symmetry of the housing 1. When placing the locking element in the lower position (Fig. 2) it closes the peripheral axial passage 4. In the housing 1 of the ZPU, a spool device is installed 6. The working chamber 7 serves to move the locking member. The step sleeve 5 has two annular steps 8 and 9 and is sealed relative to the inner surface of the housing 1 by means of an annular seal 10. The working chamber 7 is formed between the step sleeve 5 and the inner surface of the hollow body 1. The annular step 8 of the step sleeve 5 has an area greater than or equal to the area of the annular stage 9, which is located in the peripheral axial passage 4. The nozzle 2 of the inlet of the ZPU on the opposite side of the inlet is provided with a saddle 11 with radial through holes 12 and the annular m protrusion 13. The lower part of the outer cylindrical surface of the stepped sleeve 5 is sealed relative to the inner surface of the annular protrusion 13 of the saddle 11 with an annular seal 14. In the stepped sleeve 5, a bypass channel 15 is made with the possibility of communication of the working chamber 7 with the peripheral axial passage 4 when the closed position . A channel 16 is made in the housing 1 of the switchgear assembly and connects the working chamber 7 to the spool device 6. To charge the fire extinguishing medium into the tank or drain it from the tank through the switchgear, a charging nipple 17 is used. The rod 18 of the electromagnet interacts with the needle of the spool device 6 and is driven by a signal from a fire detection sensor or manually in case of failure of the automation. To control the pressure in the tank during its charging and operation is a pressure gauge 19.

The safety element is made in the form of a safety device (MPU) 20 with a membrane 21, while in the saddle 11 between the radial through holes 12, a through channel 22 is made coaxially with the axis of symmetry of the saddle, in which the MPU 20 is mounted.

The device operates as follows.

In the initial position (figure 2) ZPU is closed. When the sensor is activated in the ignition zone, an electric pulse is transmitted to the electromagnet, the rod 18 of which opens the spool device 6. In this case, the working chamber 7 communicates with the atmosphere through the channel 16 and the spool device 6, as a result of which the pressure in the working chamber decreases, and with the force acting on the step sleeve 5 from the side of the annular stage 9, the value of which becomes greater than the force acting on the ring step 8 from the side of the working chamber, the step sleeve 5 moves due to the difference in the forces I towards the nozzle 3. Opens peripheral axial passage 4 and the extinguishing medium from the reservoir through the through hole 12, the peripheral axial passage 4, a stepped bushing 5, a nozzle 3 enters the extinguishing system manifold.

When the pressure of the extinguishing medium in the tank exceeds the permissible value, the MPU 20 is activated, and the fire extinguishing medium from the tank through the nozzle 2, MPU 20, the stepped sleeve 5, the nozzle enters the collector of the fire extinguishing system.

Thus, as a result of the implementation of the distinguishing features of the utility model, a technical result is achieved consisting in preventing the release of the extinguishing medium into the environment and thereby a threat to maintenance personnel; this also eliminates environmental pollution and the possibility of losing a fire extinguishing medium, the cost of which, on average, is 2000 rubles per 1 liter (freon). As a rule, 100 liters of fire extinguishing medium are located in the tank, and in case of unauthorized (in the absence of a signal from the fire alarm sensors) operation of only one fire protection device, 200,000 rubles are lost. It should be borne in mind that the fire extinguishing system includes hundreds of tanks with a fire extinguishing medium.

Prototypes of the device were tested in the gas fire extinguishing system of the Prirazlomnaya offshore stationary platform (Pechora Sea).

Claims (1)

The locking and starting device (ZPU) of the gas fire extinguishing installation, comprising a hollow body with inlet and outlet openings, equipped with fittings for connecting, respectively, to the reservoir with the fire extinguishing medium and the fire extinguishing system manifold, between which, with the formation of a peripheral axial passage, a locking organ is placed, as well as a safety device an element, a locking member is made in the form of a cylindrical stepped sleeve, sealed relative to the surface of the housing, the inlet fitting of the ZPU with the opposite The side of the entrance is provided with a saddle with radial through holes, characterized in that the safety element is made in the form of a membrane safety device (MPU), and in the saddle between the radial through holes, a through channel is made coaxially with the axis of symmetry of the saddle, in which the MPU is mounted.