WO2023043339A1

WO2023043339A1 - Sprinkler for a fire extinguishing system

Info

Publication number: WO2023043339A1
Application number: PCT/RU2022/050291
Authority: WO
Inventors: Андрей Александрович КУПФЕР; Норайр Сергеевич МАРТИРОСЯН
Original assignee: Общество С Ограниченной Ответственностью "Фогстрим"
Priority date: 2021-09-16
Filing date: 2022-09-14
Publication date: 2023-03-23

Abstract

The invention relates to the field of fire-fighting equipment applicable in automatic fire extinguishing systems, and more particularly to a sprinkler for supplying a fire extinguishing fluid, particularly water, in the form of a finely atomized stream. The present sprinkler comprises a housing with an outlet opening that is closed off by a spring-loaded shutoff valve, a heat-sensitive rupture element, and a forced activation mechanism. The forced activation mechanism is disposed on the outer side of the housing, the latter being configured to allow the mounting thereto of a lower supporting surface of the heat-sensitive rupture element. The forced activation mechanism comprises a hollow cylindrical housing containing a plunger that is designed to be capable of interacting with the thermal rupture element at one end. At the other end, the plunger interacts with a washer having a heating element disposed thereon. The heating element is arranged on one side of the washer. On the other side of said washer is a layer of fusible alloy solder, by means of which said washer is soldered to a thrust washer fastened inside the hollow cylindrical housing. The claimed technical solution allows reliable remote control, forced triggering and status monitoring of the sprinkler of a fire extinguishing system.

Description

Sprinkler of the fire extinguishing system

Technical field

The claimed technical solution generally relates to fire-fighting equipment used as part of automatic fire extinguishing systems and, in particular, to a sprinkler for supplying fire extinguishing liquid (in particular water) in the form of a finely sprayed stream.

State of the art

The sprinkler of the fire extinguishing system usually consists of a body, a shut-off valve, a socket for spraying liquid flowing from the outlet of the sprinkler, a temperature-sensitive element that holds the shut-off valve of the sprinkler and is activated when the set temperature is reached.

As a temperature-sensitive element of a thermal lock, discontinuous elements are currently used - glass thermoflasks.

The principle of operation of a sprinkler sprinkler is as follows. When the temperature in the thermal lock zone exceeds its nominal response temperature, the thermoflask is destroyed, the shut-off valve falls out of the sprinkler housing socket, and the water flow, hitting the sprinkler outlet, is distributed over the protected area.

A sprinkler of a fire extinguishing system is known from the prior art (RU 2652587, publ. 24.05.2017). The well-known sprinkler of the fire extinguishing system contains a housing with an outlet closed by a shut-off valve, a temperature-sensitive collapsing element and a trigger control device. The actuation control device is made in the form of a conductive coating deposited on the surface of a thermally sensitive collapsing element, and the coating has leads for inclusion in the circuit of the sprinkler condition control unit.

A sprinkler of a fire extinguishing system is also known from the prior art (RU 155310, publ. 27.09.2015). A device for forced start-up of a sprinkler sprinkler with a thermally collapsing glass bulb, with an electrically controlled pyrotechnic drive installed near it, in which a flexible plastic bracket is installed, made in the form of a flexible figured strip that surrounds the sprinkler arches and is fixed to them with the help of internal stops of the strip and with the help of a snap-in lock made at the ends of the strip, while on the wall of the strips there is a socket for a pyrotechnic drive, which is installed and fixed in the socket with a retaining ring, and thinnings are made in the places of bending of the strip.

Also known from the prior art is an actuator for a fire extinguishing signal trigger (RU 159602, publ. 10.02.2016). The actuating mechanism for the signal-starting fire extinguishing device consists of a sprinkler a sprinkler with a fragile (brittle) spacer element, which is placed between the valve and the adjusting screw, with a pyrotechnic drive with electric start installed near it. A fragile (brittle) spacer element in the form of a glass rod with rounded support ends, approximately spherical in shape.

Known from the prior art is an actuator for a signal-starting fire extinguishing device (RU 2614206 C1, publ. 03/23/2017). The actuator consists of a sprinkler with a fragile (brittle) locking element placed between the valve and the adjusting screw. The locking element is made in the form of a fragile electrical insulator of a cylindrical shape with rounded support ends, the temperature-sensitive element is made of a wire with a shape "memory" effect in the form of a ring with rigidly fixed ends of the wire, while the ring covers the locking element on one side, and on the other side it covers one from the side parts of the sprinkler arch, and the ring is installed from the locking element to the arch along the shortest path at normal operating temperature in a forcibly stretched state, while the total length of the forcibly stretched ring exceeds the total length of the ring with the initially specified shape by (7-3)%, except in addition, at the ring, at the point of its connection with the locking element, a connection is made with the first electrical outlet and a second electrical outlet is made located at the point of contact of the ring with the shackle, the opposite ends of both electrical outlets are connected to the power supply by means of an electrical connector installed on the sprinkler body through the control panel, with the possibility of an electrically controlled forced start of the sprinkler sprinkler using an electronic key.

A sprinkler sprinkler is also known from the prior art (RU 2 379080 C1, publ. 20.01.2010). Sprinkler sprinkler with controlled start-up, containing a housing in which a shut-off valve is pressed through a sealing disc spring, a thermally destructible sensitive element connected to a thermal heating element, with leads for communication with a control power source, equipped with a normally closed contact group connected to the leads of the thermal heating element .

The disadvantage of the technical solutions known from the prior art is the external influence on the thermosensitive flask. Any intervention or application of additional elements to the surface of the flask violates the technical characteristics of the flask, and accordingly affects the reliability of the operation of the thermosensitive flask. The claimed invention does not violate the technical characteristics of the flask, since in the claimed technical solution no changes are made to the design of the flask, the flask is used in the factory version, and, accordingly, the reliability of operation of the thermosensitive bulb remains at a consistently high level. Also, in the above analogues, the electrical contacts of the forced operation of the bulb (sputtering, or winding of contacts) are open to moisture and, accordingly, oxidize over time under the action of humidity, which adversely affects the reliability of the mechanism for the forced operation of the fire extinguishing sprinkler.

The essence of the invention

The technical problem to be solved by the proposed sprinkler of the fire extinguishing system is to provide the possibility of remote control, forced start and control of the state of the sprinkler of the fire extinguishing system.

The technical result of the claimed invention is to increase the reliability of remote actuation of the sprinkler of the fire extinguishing system and monitoring the state of the sprinkler of the fire extinguishing system.

The technical result of the claimed invention is achieved due to the fact that the sprinkler of the fire extinguishing system contains a housing with an outlet closed by a shut-off spring-loaded valve, a temperature-sensitive collapsing element and a forced operation mechanism, the forced operation mechanism being located on the outer side of the housing, designed to install the lower supporting surface of the temperature-sensitive of a collapsing element, while the forced actuation mechanism contains a hollow cylindrical body, inside which a plunger is placed, configured to interact with a thermally sensitive collapsing element, on the one hand, and on the other hand, the plunger interacts with a washer on which a heating element is placed, while the heating element , is located on one side of the washer, and on the other side of the said washer there is a layer of light-alloy solder, with which the said washer is soldered to the thrust washer fixed inside the hollow cylindrical body.

In a particular case of implementation of the claimed technical solution, a heat-insulating washer is additionally installed between the plunger and the washer.

In a particular case of implementation of the claimed technical solution, the washer on which the heating element is placed is made of brass.

In a particular case of the implementation of the claimed technical solution, solder with a melting point of 60-90 °C is used as a solder.

In a particular case of the implementation of the claimed technical solution, the thrust washer is fixed inside the hollow cylindrical body by means of a retaining ring, which in turn is installed in an annular groove made along the inner surface of the hollow body. In a particular case of implementation of the claimed technical solution, the heat-insulating ring is made of electric cardboard.

In a particular case of the implementation of the claimed technical solution, the cylindrical body of the forced actuation mechanism on the side opposite from the sprinkler is closed with a wad of asbestos cardboard.

In a particular case of implementation of the claimed technical solution, the thermosensitive collapsing element is made in the form of a glass thermosensitive flask.

In a particular case of the implementation of the claimed technical solution, the thermosensitive flask is filled with a liquid that boils at the response temperature.

Brief description of the drawings

Details, features, and advantages of the present invention follow from the following description of the embodiments of the claimed technical solution using the drawings, which show:

Figure 1 - sprinkler with controlled start.

Figure 2 - prefabricated diagram of the sprinkler of the fire extinguishing system;

On fig.Z - prefabricated diagram of the sprinkler of the fire extinguishing system;

The figures indicate the following structural elements:

1 - retaining ring; 2 - heat-insulating ring; 3 - plunger; 4 - thermosensitive flask; 5 - heat-insulating washer; 6 - thrust washer; 7 - washer; 8 - heating element; 9 - wad; 10 - cylindrical body; 11 - internal working chamber; 12 - spring-loaded valve; 13 - arched racks; 14

- sprinkler body; 15 - electrical wire for communication with the control power source; 16

- pipe fire extinguishing system.

Disclosure of invention

The sprinkler of the fire extinguishing system consists of a cylindrical body with an internal working chamber (11).

The sprinkler of the fire extinguishing system according to the present claimed technical solution is equipped with a thermal lock of automatic operation. The thermal lock is made in the form of a spring-loaded valve (12), made with the possibility of translational movement inside the body of the fire extinguishing sprinkler and a glass temperature-sensitive flask (4). The valve is located on the inside body of the sprinkler (10), while the valve in the duty mode closes the channel for supplying fire extinguishing liquid to the outlet nozzles of the sprinkler.

On the end surface of the housing (10) of the sprinkler, a bracket is made, consisting of three arcuate racks (13) conjugated at the lower point, made at the same time. The junction of the racks is designed to install the lower supporting surface of the glass temperature-sensitive flask (4).

The thermosensitive flask (4) is filled with a liquid that boils at the response temperature.

The temperature-sensitive flask (4) communicates with the valve (12) through a hole made in the end part of the body (10) of the sprinkler. In the normal state, the valve (12) is designed in such a way that it closes the passage of the fire extinguishing liquid to the nozzles of the fire extinguishing sprinkler. In the event of a fire, the glass thermosensitive flask (4) breaks and the valve (12) opens, making a translational movement and opening the passage of the fire extinguishing liquid to the nozzles.

The claimed sprinkler of the fire extinguishing system, in addition to the normal mode of operation, is made with the possibility of remote forced operation of the temperature-sensitive element in case of early detection of a fire.

The claimed design of the mechanism for forced actuation of the sprinkler of the system excludes external influence on the heat-sensitive flask (4). When a certain temperature is reached, the thermosensitive flask (4) bursts, thereby opening the nozzle. Any intervention or application of additional elements to the surface of the flask violates the technical characteristics of the flask (4), and accordingly affects the reliability of the operation of the thermosensitive flask. In the claimed invention, the technical characteristics of the flask are not violated, since in the claimed technical solution no changes are made to the design of the flask, the flask is used in the factory version, and, accordingly, the reliability of operation of the temperature-sensitive bulb remains at a consistently high level.

The forced actuation mechanism according to the claimed technical solution is placed on the outer side of the bracket, consisting of three mating arcuate racks (13), made at the same time, at the same time, a through hole is made at the interface of the racks, intended for installing the lower supporting surface of the glass thermosensitive bulb (4). .

The forced actuation mechanism consists of a hollow cylindrical body (10), inside which the following structural elements are placed sequentially from the outer side of the mentioned bracket: plunger (3), heat-insulating ring (2), heat-insulating washer (5), thrust washer (6), washer (7), heating element (8) and wad (9). The body of the sprinkler forced actuation mechanism is closed with a wad (9) made of asbestos cardboard for thermal insulation.

The heating element (8) of the claimed design of the forced operation mechanism is closed to moisture on one side by a wad (9), and on the other side by a washer (7) and, accordingly, is not subjected to oxidation under the influence of humidity, which positively affects the reliability of the sprinkler forced operation mechanism firefighting.

At the same time, the heating element (8) is placed on the side of the washer (7) facing the wad (9), and on the other side of the said washer (7) there is a layer of light-alloy solder, with which the said washer (7) is soldered to the thrust washer (6). The washer (7) is made of brass. The melting temperature of the solder is 60-90 °C. The thrust washer (6), in turn, is fixed inside the housing by means of a retaining ring (1) inserted into the annular groove made along the inner surface of the cylindrical housing (10) of the forced actuation mechanism.

Also inside the hollow cylindrical body (10) of the forced actuation mechanism there is a plunger (3), which interacts with the heat-sensitive bulb (4) with one of its end surfaces through a through hole made in the bracket, and with its other end surface interacts through a heat-insulating washer (5), reducing heat transfer to the body) with washer (7), passing through the central hole made in the thrust washer (6)

Also, between the thrust washer (6) and the inner end surface of the housing, in order to reduce heat transfer, a heat-insulating ring (2) made of electric cardboard is placed. Ring (2) is also made with the possibility of free passage of the plunger (3) to interact with the washer (7).

In an embodiment of the claimed technical solution, the heating element (8) is made, for example, in the form of thin-film platinum heaters.

The mechanism for forced operation of the sprinkler of the fire extinguishing system works as follows:

Electric current is supplied to the heating element (8) through the electric wire (15), as a result of heating, the solder layer is melted, and the valve (12), which is in a spring-loaded state, which pressed on the flask (4), which in turn pressed on the plunger (3 ), which, in turn, pressed on the washer (7), which was held by a layer of solder on the thrust washer (6), pushes the mentioned naiba (7) and, accordingly, due to the specified pressure, the plunger (3) and the flask (4) fall out, and the valve (12) opens the supply of fire extinguishing liquid to the sprinkler nozzles of the fire extinguishing system.

Claims

Claim

1. The sprinkler of the fire extinguishing system, containing a housing with an outlet closed by a shut-off spring-loaded valve, a temperature-sensitive collapsing element and a forced actuation mechanism, characterized in that the forced actuation mechanism is located on the outer side of the housing, designed to install the lower supporting surface of the thermosensitive collapsing element, when In this case, the forced actuation mechanism contains a hollow cylindrical body, inside which a plunger is placed, made with the possibility of interacting with a thermally sensitive collapsing element, on the one hand, and on the other hand, the plunger interacts with a washer on which a heating element is placed, while the heating element is located on one side. side of the washer, and on the other side of the said washer there is a layer of solder, with which the said washer is soldered to the thrust washer fixed inside the hollow cylindrical body.

2. Sprinkler according to claim 1, characterized in that a heat-insulating washer is additionally installed between the plunger and the washer.

3. Sprinkler according to claim 1, characterized in that the washer on which the heating element is placed is made of brass.

4. Sprinkler according to claim 1, characterized in that solder with a melting point of 60-90 °C is used as a solder.

5. Sprinkler according to claim 1, characterized in that the thrust washer is fixed inside the hollow cylindrical body by means of a retaining ring, which in turn is installed in an annular groove made along the inner surface of the hollow body.

6. Sprinkler according to claim 1, characterized in that the heat-insulating ring is made of electric cardboard.

7. The sprinkler according to claim 1, characterized in that the cylindrical body of the forced actuation mechanism on the opposite side of the sprinkler is closed with an asbestos cardboard wad.

8. Sprinkler according to claim 1, characterized in that the thermosensitive collapsing element is made in the form of a glass thermosensitive flask.

9. Sprinkler according to claim 1, characterized in that the thermosensitive flask is filled with a liquid that boils at the response temperature.