RU2658796C2 - Fire protection system of facility - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to stationary fire extinguishing systems. It can be used in fire protection systems of facilities operated in northern climatic conditions. For this purpose, in the known fire protection system of a facility, including a fire main pipeline with fire hydrants and fire cocks, sealed tank for liquid with an outlet pipe equipped with a safety valve and with an independent source of liquid head located inside the tank and connected with its inlet to the outlets of the fire alarm sensors of the facility, and air bleeding valves. In addition, an inlet branch pipe connected to the water supply discharge line of the facility, globe valve with check valve, drain valves, fire main pipeline purging device, interconnecting pipeline and bypass valve are introduced, while the inlet and outlet branch pipes are installed at the bottom of the sealed liquid tank, and the outlet branch pipe is connected to the fire main pipeline, the inlet branch pipe is connected to the water supply pipeline of the facility, the globe valve with check valve is installed on the inlet branch pipe, the bypass valve is installed on the interconnecting pipeline connected with its ends to the inlet and outlet branch pipes respectively upstream of the globe valve with check valve and downstream the safety valve, air bleeding valves and drain valves are installed on the fire main pipeline made of metal-plastic pipes, the autonomous source of liquid head is made in the form of a gas generator, the capacity of the sealed liquid tank corresponds to the capacity of the fire main pipeline, the fire main pipeline purging device is made with the possibility of connection to the fire main pipeline.

EFFECT: technical result is the elimination of freezing of water in the fire main pipelines.

1 cl, 1 dwg

Description

The invention relates to stationary fire extinguishing systems. It can be used in fire protection systems of facilities operating in northern climatic conditions. The technical result is the exclusion of freezing water in the pipes of the fire main.

Known fire protection systems, including underground fire hydrants installed in fire wells on water pipes filled with water under pressure. The water supply for extinguishing a fire in such a fire protection system is practically unlimited, it does not interfere with traffic. Through hydrants, water can be taken for domestic and household needs. Their disadvantages are the need to lay pipelines underground below the freezing depth of the soil and carry out excavation work when repairing the pipelines, as well as the need to use water fire pump to pump water from the fire well into which the water from the fire hydrant column merged. When extinguishing a fire, it is difficult to quickly find a fire well covered by snow or mud. In addition, at low air temperatures, the lower part of the column of the underground fire hydrant may freeze, which requires an unacceptably long time to thaw during a fire. Such a system cannot provide fire protection for objects located on permafrost soils, where it is impossible to lay networks underground.

The disadvantages associated with the freezing of underground fire hydrants are eliminated in a more modern underground fire hydrant (see, RF Patent No. 2472551 “Fire hydrant inlet”, IPC: А62С 35/00). However, the remaining disadvantages inherent in hydrants installed on pipelines underground, this solution does not eliminate.

The disadvantages associated with the repair of underground pipelines are partially eliminated in the fire protection system, which consists of a water tank with an electric pump installed below ground level, catchments located between the object of protection and a possible fire source [see RF patent No. 2448749 “Fire protection system”, IPC: А62С 37/00]. The disadvantage of this solution is the inability to extinguish fires indoors, as well as the difficulty to maintain water in the liquid phase in a water tank in the cold season in the Far North.

The disadvantages of fire protection of facilities in the Far North and equivalent regions can be partially eliminated if non-stationary fire protection is used to eliminate a fire source through the use of an ice-free tank truck [see RF patent No. 2566310 "Fire truck", IPC: A62C 3/07 (2006.01)]. However, in these areas in winter it is difficult to find water in the liquid phase to replenish the expended water supply in the tanker. In addition, when a fire occurs inside the building, it is impossible to supply water to the fire extinguishing system or to the activated sprinklers at the start of a fire detected by fire alarm sensors (if the facility is equipped with a fire sprinkler system)

The disadvantages inherent in fire protection systems with underground pipelines have been partially eliminated in the fire protection system, including stationary dry pipe systems and a system of ground heated foam suppression networks and ground fire hydrants in heated shelters. The advantages of such technical solutions are ease of maintenance (repair work can be carried out without excavation) and constant readiness for use for directly extinguishing the fire, as well as for taking water for automobile fire tanks and automobile foam fire extinguishing systems (see “Fire safety of polar oil and gas fields” gas and oil condensate field ”, http://avtoritet.net/library/p). However, it is rational to equip such powerful fire-fighting systems in northern climatic conditions with powerful energy-intensive permanent facilities that have a full-time fire protection unit with the appropriate equipment, as well as the excess energy required to heat these foam suppression networks and shelters. With regard to military facilities in the Far North, served by small personnel and without a full-time fire department, this decision cannot be implemented.

The disadvantages associated with the freezing of water in the fire main are partially eliminated in a gas fire extinguishing system, including inert gas tanks, connected by a pipeline to devices for automatically supplying inert gas to a room when a fire occurs in it [V.V. Terebnev et al .: "Industrial buildings and structures." Tutorial. "Fire protection and extinguishing fires." M., Publishing House "Fire Science", p. 294].

However, the disadvantages of this solution are its low efficiency in the event of a leak in the room and the danger to people in the room in the event of unauthorized operation of the device or gas leak.

The closest technical solution, partially eliminating the disadvantages of analog solutions associated with freezing water in the fire main, can be considered a fire device [see RF patent No. 2218957 "Installation of fire protection of the cargo placed in the container", IPC: А62С 3/07] - prototype.

        In the prototype solution, in the event of a fire, free space is filled in a container with a cargo of coolant, the boiling point of which is lower than the ignition temperature of the cargo. Under these conditions, when the container with the cargo is in the fire, the cargo will not be exposed to high temperatures for a time until the coolant surrounding the cargo boils away. The filling of the free space in the container is ensured by the supply of coolant stored in the sealed tank and displaced from it by the cold gas generator located in the tank, which is triggered by a signal from a temperature detector that records the excess of air temperature in the container location. The advantage of this decision is most evident in the event of a fire in a vehicle transporting a container with cargo. Due to the transience of the combustion process of such a vehicle, the temperature inside the container does not have time to rise above the boiling point of the coolant, which is lower, as a rule, even than the damage temperature of the paint coating of the cargo transported inside the container. However, this solution can only be used to protect the cargo in the fire, but not to extinguish the fire at the facility. An obstacle for this is the limited supply of coolant, commensurate with the small amount of free space in the container, as well as the rapid drop in the pressure of the coolant as the tank empties.

The objective of the claimed invention is to eliminate the noted drawbacks, namely, ensuring the process of extinguishing a fire, including in the interior of an object, with an unlimited supply of water, as well as eliminating freezing of water in the pipelines of the fire protection system.

The technical result is achieved by the inclusion of new devices and a different connection between them in the fire protection of the facility, including a fire main pipeline with fire hydrants and fire hydrants, a sealed liquid tank with an outlet pipe equipped with a safety valve and with an autonomous source for providing a pressure head located inside the tank and connected its entrance to the outputs of the fire alarm sensors of the facility, and air bleeding valves, which consist in the fact that a water inlet connected to the object’s water supply pipe, an inlet valve, a check valve, drain valves, a fire mains blowing device, a connecting pipe and an overflow valve, while the inlet and outlet pipes are installed at the bottom of the sealed liquid tank, the outlet pipe is connected to the fire the main pipeline, the inlet pipe is connected to the pressure pipe of the object’s water supply, a valve with a check valve is installed on the inlet pipe, The bypass valve is installed on the connecting pipe, connected at its ends to the inlet and outlet pipes, respectively, in front of the valve with a check valve and behind the safety valve, air bleeding valves and drain valves are installed on the fire pipe made of metal-plastic pipes, an autonomous source of fluid pressure is made in as a gas generator, the capacity of a sealed liquid tank corresponds to the capacity of the pipelines of the fire main, GUSTs purging fire main pipeline adapted to connect to a fire main pipeline.

The idea of the proposed technical solution is to fill, in the event of a fire at the facility, a dry fire main pipe with warm water or a fire and explosion-proof warm non-freezing liquid (see GOST 28084-89 p. 2. Coolants ОЖ-65 and ОЖ-40). Since the capacity of the pipeline of the fire line of the objects under consideration is relatively small, a sealed tank with liquid can be placed in one of the heated premises of the object. After such heating of the inner walls of the pipes of the fire pipeline, water enters it from the pressure pipe of the object’s water supply, which is then used to extinguish the fire.

We show the materiality of the distinguishing features.

Introduction to the fire protection of an object located in a harsh climatic zone, an inlet pipe, a check valve with a check valve, drain valves, a device for blowing off a fire main pipe, a connecting pipe for a bypass valve, is a new solution for fire protection of objects. It provides the opportunity in the cold season to fill the fire line with non-freezing liquid before putting water into it, as well as drain the fire line before bringing the fire protection system of the facility to its original position.

The introduction of a connecting pipe with a bypass valve together with a valve with a check valve and its installation between the inlet and outlet pipes is a new solution. It allows in warm time, if necessary, to turn off the sealed liquid tank in the fire protection system of the facility.

The execution of pipelines of the fire main from metal-plastic pipes is a new solution for the purpose of such pipes. It provides a decrease in heat removal from the liquid in the pipeline of the fire main to the cold external environment.

Installing a check valve on the inlet is a new solution. It excludes the flow of non-freezing liquid towards the pressure head water supply pipe of the facility when an autonomous source of supplying the pressure of the liquid is triggered, and also allows filling the sealed tank with non-freezing liquid after it is empty. In this case, the installation of the outlet pipe at the bottom of the sealed tank eliminates the breakthrough of gas into the fire line.

The essence of the proposed technical solution is illustrated by the drawing, which shows a diagram of the proposed fire protection facility.

1 - fire main pipeline,

2 - sealed liquid tank,

3 - outlet pipe,

4 - safety valve

5 - an autonomous source of fluid pressure.

6 - pressure pipeline water supply facility,

7 - fire hydrant,

8 - fire hydrant,

9 - bleed valve.

Nodes 1-9 contains a prototype. In addition to them, the following are introduced into the fire protection system of the facility:

10 - inlet pipe,

11 - valve with check valve,

12 - connecting pipe

13 - bypass valve

14 - drain valve

15 is a device for blowing fire main pipeline. As it can be used a can of compressed air.

The functioning of the fire protection system of the facility is as follows. In the initial state, the sealed liquid tank 2 is filled with water or non-freezing liquid. The safety valve 4, the bypass valve 13 and the drain valve 14 are closed. The valve with a non-return valve 11 is open towards the sealed liquid tank 2, the blowing device of the fire main pipe 15 is disconnected from the fire main pipe 1. In the event of a fire at the facility, a fire alarm is triggered and the signal from its sensors is fed to the input of an autonomous source of fluid pressure 5 The latter is triggered, and the pressure in the sealed liquid tank 2 rises by filling it with gas. Since the valve with the non-return valve 11 is closed towards the pressure pipe of the water supply facility 6, the safety valve 4 opens and the liquid from the sealed tank 2 rushes through the outlet pipe 3 into the fire main pipe 1, forcing air out of it through the air bleeding valves 9. As filling with warm water or non-freezing fluid of the fire main pipe 1, the pressure in the sealed liquid tank 2 drops and the valve with check valve 11 opens towards the sealed tank d I liquid 2. The free space in the sealed liquid tank 2 is filled with water from the pressure pipe of the facility 6. If you open the fire hydrant 7, or fire valve 8, or use the fire extinguishing system, or sprinklers work (if the facility is equipped with such fire extinguishing systems ), then water from the pressure head water supply pipe of facility 6 will displace all non-freezing liquid from the fire main pipe 1. In the future, the fire will be extinguished under pressure ohm through a heated fire main pipe with water from the pressure pipe of the facility’s water supply 6. To restore the fire protection system of the facility to its original state, close the check valve 11 and open the drain valve 14, as well as open the filler neck of the sealed liquid tank. After the water stops pouring out of the drain valve 14, the blowing device of the fire main pipe 15 is connected to the fire main pipe 1 and the latter is drained. Disconnect the blowdown device of the fire main pipe 15, close the drain valve 14 and the safety valve 4. Pour non-freezing liquid into the sealed liquid tank 2, close the filler neck and open the valve with non-return valve 11. In the warm season, open the bypass valve 13, so that in case of fire do not use non-freezing fluid

Thus, based on the analysis of the structure and functioning of the scheme of the proposed technical solution, we can conclude that the fire protection system of the object in which this solution is implemented has the advantages that meet the set goal - to prevent freezing of water in the pipes of the fire main.

Claims (1)

The fire protection system of the facility, including the fire main pipeline with fire hydrants and fire hydrants, a sealed liquid tank with an outlet pipe equipped with a safety valve and with an autonomous source of fluid pressure, located inside the tank and connected to the outputs of the fire alarm sensors of the facility, and bleed air valves, characterized in that it is additionally introduced into it, an introductory cartridge connected to the pressure pipe of the water supply of the object side, valve with check valve, drain valves, blowdown device for the fire main pipe, connecting pipe and bypass valve, while the inlet and outlet pipes are installed at the bottom of the sealed liquid tank, the outlet pipe is connected to the fire main pipe, the inlet pipe is connected to the pressure pipe water supply facility, a check valve is installed on the inlet pipe, a bypass valve is installed on the connecting pipe connected to and ends to the inlet and outlet pipes, respectively, in front of the check valve and the safety valve, air bleeding valves and drain valves are installed on the fire pipe made of plastic pipes, an autonomous source of fluid pressure is made in the form of a gas generator, the capacity of the sealed tank for liquid corresponds to the capacity of the pipelines of the fire main, the blowing device of the fire main pipeline is made with the possibility connections to the fire main pipeline.

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