RU71320U1 - FIRE EXTINGUISHING SYSTEM - Google Patents

Abstract

The utility model relates to continuous fire extinguishing systems for high-rise buildings in dense urban areas. The fire extinguishing system comprises a ground-based fire engine 1 with a water intake pump 10 and a fire helicopter 2 with a hose 13 configured to be interconnected by a fire pressure hose 3. Pressure hose 3 is wound on the drum 4 of a fire engine 1. For lifting pressure hose 3 on board a helicopter 2 and connecting it to the helicopter’s hose 13, the latter is equipped with a “lift-lower” device 17 of the cable 18. To reduce the likelihood of a fire pressure hose rupture 3, the helicopter is equipped with an ejector pump 14, on the axis of which the br ndspoyt 13. Fire engine 1 is provided with a storage tank 8 to be connected through its water inlet pump 10 with the water network and / or natural sources of water. 2 zpf; 2 ill.

Description

The utility model relates to fire extinguishing, namely to the combined fire extinguishing systems of tall buildings.

A known fire extinguishing system (JP 2004065905, IPC: A62C 27/00, A62C 3/02, 2004) containing a ground fire truck with a water pump and a fire helicopter with a hose, made with the possibility of connecting a fire pressure hose, the pressure hose of a fire truck mounted on its winding drum, and the machine is equipped with a storage tank with the ability to connect it through a water pump with a water supply network and / or with natural sources of water. At the same time, an onboard drum with an onboard fire pressure hose of a long, not less than the minimum permissible and safe height of hovering of the helicopter above the ground fire engine and a device for "lowering and raising" the fire pressure hose are additionally installed on the fire helicopter. One end of the onboard fire hose of the helicopter is connected to the hose installed on the onboard rotary platform, and the other free (descent) end of the fire pressure hose is equipped with a coupling head for connecting to the free end of the pressure sleeve of the winding drum of the ground fire truck.

According to data (US2006175429, IPC ⁸ : B64D 1/18; А62С 25/00; B64D 1/00, 2006), the technical implementation of the fire extinguishing system of burning tall buildings based on the combination of a fire engine and a fire helicopter is problematic due to the possibility of rupture of pressure hoses under the action fluid gravity and pressure

the water pump of a fire engine, necessary to create a jet of water of sufficient pressure in the hose at the required flight height of a fire helicopter (fire extinguishing height). In addition, the helicopter’s overall limitations do not allow the installation of a drum for winding a descent fire hose of sufficient length to draw water and extinguish fires on the upper floors of high-rise buildings in dense urban areas.

The objective of the utility model is to solve the problem of the technical implementation of the combined fire extinguishing system and to ensure the possibility of its continuous water supply in the fire fighting process.

The technical result of the utility model is to reduce the pressure in the fire pressure hoses and reduce the size of the fire equipment in a helicopter.

The solution of the problem and the achievement of the claimed technical result is achieved by the fact that the fire extinguishing system comprising a ground fire truck with a water pump and a fire helicopter with a hose, made with the possibility of connecting a fire pressure hose to each other, and the pressure head of the fire truck is mounted on its winding drum, and the machine is equipped with a storage tank with the possibility of connecting it through a water intake pump with a water supply network and / or with natural sources of water according to and acquiring a helicopter further comprises a device "rise-descent" cable, an ejector pump and a pressure sensor, wherein the hose is mounted in the cavity of the ejector pump to its central axis, the pressure sensor signal input is connected to the interior of the hose, and an output - with a switch of the ejector pump.

In this case, the device for "lifting and lowering" the cable contains a reversible electric motor, on the axis of which a coil with a cable wound around it is installed, and a device for capturing the fire pressure head of the ground fire engine, made in the form of a loop or hook, is fixed at the free end of the cable.

The introduction of the device "rise-descent" of the cable, made in the form of a reversible electric motor, on the axis of which is installed a coil with a cable wound on it, at the end of which a grip of the fire hose of the fire engine is fixed, eliminates the bulky side drum for winding the fire hose and, thereby, reduce the influence of the overall limitations of the cargo compartments of the helicopter on the permissible length of the fire hose used to supply water from the ground fire engine to the helicopter. At the same time, the system’s ability to extinguish fires on higher floors of buildings is increasing. The supply of a helicopter with an ejector pump and the installation of a hose at its central axis reduce the pressure in the cavity of the fire hose connecting the fire engine to the fire helicopter. At the same time, reducing the requirements for the strength of the fire hose allows you to increase the permissible length of the pressure head of a given strength and, as a consequence, increase the height of the fire extinguishing system. The introduction of a pressure sensor, the signal input of which is connected to the internal cavity of the helicopter’s fire hose, and the output - with the switch for the helicopter fire extinguishing agent supply, allows the ejector pump to be switched on in time when water appears in the hose and thereby prevent a pressure surge in the connecting fire pressure hose when water approaches to the tapering mouth of the hose. By this

a reduction in the probability of rupture of the connecting fire pressure hose is achieved when the pressure pump of the ground fire truck is turned on.

These technical advantages allow us to solve the problem of the technical implementation of the well-known combined fire extinguishing system and provide continuous fire extinguishing of high-rise buildings in a dense urban area.

Figure 1 presents the functional diagram of the fire extinguishing system in working condition, figure 2 is a drawing explaining the design and operation of the ejector pump in the fire extinguishing system.

The fire extinguishing system comprises a ground fire engine of type 1 AP-2 based on a KAMAZ 43114 vehicle and a fire helicopter 2 configured to be interconnected by a fire pressure hose 3. The fire engine 1 comprises a winding drum 4 with a drive 5. A pressure hose 3 is wound on a drum 4 To reduce the volume of the drum 4, the sleeve 3 is made with the possibility of folding it in the form of a tape, and the machine 1 is equipped with an additional transportable supply of sleeves 3, the total length of at least two thousand meters. To increase frost resistance and resistance to aggressive environments (oil, gasoline), sleeve 3 is made of rubberized Armtex type with a double-sided polymer coating with a working pressure of up to 3.0 MPa. The inlet of the sleeve 3 is connected through the discharge pump 6 to the outlet pipe 7 of the storage tank 8, the inlet pipe 9 of which is connected through the intake pump 10 to the intake (suction) sleeve 11. The discharge pump 6 and the intake pump 10 can be structurally combined into a combined pump pump ", For example, type PN-40UV.01. Sleeve 11 is designed to draw water from

water supply network and / or from natural sources of water and has a rigid structure, textile frame and is reinforced with a steel spring. At the outlet of the fire pressure hose 3, a coupling sleeve 12 is mounted for connecting the sleeve 3 to the hose 13 of the helicopter 2. The hose 13 is installed in the cavity of the ejector (jet suction) pump 14 on its central axis. A membrane type pressure sensor 15 is installed on the hose 13 connected to the internal cavity of the hose 13. A normally open pair of contacts of the sensor 15, mechanically connected to its membrane, is included in the power supply circuit of the compressor 16 of the ejector pump 14. To enable the fire hose 13 to connect the fire helicopter 2 s the output of the sleeve 3 of the ground fire truck 1 on the helicopter 2 is installed device 17 "lifting-lowering" of the cable 18. The device 17 contains a reversible electric motor 19, on the axis of which a cat shka 20 wound on it the lifting cable 18. At the free (descent) the cable end 18 of capture device 21 installed fire hoses 3 fire engine 1 configured as a loop or hook. To form a stable jet of quenching fluid 22 and the possibility of controlling the direction of its discharge, the ejector pump is equipped with a diffuser 23 and is mounted on a slewing ring 24 with two degrees of freedom.

The fire extinguishing system operates as follows. When a fire occurs in high-rise buildings, a fire truck 1 and a fire helicopter 2 arrive at the site of the fire. Depending on the height and density of urban development, the pilot lowers the helicopter 2 to the minimum permissible hovering height above the fire engine 1. Then, using the lift-descent device 17, the helicopter firefighter 2 turns on the reversible electric motor 19 to lower the cable 18. In this case

a coil 20 mounted on the shaft of the electric motor 19 rotates in the direction of unwinding the cable 18 and lowering its gripper 21 to the ground fire truck 1. To reduce the influence of wind on the accuracy of landing of the gripper 21, a removable load can be suspended from the latter. Simultaneously with lowering the cable 18 of the helicopter 2, one firefighter of the fire truck 1 connects the intake hose 11 to the water supply network and / or lowers the sleeve 11 into a natural water source, for example, into a fire reservoir. After connecting the sleeve 11 to the water source, the firefighter turns on the water pump 10 and the tank 8 is filled. At the same time, when the cable 18 reaches the Earth's surface, another fireman of the machine 1 signals the helicopter 2 firefighter to disconnect the electric motor 19 of the device 17 and fixes the output end of the sleeve 3 to the gripping loop 21 1 ÷ 2 m from its connecting head 12. After securing the sleeve 3 to the cable 18, the firefighter of the vehicle 1 gives a conditional signal to the firefighter of the helicopter 2, for example, light and / or by radiotelephone, for lifting sleeve 3 of the fire engine 1. Having received the signal, the helicopter firefighter 2 turns on the device 17 to lift the sleeve 3. At the same time, the sleeve 3 is unwound from the drum 4. If the sleeve 3 is not long enough on the drum 4, the sleeve 3 can be extended by inserting additional hoses from the stock, carried by car 1. After raising the sleeve 3 to the helicopter 2, a firefighter connects the output of the sleeve 3 to the hose 13 of the connecting head 12. After connecting the sleeve 3 to the hose 13, the firefighter of the helicopter 2 gives a signal to the Earth to turn on the pressure pump 6 and directs a hose pump 13 of ejector 14 in the direction of fire. At the same time, the firefighter of the ground-based fire engine 1 turns on the pressure pump 6. At the same time, water from the tank 8 rises along the sleeve 3 onto the helicopter 2 via the pump 6 and enters the mouth of the hose 13. When water appears in the hose 13, the sensor 15 is activated, it

the contacts are closed, and the compressor 16 of the ejector pump 14 is turned on. In this case, the air from the compressor 16 passes through the narrowed part of the diffuser 23 of the ejector pump 14, creating an air discharge at the output end of the hose 13. The created vacuum sucks water from the hose 13 and reduces the pressure of the water on the walls of the sleeve 3, protecting the latter from rupture and increasing the energy of the outflowing water jet 22. The firefighter of the helicopter 2 with the help of the slewing device 24 directs the flowing stream of 22 water to the fire object and keeps the direction until the full repayment of the fire. After extinguishing the fire, firefighters turn off the ejector pump 14 of the fire helicopter 2 and the pumps 6 and 10 of the ground fire engine 1. Then, in the reverse order, the sleeve 3 is lowered from the helicopter 2 to the ground and winded onto the drum 4 using drive 5 of the fire engine 1.

The utility model is developed at the level of technical proposal and physical modeling. Physical modeling of the fire system showed the possibility of achieving the task and achieving the claimed technical result.

Claims (3)

1. Fire extinguishing system comprising a ground-based fire engine with a water pump and a fire helicopter with a hose, made with the possibility of connecting a fire pressure hose, the pressure hose of a fire engine mounted on its winding drum, and the machine is equipped with a storage tank with the ability to connect it through a water intake a pump with a water supply network and / or with natural sources of water, characterized in that the helicopter further comprises a cable “lift-lower” device, an ejector pump and a pressure sensor, wherein the hose is installed in the cavity of the ejector pump on its central axis, the signal input of the pressure sensor is connected to the internal cavity of the hose, and the output is connected to the switch of the ejector pump. 2. The system according to claim 1, characterized in that the device for "raising and lowering" the cable contains a reversible electric motor, on the axis of which a coil with a cable wound on it is installed, and a device for capturing the fire pressure head of the fire truck is installed on the free end of the cable. 3. The system according to claim 2, characterized in that the device for capturing the fire pressure hose of the machine is made in the form of a loop or hook mounted on the end of the cable.