RU2715255C1 - Method for increasing pressure in internal fire water supply pipeline (versions) and device for its implementation (versions) - Google Patents

Abstract

FIELD: fire-prevention equipment.

SUBSTANCE: present invention relates to control of stationary fire-prevention equipment, namely to internal fire water supply system and domestic and drinking water supply systems, in particular, to low-flow fire hydrants, which automatically switches on main fire pump and low-flow pump, and can be used in design, development and construction of new and reconstruction of existing internal fire water pipelines and fire hydrants, when pressure in hydraulic network is insufficient to form fire extinguishing finely sprayed water flow. This method and the device can be used in the household water supply network using intra-apartment fire extinguishing devices. Method for increasing pressure in internal fire water supply line comprises feeding water from fire hydrant valve to spray gun through fire hose and shut-off device of spray gun, wherein low pressure at the outlet of each valve is converted into high pressure by a low-flow pump, which is automatically activated when there is movement of water along the hydraulic path from the inlet to the valve until the finely atomized flow exits from the spray gun, note here that automatic switching on of low-flow pump and control of common fire pump of internal fire water pipeline is performed at mutual actuation of gate position indicators both valve and shut-off device of gun-sprayer or at actuation of liquid flow indicator only. Device for implementing method of increasing pressure in internal fire water supply system includes common fire pump connected through system of pipelines with fire hydrants, each valve of which is hydraulically connected to the beginning of the fire hose, the outlet end of which is connected to the locking device of the spray gun. In rupture of hydraulic circuit "valve-hose – fire gun-sprayer" between valve and fire hose low-flow pump is connected. Control of drive of low-flow pump and common fire pump of inner fire water pipeline may be performed according to one of two versions: if the fire valve and the gun locking device are equipped with a gate position indicator, then due to series-connected in each circuit normally open contacts of the gate position signaling devices, installed both on the fire hydrant valve and on the fire gun shut-off device; if in break of hydraulic circuit "fire shut-off valve of traditional fire hydrant – low-flow pump – fire hose – spray gun" between low-flow pump and fire hose is connected in series and liquid flow indicator, then due to normally open contacts of fluid flow indicators.

EFFECT: disclosed is a method of increasing pressure in internal fire water supply system.

4 cl, 2 dwg

Description

The present invention relates to the management of stationary fire-fighting equipment, in particular to the field of internal fire water supply and drinking water supply systems, in particular, low-flow fire hydrants, which automatically turn on the main fire pump and low-flow pump, designed to provide a finely atomized water flow, and can be used in the design, development and construction of new internal fire water pipelines (further - ERW) and fire hydrants for a wide range of building purpose (residential, office, hotel, etc.).

In the case of reconstruction of existing buildings for economic reasons, it is impractical to dismantle the pipeline system (risers, descents) of low-pressure airborne low pressure. But when using a low-pressure ERW it is not always possible to ensure the generation of a finely atomized water stream. Therefore, with the constant use of the existing low-pressure ERW for the normal operation of low-flow fire hydrants with finely sprayed water, i.e. pressure increase, it is possible to use a low-speed pump directly in each traditional fire hydrant.

According to GOST R 51844-2009 “Fire fighting equipment. Cabinets are fire. General technical requirements. Test Methods ”A traditional fire hydrant is a kit consisting of a valve mounted on an internal fire water supply and equipped with a fire connection head, as well as a fire hose with a manual fire barrel. According to GOST R 53278-2009 “Fire fighting equipment. Shutoff fire valves. General technical requirements. Test Methods ”The valve of the fire hydrant is designed to open the flow of water in the fire hydrant.

The proposed method and device can also be used in the drinking water supply network as an internal fire extinguishing device, according to clause 7.4.5 of SP 54.13330.2012: “A separate faucet with a diameter of at least 15 mm should be provided on the drinking water supply network in each apartment for connecting a hose equipped with a spray gun, for use as a primary device for in-house fire extinguishing to eliminate a fire source ”and as primary fire extinguishing cranes according to clause 7.1.11 of SP 30.133 30.2012 [Internal water supply and sewerage of buildings. Updated edition of SNiP 2.04.01-85 *]: “In residential apartments on a cold water supply riser, incl. with pipes made of polymer materials, a primary fire extinguishing valve should be installed, to which a hose other than a fire hose must be permanently connected. ”

The flow rate of the primary devices for internal fire extinguishing and primary fire extinguishing cranes does not exceed 1.5 l / s.

According to paragraph 4.1.1 (tables. 1 and 2) SP 10.13130.2009 [Fire protection systems. Internal fire water supply] the minimum water consumption for internal fire extinguishing per jet for residential, public, administrative, industrial and warehouse buildings, depending on the fire hazard of the room (building height, volume, degree of fire resistance, building category for fire hazard and purpose) is not less than 2.5 or 5.0 l / s.

In practice, the internal fire water supply system, and often the buildings as a whole, after long-term operation are reconstructed, and in contrast to the requirements of SP 10.13130.2009 [Fire protection systems. Internal fire water supply system], in which the requirements are formulated only for fire hydrants of a traditional internal fire water supply system, in the draft new edition of the joint venture 10.13130.2018 [Fire protection systems. Internal fire water supply. Design norms and rules] there are regulated requirements for designing both traditional air-blast and low consumption, providing fire extinguishing with finely sprayed water (under finely atomized water according to clause 3.53 of SP 10.13130.2017 and according to clause 3.105 of SP 5.13130.2009 [Fire protection systems. Automatic fire alarm and fire extinguishing systems. Design norms and rules] understand the atomized water flow with an arithmetic average droplet diameter of 150 microns or less).

Partial information on the construction of traditional fire hydrants for internal fire water supply is given in the textbook [Abrosimov Yu.G. etc. Hydraulics and fire water supply. Textbook M .: AGPS, 2003 .-- 391 p. (see section 15.1, pp. 321-327)]. However, in this textbook there is no information about low-flow fire hydrants providing the formation of a finely sprayed water stream.

The main features of the design and use of the internal fire water supply system, including traditional medium-flow, as well as low-flow fire hydrants are given in the training manual [L. Meshman, V. A. Bylinkin, R.Yu. Gubin, E. Romanova. YU. Internal fire water supply. Teaching aid. M .: VNIIPO, 2010. - 496 pp.], Which separately considers the internal fire water supply with low-flow fire hydrants generating a fine spray (see section 3.4, pp. 136-147), and traditional medium-flow fire hydrants. However, this training manual describes low-flow fire hydrants powered from a high-pressure internal fire water supply (section 3.4, p. 144-146) and there is no information on the possibility of using a traditional low-pressure water supply to generate a stream of finely sprayed water.

Details of low-flow fire hydrants with finely sprayed water are detailed in the overview articles:

- Meshman L.M., Bylinkin V.A., Didyaev A.G. On the updated version of the set of rules "Internal fire water supply." Fire and explosion safety, 2015, Volume 24, No. 2. - 5-22 s .;

- Meshman L.M., Bylinkin V.A., Didyaev A.G., Romanova E.Yu. Problems of designing an internal fire water supply system based on low-consumption low and high pressure fire hydrants. Fire safety. (in print in the journal Fire Safety, 2018).

Финляндия), FOGGUN и KFT (Fogtec, Германия), UHR 250 («Minimax GmbH», Германия), фирмы Sicli (Франция), фирмы Eusebi Impianti S.r.l., Италия],These works describe such cranes of domestic and foreign manufacturers: “Rosa” and “Rosa-M” (Biysk JSC “Spetsavtomatika”), KPK-Pulse (NPO “Pulse”), PK-B1 (NPO “Krilak Association”), UPTV (NPO Prostor, RSKU 20 VD (EFER CJSC), SRP-25U (PozhSnab), UVD-50.0 (Velikoluksky Plant Leskhoz-Mash), UPVD Yermak (LLC Lessnab), fire-fighting installation high pressure UPVD "URAGAN", water-jet high-pressure apparatuses "Poseidon" (Company Z-techno), BSP "Prestige" (CJSC "Pozhtehnika", Belarus), HW-25 NK-20/30 (Ukraine), Reel-20 ( Grap Fire Industries, India) , crane kit (NPT Company, Ukraine), UPTV 125 NPO Prostor, spray gun (HI-FOG Marioff Corporation

Finland), FOGGUN and KFT (Fogtec, Germany), UHR 250 ("Minimax GmbH", Germany), Sicli (France), Eusebi Impianti Srl, Italy],

As a rule, ERW is combined with drinking water supply, in low-flow fire hydrants, spray guns are used as fire barrels, and flexible semi-rigid hoses wound around the drum are used as fire hoses.

In some cases, according to the draft joint venture 10.13130.2018, both traditional fire hydrants and low flow valves (hereinafter referred to as PC-m) can simultaneously be connected to the risers or lowerings of the ERW, which allow dispersing the flow of finely sprayed water.

Compared with traditional ERW fire hydrants, for which, as a rule, the pressure at their inlet is (0.1-0.2) MPa, and the hydrostatic pressure at the mark of the lowest sanitary equipment should not exceed 0.45 MPa ( see paragraph 4.1.7 of SP 10.13130.2009), for low-flow fire hydrants that provide a stream of finely sprayed water, a slightly higher pressure (~ from 0.5 to 10.0) MPa) is required, with a small flow rate (from 0.2 to 1.5 l / s). The higher the pressure at the fire hydrant, the more efficient is the crushing of the droplets in the water stream and the lower the flow rate required to extinguish the fire.

Despite a slightly higher pressure, low-flow fire hydrants have a number of significant advantages: the possibility of safe use by residents or maintenance personnel of buildings for various purposes, low consumption (from 0.2 to 1.0 l / s), and, consequently, the absence of significant tides and flooding .

Structurally, low-flow fire hydrants are a coil with a semi-rigid sleeve wound around it, the inlet of which is connected to the fire shut-off valve, and the outlet to the fire barrel, which, as a rule, has an independent shut-off device and a spray torch shape regulator.

A fire hydrant is known (utility model No. 22051, IPC А62С 35/20, published March 10, 2002), which contains a drum mounted for rotation with a flexible hose wound around it, connected to a water supply system through a valve and a water supply unit to a flexible hose (according to Section 3 of GOST R 51409-2008 "Fire-fighting equipment. Pressure head fire hoses. General technical requirements. Test methods" not a hose, but a fire hose), a spray gun located at the end of a flexible hose, and a mounting fixture, and the drum is made in kind of di L-shaped elements are mounted on the side generatrix of which symmetrically, at equal distance from each other, forming a cylindrical groove for laying the flexible hose, while the mounting device is a T-shaped bracket attached to the wall with a transverse and vertical tubular rod, in in the middle part of which a pipe is embedded on which the water supply unit is placed in a flexible hose, the length of which, depending on the layout of the apartment, is 20-25 m.

This fire hydrant is low consumption, generating a finely atomized water stream, but it is possible to supply a finely atomized water stream only with the appropriate pressure. It is assumed that this pressure should be provided by a common fire pump located in the pumping station. Since the fire hydrant must be connected to the drinking water supply, the pressure at the spray gun will be insufficient to create a finely atomized stream. In addition, this device does not automatically turn on the main fire pump of a traditional internal fire water supply.

A device for internal fire water supply is known (certificate for utility model RU No. 17436 U1, IPC АСС 35/00, published April 10, 2001), used for unheated multi-storey buildings, containing a vertical riser connected by an input to the supply pipe, equipped with traditional fire hydrants according to the number of floors served building, drain device and remotely controlled locking and starting device. Water is supplied to the riser through a remotely controlled locking and starting device, which is opened by the operator’s command at the time of a fire hazard and also closed by the operator’s command after the fire has been eliminated.

However, this traditional internal fire water supply system provides for the operator to control the opening and closing of the locking and starting device and does not consider the possibility of automatically switching on the fire pump and supplying a finely atomized water stream through the fire barrel (when opening the fire hydrant).

To increase the water pressure in high-rise buildings, a water supply device for an industrial installation is intended (utility model patent RU No. 43889, IPC E03B, published 02.10.2005). The utility model relates to devices for increasing the pressure of water at the inlet of an industrial installation in a building with high floors and can be used in cooling systems and cold water consumption systems with the required pressure located on the upper floors of multi-storey buildings. The problem to be solved is to reduce energy consumption while providing the necessary water pressure to supply the installation located on the top floor of a multi-storey building. The water supply device of an industrial installation includes locking devices, a riser, a flexible hose, an electric pump, a storage tank, a power source, and an on / off block for the electric pump. The essence of the utility model is that in the water supply device of an industrial installation installed on the top floor of a multi-story building, the drinking water pipe is connected through the first inlet valve to the cold water main pipeline, and the supply pipe of the technical installation is connected through the second inlet valve to the initial section riser of drinking water in front of the first inlet valve. Moreover, the output of the pressure switch is connected to the control input of the on / off unit of the electric pump installed in its power supply circuit, and the storage tank is connected via a flexible hose to the gap of the supply pipe of the technical installation between the output of the electric pump and the pressure switch, while the electric pump and the storage pump the tank is located immediately before the industrial installation, and the pressure value at the outlet of the electric pump satisfies the condition:

P ≥ N / 10 + ΔP,

where H is the height of the rise of water;

ΔР - minimum pressure value at the inlet of the storage tank.

However, this device does not provide a finely atomized water stream.

A well-known drinking water and fire water supply system (Russian patent No. 2106165, A62C 35/00, A62C 37/00, published March 10, 1998), including a supply pipe, a fire pipe with fire pumps, combined with a drinking water pipe, which is connected to feed line. Cold water fire pumps also perform the functions of domestic drinking water pumps, which also use hot water circulation booster pumps installed on a combined fire and domestic drinking pipeline. At the same time, all pumps are equipped with adjustable drives controlled by feedback sensors, which allows for automatic operation of the system both in normal mode and in the event of a fire. However, issues related to the provision of finely atomized water in the low-pressure water supply system operating in the internal fire fighting system have not been considered.

A well-known drinking water and fire water supply system for buildings (ed. Certificate No. 872669, M. Cl. EVB 67/04, published 10/17/81), containing drinking and household risers with water folding fittings and fire risers with fire hydrants, utility and fire pumps. The essence of the invention is directed directly to the interaction of the functioning of the fire and utility pumps in case of fire. However, the use of low-flow fire hydrants, forming a finely dispersed water flow, is not considered in this system, nor is the automatic start of the fire pump when opening the valve of the fire hydrant considered.

A known fire extinguishing installation (utility model No. 113970 U1, IPC АСС 35/20 2006.01, published March 10, 2012), including an element of the main pipeline connected to fire hydrants, containing a shut-off device connected to an outlet pipe for connecting to a fire hose, an element heating device the main pipeline, a door cabinet for placing installation elements, trays for placing fire hoses and trunks in them, a hollow connecting element located inside the main pipeline element with possible by connecting a locking device to it. However, the use of low fire hydrants, forming a finely dispersed water stream, and this installation is not provided. The automatic system for starting the fire pump located in the pump station when opening the valve of the fire hydrant is also not considered.

A fire extinguishing device for indoor use is known (utility model No. 162172, IPC А62С 35/00, ЕВВ 7/04, published September 20, 2009), comprising a mobile housing with a water tank located in its upper part, connected through a water supply system with a flexible sleeve, equipped with a water spray and wound on a drum mounted for rotation or discharge, and on the bottom of the body, under the water tank, there is a pump connected on one side of the pipeline to the tank, and on the other - with a flexible sleeve, as well as an electric umulyator pump power and a charger for charging this battery.

A similarly known mobile fire extinguishing complex is known (patent No. 2552995, IPC А62С 3/00, published June 10, 2015), which contains a quad bike as a vehicle, which is connected to a uniaxial trailer by means of a coupling device. The trailer has a water tank, a motor pump and a hydraulic accumulator. A filter is installed in the container, the free end of which is perforated with holes, and a float is rigidly fixed at the second end of the filter connected to the suction sleeve. The motor pump is connected to a pressure pipe, the cavity of which is connected with a hydraulic accumulator and a distributor with cranes, which are connected to the side fire barrels and a manual fire barrel via connecting hoses. The pressure pipe is equipped with an overflow valve that is connected to an overflow pipe. An additional frontal frame is installed on the ATV, having a pivotally fixed axis on which lateral fire barrels are placed, interconnected by means of two rods.

The disadvantage of a fire extinguishing device for indoor use (utility model No. 162172) and a mobile fire extinguishing system (patent No. 2552995) is that their pump installation contains a limited supply of water contained in a water tank, their movement is possible only on a flat surface and is not intended to move along the flights of stairs, there is no system to automatically start your own pump when opening the valve of the fire hydrant.

Laboreinrichtungen, insbesondere

Laborabzuge) (ЕР №1208875 А2, А62С 4/04, опубликован 29.05.2002), содержащая мобильное транспортное средство с размещенными на нем сосуде для огнетушащего вещества, автоматическом пожарном извещателе (электронно-оптический детектор пламени и/или плавкую термочувствительную вставку), системе видеонаблюдения и оповещения (звуковая и световая), пожарном стволе и электрическом аккумуляторе. При необходимости помещение может быть оснащено несколькими подобными мобильными установками пожаротушения. Предполагается, что в случае возникновения пожара какая-либо установка регистрирует загорание, продвигается к аварийному шкафу и осуществляет подачу огнетушащего вещества в шкаф. Однако данная установка, вследствие ограниченного запаса огнетушащего вещества, обеспечивает кратковременное действие, не предназначена для продолжительного тушения пожара и ее перемещение ограничено только по ровной поверхности.Known mobile fire extinguishing installation for the protection of laboratory equipment, in particular laboratory cabinets (

Laboreinrichtungen, insbesondere

Laborabzuge) (EP No. 1208875 A2, A62C 4/04, published May 29, 2002) containing a mobile vehicle with a fire extinguisher vessel placed on it, an automatic fire detector (electron-optical flame detector and / or fusible thermosensitive insert), system CCTV and alerts (sound and light), fire barrel and electric battery. If necessary, the room can be equipped with several similar mobile fire extinguishing installations. It is assumed that in the event of a fire, any installation registers ignition, advances to the emergency cabinet and delivers the extinguishing agent to the cabinet. However, this installation, due to the limited supply of extinguishing agent, provides a short-term effect, is not intended for prolonged fire fighting and its movement is limited only on a flat surface.

Known motor pump (patent No. 2187705, IPC F04D 9/04 (2000.01), A62C 25/00 (2000.01), published 08/20/2002), containing the engine, the main pump and the intake hose with a filter. An additional pump is placed inside the sleeve in the form of an impeller fixed to a flexible drive shaft. A through hole is made in the wall of the sleeve in the area of the impeller from the engine side. With the motor pump running and the flexible shaft turned on, the impeller of the auxiliary pump delivers water to the main pump. After filling the main pump, the auxiliary pump is switched off and the impeller stops. The main pump begins to absorb water between the impeller blades of the auxiliary pump. In this device, the additional pump performs a private function of filling the cavity of the main pump and does not provide an increase in pressure developed by the main pump.

Known pumping installation of drinking water and fire water supply (patent for utility model No. 86882, IPC АСС 37/00, ЕВВ 7/04, published September 20, 2009), containing a pumping unit with drinking water and fire pump. The household drinking pump is designed to increase the pressure available in the city water supply to the pressure required for comfortable water supply at the dictating point of the building, and the fire pump - to provide a higher pressure during fire fighting. At the same time, the system provides for the inclusion of fire pumps, for example, from fire alarm sensors or from buttons installed near fire hydrants on floors. The pressure in the water supply network is supported by one of the pumps with a variable frequency electric drive, which ensures that the pressure is maintained at the required level. To ensure a given pressure in the fire extinguishing mode, an additional pump with an unregulated electric drive is switched on.

The closest analogue adopted as a prototype is a method of controlling a drinking water and fire water supply system and a device for implementing the method (patent No. 2399396, IPC АСС 5/64, ЕВВ 7/00, published September 20, 2010), containing a main pump with adjustable drive and additional pump with non-adjustable drive. The hydraulic circuit of patent No. 2399396 fully complies with the hydraulic scheme of patent for utility model No. 86882. The control device of the drinking water and fire water supply system implementing the method comprises a pump with an adjustable electric drive, consisting of an AC motor and a frequency converter, and a pressure sensor. The sensor is connected to the first input of the control unit. The second input of the unit is designed to connect to external sources a command to put the system into fire extinguishing mode, for example, a fire alarm sensor, fire extinguishing buttons located near fire hydrants. The unit is connected by the output to the converter and regulates the pump speed to maintain a given pressure. By the command received at the input, the supported head is increased from the value of H ₁ specified at the input to the value of H ₂ specified at the input. An additional pump, the uncontrolled electric drive of which is connected to the auxiliary output of the unit, turns on if the pressure measured by the sensor does not reach the set pressure, which provides increased system reliability, savings in capital and operating costs without loss of water supply comfort and ensuring standard pressure in all operating modes. However, the additional pump is designed to ensure the constancy of pressure in the hydraulic network, both for consumers of domestic drinking water supply and for fire hydrants.

But since the pressure at the fire hydrant should not exceed 0.45 MPa with a combined VPV pipeline and a domestic drinking water supply, this pressure is not enough to obtain a finely atomized stream with the necessary energy to extinguish a fire with a low consumption of extinguishing agent. The disadvantage of this pump installation is the inclusion of fire pumps, for example, from fire alarm sensors or from buttons located near fire valves on floors, regardless of whether or not a fire valve is currently being used to extinguish a fire. If the fire hydrant is not used to extinguish the fire, and the pump is turned on, then this can lead to breakdown.

The purpose of the claimed technical solution is to provide the possibility of using a low-pressure internal fire water supply to extinguish fires with a finely divided water stream, due to the use of an additional automatic low-flow pump boosting installation in each traditional fire hydrant.

The essence of the claimed method of increasing the pressure in the internal fire water supply, including the water supply from the common fire pump to the spray gun through the valve of the fire valve, the fire hose and the locking device of the spray gun, is that the low pressure at the outlet of each valve is converted to high pressure low-flow pump, the inclusion of which is carried out automatically when there is movement of water along the hydraulic path from the inlet to the valve to the exit of the finely sprayed stream from the gun a spray, the switch control malorashodnyh pump and firefighter common internal fire water pump is performed by mutual activation or signaling the position of the valve body and locking device of the gun or when triggered signaling fluid flow.

The technical effect realized by the claimed method allows to obtain the following:

- use the traditional low-pressure internal fire water supply without dismantling or reconstruction in the case when it is required to install low-flow fire hydrants on risers or lowerings, providing a fine-sprayed water stream;

- use the traditional low-pressure internal fire water supply for multifunctional buildings - on the upper floors of which there are residential apartments, hotel rooms or office and office buildings - low-speed fire hydrants, and on the lower floors, where shops, parking lots, etc. are located. - traditional fire hydrants;

- to provide the ability to extinguish fires with tenants or service personnel of hotels, hostels, administrative buildings, etc. (according to the draft new version of SP 5.13130, only firefighters and members of a voluntary firefighter can use a traditional internal fire water supply system to extinguish fires).

The essence of the claimed device for implementing a method of increasing pressure in an internal fire water supply system containing a common fire pump connected through a piping system to fire hydrants, each valve of which is hydraulically connected to the beginning of the fire hose, the outlet end of which is connected to the shut-off device of the spray gun , what:

- if both the valve of the fire hydrant and the locking device of the spray gun are equipped with a shutter position indicator, and a low-flow pump is connected between the valve and the fire hose to the hydraulic circuit breaker “fire valve valve - fire hose - spray gun”, the drive of this pump is connected to the power source through the first series-connected normally open contacts of the fire alarm valve shutter position indicator and the shutter device shutter position indicator the gun, and the second normally connected open contacts of the shutter position indicator of the fire valve and the shutter position of the shutter device of the spray gun are connected to the control system of the common fire pump of the internal fire water supply;

- if a low-flow pump and a liquid flow warning device are connected in series between the valve and the fire hose in the hydraulic circuit “fire valve valve - fire hose-gun-spray gun”, the drive of this pump being connected to the power source through the first normally open contacts of the liquid flow signal switch, and the second normally open contacts of the liquid flow signaling device are connected to the control system of the common fire pump of the internal fire water supply.

The technical effect realized by the claimed device for implementing the method of increasing the pressure in the internal fire water supply for extinguishing fires with a finely sprayed water stream allows to obtain the following:

- the necessary pressure to ensure the formation of a spray gun finely atomized water flow;

- significantly reduce water consumption compared to traditional fire hydrants;

- Simplify and facilitate fire extinguishing by untrained personnel or residents.

In determining the compliance of the distinguishing features of the proposed invention with the criterion of "inventive step", the prior art and, in particular, known methods and devices related to the field of fire hydrants of internal fire water supply and the possibility of their use to extinguish fires with finely sprayed water were analyzed.

Thus, the distinguishing features of the proposed technical solution are new and meet the criterion of "novelty."

The analysis of other technical solutions showed that the known methods and devices do not solve the above problems, which are solved by the claimed method of increasing the pressure in the internal fire water supply for extinguishing fires with a finely sprayed water stream and a device for its implementation.

Based on the foregoing, we can conclude that the claimed technical solution meets the criterion of "inventive step", and the invention itself is new.

In FIG. 1 shows the hydraulic circuit of the proposed device for implementing the method of increasing pressure in the internal fire water supply (according to claim 3 of the formula).

The device consists of a valve 1, a low-speed booster 2, which is a low-flow alluvial unit (low-flow pump 3 + electric drive 4), a flexible fire hose 6 wound on a coil 7, a spray gun 8 equipped with a spray nozzle 9 and a shut-off device 10. Moreover, the valve 1 and the locking device 10 are equipped with a shutter position indicator (not shown in Fig. 1). Each shutter position indicator has two pairs of normally open contacts, respectively 1a, 1b and 10a, 10b. The power supply 11 of the booster installation 2 can be either a centralized DC network with a voltage not exceeding, as a rule, 12 V, or a stand-alone electric accumulator. The open contacts 1a and 10a are connected in series to the electric circuit of the power supply 11 and the electric drive 4 of the low-flow pump 3, and the open contacts 1b and 10b are connected in series to the electric circuit of the control system 12 of the internal fire water supply, including, if necessary, with the fire pump of the internal fire water supply and / or domestic water pumps (these pumps are not shown in FIG. 1).

In standby mode, the main fire pumping unit of the internal fire water supply is switched off, and the pressure in the pipeline network (in risers and descents) is maintained by an automatic water feeder (not shown in Fig. 1). Depending on the architectural and planning decisions and the type of protected object and with sufficient pressure from the external mains network, a general fire pumping unit for an internal fire water supply may not be necessary.

The automatic start-up of a low-consumption booster installation 2 (and, consequently, of a low-flow pump 3) and control of the internal fire water supply system, including, if necessary, the fire pump of the internal fire water supply system or the drinking and domestic water supply pumps, occurs only if the hydraulic circuit "Fire shut-off device 1 - low-flow pump 3 - sleeve 6 - spray gun 8" will begin the movement of water. The movement of water in this hydraulic circuit is possible only with the valve 1 open and the locking device 10. When they open each other, the corresponding shutter position switches are activated, so that contacts 1a, 1b and 10a, 10b are closed respectively. In this case, power is supplied both to turn on the low-consumption booster installation 2 (and, consequently, the low-flow pump 3), and to the control system 12 of the internal fire water supply system, including, if necessary, the fire pump of the internal fire water supply system and / or household pumps drinking water supply. In this case, the pump 3 will begin to pump water into the spray gun 8 with a predetermined high pressure, so that a stream of finely atomized water will be formed at the output of the spray gun 8.

In FIG. 2 presents a hydraulic diagram of the proposed device for implementing the method of using a traditional internal fire water supply to generate a low-flow water flow of finely dispersed water (paragraph 4 of the formula).

The device shown in FIG. 2 differs from the device shown in FIG. 1, by the presence of a liquid flow signaling device 5, and in this case, the valve 1 and the locking device 10 are not subject to mandatory shutter position signaling devices. The fluid flow switch 5 has two pairs of normally open contacts - 5a and 5b, respectively. Open contacts 5a are connected to the electric circuit of the power source 11 and electric drive 4 of the low-flow pump 3, and open contacts 5b are connected to the electric circuit to the control system 12 of the internal fire water supply system, including, if necessary, the fire pump of the internal fire water supply system and / or the household drinking water supply (if necessary) (in Fig. 2 these pumps are not shown).

In standby mode, the main fire pumping unit of the internal fire water supply is switched off, and the pressure in the pipeline network (in risers and descents) is maintained by an automatic water supply (this water supply is not shown in Fig. 2).

The automatic start-up of a low-consumption booster installation 2 (and, consequently, of a low-flow pump 3) and control of the internal fire water supply system, including, if necessary, the fire pump of the internal fire water supply system or the drinking and domestic water supply pumps, occurs only if the hydraulic circuit "Fire shut-off device 1 - low-flow pump 3 - liquid flow signaling device 5 - flexible fire hose 6 - fire spray gun 8" will begin the movement of water. The movement of water in this hydraulic circuit is possible only with the valve 1 open and the shut-off device 10. When they open each other, the liquid flow switch is activated, so that contacts 5a and 5b are closed respectively. In this case, power is supplied both to turn on the low-expendable booster installation 2 (and, therefore, the low-flow pump 3), and to the control system 12 of the internal fire water supply system, including, if necessary, the fire pump of the internal fire water supply system and / or drinking water pumps water supply. In this case, the pump 3 will begin to pump water into the spray gun 8 with a given increased pressure, so that a stream of finely atomized water will be formed at the output of the spray gun 8.

Claims (4)

1. A method of increasing the pressure in the internal fire water supply system, comprising supplying water from a common fire pump to a spray gun through a fire valve valve, a fire hose and a shut-off device of the spray gun, characterized in that the low pressure at the outlet of each valve is converted to low-pressure high pressure a pump, the inclusion of which is carried out automatically in the presence of movement of water along the hydraulic path from the valve inlet to the exit of the finely sprayed stream from the spray gun, automatic switching on of a low-flow pump and control of a common fire pump of an internal fire-fighting water supply are carried out when the signaling devices of the valve shutter position and the locking device of the spray gun are mutually triggered. 2. A method of increasing the pressure in an internal fire water supply system, comprising supplying water from a common fire pump to a spray gun through a fire valve valve, a fire hose and a shut-off device of a spray gun, characterized in that the low pressure at the outlet of each fire valve valve is converted to high pressure with a low-flow pump, the inclusion of which is carried out automatically when there is movement of water along the hydraulic path from the valve inlet to the exit of the finely sprayed stream from the spray gun a dust collector, moreover, the automatic inclusion of a low-flow pump and the control of a common fire pump of an internal fire water supply system are carried out when the liquid flow alarm is triggered. 3. A device for implementing a method of increasing pressure in an internal fire water supply system, comprising a common fire pump connected through a piping system to fire hydrants, each valve of which is hydraulically connected to the beginning of the fire hose, the outlet end of which is connected to a shut-off device of the spray gun, characterized in that both the valve and the locking device of the spray gun are equipped with a shutter position indicator, and in the break of the hydraulic circuit “the valve of the fire hydrant is a fire arm c - spray gun "between the valve and the fire hose a low-flow pump is connected, the drive of this pump being connected to the power supply through the first normally connected normally open contacts of the valve shutter position indicator and shutter position signaling device of the spray gun shut-off device, and the second serially connected normally open contacts of the valve shutter position indicator and shutter position indicator of the spray gun locking device The fir trees are connected to the control system of the common fire pump of the internal fire water supply. 4. A device for implementing a method of increasing pressure in an internal fire water supply system, comprising a common fire pump connected through a piping system to fire hydrants, each valve of which is hydraulically connected to the beginning of the fire hose, the outlet end of which is connected to a shut-off device of the spray gun, characterized in that in the rupture of the hydraulic circuit "valve fire valve - fire hose - spray gun" between the valve and the fire hose low-speed n a pump and a liquid flow warning device, the drive of this pump being connected to the power supply through the first normally open contacts of the liquid flow warning device, and the second normally open contacts of the liquid flow warning device are connected to the control system of the common fire pump of the internal fire water supply.

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