JP2006325696A - Fire extinguishing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To disuse a vacuum pump for filling a water pump with the priming before starting the water pump. <P>SOLUTION: The same compressor 3 is used to suck air inside the water pump, etc. by utilizing the suction function of the compressor before starting the water pump 1, and outside air is mixed in water to be force-fed from the water pump to a mixer 2 by utilizing the force-feeding function of the compressor after starting the water pump. By separately utilizing the suction function and the pressure-feeding function of the compressor 3 in this way, it is not necessary to set a separate vacuum pump. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a fire extinguishing system, and in particular, a single compressor fills the water pump with priming water before the water pump is started, and after the water pump is started, the water is pumped into the water or the like. The present invention relates to a fire extinguishing system capable of mixing compressed air.

  Conventionally, there has been proposed a fire extinguishing system that effectively extinguishes by mixing a fire extinguishing stock solution into water pumped by a water pump, mixing the compressed air from the compressor, foaming it, and then discharging it with a nozzle. Yes. Furthermore, these fire extinguishing systems are not limited to those installed on the ground or buildings, but are also installed in vehicles as so-called fire engines, and are extinguished quickly by rushing to the fire site.

  By the way, when a large amount of water is used for fire extinguishing, the water is usually sucked up from a water tank, pond, river or sea by a water pump. In particular, in a fire extinguishing system used for in-vehicle use, since there is a limit to the amount of fire extinguishing water that can be mounted, a water pump that sucks water from a water storage tank or the like is required. However, when water is sucked up from the outside by the water pump as described above, the water filled in the water pump or the hose between the water source and the water pump must be sucked out in advance and filled with so-called priming water. Can't pump water with the pump. Therefore, when water is sucked up from the outside by the water pump, a vacuum pump for filling the priming water is necessary before the water pump is started.

  Here, an example of a fire extinguishing system that sucks up water from the outside by a water pump is shown in FIGS. FIG. 3 shows the operating state before starting the water pump, and FIG. 4 shows the operating state after starting the water pump. That is, as shown in FIG. 3, before the water pump 101 is started, the vacuum pump 108 is operated to suck the air remaining in the water pump and the flow path 111 from the water source 104 to the water pump. To discharge.

  In the flow path 106 between the water pump 101 and the vacuum pump 108, a water stop valve 161 and a check valve 162 are provided in this order. The water stop valve 161 is for the vacuum pump 108 to suck only air and prevent water from entering. That is, the water stop valve 161 opens and closes the flow path by a valve connected to the diaphragm, and the air is sucked by the vacuum pump 108 and the diaphragm is kept in a low pressure while the pressure in the water stop valve is reduced. The valve expands to keep the valve in the open position, and when water is sucked into the water stop valve, the valve is closed by the water pressure. The check valve 162 is for preventing air from being sucked from the vacuum pump 108 that has been stopped after the water pump 101 is started. A check valve 112 is also provided on the discharge side of the water pump 101 so that the vacuum pump 108 does not suck air in the discharge-side flow path of the water pump.

  On the other hand, as shown in FIG. 4, after starting the water pump 101, the vacuum pump 108 is stopped, water is sucked up from the water source 104 by this water pump, and is pumped to the mixer 102. The compressor 103 pumps the sucked outside air to the mixer 102. Then, the fire extinguishing stock solution 105 is mixed into the water pumped from the water pump 101, the air pumped from the compressor 103 is mixed in the mixer 102, foamed, and discharged from the injection nozzle. A check valve 172 provided in the flow path 107 on the discharge side of the compressor 103 prevents water remaining in the mixer 102 and the fire extinguishing stock solution from flowing backward after the compressor is stopped.

  However, in the conventional fire extinguishing system described above, the vacuum pump 108 is used only before starting the water pump 101 to fill the priming water, and is not used after starting the water pump once. Further, the compressor 103 used for mixing the compressed air with the water pumped by the water pump 101 to form a foam, sucks air from the outside air. Moreover, the compressor 103 is used only after starting the water pump 101 and is not used before starting the water pump.

  Therefore, both functions are used so that the air suction function is used before the water pump 101 is started using the same compressor 103 and the air pumping function is used after the water pump is started. Can be used properly.

  Therefore, an object of the present invention is to fill the water pump and the suction channel with the priming water before the water pump is started by one compressor, and after the start of the water pump, the water pumped from the water pump, etc. An object of the present invention is to provide a fire extinguishing system capable of mixing compressed air.

  The feature of the fire extinguishing system according to the present invention to solve the above-mentioned problems includes a water pump for sucking water from a water source, a mixer to which water is pumped from the water pump, a compressor, and an inflow passage for the compressor. The inflow path has a flow path communicating with the inlet of the water pump, a flow path communicating with the outside air, and switching means for selecting one of these flow paths. Then, before starting the water pump, the compressor sucks air in the flow path from the water source to the water pump and air in the water pump by selecting one of the switching means, and starts the water pump. Thereafter, the outside air is sucked by the other selection of the switching means and pumped to the mixer.

  It is desirable to mix a fire extinguishing stock solution either in the flow path between the water pump and the mixer or in this mixer. The switching means is an open / close valve provided in a flow path communicating with the outside air, and the open / close valve is closed before the water pump is started and is opened after the water pump is started. It is desirable.

  Furthermore, it is desirable to use the fire extinguishing system for in-vehicle use.

  Here, the “water source” means one that stores water for fire extinguishing, and includes, for example, a water tank, a pond, a river, and the sea. The “water pump” means a pump that draws water from a water source, regardless of the type, capacity, or quantity. For example, a positive displacement pump such as a piston type or a gear type, or a non-positive displacement pump such as a vortex type is applicable. “Mixer” means any device that mixes water pumped from a water pump and air pumped from a compressor. For example, from a hole or slit formed in the wall of a water flow path, Or a pipe or the like inserted in the flow path of water to allow air to flow from the pipe or the like. The “compressor” means a compressor that sucks air from outside air and pumps it, and corresponds to a positive displacement compressor such as a piston type or a screw type, or a non positive displacement compressor such as a centrifugal type.

  The “flow path communicating with the inlet of the water pump” means that the air in the flow path from the water source to the water pump and the air in the water pump can be sucked before starting the water pump, as will be described later. In this way, the communication channel is not limited to the inlet of the water pump into which water from the water source flows, and includes a case where the channel is connected to the channel in the water pump. “Switching means” means all means that can select either a flow path communicating with the inlet of the water pump or a flow path communicating with the outside air. Including those that operate on. For example, a thing consisting of a plurality of on-off valves, a three-way valve, or a thing consisting of an on-off valve and a check valve are applicable. "The compressor sucks the air in the flow path from the water source to the water pump and the air in the water pump by selecting one of the switching means before starting the water pump" as described above. This means using the air suction function of the compressor before starting the water pump. “After the start of the water pump, the compressor sucks outside air by the other selection of the switching means and pumps it to the mixer” as described above. This means using the air pressure feeding function.

  "Fire extinguishing stock solution" means all liquid agents that foam when mixed with water and mixed with compressed air, etc., and can be used as foam extinguishing agents, such as protein foam extinguishing agents and synthetic surfactant foam extinguishing agents To do. The “open / close valve” means all valves that open and close the flow path, and corresponds to valves that are opened and closed by electricity, hydraulic pressure, or the like in addition to manual valves.

  Before starting the water pump, a single compressor fills the water pump and the flow path from the water source to the water pump into the priming water. Since compressed air can be mixed, a vacuum pump becomes unnecessary. Therefore, manufacturing costs and maintenance costs can be greatly reduced, and the in-vehicle space of the vacuum pump can be effectively used for other purposes.

  The configuration of the fire extinguishing system according to the present invention will be described with reference to FIGS. 1 and 2. FIG. 1 shows the operating state of the system before starting the water pump, and FIG. 2 shows the operating state of the system after starting the water pump. That is, the fire extinguishing system according to the present invention is used by being mounted on a so-called fire engine, and, as shown in FIGS. 1 and 2, from a water source 4 such as a reservoir through a flow path 11 composed of a suction hose. A water pump 1 for sucking up water, a mixer 2 for pumping water from the water pump, and a compressor 3. In the flow path between the water pump 1 and the mixer 2, a fire extinguishing stock solution 5 made of a synthetic surfactant foam fire extinguisher or the like is mixed.

  The water pump 1 uses a centrifugal pump, and the compressor 3 uses a rotary screw type. Further, the mixer 2 introduces a fluid obtained by mixing the fire-extinguishing stock solution 5 into the water pumped from the water pump 1 into a narrow nozzle flow path, and introduces the outside air pumped from the compressor 3 into the nozzle flow path. Foam to form a foam extinguisher. The fire extinguishing stock solution 5 is stored in a container and sucked into the outflow path from the water pump 1 having a high flow rate. The flow rate of the outside air pumped from the fire extinguishing stock solution 5 and the compressor 3 is provided with a flow rate adjusting means that can be appropriately increased or decreased according to the flow rate of the water pumped from the water pump 1.

  The water pump 1 and the inlet of the compressor 3 communicate with each other through a flow path 6 made of a hose. The water flow from the water pump toward the inlet of the compressor is connected to the water stop valve 61 and the water stop. A check valve 62 that prevents backflow to the valve and a flow path 9 that communicates with the outside air are provided in this order. An electric opening / closing valve 91 is provided in the flow path 9 communicating with the outside air. A check valve 12 is provided on the discharge side of the water pump 1 to prevent backflow to the water pump. The outlet of the compressor 3 and the mixer 2 communicate with each other through a flow path 7 formed of a hose. The flow path includes an opening / closing valve 71 communicating with the outside air from the outlet of the compressor toward the mixer, A check valve 72 for preventing back flow to the compressor is provided in this order.

  The stop valve 61 is for preventing the water sucked up from the water source 4 from being sucked into the compressor 3 when so-called priming water is filled before the water pump 1 is started. The well-known thing using is used. The check valves 12, 62, 72 use so-called known check valves that press the valve against the valve seat with a spring. The check valves 12, 62, 72 may use other means such as an electromagnetic valve.

  Now, with reference to FIG. 1, the operation of the system before the water pump 1 is started will be described. That is, in this operating state, the opening / closing valve 91 provided in the flow path 9 communicating with the outside air is closed and is shut off from the outside air. On the other hand, the open / close valve 71 provided in the flow path 7 connecting the outlet of the compressor 3 and the mixer 2 is open and communicates with the outside air. Therefore, when the compressor 3 is operated in this state, the check valve 62 provided upstream is opened by the suction force of the compressor, and the flow path from the water source 4 to the water pump is stopped in the water pump 1 that is stopped. 11 is sucked and discharged from the open / close valve 71 to the outside. In this case, the check valve 12 prevents the air in the discharge side flow path of the water pump 1 from being sucked. In addition, since the air flowing out from the compressor 3 is decompressed to substantially the external pressure through the open on-off valve 71, the check valve 72 provided in the subsequent flow prevents the air from flowing into the mixer 2. As described above, before the water pump 1 is started, the water pump is filled with priming water by the suction function of the compressor 3.

  Next, the operation of the system after the start of the water pump 1 will be described with reference to FIG. That is, in this operating state, both the water pump 1 and the compressor 3 are operating. However, the open / close valve 91 provided in the flow path 9 communicating with the outside air is opened and communicated with the outside air, and thus the compressor sucks the outside air.

  On the other hand, the open / close valve 71 provided in the flow path 7 on the discharge side of the compressor 3 is closed, so that the air pressure-fed from the compressor pushes the check valve 72 open and flows into the mixer 2. And the fluid which the fire extinguishing stock solution 5 mixed in the water pumped from the water pump 1 is made to foam, a foam extinguishing agent is formed, and it discharge | releases from an injection nozzle. As described above, after the start of the water pump 1, the outside air is pumped to the mixer 2 by the pumping function of the compressor 3, and a foam extinguisher is formed.

  The fire extinguishing system is not limited to being used for in-vehicle use, but can be used for installation as it is. This fire extinguishing system is also used in the case where the fire extinguisher water 5 is not mixed, but the water pumped from the water pump 1 to the mixer 2 is mixed with the air pumped from the compressor 3 to discharge the fire extinguishing water in the form of a mist. Available. The fire extinguishing stock solution is not limited to being mixed in the flow path between the water pump 1 and the mixer 2 but may be mixed in this mixer. Further, before the water pump 1 is started, the air sucked by the compressor 3 from the water pump or the like can be introduced into the mixer 2 without being discharged to the outside air, and can be discharged from the injection nozzle to the outside air. . In such a case, the opening / closing valve 71 becomes unnecessary. Further, when the open / close valve 91 is opened after the water pump 1 is started and the compressor 3 sucks the outside air, the check valve 62 can be omitted. The water pump 1 and the compressor 3 are driven by known means such as a motor that is operated by electricity from a generator or the like.

  Since the fire extinguishing system of the present invention can fill the priming water without installing a vacuum pump, the manufacturing and maintenance costs can be reduced, and the in-vehicle space can be effectively used for other purposes. Therefore, it can be widely used in industries related to fire extinguishing systems.

It is a block diagram which shows the operation state before the start of a water pump. It is a block diagram which shows the operation state after starting of a water pump. It is a block diagram which shows the operating state before the start of the conventional water pump. It is a block diagram which shows the operation state after starting of the conventional water pump.

Explanation of symbols

1, 101 Water pump 11, 111 Flow path 12, 112 Check valve 2, 102 Mixer (foaming device)
3, 103 Compressor 4, 104 Water source 5, 105 Fire extinguishing concentrate 6, 106 Flow path 61, 161 Water stop valve 62, 162 Check valve 7, 107 Flow path 71 Open / close valve 72, 172 Check valve 9 Flow path 91 Open / close valve 108 vacuum pump

Claims (4)

A water pump for sucking water from a water source, a mixer for pumping water from the water pump, a compressor, and an inflow passage for the compressor;
The inflow path has a flow path communicating with the inlet of the water pump, a flow path communicating with outside air, and a switching means for selecting one of these flow paths,
Before starting the water pump, the compressor sucks air in the flow path from the water source to the water pump and air in the water pump by selecting one of the switching means.
The fire extinguishing system, wherein after the start of the water pump, the compressor sucks outside air by selecting the other of the switching means and pumps it to the mixer.       2. The fire extinguishing system according to claim 1, wherein a fire extinguishing stock solution is mixed in either the flow path between the water pump and the mixer or the mixer. In any one of Claim 1 or 2, the said switching means is an on-off valve provided in the flow path connected to the outside air,
The open / close valve is closed before the water pump is started,
The fire extinguishing system, wherein the on-off valve is opened after the water pump is started. The fire extinguishing system according to any one of claims 1 to 3, wherein the fire extinguishing system is used for in-vehicle use.