JP2009183597A - Special fire vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a highly efficient system for preventing secondary disaster. <P>SOLUTION: The special fire vehicle is constituted so as to perform discharge using a discharge instrument 1, loaded with devices driven by liquid pressure actuators 3-8, and includes a non-volume pump 21 and a volume pump 22, both of which are driven by a power supply (engine 20), a reservoir tank 30 for storing water, a fire fighting water suction passage 31 for guiding the water of the reservoir tank 30 to the suction port of the non-volume pump 21, a fire fighting water suction passage 41 for supplying the water, which is discharged from the non-volume pump 21 to the discharge instrument 1, an operation water suction passage 32 for guiding the water of the reservoir tank 30 to the suction port of the volume pump 22, an operation water supply passage 42 for supplying the water, which is discharged from the volume pump 22, to the liquid pressure actuators 3-8 and an operation water discharge passage 52 for guiding the water, which is issued from the liquid pressure actuators 3-8, to the reservoir tank 30. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a special fire-fighting vehicle that discharges water and is equipped with equipment driven by a hydraulic actuator.

  Traditionally, fire trucks and ambulances are used at fire sites and disaster sites, but in order to reduce the number of vehicles introduced to the site, special fire engines that integrate the functions of fire engines and ambulances should be used. Is desired.

  The special fire engine disclosed in Patent Document 1 has both a function of a fire engine that discharges water at a fire site and a function of an ambulance that conveys an emergency patient.

In this special fire-fighting vehicle, a stretcher on which an emergency patient is placed is driven by a hydraulic actuator.
Japanese Patent Laying-Open No. 2005-200016

  However, in such a conventional special fire-fighting vehicle, since a hydraulic actuator is used to drive the equipment, it is necessary to mount a hydraulic source for supplying pressurized hydraulic fluid to the hydraulic actuator on the vehicle. There has been a problem that the weight of the vehicle increases and the excess space decreases.

  Further, when oil used in the hydraulic actuator leaks, there is a concern that the oil may catch fire and cause a secondary disaster.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a highly efficient system that prevents secondary disasters in a special fire-fighting vehicle.

  The present invention is a special fire-fighting vehicle equipped with a device that is driven by a hydraulic actuator that discharges water using a water discharger and uses a water discharge fluid as a working fluid, and is non-volume driven by a power source Pump and volume pump, reservoir tank for storing water, fire water suction passage for leading water from the reservoir tank to the suction port of the non-volume pump, and fire water supply for supplying water discharged from the non-volume pump to the water discharger A passage, a working water suction passage for guiding water from the reservoir tank to the suction port of the volumetric pump, a working water supply passage for supplying water discharged from the volumetric pump to the hydraulic actuator, and water from the hydraulic actuator to the reservoir tank And a water supply port for introducing water into the reservoir tank.

  According to the present invention, even in a fire site where a water supply facility such as a fire hydrant is not provided, the non-volumetric pump sucks up the water stored in the reservoir tank and releases the low-pressure and large-volume water discharged from the non-volumetric pump from the water discharger. Can perform fire fighting functions.

  Then, the volume pump sucks up the water stored in the reservoir tank, operates the hydraulic actuator with the high-pressure water discharged from the volume pump, and performs the patient transport function and rescue operation via the equipment driven by the hydraulic actuator. Can perform the rescue function to perform.

  The hydraulic actuator is operated using the same water as the fire-fighting water supplied to the water discharge device, so there is no need to install a hydraulic or pneumatic source in the special fire-fighting vehicle, reducing the weight of the vehicle and saving space. Can be realized. In addition, it does not ignite like oil used in hydraulic actuators, preventing secondary disasters and providing a highly efficient system.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a hydraulic circuit diagram of a system provided in a special fire engine. This special fire-fighting vehicle fulfills a fire-fighting function of a fire truck that discharges water at a fire site, a patient transport function of an ambulance that transports an emergency patient, and a rescue function that performs a rescue operation at a disaster site.

  In the figure, reference numeral 1 denotes a water discharger constituted by a fire hose and a water discharge nozzle, which fulfills a fire fighting function by discharging water from the water discharge nozzle to the fire site. The water discharge tool 1 includes a shut-off valve that opens and closes a water discharge nozzle.

  In the figure, reference numeral 2 denotes a spraying tool constituted by a hose and a spray nozzle, which absorbs heat of vaporization and performs a fire fighting function by spraying high-pressure water in the form of a mist in accordance with the fire situation. The spray tool 2 includes a shut-off valve that opens and closes the spray nozzle.

  In the figure, reference numerals 3 to 8 denote hydraulic actuators mounted on a special fire fighting vehicle and using a water discharge fluid as a working fluid.

  The hydraulic actuator 5 that uses a water discharge fluid as a working fluid is a hydraulic motor that rotationally drives a hose winding drum (not shown), and performs a fire fighting function.

  The hydraulic actuator 3 that uses a water discharge fluid as a working fluid is a hydraulic cylinder that moves up and down a stretcher (patient transport device) (not shown) on which an emergency patient is placed, and performs a patient transport function.

  The hydraulic actuator 4 is a hydraulic cylinder that opens and closes a door (not shown) of the vehicle, and is provided as vehicle equipment.

  The hydraulic actuators 6 to 8 are added according to the specifications of the special fire engine.

  The hydraulic actuator 6 is a hydraulic motor that rotationally drives a cutter (rescue work device) (not shown) used during the rescue work, and fulfills a rescue function.

  The hydraulic actuators 7 and 8 are hydraulic cylinders that drive various equipment mounted on the vehicle, or hydraulic cylinders that drive rescue work equipment used during rescue work.

  The hydraulic actuators 3 to 8 are connected to the direction switching valves 13 to 18 via the first working water passages 3a to 8a and the second working water passages 3b to 8b, and based on commands from a controller (not shown). When the positions a, b, and c of the direction switching valves 13 to 18 are switched, the flow of the working water is switched.

  Flow control valves 73 to 78 and check valves 83 to 88 are installed in parallel in the first working water passages 3a to 8a, and the operation speeds of the hydraulic actuators 3 to 8 are adjusted by the flow control valves 73 to 78, respectively. The

  The hydraulic actuator 3 expands when the direction switching valve 13 is switched to position a, contracts when the direction switching valve 13 is switched to position b, and expands and contracts when the direction switching valve 13 is switched to the neutral position c. Is supposed to stop. Similarly, the hydraulic actuators 4, 7, 8 are expanded and contracted via the direction switching valves 14, 17, 18.

  The hydraulic actuator 5 operates forward when the direction switching valve 15 is switched to the position a, reversely operates when the direction switching valve 15 is switched to the position b, and when the direction switching valve 15 is switched to the neutral position c, Rotation is stopped. Similarly, the hydraulic actuator 6 also rotates through the direction switching valve 16.

  A non-volumetric pump 21 and a volumetric pump 22 are provided as water pressure sources. The non-volumetric pump 21 and the volumetric pump 22 are driven by an engine (internal combustion engine) 20 mounted on the vehicle.

  The power source that drives the non-volumetric pump 21 and the volumetric pump 22 is not limited to the engine 20, and an electric motor or the like may be used.

  A fire water supply passage 41 is connected to the discharge port of the non-volumetric pump 21, and pressurized fire extinguishing water is supplied to the water discharge tool 1 through the fire water supply passage 41. Water is discharged from the water discharge nozzle of the water discharge device 1 by opening the shut-off valve provided in the water discharge device 1.

  The non-volumetric pump 21 is a pump in which a blade-like rotor (not shown) rotates in a casing and applies pressure to the water by centrifugal force. The required amount of water is ensured.

  A working water supply passage 42 is connected to the discharge port of the volume pump 22, and the working water discharged from the volume pump 22 is supplied to the spraying tool 2 and the hydraulic actuators 3 to 8 through the working water supply passage 42.

  The volume pump 22 reciprocates a piston (not shown) in the cylinder and applies pressure to the water by changing the volume in the cylinder. The volume pump 22 discharges water having a pressure higher than that of the non-volume pump 21.

  The volume pump 22 is not limited to this, and a vane pump that transports water via a movable vane attached to a rotor eccentrically attached to the casing, a gear pump that transports water by meshing gears, or the like may be used. Good.

  The volume pump 22 discharges water having a higher pressure and a lower flow rate than the non-volume pump 21, and the water pressure necessary for the hydraulic actuators 3 to 8 and the spraying tool 2 is ensured.

  When the shut-off valve provided in the spraying tool 2 is opened, water in which the pressurized working water is appropriately atomized from the spray nozzle of the spraying tool 2 is sprayed in a mist form. This spray absorbs the heat of vaporization at the fire site and effectively performs the fire fighting function.

  In the figure, 52 is a working water discharge passage for guiding the working water from the hydraulic actuators 3 to 8. The working water discharge passage 52 and the working water supply passage 42 of the volume pump 22 are connected to the first and second working water passages 3a to 8a and 3b to 8b of the hydraulic actuators 3 to 8 via the direction switching valves 13 to 18, respectively. Selectively connected.

  When the directional control valves 13 to 18 are switched to positions a and b, pressurized hydraulic water is supplied to the hydraulic actuators 3 to 8, and the hydraulic actuators 3 to 8 are operated to switch to the position c. Actuators 3-8 stop operating.

  A bypass passage 25 that connects the working water supply passage 42 and the working water discharge passage 52 is provided, and an opening / closing valve 26 is interposed in the bypass passage 25, and the opening / closing valve 26 opens and closes based on a command from the controller.

  The controller determines that the working water supply passage 42 is closed when the direction switching valves 13 to 18 are all switched to the neutral position c and the spray of the working water from the sprayer 2 is blocked, and opens and closes in this closed state. The valve 26 is opened, and the working water discharged from the volume pump 22 is released from the working water supply passage 42 through the bypass passage 25 to the working water discharge passage 52.

  Further, the controller determines that at least one of the direction switching valves 13 to 18 is switched to the operating positions a and b, or determines that the working water supply passage 42 through which the working water is ejected from the spraying tool 2 is opened, and this opened state. The on-off valve 26 is operated to close, and the working water discharged from the volume pump 22 is supplied from the working water supply passage 42 to the hydraulic actuators 3 to 8 or the spraying tool 2.

  A relief valve 27 is interposed in the bypass passage 25 in parallel with the on-off valve 26. The relief valve 27 opens when the pressure of the working water supply passage 42 rises above a predetermined value, and discharges the working water discharged from the volume pump 22 from the working water supply passage 42 through the bypass passage 25. It escapes to the channel | path 52, and the pressure of the working water supply channel | path 42 does not rise too much.

  A fire water suction passage 31 is connected to the suction port of the non-volumetric pump 21, and the non-volumetric pump 21 sucks firewater through the firewater suction passage 31.

  A working water suction passage 32 is connected to the suction port of the volumetric pump 22, and the volumetric pump 22 sucks the working water through the working water suction passage 32.

  In the figure, reference numeral 30 denotes a reservoir tank mounted on the vehicle, and the reservoir tank 30 stores a predetermined amount of working water.

  In the figure, 99 is a fire hydrant provided at the site. This fire hydrant 99 supplies pressurized fire water.

  As a means for supplying water to the reservoir tank 30, a water supply port 98 for introducing fire-fighting water from the fire hydrant 99 into the reservoir tank 30 is provided. With the fire hydrant 99 connected to the water supply port 98 via the hose 97, the fire hydrant 99 is opened, whereby fire water from the fire hydrant 99 is introduced into the reservoir tank 30.

  The fire-fighting water suction passage 31 of the non-volumetric pump 21, the working water suction passage 32 of the volumetric pump 22, and the working water discharge passage 52 are each connected to the reservoir tank 30.

  The working water discharge passage 52 is not limited to the structure that returns to the reservoir tank 30, and the working water discharged from the hydraulic actuators 3 to 8 may be discharged to the outside.

  A filter 33 is interposed in the working water suction passage 32. The working water sucked up from the reservoir tank 30 is filtered by the filter 33 so that the operability of the volume pump 22, the spraying tool 2, the hydraulic actuators 3 to 8 and the like is not impaired.

  As described above, the present embodiment is a special fire-fighting vehicle equipped with equipment driven by hydraulic actuators 3 to 8 that use the water discharge tool 1 to discharge water and use the water discharge fluid as a working fluid. A non-volumetric pump 21 and a volumetric pump 22 driven by a power source (engine 20), a reservoir tank 30 for storing water, and a fire-fighting water suction passage for guiding the water in the reservoir tank 30 to the suction port of the non-volumetric pump 21 31, a fire-fighting water supply passage 41 that supplies water discharged from the non-volumetric pump 21 to the water discharger 1, a working water suction passage 32 that guides water in the reservoir tank 30 to a suction port of the volumetric pump 22, and a volumetric pump 22 Working water supply passage 42 for supplying water discharged from the hydraulic actuators 3 to 8 to the reservoir tank 30 A water discharge passage 52, characterized in that it comprises a water inlet 98 for introducing water into the reservoir tank 30.

  Thereby, even in a fire site where the fire hydrant 99 is not provided, the non-volumetric pump 21 sucks up the water stored in the reservoir tank 30 and discharges the low-pressure and large-volume water discharged from the non-volumetric pump 21 from the water discharger 1. Can fulfill the function.

  Then, the volume pump 22 sucks up the water stored in the reservoir tank 30, operates the hydraulic actuators 3 to 8 with the high-pressure water discharged from the volume pump 22, and passes through the device driven by the hydraulic actuator 3. A patient transport function of an ambulance for transporting an emergency patient and a rescue function for performing rescue work at a disaster site via devices driven by the hydraulic actuators 6 to 8 can be achieved.

  Since the hydraulic actuators 3 to 8 operate using the same water as the fire-fighting water supplied to the water discharge device 1, the hydraulic actuators 3 to 8 do not ignite like the oil used in the hydraulic actuators, and there is no fear of causing a secondary disaster. .

  It is necessary to mount a hydraulic power source or a pneumatic pressure source in a special fire-fighting vehicle by unifying the energy source that performs the fire fighting function, the patient transport function, and the rescue function into the water pressure discharged from the non-volumetric pump 21 and the volumetric pump 22. In addition, the weight of the vehicle can be reduced and the space can be saved.

  Further, by using the hydraulic actuators 3 to 8, it is possible to provide a highly efficient system with less energy loss than the pneumatic actuator.

  In the present embodiment, the spraying tool 2 connected to the working water supply passage 42 is provided, and water is sprayed from the spraying tool 2 in the form of a mist.

  Thereby, according to a fire condition, the vaporization heat is absorbed by spraying high pressure water from the spraying tool 2 in the shape of a mist, and a wide fire extinguishing activity can be performed.

  The present invention is not limited to the above-described embodiment, and it is obvious that various modifications can be made within the scope of the technical idea.

The hydraulic-pressure circuit diagram of the system provided in the special fire-fighting vehicle which shows embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water discharging tool 2 Spraying tool 3-8 Hydraulic actuator 13-18 direction switching valve 20 Engine 21 Non-volumetric pump 22 Volumetric pump 30 Reservoir tank 31 Fire-fighting water suction passage 32 Working water suction passage 41 Fire-fighting water supply passage 42 Working water supply passage 52 Working water discharge passage 98 Water supply port 99 Fire hydrant

Claims (3)

A special fire-fighting vehicle equipped with a device driven by a hydraulic actuator that uses a water discharger to discharge water and uses a water discharge fluid as a working fluid,
A non-volumetric pump and a volumetric pump driven by a power source;
A reservoir tank for storing water;
A fire water suction passage for guiding the water in the reservoir tank to the suction port of the non-volumetric pump;
A fire water supply passage for supplying water discharged from the non-volumetric pump to the water discharge tool;
A working water suction passage for guiding the water in the reservoir tank to the suction port of the positive displacement pump;
A working water supply passage for supplying water discharged from the positive displacement pump to the hydraulic actuator;
A working water discharge passage for guiding water exiting from the hydraulic actuator to the reservoir tank;
A special fire-fighting vehicle comprising a water inlet for introducing water into a reservoir tank.   The special hydraulic vehicle according to claim 1, wherein the hydraulic actuator drives a patient transport device that transports a patient or a rescue device that performs a rescue operation. A spraying tool connected to the working water supply passage,
The special fire-fighting vehicle according to claim 1 or 2, wherein water is sprayed in a mist form from the sprayer.

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