CN211166485U - Fire extinguishing charging box - Google Patents

Abstract

The fire extinguishing charging box utilizes the weight of the charging box to make the pneumatic and hydraulic telescopic rods and cylinders generate and increase suction and pressure. Compressed air is input into the cylinder to increase pressure and power, and the box is filled with proper cold and warm air to store water and extinguish fire; the water and pressure are used on a hydro-generator to generate electricity. The charging box generates suction to suck dust, mosquitoes, flies, spider bees and other insects for treatment, and the living environment of human beings is purified. The air cylinder and the hydraulic cylinder support and hold the water storage tank, when the water storage tank is on fire, the water storage tank is knocked down, the floating plate is pressed down to enable the battery and the vehicle to be soaked in water to extinguish the fire. The batteries with serious fire hazard are shut down, the charging box stores running water which is usually used for culturing fish, the stored water is used for extinguishing fire when the fish catches fire, water is supplied for oxygenation, and mosquitoes, flies and bees eat the fish.

Description

Fire extinguishing charging box

Technical Field

The patent relates to the technical field of battery charging, specifically is a charging case puts out a fire.

Background

The accident source directly refers to the battery safety problem of the pure electric vehicle when multiple pure electric vehicles smoke and fire in China occur. Because the battery is oxygen-free combustion, the battery can be flame-retardant only by cooling with a large amount of water. A typical dry powder or foam fire extinguisher cannot prevent the battery from burning. There is a great fire hazard in battery charging among the prior art.

Disclosure of Invention

The purpose of this patent is to overcome the above-mentioned deficiencies of the prior art and to provide a charging box that is safe; insects such as mosquitoes, flies, trichogramma and the like can be extinguished; can be used for fish culture; the charging case that supplies cold, warm, reduce nearby dust and purify the ambient air includes wherein: 1 extinguishing fire with water. 2, utilizing a pneumatic and hydraulic telescopic rod and a cylinder; the weight of the charging box; compressed air is input into the cylinder to increase pressure and power. 3, the mosquitoes, the flies, the trichogramma and other insects are sucked and treated by the suction force of a cylinder, a heat radiation fan, a Venturi ejector, a water jet vacuum pump and other insects. 4, generating electricity by using pressure and power; producing cold and warm air. 5, pressure and power are input to the proper inlet and outlet of the pneumatic and hydraulic telescopic rod and the cylinder.

In order to achieve the purpose, the patent provides the following technical scheme: the utility model provides a charging box, includes and makes, makes the case that needs with stainless steel, iron sheet, board, the case is equipped with the door, the case is equipped with the pond of water storage, tank bottom connecting pipe, hundreds micropore, the aperture that can let the air pass through are established to the end of tank, establish the dish that can the water receiving below the aperture, the water receiving dish is with the union coupling, case lower part ability water storage, tens above hose are established to the case, gas, hydraulic telescoping rod, jar more than few are established to the case.

Further, the gas, hydraulic telescoping rod, jar are with device such as union coupling pressure storage tank, air compressor, its characterized in that: the device comprises a pressure storage tank, an air compressor and the like, 1.0-10 MPa of compressed air, water, liquid and the like are input to corresponding inlets and outlets of a gas telescopic rod, a hydraulic telescopic rod and a cylinder to enable the box to move up and down, and the gas telescopic rod, the hydraulic telescopic rod and the cylinder are generated by the movement of the box in the up and down direction, increase the suction pressure and the pressure and are conveyed to a required place through pipes. The pressure storage tank is preferably a medium-pressure container P = 1.6-10 MPa or a high-pressure container (10-100 MPa). The air compressor preferably has a rated exhaust pressure of 1.0-10 MPa.

Preferably, its characterized in that of tank is supported, held in the support of gas, hydraulic telescoping rod, jar: the water is input and output by the water storage tank, the weight of the water storage tank continuously changes into light and heavy, so that the air and hydraulic telescopic rods and cylinders supporting the water storage tank continuously stretch to generate and increase suction and pressure, and the water is conveyed to a required place by a pipe.

Preferably, the surface of the water storage tank is provided with a net for preventing the fish from jumping out of the tank and even flying. Preferably, the bottom of the water storage pool above the tank is connected with corresponding inlets and outlets of a gas, a hydraulic telescopic rod and a cylinder by combustible plastic rubber pipes, and is characterized in that: according to the fact that the liquid pressure intensity of a Pascal barrelling experiment is related to the depth of liquid, water flows into the air, hydraulic telescopic rods and cylinders from the high position, and the air, hydraulic telescopic rods and cylinders stretch to generate and increase suction and pressure; when the charging box catches fire, the inflammable plastic rubber tube can be burnt out by water in the water storage tank to cool and extinguish the fire. The water storage tank is usually used for fish culture to provide a water source for the patent; increasing the weight.

Preferably, gas, hydraulic telescoping rod, jar are fixed at the half empty of case with easily firing the tripod, its characterized in that: when the condition of a fire takes place for the charging case, easily fire the tripod and burnt out, gas, hydraulic telescoping rod, jar have not supported, fall down with the tank and down the burning things which may cause a fire disaster down together, the tank splits because of falling down, and water flows out from the multiaspect and submerges the burning things which may cause a fire disaster.

Preferably, establish hundreds micropore, its characterized in that of aperture that can let the air pass through bottom the tank: the air of the charging box is discharged through the micropores, and meanwhile, the oxygen is added to the water storage pool. Further establish its characterized in that of dish that can the water receiving below the aperture: the water leaking from the small hole is caught by the disc and connected to a required place by a pipe.

Further, the pressure generated and increased by the gas, the hydraulic telescopic rod and the cylinder is connected to a required place such as a pressure storage tank, a hydroelectric generator and a vortex tube by using a pipe.

Further, many hydroelectric generator are with check valve, union coupling, its characterized in that: the pressurized compressed air and water flow in the pipe to enable a plurality of hydroelectric generators to generate sufficient electric quantity, under the impact action of water flow, the water turbine starts to rotate and drives the generators which are coaxially connected to rotate, under the action of exciting current, the rotating rotor drives the exciting magnetic field to rotate, the water flow continuously acts on the water turbine, the rotating torque obtained by the water turbine from the water flow is used for overcoming the electromagnetic braking torque generated on the motor rotor, and the hydroelectric generator set generates electric power to realize energy conversion. The electricity generated by the hydroelectric generator is connected with a wire to a required place such as an air compressor and a battery for charging.

Preferably, the pressure storage tank outlet is provided with a normally closed solenoid valve switch, and is connected with the venturi ejector, the water injection vacuum pump and the vortex tube through pipes, and the switch is controlled by the temperature controller, and is characterized in that: when the charging box reaches the set temperature, the temperature controller controls the normally closed electromagnetic valve switch to be opened, and the pressure enters the Venturi ejector and the water injection vacuum pump through the pipes to inject water and compressed air to the charging box. Preferably, the pressure tank; compressed air is input into the vortex tube from the medium-pressure container P = 1.6-10 Mpa, cold air generated at one end can reach-46 ℃ and hot air generated at the other end can reach 127 ℃ through the conversion of the vortex tube, the compressed air is sent to a required place such as a cold air pipe by more than two pipes to cool a charging box, and the hot air pipe is sent to heat liquid. The vortex tube can adjust the flow of gas and the temperature of a cold air end through adjusting a valve at a hot air end, so that the required cold air and warm air can be obtained.

Preferably, the air and liquid pressure storage tank is connected with the venturi ejector and the water injection vacuum pump through pipes, and is characterized in that: the compressed air and liquid are sprayed out at high speed by the Venturi ejector and the water jet vacuum pump, and simultaneously the Venturi ejector and the water jet vacuum pump generate suction force, and are connected to required places such as places where dust, mosquitoes, flies, spider bees and other insects pass through by pipes, and the insects are sucked into the required places such as a water storage tank on the tank to be sprayed by the Venturi ejector and the water jet vacuum pump for supplying water and increasing oxygen, and the mosquitoes, the flies and the spider bees are eaten by the fishes.

Preferably, more than dozens of hoses are arranged at proper positions of the box, such as the upper part and the lower part of the box, the hoses are long pipes with the diameter of 2-9 mm, and are used for generating suction by a cylinder, a heat dissipation fan and other devices arranged on the box, and absorbing water vapor, mosquitoes, flies, swarms and other insects around the box and the room into the box and treating the insects in the room by the pipes. Furthermore, the inlet of the hose is provided with a check valve for preventing the sucked mosquitoes, flies and spider bees from going back.

Preferably, the water storage of case lower part is equipped with its characterized in that of kickboard: the floating plate holds the battery and the vehicle to be charged safely above water, when the vehicle is on fire, the water storage tank supported by the gas and hydraulic telescopic rods and the cylinder is knocked down, the floating plate is pressed down or even broken, so that the battery and the vehicle are immersed in water to extinguish the fire. Dust, mosquitoes, flies and the like are sucked into the box and fall into water for precipitation; the water storage at the lower part provides water for the tank to be used in required places such as a hydroelectric generator, a hydraulic telescopic cylinder and the like.

The beneficial effect of this patent: compared with the prior art, the battery that has great conflagration hidden danger is closed through the case to the charging case that this patent provided, and the charging case stores up water and is that running water is used for breeding fish usually, and the water of storing when the battery is on fire is gone out the fire, and current charging case does not store water, and the battery is on fire and only can let the fire stretch the charging case and not have the function of putting out a fire. The weight of the charging box is utilized to enable the pneumatic and hydraulic telescopic rods and the cylinders to generate and increase suction and pressure. The pressure storage tank, the air compressor and other devices input compressed air into the cylinder to increase pressure and power, and the tank is provided with proper cold and warm air to store water and extinguish fire; the water and the pressure can be used on the hydroelectric generator to generate electricity. The charging box generates suction to suck dust, mosquitoes, flies, spider bees and other insects for treatment, and the living environment of human beings is purified.

Drawings

Fig. 1 is a schematic structural view of a charging box.

FIG. 2 is a schematic diagram of air and liquid flowing in the pipes to enable a plurality of generators to generate electricity.

FIG. 3 is a schematic diagram of the pneumatic and hydraulic telescopic rod and cylinder generating and increasing suction and pressure.

FIG. 4 is a schematic view of a structure in which a water pan, an air and hydraulic telescopic rod and a cylinder are arranged under the small holes to increase pressure.

Fig. 5 is a schematic diagram of the fire suppression charging box configuration.

FIG. 6 is a schematic view of the structure of the charging box for absorbing dust and insects

In the figure: 1. charging box, 2, door, 3, heat dissipation fan, 4, gas, hydraulic telescopic rod, cylinder, 5, pipeline, 6, bounding wall, 7, reservoir, 8, plastic rubber tube, 9, micropore, 10, water receiving tray, 11, lower access, 12, hose, 13, upper access, inlet, suction inlet, 14, lower water storage, 15, check valve, 16, adjustable opening check valve, 17, generator, 18, net, 151, gas inlet, 152, liquid inlet, 19, timing electronic drain valve, 20, full-automatic water level control valve, 21, flammable tripod, 22, floating plate, 23, temperature controller, 24, normally closed solenoid valve switch, 25, water injection vacuum pump, 161, water use adjustable opening check valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present patent more clear, the present patent is further described in detail below by way of examples with reference to the accompanying drawings. It should be understood, however, that the detailed description and specific examples, while indicating the scope of the patent, are intended for purposes of illustration only and are not intended to limit the scope of the patent. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present patent.

Referring to fig. 1-6, a charging box comprises a charging box 1, which is provided with a door 2, a lower water storage 14, a pneumatic and hydraulic telescopic rod, a cylinder 4 supporting a floating plate 22, the floating plate 22 is provided with a lower inlet 11, and the floating plate 22 is connected with a hose 12 provided with a one-way valve 15.

The top of the charging box is provided with a coaming 6 to form a water storage tank 7, and the water storage tank is provided with micropores 9 and a net 18.

In fig. 2, a plurality of generators 17 are connected by a pipeline 5 and a one-way valve 15, the pipeline 5 is provided with an air inlet 151 and a liquid inlet 152, an adjustable opening check valve 16 is arranged at the high position of the pipeline 5, and an adjustable opening check valve 161 for water is arranged at the low position of the pipeline 5.

Fig. 3 shows the pneumatic and hydraulic telescopic rod, cylinder 4, lower inlet and outlet 11, which is equipped with one-way valve 15, adjustable opening check valve 16, timing electronic drain valve 19. The upper outlet, inlet and suction ports 13 are provided with a one-way valve 15 and an adjustable opening check valve 16.

The bottom of the charging box in fig. 4 is provided with a pneumatic and hydraulic telescopic rod and cylinders 4 and 41 for supporting and holding the whole charging box. The top of the charging box is provided with a coaming 6 to form a water storage tank 7, the water storage tank is provided with micropores 9, and a water receiving disc 10 is arranged below the micropores 9 and connected with a plastic rubber pipe 8 provided with a one-way valve 15.

Fig. 5 charging case 1 is equipped with lower part water storage 14, kickboard 22, easily fires tripod 21 and fixes gas, hydraulic telescoping rod, jar 4 at the charging case wall, and gas, hydraulic telescoping rod, jar 4 support, hold tank 7, and the bottom of tank 7 is connected and is equipped with pipeline 5 of adjustable open check valve 16, and tank 7 is equipped with full-automatic water level control valve 20, and tank 7's top is equipped with water jet vacuum pump 25, and the hose 12 that is equipped with check valve 15 is connected to water jet vacuum pump 25's sunction inlet.

In the figure 6, the bottom of the charging box is supported and held by an air and hydraulic telescopic rod and a cylinder 4, the lower part of the charging box is connected with a hose 12 provided with a one-way valve 15, the lower part of the charging box is provided with a lower inlet and outlet 11, and a heat dissipation fan 3 is arranged at the high part of the charging box.

A charging box operating as follows: the pressure of 1.6-10 MPa is input into the lower inlet and outlet 11 of the hydraulic telescopic cylinder 4 by the medium-pressure container shown in FIG. 3, the floating plate 22 shown in FIG. 1 is lifted by the extension of the pneumatic and hydraulic cylinder 4, the lower stored water 14 generates suction, dust, insects and air are sucked into the lower stored water 14 through the one- way valves 15 and 12 and the hose 12 for treatment, and the air is discharged from the lower inlet and outlet 11. Meanwhile, the inlet, outlet and suction openings 13 in the figure 3 generate pressure. The door 2 of fig. 1 is opened to let the battery or vehicle enter and increase the weight of the floating plate 22, so that the pneumatic, hydraulic telescopic rod and cylinder 4 are shortened to increase the pressure of the lower inlet/outlet 11, the adjustable opening check valve 16 is used for inputting into the liquid inlet 152 of fig. 2 by a pipe, simultaneously the upper inlet/outlet port 13 and the suction port 13 generate suction force, the pipe is used for connecting the lower stored water 14, and the water is sucked into the pneumatic, hydraulic telescopic rod and cylinder 4 to wait for pressurization. The battery turns on the generator 17 or power supply and then the door 2 is closed for charging.

The pressure pushes the generators 17 to generate electricity in the pipe 5, the compressed air is accumulated at a high position and sent to a required place by the connecting pipe of the adjustable opening check valve 16, and the adjustable opening check valve 161 sends part of the high-pressure liquid which obstructs the cycle power generation in the pipe 5 to the required place by the pipe. Compressed air and hot air generated by the vortex tube are introduced into the air inlet 151 of fig. 2 through a pipe, and the pipe 5 is pressurized to rotate the generator 17 to generate electricity.

The heat dissipation fan 3 is started to pump out air in the charging box 1, the hose 12 generates suction to suck air, dust, mosquitoes and flies to the lower water storage 14, the dust, the mosquitoes and the flies are stuck by water, and the air comes out from the lower inlet 11.

Water in a water storage tank 7 in the figure 4 flows into an inflammable water receiving tray 10 from micropores 9, is sent into a plurality of air and hydraulic telescopic rods and cylinders 41 through a plastic rubber pipe 8 or is supplemented and input with 1.6-10 Mpa pressure through a pressure storage tank to enable the air and hydraulic telescopic rods and cylinders 41 to jack up a charging box 1, at the moment, the plurality of air and hydraulic telescopic rods and cylinders 4 are lifted off the ground, and under the action of the self weight, a lower inlet and a lower outlet 11 are extended to generate suction force to suck air and liquid to wait for pressurization. After several seconds, the timing electronic drain valve 19 of the pneumatic and hydraulic telescopic rod and the cylinder 41 is opened, the pressure of the cylinder 41 is discharged, so the cylinder 41 is shortened, and the suction force is generated by the upward outlet, the inward inlet and the suction port 13. At the same time, the cylinder 4 supports the weight of the charging box 1 and is compressed by the lower inlet 11 to generate pressure, and the pressure is sent to a required place by a pipe.

The flammable tripod 21 shown in fig. 5 is fixed in the middle of the charging box 1 to support the air and hydraulic telescopic rod and the cylinder 4, and the air and hydraulic telescopic rod and the cylinder 4 prop against the water storage tank 7. The pressure storage tank inputs proper pressure of 1.6-10 Mpa to a lower inlet and outlet 11 of a cylinder 4 of FIG. 3, so that the air and hydraulic telescopic rods and the cylinder 4 can jack up the water storage tank 7, water in the water storage tank 7 shown in FIG. 4 flows away from a small hole 9, the weight of the water storage tank 7 is reduced, and therefore the air and hydraulic telescopic rods and the cylinder 4 continue to extend, and pressure is generated by an upper inlet and outlet suction port 13 and is sent to a needed place through a pipe. When partial water flows away from the water storage tank 7, the full-automatic water level control valve 20 is opened to discharge water, so that the original weight of the water storage tank 7 is recovered, the air and hydraulic telescopic rods and the lower inlet and outlet 11 of the cylinder 4 generate pressure, and the pressure is discharged through the adjustable opening check valve 16. The upper outlet, inlet and suction ports 13 generate suction. When the water storage tank 7 descends, suction force is generated, and dust, mosquitoes and flies near the one-way valve 15 are sucked into the water falling into the water storage tank 7 through the hose 12. When the water storage tank 7 rises, pressure is generated, and the water is sent to a required place by the pipeline 5 and the adjustable opening check valve 16. The water jet vacuum pump 25 produces suction force to connect the hose 1 to suck and spray insects such as mosquitoes, flies, and bees to feed fish. When the charging box 1 is in a fire condition, the inflammable tripod 21 is burnt out, the gas, the hydraulic telescopic rod and the cylinder 4 are not supported and fall down together with the water storage tank 7 to press the fire source and the floating plate 22 to the lower water storage 14, the fire source is pressed to the water bottom, the water storage tank 7 cracks due to falling down, and water submerges the fire source.

All parts used in the application document are standard parts and can be purchased from the market, the specific connection mode of all parts adopts conventional means such as mature bolts, rivets, welding and the like in the prior art, the conventional models in the prior art are adopted for mechanical, part and electrical equipment, and the conventional connection mode in the prior art is adopted for circuit connection, so that detailed description is not given.

In summary, the following steps: the fire extinguishing charging box and the using method thereof solve the problem of hidden danger of charging fire by arranging the box 1, the door 2, the pneumatic and hydraulic telescopic rod, the cylinder 4, the water storage tank 7, the lower water storage 14, the generator 17, the flammable tripod 21, the floating plate 22, the temperature controller 23 and the water injection vacuum pump 25, and meanwhile, the weight of the fire extinguishing charging box is utilized to generate electricity, generate and increase suction and pressure, insects and dust are sucked, treated and purified to purify the surrounding air, so that the box can be used for fish culture; providing cold and warm air.

The foregoing is a more detailed description of the present patent with reference to specific preferred embodiments, and the patent is not to be considered as limited to the specific embodiments described herein. For those skilled in the art to which this patent pertains, several simple deductions or substitutions may be made without departing from the concept of this patent, which should be considered as belonging to the protection scope of this patent.

Claims (7)

1. The utility model provides a charging case puts out a fire, includes charging case (1), its characterized in that: the charging box (1) is provided with a door (2), water (14), gas, a hydraulic telescopic rod and a cylinder (4) are arranged at the lower part of the charging box to support a floating plate (22), the floating plate (22) is provided with an inlet and an outlet (11), the floating plate (22) is connected with a hose (12) provided with a one-way valve (15), the bottom of the charging box is provided with the gas, the hydraulic telescopic rod, the cylinder support and the whole charging box support, a flammable triangular frame (21) fixes the gas, the hydraulic telescopic rod and the cylinder (4) on the wall of the charging box, the gas, the hydraulic telescopic rod and the cylinder (4) support and support a water storage pool (7), the bottom of the water storage pool (7) is connected with a pipeline (5) provided with an adjustable opening check valve (16), the water storage pool (7) is provided with a full-automatic water level control valve (20), a water injection vacuum pump (25) is arranged above the water injection vacuum pump (7, the water storage tank is provided with micropores (9), a water receiving tray is arranged below the micropores (9), and the water receiving tray is connected with a plastic rubber pipe (8) provided with a one-way valve (15).

2. A fire extinguishing charging box according to claim 1, characterized in that: the air, hydraulic telescopic rod and cylinder (4) support and support a water storage tank (7), water flows away from the micropores (9), the weight of the water storage tank (7) is reduced, the air, hydraulic telescopic rod and cylinder (4) continue to extend, pressure is generated by an upper outlet, an upper inlet and a lower suction port (13), the water is sent by a pipe to generate electricity, when partial water flows away from the water storage tank (7), a full-automatic water level control valve (20) is opened to release the water, the water storage tank (7) recovers the original weight, pressure is generated by a lower inlet and a lower outlet (11) of the air, hydraulic telescopic rod and cylinder (4), the water is discharged by an adjustable opening check valve (16), the upper outlet, the upper inlet and the lower suction port (13) generate suction, the water storage tank (7) descends to generate suction, dust, mosquitoes and flies near the check valve (15) are sucked into a hose (12) and fall into the water in the water storage tank (7), pressure is generated when the water storage tank (7) ascends, and the pipeline, The adjustable check valve (16) that opens sends the pressure storage tank, when water jet vacuum pump (25) blowout water, produce suction coupling hose (12), inhale the insect and feed the fish, charging case (1) takes place the condition of a fire, easily fire tripod (21) are burnt out, gas, hydraulic telescoping rod, jar (4) have not been supported and reservoir (7) have fallen down together and have been pressed the fire source, kickboard (22) down water storage (14), the fire source is pressed to the bottom, reservoir (7) fall down and split, water submerges the fire source.

3. A fire extinguishing charging box according to claim 2, characterized in that: the pressure pushes a plurality of generators (17) to generate electricity in the pipeline (5).

4. A fire extinguishing charging box according to claim 3, characterized in that: the generator (17) generates electricity, and the electricity generated by the generator is connected to the air compressor through an electric wire and is charged by a battery.

5. A fire extinguishing charging box according to claim 1, characterized in that: the bottom of the water storage tank (7) is connected with a pipeline (5) provided with an adjustable opening check valve (16), a water receiving tray (10) is arranged below the micropore (9), the water receiving tray (10) is connected with a plastic rubber pipe (8) provided with a one-way valve (15), and water flows into the air, hydraulic telescopic rod and cylinder from the high position, so that the air, hydraulic telescopic rod and cylinder can stretch to generate and increase suction and pressure; the charging case catches fire, and inflammable plastic rubber tube will be burnt through, and the water of tank flows out from the top and cools down and puts out the fire, the tank is usually used for breeding fish.

6. A fire extinguishing charging box according to claim 4, characterized in that: the air compressor generates pressure, compressed air is input into the vortex tube, cold air generated at one end can reach-46 ℃ and hot air generated at the other end can reach 127 ℃ through conversion of the vortex tube, and the compressed air is sent to the fire extinguishing charging box through more than two tubes: the cold air is sent to the charging box for cooling by the pipe, the hot air is sent to the liquid for heating by the pipe, and the vortex tube can adjust the flow of the gas and the temperature of the cold air end by adjusting the valve of the hot air end to obtain the required cold air and warm air.

7. A fire extinguishing charging box according to claim 6, characterized in that: the hot air is sent to the liquid to be heated by the pipe, the hot air generated by the vortex tube is input into the air inlet (151) by the pipe, and the pipeline (5) is pressurized to enable the generator (17) to rotate to generate electricity.

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