CN215309879U - Smoke suppression purifies fire control dolly based on photocatalysis principle - Google Patents

Abstract

The utility model discloses a smoke-extinguishing purifying fire-fighting trolley based on a photocatalysis principle, which can solve the problems of absorption and treatment of fire smoke which is generated in a fire scene and harmful to human bodies, prevents people from escaping and pollutes the surrounding environment. The fire-fighting trolley is provided with two layers of photocatalysis chambers with different degrees, which ensure that absorbed inorganic substances such as nitric oxide, oxysulfide, oxycarbide and the like and organic substances generated by formaldehyde and the like through combustion are sufficiently catalytically decomposed.

Description

Smoke suppression purifies fire control dolly based on photocatalysis principle

Technical Field

The utility model belongs to the technical field of environmental protection, and particularly relates to a smoke-extinguishing purification fire-fighting trolley based on a photocatalysis principle.

Background

The existing air purification equipment mostly uses a filter screen and an adsorptive material to filter and adsorb pollution particles in the air, can not treat the absorbed pollution particles, can not treat harmful gas in the air, has limited purification degree and efficiency, and a core purification device filter core can not be reused.

At present, no equipment for absorbing and treating a large amount of smoke generated by a fire disaster is generally available in fire fighting equipment for indoor fire disasters, in actual practice, smoke is discharged outwards mainly by means of doors and windows, a large amount of fire smoke is a first factor causing casualties, and a large amount of discharged smoke and harmful gas can obviously pollute air in local areas.

Meanwhile, the fire scene is generally extremely dangerous, the fire extinguishing mode of the existing fire fighters is mainly manual operation, the indoor actual fire condition is checked by judging whether the fire fighters enter the fire fighters personally, and the life safety of the fire fighters has great hidden danger.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of absorption and treatment of fire smoke which can generate a large amount of harmful human bodies, block people from escaping and pollute the surrounding environment in a fire scene.

The specific technical scheme of the utility model is as follows:

a fire-fighting trolley with smoke suppression and purification based on a photocatalysis principle comprises an upper settlement photocatalysis chamber, a lower deep photocatalysis chamber, a denitration and desulfurization device and a bottom trolley, wherein a storage platform is arranged between the upper settlement photocatalysis chamber and the lower deep photocatalysis chamber;

the upper sedimentation photocatalytic chamber comprises an external protective spherical shell coated with TiO₂The external protection spherical shell is provided with four air outlets;

the lower deep photocatalytic chamber comprises a water storage barrel, a spiral ladder tube protective cover and a TiO coated inner surface₂The spiral diversion ladder pipe and the water pump;

a plurality of vertical fixed columns are arranged in the lower deep photocatalytic chamber, a spiral diversion ladder pipe is wound on the fixed columns, and the water pump reaches a water outlet of the water pump through a water pipe to supply water to the atomizing net cover to cover a layer of water film; four air pumps are fixed on the object placing table and connected with an external protective spherical shell to pump air, and an air outlet of the air pump inside the fogging net cover supplies air pressure to blow out water mist;

the denitration and desulfurization device consists of a raw material preparation chamber, an oxygen conveying pipe, a circulating gas conveying pipe, a gas reaction chamber, a water tank, a gas guide pipe and an activated carbon adsorption chamber;

the raw material preparation chamber and the activated carbon adsorption chamber are fixed on the object placing table and located on two sides of the upper sedimentation photocatalytic chamber, the gas reaction chamber is fixed above the water tank, the water tank is fixed on the bottom trolley, the oxygen conveying pipe is connected to the gas reaction chamber from the raw material preparation chamber, the circulating gas conveying pipe is connected to the water tank from the raw material preparation chamber, and the gas guide pipe is connected to the water tank from the activated carbon adsorption chamber;

the bottom trolley consists of a frame bottom plate, four wheels, four independent speed reducing motors and a motor fixing frame for connecting the frame and the motors.

Furthermore, the dome of the gas reaction chamber is provided with four round holes which are respectively a gas inlet, a feed inlet, a water inlet and an oxygen inlet, two ends of the upper position of the water tank are symmetrically provided with holes to be connected with the circulating gas pipe and the gas guide pipe, the lower position of the water tank is provided with a water outlet, and the outer side of the activated carbon adsorption chamber is provided with an exhaust port.

Further, a fire-fighting water pipe is welded below the frame bottom plate, a fire-fighting water inlet pipe reserved interface and a fire-fighting water outlet pipe reserved interface are arranged at two ends of the bottom plate, and a fire-fighting water gun reserved port is further formed in the frame bottom plate.

Furthermore, the honeycomb aluminum net is made into a hemispherical thin net and covers the outside of the fogging net cover.

Furthermore, the object placing table is a circular platform, four holes are formed in the object placing table and used for being connected with the spiral diversion ladder pipe below the object placing table, and the joint is slightly recessed.

Furthermore, the water inlet of the spiral diversion ladder pipe in the lower deep photocatalytic chamber is connected with the object placing table, the water outlet is communicated with the lower end of the water storage barrel, the bottom end of the water storage barrel is provided with a water inlet and outlet, and a water valve is arranged on the water inlet and outlet.

Furthermore, the water storage barrel is fixed on the bottom frame bottom plate and comprises an inner barrel and an outer barrel, the outer barrel is used for fixing, and the inner barrel is used for storing water.

Furthermore, a material placing table in a gas reaction chamber of the denitration and desulfurization device is provided with a pit for placing urea balls, and the gas reaction chamber and the water tank are arranged in a sealed and separated mode.

Furthermore, the fogging mesh enclosure is sealed by waterproof glue at the joint of the object placing table, the joint of the external protection spherical shell and the four air pumps, and the joint of the external protection spherical shell and the object placing table.

The working principle of the device is as follows: the device is wholly expanded from the core purification function, and is divided into an upper settlement photocatalytic chamber for preliminarily settling, dissolving and catalyzing the smoke and haze and a lower deep photocatalytic chamber for further purification. TiO is coated on the inner side of the diversion ladder tube₂Coating, the delivery port leads to the water storage tank. The water solution in the water storage tank is conveyed to the upper sedimentation photocatalytic chamber by the water pump, and pollutants are circularly and repeatedly catalyzed. On the purification structure basis, use a plurality of air pumps to pump into upper portion photocatalysis room with the conflagration flue gas, the atmospheric pressure of inside formation is derived from the top, leads to desulfurization denitrification facility with the polluted gas that the photocatalysis can not be handled and partial smoke and dust granule of effusion.

The desulfurization and denitrification device is used for absorbing or treating insoluble substances such as sulfur oxides, nitrogen oxides and carbon monoxide and gases emitted from the purification device into harmless gases and then discharging the harmless gases. Specifically, sodium peroxide is heated and decomposed to generate oxygen, ozone is generated under the condition of strong ultraviolet light and is used for oxidizing carbon, nitrogen and sulfur oxides generated by incomplete combustion in waste gas, and nitrogen oxides in the oxidized waste gas react with urea to generate non-toxic gas N₂，CO₂Can be recycled for generating oxygen and sulfur oxides to generate elemental sulfur precipitates. The built-in solution of device absorbs some waste gases that can dissolve in water, and the built-in active carbon of device is used for some small granules such as secondary absorption waste gas, improves SOx/NOx control's efficiency.

The robot trolley and other units share a single chip microcomputer chip to control and deliver information, and the Bluetooth module realizes wireless data transmission and remote control of a mobile terminal of a mobile phone. The returned data are collected by a set of sensors arranged on the machine body, and the ambient temperature, the smoke-haze concentration and the SO can be collected₂、CO、NO₂The gas concentration of (c). The live camera returns the video picture that "the seeing" of robot in real time, makes things convenient for operating personnel remote control, also can help outdoor personnel to judge the indoor condition. In order to facilitate the robot to freely move in a limited space, the wheels of the trolley are large-size Mecanum wheels, and special actions such as front-back, left-right linear driving, in-situ rotation and the like can be completed.

Compared with the prior art, the utility model has the beneficial effects that:

1) the fire fighting trolley can absorb a large amount of harmful gas such as smoke dust generated in the air and even in a fire scene and can fully discharge and process the harmful gas instantly, the Bluetooth can remotely control the starting and closing of the functions of all links and the movement of the robot trolley instantly, and the gas, dust degree and temperature parameters of the environment where the robot equipment is located are collected and returned, so that the fire fighting trolley is convenient to operate, helps outdoor personnel to know the fire situation of the fire scene, assists firefighters to make a best fire extinguishing scheme, and avoids unnecessary casualties.

2) The fire fighting truck is provided with two layers of photocatalysis chambers with different degrees, so that the absorbed inorganic matters such as nitrogen oxides, sulfur oxides, carbon oxides and the like and the organic matters generated by the combustion of formaldehyde and the like are sufficiently catalytically decomposed.

3) The design of the fog-forming device in the fire-fighting trolley is matched with the air outlet direction of the air pump, so that the airflow in the upper settling photocatalytic chamber can reach an efficient motion state.

4) The fire-fighting trolley is provided with a fire-fighting water pipe and a water gun interface in advance, and can replace fire fighters to enter a fire scene for active fire extinguishing in actual fire fighting and extinguishing.

Drawings

FIG. 1 is a schematic structural view of the fire fighting truck of the present invention;

FIG. 2 is a front cross-sectional view of the firefighting truck of the present invention;

FIG. 3 is a side view of the firefighting truck of the present invention;

in the figure: 101-external protective spherical shell 102-air pump 103-raw material preparation chamber 104-circulating air pipe 105-motor fixing frame 106-speed reduction motor 107-gas reaction chamber 108-water tank 109-water discharge port 110-wheels 111-fire-fighting lance reserved port 112-frame bottom plate 113-air pipe 114-feed port 115-object placing table 116-active carbon adsorption chamber 201-honeycomb aluminum net 202-water storage bucket 203-spiral diversion ladder pipe 204-fixed column 205-fire-fighting water pipe inlet reserved port 206-water pump 207-fire-fighting water pipe 208-material placing table 209-protective cover 210-water pipe 211-atomizing net cover 212-air pump air outlet 213-water pump water outlet 301-oxygen delivery pipe 302-fire-fighting water pipe outlet reserved port 303-air discharge port 304-air outlet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figures 1-3, a smoke suppression and purification fire fighting truck based on the photocatalysis principle comprises an upper settlement photocatalysis chamber, a lower deep photocatalysis chamber, a denitration and desulfurization device and a bottom truck, wherein a material placing table 115 is arranged between the upper settlement photocatalysis chamber and the lower deep photocatalysis chamber.

The upper settling photocatalytic chamber comprises an outer protective spherical shell 101 coated with TiO₂The external protection spherical shell is provided with four air outlets 304.

The lower deep photocatalytic chamber comprises a water storage barrel 202, a spiral ladder tube protective cover 209 and a TiO coated inner surface₂A spiral diversion ladder pipe 203 and a water pump 206.

A plurality of vertical fixing columns are arranged in the lower deep photocatalytic chamber, the spiral diversion ladder pipe 203 is wound on the fixing columns 204, and the water pump reaches a water outlet 213 of the water pump through a water pipe 210 to supply water to cover a layer of water film on the atomizing net cover 211; four air pumps 102 are further fixed on the object placing table, the air pumps 102 are connected with the external protective spherical shell 101 to pump air, and the air pump air outlet 212 in the atomizing net cover 211 supplies air pressure to blow out water mist.

The denitration and desulfurization device consists of a raw material preparation chamber 103, an oxygen conveying pipe 301, a circulating gas conveying pipe 104, a gas reaction chamber 107, a water tank 108, a gas guide pipe 113 and an activated carbon adsorption chamber 116.

The raw material preparation chamber 103 and the activated carbon adsorption chamber 116 are fixed on the object placing table and located on two sides of the upper settling photocatalytic chamber, the gas reaction chamber 107 is fixed above the water tank 108, the water tank 108 is fixed on the bottom trolley, the oxygen conveying pipe 301 is connected to the gas reaction chamber 107 from the raw material preparation chamber 103, the circulating gas conveying pipe 104 is connected to the water tank 108 from the raw material preparation chamber 103, and the gas guide pipe 113 is connected to the water tank 108 from the activated carbon adsorption chamber 116.

The dome of the gas reaction chamber 107 is provided with four round holes which are respectively a gas inlet, a feed inlet 114, a water inlet and an oxygen inlet, two ends of the upper position of the water tank 108 are symmetrically provided with holes for connecting the circulating gas pipe 104 and the gas guide pipe 113, the lower position of the water tank 108 is provided with a water outlet 109, a water valve is arranged at the water outlet 109, the outer side of the activated carbon adsorption chamber 116 is provided with an exhaust port 303, and the exhaust port 303 is used for exhausting treated harmless gas.

The bottom trolley consists of a frame bottom plate 112, four wheels 110, four independent speed reducing motors 106 and a motor fixing frame 105 for connecting the frame and the motors. A fire-fighting water pipe 207 is welded below the frame bottom plate 112, a fire-fighting water inlet pipe reserved interface 205 and a fire-fighting water outlet pipe reserved interface 302 are arranged at two ends of the bottom plate, and a fire-fighting water gun reserved interface 111 is further arranged on the frame bottom plate 112.

The frame floor 112 material of the bottom cart is more rigid because of the heavier load bearing thereon. The height between the frame and the motor fixing frame 105 is higher, so that the chassis of the trolley is raised, the trolley is favorable for adapting to the terrain on one hand, and a space is reserved for the fire hose 207 below on the other hand; the reserved interface of the fire hose and the reserved interface 111 of the fire-fighting lance all use fixed fittings special for fire fighting.

The above-mentioned honeycomb aluminum mesh 201 is made into a semispherical thin mesh, and is covered outside the fogging mesh cover 211, and is erected in the manner shown in fig. 2, and it should be noted that the aluminum mesh is kept a certain space distance from other indoor devices.

The object placing table 115 is a circular platform and has the function of separating two photocatalysis chambers, four holes are formed in the object placing table 115 and used for being connected with the spiral diversion ladder pipe 203 below, and the joint needs to be slightly recessed, so that accumulated water can flow down conveniently.

The water inlet of the spiral diversion ladder pipe 203 in the lower deep photocatalytic chamber is connected with the object placing table 115, the water outlet is communicated with the lower end of the water storage barrel 202, and water in the water storage barrel 202 does not need to be fully stored and is kept in one third to one half of water quantity. The bottom end of the water storage barrel 202 is provided with a water inlet and outlet, and a water valve is arranged on the water inlet and outlet. Because the water storage barrel (202) is fastened with the bottom frame bottom plate 112, the sealing performance is difficult to ensure in operation, and an inner barrel and an outer barrel can be adopted, wherein the outer barrel is used for fixing, and the inner barrel is used for storing water.

The material placing table 208 in the gas reaction chamber 107 of the denitration and desulfurization device is provided with a recess for placing urea balls, and the gas reaction chamber 107 and the water tank 108 are sealed and separated. The raw material preparation chamber 103 is used for preparing oxygen, and sodium peroxide is placed therein, and the sodium peroxide and carbon dioxide gas have a temperature requirement, so that an electromagnetic bar is required for auxiliary heating at the initial stage of the reaction.

In this embodiment, the fog screen 211 is sealed by waterproof glue at the joint with the object placing table 115, the joint between the external protection spherical shell 101 and the four air pumps 102, and the joint between the external protection spherical shell 101 and the object placing table 115.

During operation, the robot enters a fire scene prior to fire fighters, real-time videos and environmental parameters transmitted back by the live cameras and the sensors control actions of the robot in a remote mode by the fire fighters, and meanwhile, the air pump and the purification system are started to smoke and purify.

After the smoke dust and the gas are pumped into the robot body, the robot body firstly enters an upper water mist sedimentation photocatalytic chamber, after the smoke dust is settled by the water mist, smoke dust particles are dissolved in the water mist and coated with TiO at the upper end of the upper sedimentation photocatalytic chamber₂The honeycomb aluminum net 201 of coating fully contacts, accomplishes the first more abundant photocatalysis, then drips from honeycomb aluminum net 201, along with rivers entering lower part degree of depth photocatalysis room, the gas of pump-in then lets in gas denitration desulphurization unit from the gas outlet of upper portion water smoke photocatalysis room.

The smoke solution entering the lower deep photocatalytic chamber is coated with TiO₂The coated spiral draft ladder 203 flows into the reservoir 202, the insufficiently photocatalytic contaminants in the reservoir 202,the water is pumped into the upper sedimentation photocatalytic chamber again along with the water pump 206 in the water storage barrel to be converted into water mist, and the water mist flows through the two photocatalytic chambers again to realize cyclic and repeated photocatalysis.

The gas entering the denitration and desulfurization device is directly introduced into the gas reaction chamber 107, and simultaneously, the sodium peroxide in the raw material preparation chamber 103 and the CO in the flue gas₂The gas reacts at a certain temperature to generate oxygen, the oxygen generates ozone under the irradiation of ultraviolet light to enter the gas reaction chamber to participate in the reaction of the introduced gas and urea, and harmful gas is oxidized to generate non-toxic and harmless safe gas to be discharged out of the whole system.

Claims (9)

1. A fire-fighting trolley with smoke suppression and purification based on a photocatalysis principle is characterized by comprising an upper settling photocatalytic chamber, a lower deep photocatalytic chamber, a denitration and desulfurization device and a bottom trolley, wherein a storage table (115) is arranged between the upper settling photocatalytic chamber and the lower deep photocatalytic chamber;

the upper settling photocatalytic chamber comprises an outer protective spherical shell (101) coated with TiO₂The water pump comprises a honeycomb aluminum net (201), a fogging mesh enclosure (211), a water pump water outlet (213) and an air pump air outlet (212), wherein four air outlets (304) are formed in an external protection spherical shell;

the lower deep photocatalytic chamber comprises a water storage barrel (202), a spiral ladder tube protective cover (209) and a TiO coated inner surface₂The spiral diversion ladder pipe (203) and the water pump (206);

a plurality of vertical fixed columns are arranged in the lower deep photocatalytic chamber, the spiral diversion ladder pipe (203) is wound on the fixed columns (204), and the water pump reaches a water outlet (213) of the water pump through a water pipe (210) to supply water to the fogging mesh enclosure (211) and cover a layer of water film; four air pumps (102) are further fixed on the object placing table, the air pumps (102) are connected with the external protective spherical shell (101) to pump air, and an air pump air outlet (212) in the atomizing net cover (211) supplies air pressure to blow out water mist;

the denitration and desulfurization device consists of a raw material preparation chamber (103), an oxygen conveying pipe (301), a circulating gas conveying pipe (104), a gas reaction chamber (107), a water tank (108), a gas guide pipe (113) and an activated carbon adsorption chamber (116);

the raw material preparation chamber (103) and the activated carbon adsorption chamber (116) are fixed on the object placing table and located on two sides of the upper settling photocatalytic chamber, the gas reaction chamber (107) is fixed above the water tank (108), the water tank (108) is fixed on the bottom trolley, the oxygen conveying pipe (301) is connected to the gas reaction chamber (107) from the raw material preparation chamber (103), the circulating gas conveying pipe (104) is connected to the water tank (108) from the raw material preparation chamber (103), and the gas guide pipe (113) is connected to the water tank (108) from the activated carbon adsorption chamber (116);

the bottom trolley consists of a frame bottom plate (112), four wheels (110), four independent speed reducing motors (106) and a motor fixing frame (105) for connecting the frame and the motors.

2. The fire fighting trolley based on the photocatalysis principle for smoke suppression and purification as claimed in claim 1, wherein the dome of the gas reaction chamber (107) is provided with four round holes, which are a gas inlet, a feed inlet (114), a water inlet and an oxygen inlet, two ends of the upper position of the water tank (108) are symmetrically provided with holes for connecting the circulating gas pipe (104) and the gas guide pipe (113), the lower position of the water tank (108) is provided with a water outlet (109), and the outer side of the activated carbon adsorption chamber (116) is provided with an exhaust port (303).

3. The smoke suppression and purification fire fighting trolley based on the photocatalysis principle as claimed in claim 1, wherein a fire fighting water pipe (207) is welded under the frame bottom plate (112), a fire fighting water inlet pipe reserved port (205) and a fire fighting water outlet pipe reserved port (302) are arranged at two ends of the bottom plate, and a fire fighting water gun reserved port (111) is further arranged on the frame bottom plate (112).

4. The fire-fighting trolley based on the photocatalysis principle and with the smoke-extinguishing and purifying functions as claimed in claim 1, wherein the honeycomb aluminum mesh (201) is made into a hemispherical thin mesh and covers the outside of the fogging mesh cover (211).

5. The fire-fighting trolley with smoke suppression and purification based on the photocatalysis principle as claimed in claim 1, wherein the object placing table (115) is a circular platform, four holes are formed in the object placing table (115) for connecting the spiral diversion ladder pipes (203) below, and the interface is slightly recessed.

6. The fire-fighting trolley based on the photocatalysis principle and having the functions of smoke suppression and purification as claimed in claim 1, wherein the spiral diversion ladder tube (203) in the lower deep photocatalysis chamber has a water inlet connected to the object placing table (115) and a water outlet leading to the lower end of the water storage barrel (202), and the bottom end of the water storage barrel (202) is provided with a water inlet and outlet provided with a water valve.

7. The fire fighting truck with smoke suppression and purification based on the photocatalysis principle as claimed in claim 6, wherein the water storage barrel (202) is fixed on the bottom frame bottom plate (112), the water storage barrel (202) comprises an inner barrel and an outer barrel, the outer barrel is used for fixing, and the inner barrel is used for storing water.

8. The fire-fighting trolley based on the photocatalysis principle and with the smoke suppression and purification functions as claimed in claim 1, wherein a material placing table (208) in a gas reaction chamber (107) of the denitration and desulfurization device is provided with a recess for placing urea balls, and the gas reaction chamber (107) and a water tank (108) are arranged in a sealed and separated manner.

9. The fire fighting trolley based on the photocatalysis principle for smoke suppression and purification as claimed in claim 1, wherein the fog screen (211) is sealed by waterproof glue at the joint with the object placing table (115), the joint of the external protection spherical shell (101) and the four air pumps (102), and the joint of the external protection spherical shell (101) and the object placing table (115).

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