CN210345469U - Energy-saving floater treatment device - Google Patents

Abstract

The utility model discloses an energy-saving floater treatment device, which comprises a box body, wherein a drying cavity, a crushing cavity, an incineration cavity, a dedusting cavity and a liquid washing cavity are arranged in the box body, a floater feed inlet, a conveying net belt, an electric heater, a drying cavity gas outlet and a floater feed opening are arranged on the drying cavity, a hot air radiating disc is arranged in the conveying net belt, the crushing cavity is arranged below the drying cavity, a gear crushing device is arranged in the crushing cavity, the incineration cavity is arranged below the crushing cavity, an inclined baffle plate, a baffle net, a combustion device, a blower device and a waste gas outlet are arranged below the gear crushing device, the waste gas outlet is connected with the hot air radiating disc through a waste gas pipe, the drying cavity gas outlet is connected with the liquid washing cavity through an exhaust pipe, a first fan, a bag type dust collector and a tail gas discharge pipe, a stirring device, a purifying liquid, a liquid inlet, the air outlet penetrates through the wall of the box body. The utility model has the advantages of energy saving, more sufficient combustion, no pollution in emission and the like.

Description

Energy-saving floater treatment device

Technical Field

The utility model belongs to the technical field of the surface of water refuse treatment, concretely relates to energy-conserving floater processing apparatus.

Background

The water environment refers to the environment of the space where water is formed, distributed and converted in nature, refers to the water surrounding the crowd space and the water body which can directly or indirectly influence the life and development of human beings, in the current society, along with the rapid development of economy, people have qualitative leap in life, people lose themselves by pursuing industrial development and economic development, so that the protection of the environment is ignored, the quality of a water source is continuously reduced in recent years, the water environment is continuously deteriorated, due to continuous occurrence of water shortage and accidents caused by pollution, not only is the factory stopped, the agricultural production reduced and even the factory lost, but also bad social influence and large economic loss are caused, the sustainable development of the society is seriously threatened, scientific development is violated, the human beings lose families and lives, and the most common water environment pollution in life is a large amount of domestic garbage floating on the water surface, most of the garbage is caused by artificial random throwing, generally, the garbage is like plastic bags, beverage bottles, branches and leaves and other easily cleaned water surface garbage, the attractiveness is influenced, the ecology in water is influenced, and therefore the water surface garbage needs to be salvaged. Most floaters are directly incinerated after being salvaged, energy is not saved, a plurality of floaters treating devices only intensively incinerate the floaters, the combustion is insufficient, and generated harmful gases are directly discharged into the air without being treated, so that the atmosphere is polluted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving floater processing apparatus that energy-conservation, burning are more abundant and discharge pollution-free.

The utility model aims at realizing through the following technical scheme:

the utility model provides an energy-conserving floater processing apparatus, includes the box, its characterized in that: the drying chamber is arranged at the upper left of the box body, a floater feeding hole is arranged above the drying chamber, a plurality of conveying mesh belts are arranged below the floater feeding hole, each conveying mesh belt comprises a mesh belt driven shaft, a conveying belt, a mesh belt driving shaft and a motor coaxially arranged with the mesh belt driving shaft, a hot air radiating disc is arranged in the conveying belt, an electric heater and a drying chamber air outlet are further arranged on the inner wall of the drying chamber, a floater discharging hole is arranged at the lower part of the drying chamber, and the crushing chamber is arranged below the drying chamber; the device is characterized in that a gear crushing device is arranged in the crushing cavity, an incineration cavity is arranged below the crushing cavity, an inclined baffle plate is arranged below the gear crushing device, the right end of the inclined baffle plate is fixed on the inner wall of the right side of the incineration cavity, a baffle net is arranged below the inclined baffle plate, a combustion device is arranged below the baffle net, a blast device is arranged below the baffle net, the blast device is provided with an air duct and an air pump, the air duct is arranged below the combustion device, the upper surface of the air duct is uniformly provided with an air guide hole, the left end of the air duct is fixedly connected with the air pump, a waste gas outlet is arranged above the incineration cavity, the waste gas outlet is connected with a hot air radiating disc through a waste gas pipe, the air outlet of the drying cavity is connected with the dust removal cavity through an exhaust pipe and a first fan, the dust removal cavity is arranged on the right side of the drying cavity, the utility model discloses a dust remover, including blast pipe, bag collector, liquid outlet, tail gas discharge pipe, liquid wash chamber, agitating unit, purifying liquid, inlet, leakage fluid dram and gas outlet, the blast pipe links to each other with bag collector's entry, the bag collector exit is provided with the tail gas discharge pipe, the tail gas discharge pipe links to each other with the liquid wash chamber, the liquid wash chamber sets up in dust removal chamber below, the liquid wash intracavity is provided with agitating unit, purifying liquid, inlet, leakage fluid dram and gas outlet, the tail gas discharge pipe stretches into in the purifying liquid, agitating unit sets up in liquid wash chamber top, the gas outlet sets up in liquid wash chamber right side inner wall top, the gas outlet runs through the box.

Preferably, the gear crushing device comprises three crushing gears, triangular saw teeth and square saw teeth are arranged on the outer surfaces of the crushing gears, and the triangular saw teeth are arranged in the middle of the two square saw teeth.

Preferably, a screen is arranged below the gear crushing device.

Preferably, the lateral wall of the incineration chamber is provided with a heat-resistant plate, and the lower end of the incineration chamber is also provided with an ash discharge port.

Preferably, agitating unit includes agitator motor, transmission shaft and stirring rake, agitator motor sets up at liquid wash chamber upper end inner wall, the agitator motor output shaft links to each other with the transmission shaft, transmission shaft lower part symmetry is provided with a plurality of stirring rakes.

Preferably, the purifying solution is an aqueous solution of copper diammine acetate.

Preferably, the incineration chamber and the dust removal chamber are both provided with access holes.

Preferably, two bag type dust collectors are adopted, and the bag type dust collectors are connected with the inner wall of the lower end of the dust removal cavity through the base.

The beneficial effects of this technical scheme are as follows:

one, the utility model provides an energy-conserving floater processing apparatus, during the use, the floater that will salvage is added from the floater feed inlet, the floater is transmitted on a plurality of conveying net belts, electric heating dries the floater, the floater passes through the floater feed opening from the discharge end of conveying net belt below and gets into in the broken chamber, gear breaker crushes the floater, make the floater particle diameter even and increase floater and burner's area of contact help burning completely in burning the intracavity, the floater is along slope swash plate equipartition and is burnt completely under burner and blower's effect on keeping off the net, waste gas passes through the exhaust pipe and links to each other with hot-blast radiator plate, waste gas is dried the floater in the stoving intracavity, decide whether to close electric heater according to actual conditions, carry out the reutilization to the heat that burns the production, it is more energy-conserving, the gas of stoving intracavity accomplishes the detach of dust in bag collector, then gets into the liquid and washes the chamber, and poisonous gas carbon monoxide is got rid of to gas in the scavenging solution, and agitating unit accelerates the contact of waste gas and scavenging solution for absorb more thoroughly, gas after the purification is discharged from the gas outlet. The utility model has the advantages of energy saving, more sufficient combustion, no pollution in emission and the like.

Two, the utility model provides an energy-conserving floater processing apparatus, gear breaker include three broken gear, the surface of broken gear is provided with triangle sawtooth and square sawtooth, the triangle sawtooth sets up in the centre of two square sawtooth, and the three broken gear that sets up makes floater crushing effect better, and gear breaker below is provided with the screen cloth, screens the floater rubbish after the breakage for the burning rate of floater prevents that the floater from burning inadequately.

Thirdly, the utility model provides an energy-conserving floater processing apparatus burns the chamber lateral wall and all is provided with the heat-resisting board, it still is provided with the ash discharge mouth still to burn the chamber lower extreme, helps burning the chamber long-time operation.

Four, the utility model provides an energy-conserving floater processing apparatus, agitating unit include agitator motor, transmission shaft and stirring rake, agitator motor sets up at the liquid wash chamber upper end inner wall, the agitator motor output shaft links to each other with the transmission shaft, transmission shaft lower part symmetry is provided with a plurality of stirring rakes, and the scavenging solution adopts the aqueous solution of acetic acid diammine copper, and through the aqueous solution of acetic acid diammine copper, can absorb the toxic gas carbon monoxide in the flue gas, agitator motor drives the stirring rake and stirs the scavenging solution, has strengthened the absorption to toxic gas carbon monoxide in the waste gas.

Fifthly, the utility model provides an energy-conserving floater processing apparatus burns and all is provided with the access hole on chamber and the dust removal chamber, and the setting of access hole makes the maintenance more convenient, bag collector adopts two, bag collector passes through the base and links to each other with dust removal chamber lower extreme inner wall, sets up two bag collector and guarantees that the dust gets rid of the effect, reduces the pollution to the environment.

Drawings

The foregoing and following detailed description of the invention will be apparent when read in conjunction with the following drawings, in which:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the conveying belt of the present invention;

FIG. 3 is a schematic structural view of the crushing gear of the present invention;

fig. 4 is a schematic structural view of the blower device of the present invention;

in the figure: 1. a box body; 2. a drying cavity; 2.1, a floater feeding hole; 2.2, conveying the mesh belt; 2.3, a mesh belt driven shaft; 2.4, mesh belt driving shaft; 2.5, conveying a belt; 2.6, a hot air radiating disc; 2.7, an electric heater; 2.8, an air outlet of the drying cavity; 2.9, a floater feed opening; 2.10, an exhaust pipe; 2.11, a first fan; 3. a crushing chamber; 3.1, a gear crushing device; 3.2, crushing the gear; 3.3, triangular saw teeth; 3.4, square saw teeth; 3.5, screening; 4. an incineration chamber; 4.1, inclining a baffle plate; 4.2, blocking the net; 4.3, a combustion device; 4.4, an air guide tube; 4.5, an air pump; 4.6, air vents; 4.7, an exhaust gas outlet; 4.8, an exhaust pipe; 4.9, an ash discharge port; 5. a dust removal cavity; 5.1, a bag type dust collector; 5.2, a tail gas discharge pipe; 6. a liquid washing cavity; 6.1, a stirring motor; 6.2, a transmission shaft; 6.3, a stirring paddle; 6.4, purifying liquid; 6.5, a liquid inlet; 6.6, a liquid outlet; 6.7 and an air outlet.

Detailed Description

The technical solution for achieving the objectives of the present invention will be further described by using several specific examples, and it should be noted that the technical solution claimed in the present invention includes, but is not limited to, the following examples.

Example 1

As the most basic embodiment of the utility model, the embodiment discloses an energy-saving floater treatment device, as shown in FIGS. 1-4, comprising a box body 1, wherein a drying chamber 2, a crushing chamber 3, an incineration chamber 4, a dedusting chamber 5 and a liquid washing chamber 6 are arranged in the box body 1, the drying chamber 2 is arranged at the upper left of the box body 1, a floater feed inlet 2.1 is arranged above the drying chamber 2, a plurality of conveying net belts 2.2 are arranged below the floater feed inlet 2.1, the conveying net belts 2.2 comprise net belt driven shafts 2.3, conveying belts 2.5, net belt driving shafts 2.4 and motors coaxially arranged with the net belts 2.4, a hot air heat dissipation disc 2.6 is arranged in the conveying belt 2.5, an electric heater 2.7 and a drying chamber air outlet 2.8 are further arranged on the inner wall of the drying chamber 2, a floater discharge port 2.9 is arranged at the lower part of the drying chamber 2.2, the discharge end of the conveying net belt 2.2 is connected with the feed end, the discharge end of the last conveying mesh belt 2.2 is connected with a floater feed opening 2.9, and a crushing cavity 3 is arranged below the drying cavity 2; a gear crushing device 3.1 is arranged in the crushing cavity 3, an incineration cavity 4 is arranged below the crushing cavity 3, an inclined baffle plate 4.1 is arranged below the gear crushing device 3.1, the right end of the inclined baffle plate 4.1 is fixed on the inner wall of the right side of the incineration cavity 4, a baffle net 4.2 is arranged below the inclined baffle plate 4.1, a combustion device 4.3 is arranged below the baffle net 4.2, a blast device is arranged below the baffle net 4.2, the blast device is provided with a gas guide tube 4.4 and a gas pump 4.5, the gas guide tube 4.4 is arranged below the combustion device 4.3, the upper surface of the gas guide tube 4.4 is uniformly provided with a gas guide hole 4.6, the left end of the gas guide tube 4.4 is fixedly connected with a gas pump 4.5, a waste gas outlet 4.7 is arranged above the incineration cavity 4, the waste gas outlet 4.7 is connected with a hot air heat dissipation disc 2.6 through a waste gas pipe 4.8, and a dust removal cavity 5.11 is connected with a first fan 2.10 through a gas exhaust pipe 2.10, the dust removal cavity 5 is arranged on the right side of the drying cavity 2, a bag type dust collector 5.1 is arranged in the dust removal cavity 5, an exhaust pipe 2.10 is connected with an inlet of the bag type dust collector 5.1, a tail gas discharge pipe 5.2 is arranged at an outlet of the bag type dust collector 5.1, the tail gas discharge pipe 5.2 is connected with the liquid washing cavity 6, the liquid washing cavity 6 is arranged below the dust removal cavity 5, a stirring device, a purifying liquid 6.4, a liquid inlet 6.5, a liquid discharge port 6.6 and a gas outlet 6.7 are arranged in the liquid washing cavity 6, the tail gas discharge pipe 5.2 extends into the purifying liquid 6.4, the stirring device is arranged above the liquid washing cavity 6, the gas outlet 6.7 is arranged above the inner wall on the right side of the liquid washing cavity 6, the gas outlet 6.7 penetrates through the wall of the box body 1, the liquid inlet 6.5 is arranged below the gas outlet 6.7, and the liquid discharge port 6.6 is arranged at the.

The utility model provides an energy-conserving floater processing apparatus, during the use, add the floater on salvaging from floater feed inlet 2.1, the floater is transmitted on a plurality of conveying mesh belt 2.2, the electric heating dries the floater, the floater enters crushing chamber 3 through floater feed opening 2.9 from the discharge end of the conveyer mesh belt 2.2 at the bottom, gear breaker 3.1 crushes the floater, make the floater particle diameter even and increase the floater and the area of contact of burner 4.3 help burning in burning chamber 4 completely, the floater burns completely under the effect of burner 4.3 and blower device along the slope swash plate equipartition on fender net 4.2, waste gas links to each other with hot-blast air cooling dish 2.6 through waste gas pipe 4.8, waste gas dries the floater in the stoving chamber 2, decide whether to close electric heater 2.7 according to actual conditions, carry out the reutilization to the heat that burns and produces, more energy-conserving, the gas in the stoving chamber 2 accomplishes the detach of dust in bag collector 5.1, then gets into liquid washing chamber 6, and poisonous gas carbon monoxide is got rid of to gas in purifying liquid 6.4, and agitating unit accelerates the contact of waste gas and purifying liquid 6.4 for absorb more thoroughly, gas after the purification is discharged from gas outlet 6.7. The utility model has the advantages of energy saving, more sufficient combustion, no pollution in emission and the like.

Example 2

As a preferred embodiment of the utility model, the embodiment discloses an energy-saving floater treatment device, as shown in FIGS. 1-4, comprising a box body 1, a drying chamber 2, a crushing chamber 3, an incineration chamber 4, a dust removal chamber 5 and a liquid washing chamber 6 are arranged in the box body 1, the drying chamber 2 is arranged at the upper left of the box body 1, a floater feed inlet 2.1 is arranged above the drying chamber 2, a plurality of conveying net belts 2.2 are arranged below the floater feed inlet 2.1, the conveying net belts 2.2 comprise net belt driven shafts 2.3, conveying belts 2.5, net belt driving shafts 2.4 and motors coaxially arranged with the driving shaft net belts 2.4, a hot air heat dissipation disc 2.6 is arranged in the conveying belt 2.5, an electric heater 2.7 and a drying chamber air outlet 2.8 are further arranged on the inner wall of the drying chamber 2, a floater discharge port 2.9 is arranged at the lower part of the drying chamber 2, the discharge end adjacent to the conveying net belt 2.2 is connected with the feed end, the discharge end of the last conveying mesh belt 2.2 is connected with a floater feed opening 2.9, and a crushing cavity 3 is arranged below the drying cavity 2; a gear crushing device 3.1 is arranged in the crushing cavity 3, an incineration cavity 4 is arranged below the crushing cavity 3, an inclined baffle plate 4.1 is arranged below the gear crushing device 3.1, the right end of the inclined baffle plate 4.1 is fixed on the inner wall of the right side of the incineration cavity 4, a baffle net 4.2 is arranged below the inclined baffle plate 4.1, a combustion device 4.3 is arranged below the baffle net 4.2, a blast device is arranged below the baffle net 4.2, the blast device is provided with a gas guide tube 4.4 and a gas pump 4.5, the gas guide tube 4.4 is arranged below the combustion device 4.3, the upper surface of the gas guide tube 4.4 is uniformly provided with a gas guide hole 4.6, the left end of the gas guide tube 4.4 is fixedly connected with a gas pump 4.5, a waste gas outlet 4.7 is arranged above the incineration cavity 4, the waste gas outlet 4.7 is connected with a hot air heat dissipation disc 2.6 through a waste gas pipe 4.8, and a dust removal cavity 5.11 is connected with a first fan 2.10 through a gas exhaust pipe 2.10, the dust removal cavity 5 is arranged on the right side of the drying cavity 2, a bag type dust collector 5.1 is arranged in the dust removal cavity 5, an exhaust pipe 2.10 is connected with an inlet of the bag type dust collector 5.1, a tail gas discharge pipe 5.2 is arranged at an outlet of the bag type dust collector 5.1, the tail gas discharge pipe 5.2 is connected with the liquid washing cavity 6, the liquid washing cavity 6 is arranged below the dust removal cavity 5, a stirring device, a purifying liquid 6.4, a liquid inlet 6.5, a liquid discharge port 6.6 and a gas outlet 6.7 are arranged in the liquid washing cavity 6, the tail gas discharge pipe 5.2 extends into the purifying liquid 6.4, the stirring device is arranged above the liquid washing cavity 6, the gas outlet 6.7 is arranged above the inner wall on the right side of the liquid washing cavity 6, the gas outlet 6.7 penetrates through the wall of the box body 1, the liquid inlet 6.5 is arranged below the gas outlet 6.7, and the liquid discharge port 6.6 is arranged at the.

Preferably, the gear crushing device 3.1 comprises three crushing gears 3.2, the outer surface of the crushing gear 3.2 is provided with triangular saw teeth 3.3 and square saw teeth 3.4, and the triangular saw teeth 3.3 are arranged in the middle of the two square saw teeth 3.4.

Preferably, a screen 3.5 is arranged below the gear crushing device 3.1.

Preferably, the side walls of the incineration chamber 4 are provided with heat-resistant plates, and the lower end of the incineration chamber 4 is also provided with an ash discharge port 4.9.

Preferably, agitating unit includes agitator motor 6.1, transmission shaft 6.2 and stirring rake 6.3, agitator motor 6.1 sets up at 6 upper end inner walls in liquid wash chamber, agitator motor 6.1 output shaft links to each other with transmission shaft 6.2, the 6.2 lower part symmetry of transmission shaft is provided with a plurality of stirring rakes 6.3.

Preferably, the purifying liquid 6.4 adopts an aqueous solution of copper diammine acetate.

Preferably, the incineration chamber 4 and the dust removal chamber 5 are both provided with access ports.

Preferably, two bag-type dust collectors 5.1 are adopted, and the bag-type dust collectors 5.1 are connected with the inner wall of the lower end of the dust removal cavity 5 through a base.

The utility model provides an energy-conserving floater processing apparatus, during the use, add the floater on salvaging from floater feed inlet 2.1, the floater is transmitted on a plurality of conveying mesh belt 2.2, the electric heating dries the floater, the floater enters crushing chamber 3 through floater feed opening 2.9 from the discharge end of the conveyer mesh belt 2.2 at the bottom, gear breaker 3.1 crushes the floater, make the floater particle diameter even and increase the floater and the area of contact of burner 4.3 help burning in burning chamber 4 completely, the floater burns completely under the effect of burner 4.3 and blower device along the slope swash plate equipartition on fender net 4.2, waste gas links to each other with hot-blast air cooling dish 2.6 through waste gas pipe 4.8, waste gas dries the floater in the stoving chamber 2, decide whether to close electric heater 2.7 according to actual conditions, carry out the reutilization to the heat that burns and produces, more energy-conserving, the gas in the stoving chamber 2 accomplishes the detach of dust in bag collector 5.1, then gets into liquid washing chamber 6, and poisonous gas carbon monoxide is got rid of to gas in purifying liquid 6.4, and agitating unit accelerates the contact of waste gas and purifying liquid 6.4 for absorb more thoroughly, gas after the purification is discharged from gas outlet 6.7. The utility model has the advantages of energy saving, more sufficient combustion, no pollution in emission and the like.

The gear crushing device 3.1 comprises three crushing gears 3.2, triangular saw teeth 3.3 and square saw teeth 3.4 are arranged on the outer surface of each crushing gear 3.2, the triangular saw teeth 3.3 are arranged between the two square saw teeth 3.4, the three crushing gears 3.2 are arranged to ensure that the crushing effect of floaters is better, and a screen 3.5 is arranged below the gear crushing device 3.1 to screen the crushed floaters, so that the burning rate of the floaters is accelerated, and the floaters are prevented from being burnt insufficiently. The lateral wall of the incineration chamber 4 is provided with a heat-resistant plate, and the lower end of the incineration chamber 4 is also provided with an ash discharge port 4.9, so that the incineration chamber 4 can operate for a long time. Agitating unit includes agitator motor 6.1, transmission shaft 6.2 and stirring rake 6.3, agitator motor 6.1 sets up at 6 upper end inner walls in liquid wash chamber, agitator motor 6.1 output shaft links to each other with transmission shaft 6.2, transmission shaft 6.2 lower part symmetry is provided with a plurality of stirring rakes 6.3, and 6.4 adoption acetic acid diammine copper's aqueous solution of purifying liquid can absorb the toxic gas carbon monoxide in the flue gas through acetic acid diammine copper's aqueous solution, and agitator motor 6.1 drives stirring rake 6.3 and stirs purifying liquid 6.4, has strengthened the absorption to toxic gas carbon monoxide in the waste gas. Burn and all be provided with the access hole on chamber 4 and the dust removal chamber 5, the setting up of access hole makes the maintenance more convenient, bag collector 5.1 adopts two, bag collector 5.1 links to each other with 5 lower extreme inner walls in dust removal chamber through the base, sets up two bag collector 5.1 and guarantees that the dust gets rid of the effect, reduces the pollution to the environment.

The above-mentioned embodiments further describe in detail the objects, technical solutions and advantages of the present invention, it should be understood that the above only is the embodiments of the present invention, and is not intended to limit the present invention, any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. The utility model provides an energy-conserving floater processing apparatus, includes box (1), its characterized in that: the box body (1) is internally provided with a drying cavity (2), a crushing cavity (3), an incineration cavity (4), a dust removal cavity (5) and a liquid washing cavity (6), the drying cavity (2) is arranged at the upper left of the box body (1), a floater feeding port (2.1) is arranged above the drying cavity (2), a plurality of conveying net belts (2.2) are arranged below the floater feeding port (2.1), the conveying mesh belt (2.2) comprises a mesh belt driven shaft (2.3), a conveying belt (2.5), a mesh belt driving shaft (2.4) and a motor which is coaxially arranged with the mesh belt driving shaft (2.4), a hot air radiating disc (2.6) is arranged in the conveying belt (2.5), an electric heater (2.7) and a drying cavity air outlet (2.8) are further arranged on the inner wall of the drying cavity (2), a floater feed opening (2.9) is arranged at the lower part of the drying cavity (2), and a crushing cavity (3) is arranged below the drying cavity (2); a gear crushing device (3.1) is arranged in the crushing cavity (3), an incineration cavity (4) is arranged below the crushing cavity (3), an inclined baffle plate (4.1) is arranged below the gear crushing device (3.1), the right end of the inclined baffle plate (4.1) is fixed on the inner wall of the right side of the incineration cavity (4), a baffle net (4.2) is arranged below the inclined baffle plate (4.1), a combustion device (4.3) is arranged below the baffle net (4.2), an air blowing device is arranged below the baffle net (4.2), the air blowing device is provided with an air duct (4.4) and an air pump (4.5), the air duct (4.4) is arranged below the combustion device (4.3), an air guide hole (4.6) is uniformly arranged on the upper surface of the air duct (4.4), the left end of the air duct (4.4) is fixedly connected with the air pump (4.5), and a waste gas outlet (4.7) is arranged above the incineration cavity (4), the waste gas outlet (4.7) is connected with a hot air heat dissipation disc (2.6) through a waste gas pipe (4.8), the drying cavity gas outlet (2.8) is connected with a dust removal cavity (5) through an exhaust pipe (2.10) and a first fan (2.11), the dust removal cavity (5) is arranged on the right side of the drying cavity (2), a bag type dust remover (5.1) is arranged in the dust removal cavity (5), the exhaust pipe (2.10) is connected with an inlet of the bag type dust remover (5.1), a tail gas discharge pipe (5.2) is arranged at an outlet of the bag type dust remover (5.1), the tail gas discharge pipe (5.2) is connected with a liquid washing cavity (6), the liquid washing cavity (6) is arranged below the dust removal cavity (5), a stirring device, a purifying liquid (6.4), a liquid inlet (6.5), a liquid discharge port (6.6) and a gas outlet (6.7) are arranged in the liquid washing cavity (6), and the tail gas discharge pipe (5.2) extends into the purifying liquid (6), agitating unit sets up and washes chamber (6) top at the liquid, gas outlet (6.7) set up and wash chamber (6) right side inner wall top at the liquid, box (1) wall is run through in gas outlet (6.7), inlet (6.5) set up in gas outlet (6.7) below, leakage fluid dram (6.6) set up and wash chamber (6) lower extreme at the liquid.

2. An energy efficient float management apparatus according to claim 1, wherein: gear crushing device (3.1) includes three broken gear (3.2), the surface of broken gear (3.2) is provided with triangle sawtooth (3.3) and square sawtooth (3.4), triangle sawtooth (3.3) set up the centre at two square sawtooth (3.4).

3. An energy efficient float management apparatus according to claim 1, wherein: and a screen (3.5) is arranged below the gear crushing device (3.1).

4. An energy efficient float management apparatus according to claim 1, wherein: the lateral wall of the incineration chamber (4) is provided with a heat-resistant plate, and the lower end of the incineration chamber (4) is also provided with an ash discharge port (4.9).

5. An energy efficient float management apparatus according to claim 1, wherein: agitating unit includes agitator motor (6.1), transmission shaft (6.2) and stirring rake (6.3), agitator motor (6.1) set up at liquid wash chamber (6) upper end inner wall, agitator motor (6.1) output shaft links to each other with transmission shaft (6.2), transmission shaft (6.2) lower part symmetry is provided with a plurality of stirring rakes (6.3).

6. An energy efficient float management apparatus according to claim 1, wherein: the purifying liquid (6.4) adopts an aqueous solution of copper diammine acetate.

7. An energy efficient float management apparatus according to claim 1, wherein: and access holes are formed in the incineration chamber (4) and the dust removal chamber (5).

8. An energy efficient float management apparatus according to claim 1, wherein: two bag type dust collectors (5.1) are adopted, and the bag type dust collectors (5.1) are connected with the inner wall of the lower end of the dust removing cavity (5) through the base.

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