CN209978369U - Biomass particle environment-friendly gasification warm air furnace - Google Patents

Abstract

An environment-friendly gasification hot air furnace for biomass particles comprises a furnace body provided with an air outlet, wherein a feeding assembly, a heat collecting assembly, a combustion assembly and an exhaust pipeline are arranged in the furnace body, the feeding assembly comprises a hopper arranged on the furnace body, a feeding mechanism is arranged at the outlet end of the hopper, the heat collecting assembly comprises a heat collecting chamber arranged in the furnace body and behind the feeding mechanism, a material receiving assembly is arranged in the heat collecting chamber, a mounting plate is fixedly arranged in the heat collecting chamber and above the material receiving assembly, a heat collecting net is fixed on the mounting plate, a heat collecting pipe is fixedly arranged on the heat collecting net, and the combustion assembly comprises a combustion chamber arranged in the heat collecting chamber; gather the heat supply network through in the combustion chamber and can be so that gather the heat supply network and heated to burning red state by the burning back of granule material, heat harmful gas in the flue gas, gather the harmful gas to the flue gas that high temperature gas in the heat pipe can be once more during the heating and heat, its structural design is reasonable, the burning is abundant, heating effect is good.

Description

Biomass particle environment-friendly gasification warm air furnace

Technical Field

The utility model relates to a heating equipment field, in particular to living beings granule environmental protection gasification warm braw stove.

Background

At present, the energy consumption, especially the emission of carbon dioxide, needs to be reduced as much as possible in life, so that the carbon is low, the pollution to the atmosphere is reduced, and the ecological deterioration is slowed down, and the life details are changed mainly from three links of saving electricity, saving gas and recycling, for example, the manufacturing of coal heating equipment, such as a low-end heating furnace, is forbidden;

the heating stove that commonly uses on the existing market is mostly living beings granule heating stove, heats the heating to indoor through the burning of living beings granule, and the heat that living beings granule heating stove produced when burning can the heated air, and indoor each place is sent to with the hot-air to the rethread air-blower to improve indoor temperature fast. At present, the biomass particle heating furnace has the defects of unreasonable structural design, incomplete combustion, black smoke emission, overhigh smoke exhaust temperature and the like, smoke which is not combusted fully is discharged into the air, such as tar sulfur dioxide in the smoke, and the like, and the existing biomass particle heating furnace has low heat efficiency and high manufacturing cost.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to prior art not enough, provide a living beings granule environmental protection gasification warm braw stove that structural design is reasonable, the burning is abundant, the thermal efficiency is high and heat effectual.

The technical problem to be solved by the utility model can be realized by the following technical proposal, a biomass particle environment-friendly gasification warm air furnace, which comprises a furnace body provided with an air outlet;

a feeding assembly, a heat collecting assembly, a combustion assembly and a gas pumping and exhausting pipeline are arranged in the furnace body;

the feeding assembly comprises a hopper arranged on the furnace body, and a feeding mechanism is arranged at the outlet end of the hopper;

the heat collecting assembly comprises a heat collecting chamber arranged in the furnace body and behind the feeding mechanism, a material receiving assembly is arranged in the heat collecting chamber, an installation plate is fixedly installed in the heat collecting chamber and above the material receiving assembly, a heat collecting net is fixed on the installation plate, and a heat collecting pipe is fixedly installed on the heat collecting net;

the combustion assembly comprises a combustion chamber arranged in the heat collecting chamber, and an ignition mechanism is arranged in the combustion chamber;

the exhaust pipeline comprises a smoke discharge pipeline and an air inlet pipeline;

the gas inlet end of the flue gas discharge pipeline is connected to the heat collecting chamber and above the heat collecting pipe, and the gas outlet end of the flue gas discharge pipeline is communicated with the outside of the furnace body;

the air inlet end of the air inlet pipeline is connected in the furnace body, and the air outlet end of the air inlet pipeline is communicated with the outside of the furnace body;

an exhaust fan is arranged at the air outlet end of the smoke discharge pipeline, and a blower is arranged at the air outlet end of the air inlet pipeline.

Preferably, the heat collecting net adopts a tungsten wire mesh.

Preferably, the heat collecting pipe is a quartz pipe.

The utility model discloses the technical problem that solve can also be realized through following technical scheme, above a living beings granule environmental protection gasification warm braw stove, reinforced mechanism is including installing in the furnace body, the horizontal screw conveyer of hopper below, is provided with vertical horizontal screw conveyer in horizontal screw conveyer's below, horizontal screw conveyer's feed inlet and hopper discharge gate intercommunication, vertical horizontal screw conveyer's feed inlet and horizontal screw conveyer's discharge gate intercommunication, vertical horizontal screw conveyer's discharge gate is connected on the combustor inner wall.

The utility model discloses the technical problem that solve can also realize through following technical scheme, above a living beings granule environmental protection gasification warm braw stove, connect the material subassembly to include the material receiving box of fixed mounting on gathering hot indoor wall, gather hot indoor, the top fixed mounting of material receiving box has the grate, the furnace body lateral wall on still offer and be used for taking out the opening that the material receiving box established.

The technical problem to be solved by the utility model can also be realized by the following technical scheme that the above biomass particle environmental-friendly gasification warm air furnace, the ignition mechanism comprises an ignition rod mounting pipe and an oxygen inlet pipe which are fixed on the side wall of the furnace body, the ignition rod mounting pipe is provided with an oxygen inlet, an ignition rod is mounted in the ignition rod mounting pipe, and the ignition rod mounting pipe is communicated with the combustion chamber;

one end of the oxygen inlet pipe is connected to the outer wall of the furnace body, and the other end of the oxygen inlet pipe is connected to the inner wall of the combustion chamber.

The technical problem to be solved by the present invention can also be achieved by the following technical solution, in the above biomass particle environment-friendly gasification warm air furnace, the flue gas discharge pipeline comprises a plurality of flue gas inlet pipes, a flue gas transition cavity and a plurality of flue gas outlet pipes;

one end of the flue gas inlet pipe is connected above the heat gathering pipe in the heat gathering chamber, and the other end of the flue gas inlet pipe is connected in the flue gas transition cavity;

one end of the smoke outlet pipe is connected in the smoke transition cavity, and the other end of the smoke outlet pipe is connected on the exhaust pipe of the exhaust fan.

Preferably, an air inlet pipe communicated with the inner wall of the combustion chamber is further arranged on the inner wall of the combustion chamber and above the ignition rod mounting pipe.

The utility model discloses the technical problem that solve can also be realized through following technical scheme, above a living beings granule environmental protection gasification warm braw stove, the air inlet pipeline include the intake pipe, the one end of intake pipe is connected on the blast pipe of forced draught blower, the other end is connected on the inner wall of furnace body.

The to-be-solved technical problem of the utility model can also be realized through following technical scheme, above a living beings granule environmental protection gasification warm braw stove, seted up the heating bath at the furnace body top, articulated on the inner wall of heating bath have the heating bath lid.

The utility model discloses the technical problem that solve can also realize through following technical scheme, above a living beings granule environmental protection gasification warm braw stove, still seted up on the inner wall of furnace body and gathered heat pipe observation window installing port, fixed mounting has the heat pipe observation window of gathering on gathering the heat pipe observation window installing port.

The technical problem to be solved by the utility model can also be realized by the following technical scheme that the furnace body of the above biomass particle environment-friendly gasification warm air furnace is also provided with a control component;

the control assembly comprises a power supply, a temperature controller and a plurality of contactors connected with the temperature controller, the power supply is connected with the temperature controller and a plurality of contactors electrically connected with the temperature controller, the control switches of the air feeder, the air exhauster, the transverse horizontal screw conveyor and the vertical horizontal screw conveyor are respectively connected with a contactor wire, and the temperature test probe of the temperature controller is fixedly installed on a flue gas discharge pipeline.

Compared with the prior art, the utility model has the advantages as follows:

(1) because the bottom of the heat collecting chamber in the furnace body is closed, the top of the heat collecting chamber is only communicated with the flue gas discharge pipeline, namely, the heat collecting chamber is arranged in a closed manner relative to the lower part of the flue gas discharge pipeline, when biomass particles such as straw particles in the heat collecting chamber are combusted, the temperature in the heat collecting chamber can be gradually increased, the heat collecting net in the heat collecting chamber is continuously heated, when the biomass particles are heated to a red state, when the flue gas generated by particle combustion passes through the red heat collecting net, gases such as carbon monoxide or sulfur dioxide in the flue gas can be secondarily heated or combusted, and at the moment, when the flue gas and the hot gas generated by combustion pass through the heat collecting pipe, particularly, the heat collecting pipe adopts a quartz pipe, because the size of the quartz pipe is smaller than that of the heat collecting chamber, the flue gas and the hot gas generated by combustion can be concentrated into the heat collecting pipe to play an auxiliary heat collecting role, so that the gases such as carbon monoxide or sulfur dioxide in the flue gas can be heated or combusted, the smoke is discharged to the outside of the furnace body through a smoke discharge pipeline, so that the harmful gas components in the smoke generated after combustion are less, and the smoke is more environment-friendly when in use;

(2) through a plurality of flue gas inlet pipes in the flue gas discharge pipeline, flue gas enters the flue gas pipe transition cavity through the flue gas inlet pipes, and is discharged to the outside of the furnace body through the flue gas outlet pipe and an exhaust fan connected to the end of the flue gas outlet pipe, so that the smoke discharge effect is good;

(3) the air is blown into the furnace body through the air feeder in the air inlet pipeline, biomass particles in the combustion chamber are continuously combusted, namely the temperatures of the outer walls of the flue gas inlet pipe, the flue gas outlet pipe and the flue gas pipe transition cavity are very high, the temperature of the air blown into the furnace through the air inlet power mechanism is increased after the air is heated through the outer wall of the combustion chamber, the flue gas inlet pipe, the flue gas outlet pipe and the outer wall of the flue gas pipe transition cavity, and the heated air is blown into the chamber through the air outlet formed in the top of the furnace body, so that the heating effect is good;

(4) the heating groove is formed in the top of the furnace body, the heating groove cover body hinged to the inner wall of the heating groove is opened, and an article to be heated such as a kettle is placed in the heating groove;

(5) the multi-direction feeding anti-backfire function can be realized through the transverse horizontal screw conveyer and the longitudinal horizontal screw conveyer, namely, an included angle formed by installing the two horizontal screw conveyers is 90 degrees, namely, flame in a combustion chamber cannot be backfired into the transverse feeding mechanism from the longitudinal feeding mechanism;

(6) the temperature of the outer wall of the flue gas pipeline is detected by the temperature controller fixedly arranged at the top of the furnace body, and when the real-time temperature is higher than or lower than the rated temperature of the preset temperature controller, the temperature controller is used for turning on a relay which is connected with the temperature controller through a power line and is used for controlling the work of the exhaust fan or the air blower to start or turn off the exhaust fan or the air blower, so that the structural design is reasonable, and the heating is;

(7) particle burning real-time conditions in the heat gathering pipe can be observed through the heat gathering pipe observation window on the inner wall of the furnace body, and the fire light generated by the combustion chamber during burning can also be diffused indoors through the heat gathering pipe observation window, so that certain lighting is performed indoors.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic diagram of the right-side structure of the present invention;

fig. 3 is a schematic top view of the present invention.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings so as to facilitate the further understanding of the present invention by those skilled in the art, and do not limit the right thereto.

Embodiment 1, refer to fig. 1-3, a biomass particle environment-friendly gasification warm air furnace, including a furnace body 2 provided with an air outlet 1;

a feeding component, a heat collecting component, a combustion component and an exhaust pipeline are arranged in the furnace body 2;

the feeding assembly comprises a hopper 3 arranged on the furnace body 2, and a feeding mechanism is arranged at the outlet end of the hopper 3;

the heat collecting assembly comprises a heat collecting chamber 4 which is arranged in the furnace body 2 and at the rear of the feeding mechanism, a material receiving assembly is arranged in the heat collecting chamber 4, an installation plate 5 is fixedly arranged in the heat collecting chamber 4 and above the material receiving assembly, a heat collecting net 6 is fixed on the installation plate 5, and a heat collecting pipe 8 is fixedly arranged on the heat collecting net 6;

the combustion assembly comprises a combustion chamber 7 arranged in the heat collecting chamber 4, and an ignition mechanism is arranged in the combustion chamber 7;

the exhaust pipeline comprises a smoke discharge pipeline and an air inlet pipeline;

the gas inlet end of the flue gas discharge pipeline is connected to the interior of the heat collecting chamber 4 and above the heat collecting pipe 8, and the gas outlet end of the flue gas discharge pipeline is communicated with the exterior of the furnace body 2;

the air inlet end of the air inlet pipeline is connected in the furnace body 2, and the air outlet end of the air inlet pipeline is communicated with the outside of the furnace body 2;

an exhaust fan 9 is arranged at the air outlet end of the smoke discharge pipeline, and a blower 10 is arranged at the air outlet end of the air inlet pipeline. A wind vane 26 for guiding the wind direction may be fixedly installed on the wind outlet 1, and the wind vane 26 may be, for example, an air conditioner fan blade.

In the embodiment 1, the hopper 3 is provided with a ring-shaped cross section, the top end part of the hopper 3 is positioned at the top part of the furnace body 2, and the opening and closing of the hopper 3 can be realized by hinging a cover with the same size as the cross section of the hopper 3 at the top part of the hopper 3, and the means is the prior art and only realizes the temporary closing function of the opening end of the top end part of the hopper 3; the cross section of the heat collecting chamber 4 is rectangular, and a space for sending air into the furnace body 2 through the blower 10 is reserved between the heat collecting chamber 4 and the inner wall of the furnace body 2; the cross section of the mounting plate 5 is arranged in a circular shape; the combustion chamber 7 is a cuboid box body, a pore communicated with a discharge hole of the longitudinal horizontal spiral conveyor is formed in the box body, one surface of the box body, which is opposite to the surface with the pore, is arranged in an open mode, and the top surface of the box body is also arranged in an open mode; the exhaust fan 9 adopts a CY125 high-temperature exhaust fan 9, and the blower 10 adopts a Y5-47 type high-temperature resistant fan.

Embodiment 2, embodiment 1 the warm braw stove of environmental protection gasification of living beings granule, reinforced mechanism is including installing in furnace body 2, horizontal screw conveyer 11 of hopper 3 below, be provided with vertical horizontal screw conveyer 12 in the below of horizontal screw conveyer 11, the feed inlet of horizontal screw conveyer 11 and 3 discharge gates of hopper intercommunication, the feed inlet of vertical horizontal screw conveyer 12 and the discharge gate intercommunication of horizontal screw conveyer 11, the discharge gate of vertical horizontal screw conveyer 12 is connected on 7 inner walls of combustion chamber.

Embodiment 3, the environment-friendly biomass particle gasification warm air furnace described in embodiment 1, the material receiving assembly includes a material receiving box 13 fixedly mounted on the inner wall of the heat collecting chamber 4, a grate 14 is fixedly mounted in the heat collecting chamber 4 and above the material receiving box 13, and an opening for taking out the material receiving box 13 is further formed on the side wall of the furnace body 2. The cross section of the material receiving box 13 is rectangular, a handle can be arranged on the material receiving box 13, and the material receiving box 13 can be taken out of the furnace body 2 through the handle;

embodiment 4, the biomass particle environmental gasification warm air furnace described in embodiment 1, the ignition mechanism includes an ignition rod mounting tube 15 and an oxygen inlet tube 16 fixed on the side wall of the furnace body 2, an oxygen inlet 17 is opened on the ignition rod mounting tube 15, an ignition rod is mounted in the ignition rod mounting tube 15, and the ignition rod mounting tube 15 is communicated with the combustion chamber 7;

one end of the oxygen inlet pipe 16 is connected to the outer wall of the furnace body 2, and the other end is connected to the inner wall of the combustion chamber 7. The ignition rod can be powered by an external power supply, the oxygen inlet pipe 16 is a metal pipe and is used for communicating external air, so that the external air enters the furnace body 2, particulate matters in the furnace body 2 are fully combusted, and the air inlet end of the oxygen inlet pipe 16 is communicated with the outside and the outside of the furnace body 2; the oxygen inlet 17 is circular in cross section and the design of the oxygen inlet 17 is used to increase the air intake.

Embodiment 5, the biomass particle environmental gasification warm air furnace described in embodiment 1, the flue gas discharge pipeline includes a plurality of flue gas inlet pipes 18, a flue gas transition cavity 20, and a plurality of flue gas outlet pipes 19;

one end of the flue gas inlet pipe 18 is connected above the heat gathering pipe 8 in the heat gathering chamber 4, and the other end is connected in the flue gas transition cavity 20;

one end of a flue gas outlet pipe 19 is connected in the flue gas transition cavity 20, and the other end is connected on an exhaust pipe of the exhaust fan 9. The flue gas transitional cavity 20 adopts a cuboid box body, the cross section of the rectangular box body is rectangular, the design of the flue gas transitional cavity 20 is used for changing the flowing direction of flue gas, the flue gas flows to a flue gas outlet pipe 19 through a flue gas inlet pipe, 6 flue gas inlet pipes 18 can be arranged, and 2 flue gas outlet pipes 19 can be designed.

Embodiment 6, the biomass particle environmental protection gasification warm braw stove of embodiment 1, the air inlet pipeline include the intake pipe, the one end of intake pipe is connected on the blast pipe of forced draught blower 10, the other end is connected on the inner wall of furnace body 2.

Embodiment 7, the environment-friendly gasification warm air furnace of living beings granule that embodiment 1 said, seted up heating tank 21 at furnace body 2 top, articulated on the inner wall of heating tank 21 have a heating tank lid 22. When heating of the article is required, the article is simply placed in the heating bath 21 to be heated. The cross section of the heating tank cover 22 is rectangular.

In embodiment 8, the biomass particle environment-friendly gasification warm air furnace described in embodiment 1 further has a heat collecting pipe observation window installation opening 23 formed in the inner wall of the furnace body 2, and a heat collecting pipe observation window 24 is fixedly installed on the heat collecting pipe observation window installation opening 23. The combustion inside the heat collecting pipe 8 can be observed through the heat collecting pipe observation window 24.

Embodiment 9, the biomass particle environment-friendly gasification warm air furnace of embodiment 1, the furnace body 2 is further provided with a control assembly;

the control assembly includes power, temperature controller 25 and a plurality of contactors of being connected with temperature controller 25, the power be connected with temperature controller 25 and a plurality of contactors of being connected with temperature controller 25 electricity respectively, forced draught blower 10, air exhauster 9, horizontal screw conveyer 11 and vertical horizontal screw conveyer 12 control switch be connected with the contactor wire respectively, temperature controller 25's temperature test probe fixed mounting on flue gas discharge pipeline. The temperature test probe can be mounted on the flue gas inlet pipe 18 or the flue gas outlet pipe 19.

When the device is used, a power supply supplies power to the horizontal spiral conveyor 11 and the longitudinal horizontal spiral conveyor 12, particle materials are added into the hopper 3, at the moment, the particle materials are conveyed into the combustion chamber 7 through the horizontal spiral conveyor 11 and the longitudinal horizontal spiral conveyor 12 respectively, material particles in the combustion chamber 7 are ignited through the ignition rod, the ignited material particles are combusted in the combustion chamber 7, subsequent particle materials continue to enter the combustion chamber 7, new particle materials in the combustion chamber 7 push old particle materials onto the grate 14 below the combustion chamber 7, ash generated after the particle materials on the grate 14 are combusted leaks into the material receiving box 13, and during the period, when the temperature detected by a temperature test probe on the smoke inlet pipe 18 or the smoke outlet pipe 19 in the smoke discharge pipeline reaches the set temperature of the temperature controller 25, a signal is fed back to the contactor through the temperature controller 25 so as to open the air feeder 10 for air supply, the air gets into to furnace body 2 in through forced draught blower 10, gather space between hot room 4 and the 2 inner walls of furnace body, gathers hot room 4 inner walls and the heating of flue gas discharge pipeline outer wall, and the air after being heated reachs indoor realization heating through air outlet 1, and during, exhaust fan 9 arranges the flue gas in the flue gas discharge pipeline to the furnace body 2 outsidely, and accessible outside pipeline is connected with the 9 outlet ducts of exhaust fan and is realized the emission of flue gas, and its structural design is reasonable, and heating effect is good.

Claims (9)

1. The utility model provides a living beings granule environmental protection gasification warm braw stove which characterized in that: comprises a furnace body provided with an air outlet;

a feeding assembly, a heat collecting assembly, a combustion assembly and a gas pumping and exhausting pipeline are arranged in the furnace body;

the feeding assembly comprises a hopper arranged on the furnace body, and a feeding mechanism is arranged at the outlet end of the hopper;

the heat collecting assembly comprises a heat collecting chamber arranged in the furnace body and behind the feeding mechanism, a material receiving assembly is arranged in the heat collecting chamber, an installation plate is fixedly installed in the heat collecting chamber and above the material receiving assembly, a heat collecting net is fixed on the installation plate, and a heat collecting pipe is fixedly installed on the heat collecting net;

the combustion assembly comprises a combustion chamber arranged in the heat collecting chamber, and an ignition mechanism is arranged in the combustion chamber;

the exhaust pipeline comprises a smoke discharge pipeline and an air inlet pipeline;

the gas inlet end of the flue gas discharge pipeline is connected to the heat collecting chamber and above the heat collecting pipe, and the gas outlet end of the flue gas discharge pipeline is communicated with the outside of the furnace body;

the air inlet end of the air inlet pipeline is connected in the furnace body, and the air outlet end of the air inlet pipeline is communicated with the outside of the furnace body;

an exhaust fan is arranged at the air outlet end of the smoke discharge pipeline, and a blower is arranged at the air outlet end of the air inlet pipeline.

2. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the feeding mechanism comprises a transverse horizontal spiral conveyor arranged in the furnace body and below the hopper, a longitudinal horizontal spiral conveyor is arranged below the horizontal spiral conveyor, a feed inlet of the transverse horizontal spiral conveyor is communicated with a discharge outlet of the hopper, a feed inlet of the longitudinal horizontal spiral conveyor is communicated with a discharge outlet of the transverse horizontal spiral conveyor, and a discharge outlet of the longitudinal horizontal spiral conveyor is connected to the inner wall of the combustion chamber.

3. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the material receiving assembly comprises a material receiving box fixedly arranged on the inner wall of the heat collecting chamber, a grate is fixedly arranged in the heat collecting chamber and above the material receiving box, and an opening for taking out the material receiving box is further formed in the side wall of the furnace body.

4. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the ignition mechanism comprises an ignition rod mounting pipe and an oxygen inlet pipe which are fixed on the side wall of the furnace body, an oxygen inlet is formed in the ignition rod mounting pipe, an ignition rod is mounted in the ignition rod mounting pipe, and the ignition rod mounting pipe is communicated with the combustion chamber;

one end of the oxygen inlet pipe is connected to the outer wall of the furnace body, and the other end of the oxygen inlet pipe is connected to the inner wall of the combustion chamber.

5. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the smoke discharge pipeline comprises a plurality of smoke inlet pipes, a smoke transition cavity and a plurality of smoke outlet pipes;

one end of the flue gas inlet pipe is connected above the heat gathering pipe in the heat gathering chamber, and the other end of the flue gas inlet pipe is connected in the flue gas transition cavity;

one end of the smoke outlet pipe is connected in the smoke transition cavity, and the other end of the smoke outlet pipe is connected on the exhaust pipe of the exhaust fan.

6. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the air inlet pipeline comprises an air inlet pipe, one end of the air inlet pipe is connected to an air supply pipe of the air feeder, and the other end of the air inlet pipe is connected to the inner wall of the furnace body.

7. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the heating tank is arranged at the top of the furnace body, and a heating tank cover body is hinged to the inner wall of the heating tank.

8. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the inner wall of the furnace body is also provided with a heat-collecting pipe observation window mounting opening, and the heat-collecting pipe observation window is fixedly mounted on the heat-collecting pipe observation window mounting opening.

9. The biomass particle environment-friendly gasification warm air furnace as claimed in claim 1, characterized in that: the furnace body is also provided with a control assembly;

the control assembly comprises a power supply, a temperature controller and a plurality of contactors connected with the temperature controller, the power supply is connected with the temperature controller and a plurality of contactors electrically connected with the temperature controller, the control switches of the air feeder, the air exhauster, the transverse horizontal screw conveyor and the vertical horizontal screw conveyor are respectively connected with a contactor wire, and the temperature test probe of the temperature controller is fixedly installed on a flue gas discharge pipeline.

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