CN213089863U - Biomass particle and semi-coke dual-purpose air supply ignition slag removal device and heating stove - Google Patents

Abstract

The application relates to a biomass particle and blue carbon dual-purpose air supply ignition slag removal device and a heating furnace, wherein the air supply ignition slag removal device comprises an air supply mechanism, an ignition mechanism and a slag removal mechanism; the heating stove includes furnace body and sets up the furnace in the furnace body to and the scarfing cinder device of air supply ignition. The beneficial effect of this application does: the semi-coke in the hearth can be ignited easily, the ignition difficulty is reduced, meanwhile, the hearth can be ventilated uninterruptedly, the burning efficiency of the semi-coke is improved, meanwhile, the swing rod mechanism is arranged, the sintering phenomenon of the semi-coke in the burning process can be reduced, and the hearth is prevented from being blocked. The utility model provides a fire burning furnace disposes above-mentioned air supply ignition scarfing cinder device, easily ignites blue carbon, has improved blue carbon's combustion efficiency, and a plurality of return flues that set up have also further improved heat recovery, have reduced the ability and have lost.

Description

Biomass particle and semi-coke dual-purpose air supply ignition slag removal device and heating stove

Technical Field

The application relates to the technical field of heating equipment, especially, relate to a living beings granule, dual-purpose air supply of blue carbon ignition scarfing cinder device and heating stove.

Background

The heating stove is also called heating stove, is a short for heating boiler, belongs to one kind of civil life boiler, mainly refers to a normal pressure boiler which can meet the heating demand of people, and belongs to the category of civil hot water boiler.

The heating stove mostly includes heating portion and heat exchange part, and the heating portion mainly used turns into the heat energy with chemical energy, and the heat exchange part then is used for transmitting the heat energy that the heating portion produced to aquatic, and the water that later is heated flows the radiator in to the room through circulation system and dispels the heat, and the water after the heat dissipation is recirculated to the heating stove and is heated once more, so the circulation alright keep warm.

The inventor believes that the current heating stove has the following problems:

1. the ignition problem of heating stove, the ignition of present living beings granule or blue carbon, especially civilian heating stove can adopt some easily burning ignition thing, ignites ignition thing earlier, then leans on chimney natural draft to draw living beings granule or blue carbon and draws, and the ignition speed is full, wastes time and energy, uses very inconveniently.

2. During combustion, especially biomass particles and blue carbon are easy to generate slagging phenomenon during combustion, so that carbon slag is not easy to be discharged out of a hearth, the hearth is blocked, ventilation and sufficient combustion are influenced, discharge is not up to standard, and the environment is polluted.

Therefore, in order to solve the above technical problems, it is necessary to provide a blowing, igniting and slag removing device and a heating furnace for both biomass particles and semi coke.

SUMMERY OF THE UTILITY MODEL

In order can be more convenient ignite the living beings granule or blue carbon in the furnace, in time clear away the sintering slag of living beings granule or blue carbon, this application provides a living beings granule, dual-purpose air supply of blue carbon ignition scarfing cinder device and heating stove.

The utility model provides a first aspect provides a living beings granule, dual-purpose air supply of blue carbon ignition scarfing cinder device, adopts following technical scheme as follows:

a dual-purpose air supply ignition slag removal device for biomass particles and semi-coke comprises an air supply mechanism, an ignition mechanism and a slag removal mechanism;

the air supply mechanism comprises an air supply box and a blower, the air supply box is provided with an air supply outlet, the air supply outlet is communicated with an air outlet of the blower, an ignition rod in the same direction is arranged in the air supply box and penetrates through the air supply pipe and the slag removal air supply pipe, and air supply holes are formed in the ignition rod and the air supply pipe;

the ignition mechanism comprises an ignition rod, an action section of the ignition rod penetrates out of the ignition rod and penetrates through the blast pipe, and one end of the ignition rod, which is far away from the action section, is in threaded connection with the blast pipe, which is penetrated through by the ignition rod;

the slag removing mechanism comprises a slag removing motor, an output shaft of the slag removing motor is connected with a rotating disk, an eccentric transmission rod is arranged on the rotating disk, one end of a sliding sheet penetrates through the eccentric transmission rod, and the other end of the sliding sheet is inserted into a slag removing air supply pipe and is fixedly connected with the sliding sheet.

By adopting the technical scheme: the air quantity generated by the blower enters the air supply box, and because the parts of the ignition rod penetrating the air supply pipe and the slag removal air supply pipe in the air supply box are both provided with air supply holes, the air in the air supply box enters the hearth through the air supply holes, the ignition rod penetrating the air supply pipe and the slag removal air supply pipe, and the combustion of biomass particles and blue carbon in the hearth is promoted;

the burning point stick is inserted and is established in the burning point stick wears to establish the blast pipe, and when starting burning point stick, the effect section temperature of burning point stick risees, and the heating is worn to establish the wind of blast pipe through burning point stick, makes it become the very high hot-blast of temperature, blows to furnace in, ignites living beings granule or blue carbon, has solved the problem that the heating stove was igniteed difficultly.

During combustion, especially, the phenomenon of sintering is easily generated in the combustion process of biomass particles and blue carbon, in order to reduce the generation of the sintering phenomenon, a slag removing mechanism is arranged, the rotating plate, an eccentric transmission rod on the rotating plate and a sliding sheet form a crank connecting rod mechanism through the rotation of a slag removing motor, the rotation of the slag removing motor is converted into the reciprocating motion of the sliding sheet under the action of the crank connecting rod mechanism to drive a slag removing air supply pipe to reciprocate, and the slag removing air supply pipe swings the biomass particles or the blue carbon on a furnace grate, so that the generation of the sintering phenomenon is reduced.

Preferably, the slag removing mechanism further comprises a first mounting seat, the first mounting seat is fixedly connected with the air supply box, the slag removing motor is installed in the first mounting seat, and an output shaft of the slag removing motor extends out of the first mounting seat and then is connected with the rotating disk.

By adopting the technical scheme: first mount pad links into an integrated entity with the air supply box, and the wholeness is good, and the scarfing cinder motor is installed in the inside of first mount pad, has also increased its aesthetic property, and output shaft through the scarfing cinder motor connects the rotary disk and drives the rotary disk and rotate.

Preferably, the sliding sheet comprises an induction part, a transmission part and a connecting part, a sliding groove is formed in the transmission part, an eccentric transmission rod is connected in the sliding groove in a sliding mode, and the connecting part is inserted in the slag cleaning air supply pipe and is fixedly connected with the slag cleaning air supply pipe through a screw rod.

By adopting the technical scheme: transmission portion, transmission portion and connecting portion formula structure as an organic whole, transmission portion are used for being connected with the rotary disk, make the gleitbretter receive the power of rotary disk and convert into straight line reciprocating motion, and connecting portion are used for being connected with the scarfing cinder blast pipe, drive the straight line reciprocating motion of scarfing cinder blast pipe, and the biomass granule or blue carbon of burning on the disturbance grate reduces the production of sintering phenomenon.

Preferably, the slag removing mechanism further comprises a position sensor for sensing the position of the sensing part of the sliding sheet, and the position sensor is mounted on a mounting lug at the outer end of the first mounting seat.

By adopting the technical scheme: the position sensor is installed on the installation ear for the position of response portion still is provided with microcomputer control ware simultaneously, gives microcomputer control ware with position sensor's sensing signal transmission, and microcomputer control ware connects the scarfing cinder motor simultaneously, is used for the rotation of periodic start and stop scarfing cinder motor, the interior burning living beings granule or blue carbon of periodic disturbance grate.

Preferably, the air blower further comprises a second mounting seat, the air blower is mounted on the second mounting seat, and the second mounting seat is fixedly connected with the air supply box.

By adopting the technical scheme: the integrity of the whole device is improved, and the whole device is convenient to be arranged on the side surface of the furnace body.

The second aspect of this application provides a living beings granule, blue dual-purpose heating stove of carbon, adopts following technical scheme:

the utility model provides a dual-purpose heating stove of living beings granule, blue carbon, includes the furnace body and sets up the furnace in the furnace body, still includes above-mentioned arbitrary one air supply ignition scarfing cinder device, a side of furnace body seted up send the coal mouth, wear to establish the first intubate that the blast pipe corresponds and the second intubate that corresponds with the scarfing cinder blast pipe with the ignition stick, first intubate and second intubate and furnace intercommunication, send the furnace body side and the air supply box fixed connection of coal mouth downside, still be equipped with the circulating water chamber between furnace and the furnace body, the circulating water intracavity is equipped with the flue-back duct, still includes the play cigarette cavity of furnace body bottom, the first mount pad and the second mount pad of air supply ignition scarfing cinder device are installed at a cigarette cavity upside.

By adopting the technical scheme: the coal feeding port provides a passage for biomass particles or blue carbon to enter the hearth, a spiral automatic coal feeding mechanism can be configured to feed the blue carbon into the hearth from the coal feeding port, manual coal feeding can also be adopted, a baffle door is hinged on the outer side of the coal feeding port in a manual coal feeding mode, the first insertion pipe is in butt joint with the ignition rod through an air supply pipe, hot air heated by the ignition rod is fed into the hearth, the blue carbon on the grate is ignited, the slag removing air supply pipe is inserted into the second insertion pipe, the reciprocating motion of the slag removing air supply pipe disturbs the biomass particles or the blue carbon combusted on the grate, and the sintering phenomenon is reduced; circulating water is filled in the circulating water cavity, heat generated by combustion of biomass particles or semi-coke is absorbed, water is heated and is used for being circulated to the heating radiators for heating, and the arrangement of the return flue can further absorb and utilize heat in flue gas, so that heat loss is reduced.

Preferably, the inner side wall of the hearth is provided with a mounting table, a grate is fixedly connected to the mounting table, a carbon slag falling cavity is arranged between the grate and the inner wall of the furnace body, a furnace door for sealing the carbon slag falling cavity is arranged on the side face of the furnace body, the first insertion pipe and the second insertion pipe are higher than the lowest end of the grate, a carbon ash cavity is arranged on the lower side of the grate, and a carbon ash drawer is inserted into the carbon ash cavity.

By adopting the technical scheme: biomass particles or semi-coke are combusted on the grate, when the biomass particles or semi-coke are combusted to a certain degree, the biomass particles or the semi-coke are disturbed and pushed out of the grate through the slag removal air supply pipe, the biomass particles or the semi-coke fall into the carbon slag falling cavity, and the combusted furnace dust is hung in the carbon dust cavity and pulled out through the carbon dust drawer.

Preferably, the number of the return flues is multiple, the return flues are respectively arranged on two sides of the hearth and penetrate through the circulating water cavity, the bottom ends of the return flues penetrate out of the circulating water cavity and then are communicated with the smoke outlet cavity, and the smoke outlet cavity is communicated with the smoke outlet pipe.

By adopting the technical scheme: the multiple return flues can further recover and absorb heat in the flue gas, and heat loss is reduced.

Preferably, the upper portion of one side of furnace body be equipped with the inlet tube, the inlet tube intercommunication circulating water cavity, the bottom in circulating water cavity is equipped with the outlet pipe, the outlet pipe extends out the cigarette cavity.

By adopting the technical scheme: the water inlet pipe and the water outlet pipe are communicated with the circulating water cavity to form a circulating water path for heating.

Preferably, the top of the hearth is provided with a smoke return sleeve, and the top of the furnace body is provided with a furnace cover.

In summary, the present application includes at least one of the following beneficial technical effects:

the utility model provides a blowing-in ignition scarfing cinder device can comparatively easily ignite the living beings granule or blue carbon in the furnace, has reduced the degree of difficulty of igniting, can be incessant simultaneously to the furnace internal draft, improves the combustion efficiency of living beings granule or blue carbon, is provided with pendulum rod mechanism simultaneously and can reduces the production of blue carbon at combustion process sintering phenomenon, avoids blockking up furnace.

The utility model provides a fire burning furnace and dispose above-mentioned air supply ignition scarfing cinder device, easily ignite biomass particles or blue carbon, improved biomass particles or blue carbon's combustion efficiency, a plurality of return flues that set up have also further improved heat recovery, have reduced the heat and have lost.

Drawings

FIG. 1 is a schematic overall structure diagram of a blowing, igniting and slag removing device according to an embodiment of the present application.

FIG. 2 is a schematic cross-sectional view of a portion of an air supply box of the air supply ignition slag removal device in the embodiment of the present application.

FIG. 3 is a schematic structural diagram of a slider according to an embodiment of the present application.

Fig. 4 is a perspective view of a heating stove according to an embodiment of the present application.

Fig. 5 is an overall sectional structure schematic view of a heating stove of an embodiment of the present application.

Fig. 6 is a furnace body part interface structure schematic diagram of the heating stove of the embodiment of the present application.

Reference number description, 1000, air supply mechanism; 1100. a wind feeding box; 1110. an air supply outlet; 1200. a blower; 1300. the ignition rod penetrates through the blast pipe; 1400. a slag-removing blast pipe; 1500. an air supply hole; 2000. an ignition mechanism; 2100. an ignition bar; 3000. a slag removal mechanism; 3100. a slag removal motor; 3200. rotating the disc; 3210. an eccentric transmission rod; 3300. sliding blades; 3310. a sensing part; 3320. a transmission section; 3321. a chute; 3330. a connecting portion; 3400. a first mounting seat; 3410. mounting lugs; 3500. a position sensor; 4000. a second mounting seat; 5000. a furnace body; 5100. a coal feeding port; 5200. a first cannula; 5300. a second cannula; 5400. a smoke outlet cavity; 5410. discharging the smoke tube; 5500. a water inlet pipe; 5600. a water outlet pipe; 5700. a furnace cover; 6000. a hearth; 6100. an installation table; 6200. a grate; 6300. a carbon slag dropping cavity; 6400. a furnace door; 6500. a carbon ash chamber; 6600. a carbon dust drawer; 6700. a smoke returning sleeve; 7000. a circulating water cavity; 7100. and (4) returning to the flue.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Example one

One aspect of the embodiment of the application discloses a biomass particle and blue carbon dual-purpose air supply ignition slag removal device, which refers to fig. 1 and 2 and comprises an air supply mechanism 1000, an ignition mechanism 2000 and a slag removal mechanism 3000;

in this embodiment, the air supply mechanism 1000 includes an air supply box 1100 and a blower 1200, the air supply box 1100 is provided with an air supply outlet 1110, the air supply outlet 1110 is communicated with an air outlet of the blower 1200, an ignition rod in the same direction is arranged in the air supply box 1100 and penetrates through the air supply pipe 1300 and the slag removal air supply pipe 1400, and air supply holes 1500 are arranged on the ignition rod and penetrates through the air supply pipe 1300 and the slag removal air supply pipe 1400;

in this embodiment, the ignition mechanism 2000 includes an ignition rod 2100, an action section of the ignition rod 2100 penetrates through the ignition rod and is disposed in the blast pipe 1300, and one end of the ignition rod 2100, which is away from the action section, is in threaded connection with the blast pipe 1300;

wherein, in this embodiment, the slag removal mechanism 3000 includes a slag removal motor 3100, an output shaft of the slag removal motor 3100 is connected with the rotating disc 3200, an eccentric transmission rod 3210 is disposed on the rotating disc 3200, one end of a sliding sheet 3300 is disposed on the eccentric transmission rod 3210 in a penetrating manner, and the other end of the sliding sheet 3300 is inserted into the slag removal blast pipe 1400 and is fixedly connected therewith.

The air quantity generated by the blower 1200 enters the air supply box 1100, and because the ignition rod penetrates through the air supply pipe 1300 and the slag removal air supply pipe 1400, and the parts of the ignition rod and the slag removal air supply pipe 1400 in the air supply box 1100 are both provided with the air supply holes 1500, the air in the air supply box 1100 enters the hearth 6000 through the air supply holes 1500, the ignition rod penetrates through the air supply pipe 1300 and the slag removal air supply pipe 1400, and the burning of the blue carbon in the hearth 6000 is promoted;

the ignition rod 2100 is inserted in the blast pipe through which the fire rod penetrates, when the ignition rod 2100 is started, the temperature of the action section of the ignition rod 2100 is increased, the air passing through the blast pipe 1300 through which the ignition rod penetrates is heated to become hot air with high temperature, the hot air is blown into a hearth 6000, the blue carbon is ignited, and the problem that the blue carbon of the heating furnace is difficult to ignite is solved.

During combustion, particularly, sintering is easy to occur in the burning process of blue carbon, in order to reduce the sintering phenomenon, a slag removing mechanism 3000 is arranged, the slag removing motor 3100 rotates, the rotating disc 3200 and the eccentric transmission rod 3210 and the sliding sheet 3300 on the rotating disc 3200 are utilized to convert the rotation of the slag removing motor 3100 into the reciprocating motion of the sliding sheet 3300, the slag removing air supply pipe 1400 is driven to reciprocate, the slag removing air supply pipe 1400 swings the blue carbon on the grate 6200, and the sintering phenomenon is reduced.

Referring to fig. 1, in this embodiment, the slag removing mechanism 3000 further includes a first mounting seat 3400, the first mounting seat 3400 is fixedly connected to the blowing box 1100, the slag removing motor 3100 is mounted in the first mounting seat 3400, and an output shaft of the slag removing motor 3100 extends out of the first mounting seat 3400 and is connected to the rotating disk 3200. First mount pad 3400 links into an organic whole with air supply box 1100, and the wholeness is good, and slag cleaning motor 3100 installs in the inside of first mount pad 3400, has also increased its aesthetic property, connects rotary disk 3200 through slag cleaning motor 3100's output shaft and drives rotary disk 3200 and rotate.

In this embodiment, the slag removing mechanism 3000 further includes a position sensor 3500 for sensing the position of the sensing portion 3310 of the sliding piece 3300, and the position sensor 3500 is mounted on the mounting ear 3410 at the outer end of the first mounting seat 3400.

The position sensor 3500 is arranged on the mounting lug 3410 and used for sensing the position of the sensing part 3310, and is also provided with a microcomputer controller or a PCL controller, so that a sensing signal of the position sensor 3500 is transmitted to the microcomputer controller, and meanwhile, the microcomputer controller is connected with the slag removal motor 3100 and used for periodically starting and stopping the rotation of the slag removal motor 3100 and periodically disturbing the burning blue carbon in the grate 6200.

Referring to fig. 3, in this embodiment, the sliding plate 3300 includes a sensing portion 3310, a transmission portion 3320 and a connection portion 3330, the transmission portion 3320 is provided with a sliding slot 3321, the sliding slot 3321 is slidably connected with an eccentric transmission rod 3210, and the connection portion 3330 is inserted into the slag-removing air-supplying pipe 1400 and is fixedly connected by a screw. The transmission part 3320, the transmission part 3320 and the connecting part 3330 are of an integrated structure, the transmission part 3320 is used for being connected with the rotating disk 3200, receiving the power of the rotating disk 3200 and converting the power into linear reciprocating motion, the connecting part 3330 is used for being connected with the slag-removing blast pipe 1400 to drive the slag-removing blast pipe 1400 to perform linear reciprocating motion, the burning blue carbon on the grate 6200 is disturbed, and the sintering phenomenon is reduced.

In the present embodiment, a second mounting seat 4000 is further included, the blower 1200 is mounted on the second mounting seat 4000, and the second mounting seat 4000 is fixedly connected to the blower box 1100. The integrity of the whole device is improved, and the whole device is convenient to be arranged on the side surface of the furnace body 5000.

The second aspect of the embodiment of the application discloses a living beings granule, dual-purpose heating stove of blue carbon, refer to 4 and fig. 5, including furnace body 5000 and furnace 6000 of setting in furnace body 5000, still include any one above-mentioned air supply ignition scarfing cinder device, coal feed mouth 5100 has been seted up to a side of furnace body 5000, wear to establish first intubate 5200 that blast pipe 1300 corresponds and the second intubate 5300 that corresponds with scarfing cinder blast pipe 1400 with the ignition stick, first intubate 5200 and second intubate 5300 and furnace 6000 intercommunication, furnace body 5000 side and air supply box 1100 fixed connection of coal feed mouth 5100 downside, still be equipped with circulating water chamber 7000 between furnace 6000 and the furnace body 5000, be equipped with return flue 7100 in the circulating water chamber 7000, still include the play cigarette cavity 5400 of furnace body 5000 bottom, first mount pad 3400 and the second mount pad 4000 of air supply ignition scarfing cinder device are installed on a cigarette cavity 5400 upside.

In the embodiment, the coal feeding port 5100 provides a passage for blue carbon to enter the hearth 6000, a spiral automatic coal feeding mechanism can be configured to feed the blue carbon into the hearth 6000 from the coal feeding port 5100, artificial coal feeding can also be adopted, a baffle door is hinged on the outer side of the coal feeding port 5100 in an artificial coal feeding mode, the first insertion pipe 5200 is in butt joint with the ignition rod penetrating and air feeding pipe 1300, hot air heated by the ignition rod 2100 is fed into the hearth 6000, the blue carbon on the grate 6200 is ignited, the slag removing air feeding pipe 1400 is inserted into the second insertion pipe 5300, and the slag removing air feeding pipe 1400 moves in a reciprocating mode to disturb the blue carbon combusted on the grate 6200, so that the sintering phenomenon is reduced; circulating water is filled in the circulating water cavity 7000, absorbs heat generated by burning of the semi-coke, water is heated and is circulated to the heating radiators for heating, and the arrangement of the return flue 7100 can further absorb and utilize heat in flue gas, so that heat loss is reduced.

In this embodiment, referring to fig. 5 and 6, an installation table 6100 is arranged on the inner side wall of a hearth 6000, a grate 6200 is fixedly connected to the installation table 6100, a carbon slag dropping cavity 6300 is arranged between the grate 6200 and the inner wall of a furnace body 5000, a furnace door 6400 for sealing the carbon slag dropping cavity 6300 is arranged on the side surface of the furnace body 5000, the first insertion tube 5200 and the second insertion tube 5300 are higher than the lowest end of the grate 6200, a carbon ash cavity 6500 is arranged on the lower side of the grate 6200, and a carbon ash drawer 6600 is inserted into the carbon ash cavity 6500. The blue carbon is burnt on a grate 6200, when the blue carbon is burnt to a certain degree, the blue carbon is disturbed and pushed out of the grate 6200 through a slag removing blast pipe 1400 and falls into a carbon slag falling cavity 6300, and the burnt furnace ash is hung in a carbon ash cavity 6500 and pulled out through a carbon ash drawer 6600. The top of the hearth 6000 is provided with a smoke return sleeve 6700, and the top of the furnace body 5000 is provided with a furnace cover 5700.

Referring to fig. 6, in this embodiment, 6 smoke returning passages 7100 are provided, which are respectively disposed on two sides of the furnace 6000 and penetrate through the circulating water cavity 7000, bottom ends of the smoke returning passages 7100 penetrate through the circulating water cavity 7000 and then are communicated with the smoke outlet cavity 5400, and the smoke outlet cavity 5400 is communicated with the smoke outlet pipe 5410. The multiple return flues 7100 can further recover and absorb heat in the flue gas, and heat loss is reduced.

Referring back to fig. 4 and 5, an inlet pipe 5500 is provided on the upper portion of one side of the furnace body 5000, the inlet pipe 5500 communicates with the circulating water chamber 7000, a water outlet pipe 5600 is provided on the bottom of the circulating water chamber 7000, and the water outlet pipe 5600 extends out of the smoke outlet chamber 5400. Inlet tube 5500 and outlet pipe 5600 and circulation water cavity 7000 intercommunication constitute the circulation water route for the heating.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A dual-purpose air supply ignition slag removal device for biomass particles and semi-coke is characterized by comprising an air supply mechanism (1000), an ignition mechanism (2000) and a slag removal mechanism (3000);

the air supply mechanism (1000) comprises an air supply box (1100) and a blower (1200), the air supply box (1100) is provided with an air supply outlet (1110), the air supply outlet (1110) is communicated with an air outlet of the blower (1200), an ignition rod in the same direction is arranged in the air supply box (1100) and penetrates through an air supply pipe (1300) and a slag removal air supply pipe (1400), and air supply holes (1500) are formed in the ignition rod penetrating through the air supply pipe (1300) and the slag removal air supply pipe (1400);

the ignition mechanism (2000) comprises an ignition rod (2100), the action section of the ignition rod (2100) penetrates out of the ignition rod and penetrates through the blast pipe (1300), and one end of the ignition rod (2100) departing from the action section is in threaded connection with the blast pipe (1300) penetrated by the ignition rod;

the slag removing mechanism (3000) comprises a slag removing motor (3100), a rotating disk (3200) connected with an output shaft of the slag removing motor (3100), an eccentric transmission rod (3210) is arranged on the rotating disk (3200), one end of a sliding sheet (3300) is arranged on the eccentric transmission rod (3210) in a penetrating mode, and the other end of the sliding sheet (3300) is inserted into the slag removing blast pipe (1400) and fixedly connected with the slag removing blast pipe (1400).

2. The dual-purpose air supply ignition slag removal device for biomass particles and semi-coke as claimed in claim 1, wherein: the slag removal mechanism (3000) further comprises a first mounting seat (3400), the first mounting seat (3400) is fixedly connected with the air supply box (1100), the slag removal motor (3100) is mounted in the first mounting seat (3400), and an output shaft of the slag removal motor (3100) extends out of the first mounting seat (3400) and then is connected with the rotating disk (3200).

3. The dual-purpose air supply ignition slag removal device for biomass particles and semi-coke as claimed in claim 1, wherein: the sliding sheet (3300) comprises an induction part (3310), a transmission part (3320) and a connecting part (3330), a sliding groove (3321) is formed in the transmission part (3320), an eccentric transmission rod (3210) is connected in the sliding groove (3321), and the connecting part (3330) is inserted in the slag-removing air supply pipe (1400) and is fixedly connected with the slag-removing air supply pipe through a screw rod.

4. The dual-purpose air supply ignition slag removal device for biomass particles and semi-coke as claimed in claim 2, wherein: the slag removal mechanism (3000) further comprises a position sensor (3500) used for sensing the position of a sensing part (3310) of the sliding sheet (3300), and the position sensor (3500) is mounted on a mounting lug (3410) at the outer end of the first mounting seat (3400).

5. The dual-purpose air supply ignition slag removal device for biomass particles and semi-coke as claimed in claim 1, wherein: the air blower is characterized by further comprising a second mounting seat (4000), the air blower (1200) is mounted on the second mounting seat (4000), and the second mounting seat (4000) is fixedly connected with the air supply box (1100).

6. The utility model provides a living beings granule, dual-purpose heating stove of blue carbon, includes furnace body (5000) and sets up furnace (6000) in furnace body (5000), its characterized in that: the air supply ignition slag removal device comprises an air supply ignition slag removal device according to any one of claims 1 to 5, wherein a coal supply port (5100), a first insertion pipe (5200) corresponding to an ignition rod penetrating air supply pipe (1300) and a second insertion pipe (5300) corresponding to a slag removal air supply pipe (1400) are formed in one side surface of a furnace body (5000), the first insertion pipe (5200) and the second insertion pipe (5300) are communicated with a hearth (6000), the side surface of the furnace body (5000) on the lower side of the coal supply port (5100) is fixedly connected with an air supply box (1100), a circulating water cavity (7000) is further arranged between the hearth (6000) and the furnace body (5000), a return flue (7100) is arranged in the circulating water cavity (7000), the smoke outlet cavity (5400) at the bottom of the furnace body (5000) is further included, and a first mounting seat (3400) and a second mounting seat (4000) of the air supply ignition slag removal device are mounted on the upper side of the smoke outlet cavity (5400).

7. A biomass particle and semi-coke dual-purpose heating stove according to claim 6, characterized in that: the utility model discloses a furnace, including furnace (6000) inside wall, be equipped with mount table (6100), fixedly connected with grate (6200) on mount table (6100), be equipped with carbon slag between grate (6200) and furnace body (5000) inner wall and drop chamber (6300), the side of furnace body (5000) is equipped with furnace gate (6400) that are used for sealing carbon slag and drop chamber (6300), the position height of first intubate (5200) and second intubate (5300) is higher than the lowest end of grate (6200), the downside of grate (6200) is carbon ash chamber (6500), carbon ash chamber (6500) interpolation is equipped with carbon ash drawer (6600).

8. A biomass particle and semi-coke dual-purpose heating stove according to claim 6, characterized in that: the multiple smoke return passages (7100) are arranged and are respectively arranged on two sides of the hearth (6000) and penetrate through the circulating water cavity (7000), the bottom ends of the multiple smoke return passages (7100) penetrate out of the circulating water cavity (7000) and then are communicated with the smoke outlet cavity (5400), and the smoke outlet cavity (5400) is communicated with the smoke outlet pipe (5410).

9. A biomass particle and semi-coke dual-purpose heating stove according to claim 6, characterized in that: the upper portion of a side of furnace body (5000) be equipped with inlet tube (5500), inlet tube (5500) intercommunication circulation water cavity (7000), the bottom of circulation water cavity (7000) is equipped with outlet pipe (5600), outlet pipe (5600) extends out smoke cavity (5400).

10. A biomass particle and semi-coke dual-purpose heating stove according to claim 6, characterized in that: the top of the hearth (6000) is provided with a smoke return sleeve (6700), and the top of the furnace body (5000) is provided with a furnace cover (5700).

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