CN209890706U - Efficient living beings melt aluminium stove - Google Patents

Abstract

The utility model discloses an efficient living beings melt aluminium stove, melt the aluminium furnace body and divide into and purify the cavity and melt the aluminium cavity, melt the aluminium cavity and cut apart into by fire baffle and melt cavity and combustion chamber, melt cavity internally mounted and have the bell mechanism that melts aluminium stove courage and top, the combustion chamber right side wall is connected with feed mechanism, the purification is installed the purification bell of purification stove courage and disconnect-type on the cavity and is located the rabbling mechanism on the purification bell, laser range finder, purification stove courage lower part runs through the furnace body and is connected with drainage mechanism. The utility model has reasonable and novel design, the combustion chamber is arranged at the bottom of the aluminum melting furnace pipe, and the heat energy utilization rate and the aluminum melting efficiency of the biomass particles are effectively improved; a fire blocking ring plate and a fire blocking block are arranged between the furnace pipe and the cavity, so that the detention time of the heat energy gas in the furnace is prolonged, and the loss of the heat energy is reduced; the purification furnace pipe realizes the purification and degassing of the aluminum liquid, shortens the procedure of aluminum liquid casting, stabilizes the liquid level in the furnace through a variable frequency control system, and ensures the smelting effect.

Description

Efficient living beings melt aluminium stove

Technical Field

The utility model relates to a melt aluminium equipment technical field, concretely relates to efficient living beings melt aluminium stove.

Background

The smelting of aluminum and aluminum alloy is one of the important links of the aluminum processing production process, along with the change of energy mechanisms in China and the increasing of environmental awareness, energy conservation and emission reduction become important missions of enterprises, the aluminum melting furnace is developed as a novel high-efficiency energy-saving furnace, common aluminum melting furnace fuels are divided into solid fossil fuels, natural gas, biomass particles and the like, the combustion efficiency and the use cost of the biomass particle fuels are lower than those of the traditional coal and natural gas, the furnace has the advantages of low cost, less harmful gas and recyclable waste, most of the existing biomass aluminum melting furnaces adopt a single crucible to melt aluminum liquid, part of the biomass aluminum melting furnaces adopt double crucibles to simultaneously realize the functions of melting aluminum and storing the aluminum liquid, most of the biomass aluminum melting furnaces have adjacent distribution of combustion chamber positions and aluminum melting cavity, the efficiency of flame entering the aluminum melting cavity to heat the crucible is not high, and the distribution is uneven, can not realize melting the high-efficient heating of aluminium crucible well, can not realize the purification degasification to aluminium liquid simultaneously depositing the in-process at aluminium liquid, if carry out the degasification operation in the transportation and will increase the labour cost, also do not benefit to production efficiency's promotion.

Disclosure of Invention

In order to overcome the defects, the utility model provides an efficient biomass aluminum melting furnace, which realizes the functions of melting aluminum and storing aluminum liquid, and simultaneously purifies and degasses the aluminum liquid in the aluminum liquid storage process, and the produced aluminum liquid can be directly cast through a liquid discharge chute, thereby shortening the production process; simultaneously, the structure of the aluminum melting cavity, the purification cavity and the combustion chamber is designed, so that the utilization efficiency of the biomass granular fuel and the utilization ratio of the waste heat of the tail gas are effectively improved. Therefore, the utility model provides a following technical scheme:

an efficient biomass aluminum melting furnace comprises an aluminum melting furnace body, a feeding mechanism, a liquid discharging mechanism, a stirring mechanism, a laser range finder and a furnace cover mechanism, wherein the feeding mechanism comprises a feeding bin, the feeding bin is connected with a feeding bin through a discharging pipe, transmission shafts are distributed on the upper surface and the lower surface of the feeding bin in a penetrating manner, a material baffle plate is sleeved on the transmission shafts in the feeding bin, and the lower end of each transmission shaft is connected with a driving motor;

the aluminum melting furnace body is divided into a left purifying cavity and a right aluminum melting cavity, the aluminum melting cavity is divided into an upper melting cavity and a lower combustion chamber by a fireproof baffle, an aluminum melting furnace liner is arranged in the melting cavity, the top of the aluminum melting furnace liner protrudes out of a top cover of a furnace body shell, a furnace cover mechanism is distributed right above the aluminum melting furnace liner correspondingly, the furnace cover mechanism comprises a supporting rod rotatably arranged on one side of the aluminum melting furnace liner on the end face of the shell, a supporting beam is fixedly connected to the upper end of the supporting rod, a U-shaped groove is distributed at one end of the supporting beam far away from the supporting rod, a connecting block is hinged in the U-shaped groove, and the connecting block is connected with a; the right side wall of the combustion chamber is connected with the bottom end face of the feeding bin through a feeding chute, the right side of the combustion chamber is connected with an air blower through an air inlet pipe, and the front side of the combustion chamber is provided with a furnace ash door for cleaning furnace slag;

a purification furnace liner is arranged in the purification cavity, a purification furnace cover is detachably arranged at the top end of the purification furnace liner, a stirring mechanism penetrates through the center of the purification furnace cover, a laser range finder is fixedly arranged on the left side of the stirring mechanism, and a gas joint connected with a gas detector is distributed on the right side of the stirring mechanism; the liquid drainage mechanism is connected with the furnace body corresponding to the middle lower part of the purifying furnace liner in a penetrating manner, the liquid drainage mechanism comprises a liquid discharge part fixed outside the furnace body, electromagnetic valves are distributed at the top end of the liquid discharge part, and liquid discharge chutes are distributed on the side surfaces of the liquid discharge part; and chimneys are distributed on the upper end of the side wall of the furnace body corresponding to the purification cavity.

The purifying cavity and the melting cavity are communicated through the refractory hole bricks, the middle part of the aluminum melting furnace liner is communicated with the middle part of the purifying furnace liner through an aluminum liquid channel, and a fire blocking ring plate and a fire blocking block are arranged between the purifying cavity and the purifying furnace liner as well as between the melting cavity and the aluminum melting furnace liner.

The furnace liner supports are distributed between the aluminum melting furnace liner and the fire-resistant baffle plate as well as between the purification furnace liner and the furnace body bottom plate of the melting furnace, each furnace liner support comprises a support ring plate and support blocks positioned on the support ring plates, and flue gas openings for flame and flue gas to pass through are formed between every two support blocks.

The handle is fixed at the top end or the end face of the side part of the connecting block, and the connecting block can rotate up and down along the axis of the U-shaped groove by lifting the handle up and down.

The stirring mechanism comprises a shaft sleeve fixed at the center of the purification furnace cover, the center of the shaft sleeve penetrates through the purification furnace cover and extends into the purification furnace liner, stirring shafts are distributed inside the purification furnace liner, two rows of stirring blades are distributed on the lower portion of each stirring shaft along the radial direction, and the upper portion of each stirring shaft is located outside the purification furnace liner and fixedly connected with the stirring motor.

The stirring shaft is internally provided with the gas channel, the bottom end of the stirring shaft is provided with the opening, and the gas channel is communicated with the gas inlet pipe distributed at the top of the shaft sleeve.

The laser range finder comprises a laser control box positioned on the purification furnace cover, cable connectors distributed on the side face of the laser control box and double-row laser probes penetrating through the purification furnace cover.

Foretell, feeding storehouse positive side fixedly connected with switch board, switch board and driving motor, agitator motor, laser range finder, solenoid valve and air-blower electricity federation.

The chimney comprises a flue gas channel, the flue gas channel penetrates through the side wall of the furnace body and is communicated with the purification cavity, and a smoke exhaust pipeline is distributed on the outer portion of the furnace body and is perpendicular to the end face of the flue gas pipeline.

In the above, the gas pipeline is distributed at the bottom of the purification cavity through one side of the aluminum melting furnace body.

The utility model relates to a rationally novel, gain following beneficial effect:

1. the combustion chamber is arranged below the aluminum melting cavity, and the furnace pipe on the fire-resistant baffle is supported by the flame path arranged on the fire-resistant baffle, so that the aluminum melting furnace pipe is efficiently and uniformly heated, and the heat energy utilization rate and the aluminum melting efficiency of biomass particles are improved;

2. the purification cavity and the aluminum melting cavity are communicated through a refractory hollow brick, and a fire blocking ring plate and a fire blocking block are arranged between the purification cavity and the purification furnace liner as well as between the aluminum melting cavity and the aluminum melting furnace liner, so that the detention time of heat energy gas in the furnace is prolonged, and the loss of heat energy is reduced;

3. the aluminum melting furnace body is internally provided with double cavities, one cavity is additionally provided with an aluminum melting furnace liner for aluminum melting operation, the other cavity is additionally provided with a purifying furnace liner, and the two furnace liners are communicated through a middle aluminum liquid pipeline, so that not only can the submerged melting of aluminum liquid be realized, but also the separation of the aluminum liquid and aluminum slag is realized;

4. the purification cavity can realize the purification and degassing operation of the aluminum liquid, the added liquid discharge mechanism does not need to scoop the aluminum liquid manually, the labor cost is reduced, and meanwhile, the aluminum liquid is in a closed atmosphere, so that the product quality is ensured;

5. the frequency conversion control system is additionally arranged, so that the frequency conversion control of the driving electrolysis and stirring motor is realized, the energy consumption is reduced, meanwhile, the height of the molten aluminum in the furnace is monitored in real time through the laser range finder on the electric control purification furnace cover and the electromagnetic valve of the liquid discharge mechanism, the molten aluminum is conveniently discharged, the liquid level of the molten pool in the furnace is stabilized, and the submerged smelting effect is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic structural diagram of a main body of an embodiment of the present invention;

fig. 2 is a schematic structural view of the back side of the main body according to the embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of the main body of an embodiment of the present invention;

FIG. 4 is a schematic structural view of a purification chamber according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a melting chamber according to an embodiment of the present invention;

fig. 6 is a schematic view of a furnace supporting structure according to an embodiment of the present invention.

Reference numerals:

0-aluminum melting furnace body, 01-combustion chamber, 02-shell, 03-fire-resistant wall, 04-furnace liner support, 041-support ring plate, 042-support block, 043-flue gas opening, 05-clean furnace liner, 06-fuel pipeline, 07-fire-stop ring plate, 08-aluminum melting furnace liner, 09-fire-resistant ventilating brick, 010-aluminum liquid channel, 011-fire-stop block, 012-flame path, 013-clean cavity, 014-melting cavity, 015-fire-resistant baffle, 016-aluminum melting cavity, 1-feeding mechanism, 101-feeding bin, 102-discharging pipe, 103-feeding bin, 104-transmission shaft, 105-driving motor, 106-baffle plate, 107-discharging pipe, 2-control cabinet, 3-blower, 4-air inlet pipe, 5-ash gate, 6-tapping mechanism, 601-tapping part, 602-solenoid valve, 603-tapping chute, 7-fuel pipe, 8-chimney, 801-smoke exhaust pipe, 802-smoke channel, 9-purification furnace cover, 10-laser range finder, 1001-laser control box, 1002-cable connector, 1003-laser probe, 11-stirring mechanism, 1101-stirring motor, 1102-stirring shaft, 1103-air inlet pipe, 1104-shaft sleeve, 1105-gas channel, 1106-stirring paddle, 12-gas connector, 13-furnace cover mechanism, 1301-support rod, 1302-support beam, 1303-furnace cover, 1304-U-shaped groove, 1305-connection block, 1306-handle, 1307-connection rod.

Detailed Description

In order to make those skilled in the art better understand the solution of the embodiments of the present invention, the embodiments of the present invention are further described in detail below with reference to the accompanying drawings and the implementation manner.

Example 1

Referring to fig. 1 ~ 6, an efficient living beings melt aluminium stove, including melting aluminium furnace body 0, feed mechanism 1, drainage mechanism 6, rabbling mechanism 11, laser range finder 10, bell mechanism 13, feed mechanism 1 includes feeding storehouse 101, feeding storehouse 101 passes through unloading pipe 102 and is connected with feeding storehouse 103, feeding storehouse 103 runs through the top and bottom and distributes and have transmission shaft 104, be located and cup jointed striker plate 106 on the transmission shaft in feeding storehouse 103, and the transmission shaft lower extreme is connected with driving motor, 105 combustion chamber 01 right side wall is connected with feeding storehouse 103 face through throwing material chute 107.

The aluminum melting furnace body 0 is divided into a left purifying cavity 013 and a right aluminum melting cavity 016, the aluminum melting cavity 016 is divided into an upper melting cavity 014 and a lower combustion chamber 01 by a fire-resistant baffle 015, the right side of the combustion chamber 01 is connected with an air blower 3 through an air inlet pipe 4, and the front of the combustion chamber 01 is provided with a furnace ash door 5 for cleaning furnace slag; an aluminum melting furnace liner 08 is arranged in the melting cavity 014, the top of the aluminum melting furnace liner 08 protrudes out of a top cover of the furnace body shell 02, a furnace cover mechanism 11 is distributed right above the aluminum melting furnace liner 08, the furnace cover mechanism 11 comprises a support rod 1301 which is rotatably arranged on one side of the aluminum melting furnace liner 08 on the end surface of the shell 02, a support beam 1302 is fixedly connected to the upper end of the support rod 1301, a U-shaped groove 1304 is distributed at one end of the support beam 1302, a connecting block 1305 is hinged in the U-shaped groove 1304, the connecting block 1305 is connected with a furnace cover 1303 through a connecting rod 1307, a handle 1306 is fixed at the top end or the side end surface of the connecting block 1305, the connecting block 1305 is vertically rotated along the axis of the U-shaped groove 1304 by vertically lifting the handle 1306, so that the furnace cover 1303 is vertically lifted through the connecting rod 1307, the opening or closing of the furnace cover 1303 is realized, the supporting beam 1302 is pulled by the handle 1306 to drive the supporting rod 1301 to horizontally rotate, so that the furnace cover 1303 is laterally moved, an opening of the furnace pipe 08 of the smelting furnace is formed, and the furnace cover 1303 is prevented from influencing feeding to the furnace pipe 08 of the aluminum smelting furnace.

A purification furnace core 05 is arranged inside a purification cavity 013, a purification furnace cover 9 is separately arranged at the top end of the purification furnace core 05, a stirring mechanism 11 is arranged in the center of the purification furnace cover 9 in a penetrating manner, the stirring mechanism 11 comprises a shaft sleeve 1104 fixed in the center of the purification furnace cover 9, a stirring shaft 1102 is distributed in the center of the shaft sleeve 1104 penetrating the purification furnace cover 9 and extending into the purification furnace core 05, two rows of stirring blades 1106 are radially distributed at the lower part of the stirring shaft 1102, the upper part of the stirring shaft 1102 is positioned outside the purification furnace core 05 and fixedly connected with a stirring motor 1101, gas channels 1105 are distributed inside the stirring shaft 1102 and communicated with a gas inlet pipe 1103 distributed at the top of the shaft sleeve 1104, the gas inlet pipe 1103 is connected with an inert gas such as nitrogen or argon through a conveying pipeline, and a refining agent can be carried by the inert gas, the double-layer stirring blades 1106 can realize more uniform stirring of the molten aluminum solution.

11 left sides fixed mounting of rabbling mechanism has laser range finder 10, laser range finder 10 is including being located the laser control box 1001 on the purification bell 9, the cable joint 1002 that distributes on the laser control box side and run through the double laser probe 1103 of purification bell 9, laser probe 1103 is just to the export of drainage mechanism 6, the inside aluminium liquid level height of detection purification furnace courage 05 that can be more accurate, because it link up through aluminium liquid passageway 010 and purification furnace courage 05 middle part to melt aluminium furnace courage 08 middle part, form the linker, consequently, two furnace courage liquid level equal, consequently, liquid level height can reflect and melt aluminium furnace courage 08 interior liquid level height in laser range finder 10 detects purification furnace courage 05.

A gas joint 12 connected with a gas detector is distributed on the right side of the stirring mechanism 11, and the reaction condition of the melt in the furnace can be judged by detecting the gas components; a liquid discharge mechanism 6 is connected to the middle lower part of the purification furnace pipe 05 through the aluminum melting furnace body 0, the liquid discharge mechanism 6 comprises a liquid discharge part 601 fixed outside the furnace body, an electromagnetic valve 602 is distributed at the top end of the liquid discharge part 601, and a liquid discharge chute 603 is distributed on the side surface of the liquid discharge part 601; the chimney 8 is distributed at the upper end of the side wall of the furnace body on the corresponding purification cavity 013, the chimney 8 comprises a flue gas channel 802, the flue gas channel 802 penetrates through the side wall of the furnace body and is communicated with the purification cavity 013, a smoke exhaust pipeline 801 is distributed on the end face, perpendicular to the flue gas pipeline 802, outside the furnace body, of the flue gas channel 802, the square flue gas channel 802 is maximally lower than the lowest point of the fire retaining ring plate 07, and the flue gas can be smoothly discharged through the flue gas channel 802.

Specifically, purify the middle fire-resistant perforated brick 09 intercommunication that passes through of cavity 013 and melting cavity 014, it keeps off fire ring plate 07 to purify cavity 013 and purification furnace 05 and melt to be provided with between cavity 014 and the aluminium melting furnace courage 08 and keep off fire block 011, it has fender fire ring plate 07 to purify furnace 05 and the close laminating distribution in aluminium melting furnace courage 08 upper end, it gets into inside the furnace to avoid burning the flue gas to go upward, it has the fast 011 of keeping off fire to purify furnace 05 and purify cavity 013 and the interval distribution between aluminium melting furnace courage 08 and the melting cavity 014, it discharges from the inside furnace body cavity to block the flue gas too fast, improve biomass fuel heat energy's utilization efficiency.

Concretely, it supports 04 to melt the distribution of aluminium furnace courage 08 and fire damper and purify between stove courage 05 and the 0 bottom plate of aluminium melting furnace body, stove courage supports 04 including support ring board 041, be located the supporting shoe 042 on the support ring board, form between two liang of supporting shoes 042 and supply flame, the flue gas opening 043 that the flue gas passes through, it is inside to get into melting cavity 014 via getting into flame path 012 when the inside high heat gas that produces of combustion chamber 01, stove courage supports 04 and can disperse flame or high heat gas better, the realization is to the high efficiency of stove courage, even heating.

Specifically, a control cabinet 2 is fixedly connected to the positive side surface of the feeding bin 101, the control cabinet 2 is electrically connected with a driving motor 105, a stirring motor 1101, a laser range finder 10, an electromagnetic valve 602 and a blower 3, the liquid level of aluminum liquid in the purification furnace pipe 05 is detected through the laser range finder 10, the liquid level of the aluminum liquid rises, and the electromagnetic valve 602 is opened through the control cabinet 2 to realize liquid discharging operation; when the liquid level is lower, add aluminium material to melting aluminium furnace pipe 08, through control cabinet 2 adjustment air-blower 4, driving motor 105 rotational speed, increase to 01 filler speed in combustion chamber and blast speed, promote fast and smelt efficiency, simultaneously adjust agitator motor 1101 rotational speed as required for the purification rate of aluminium liquid maintains the inside liquid level of furnace body stably, guarantees to melt the submergence formula of aluminium material.

Specifically, the bottom of the purification cavity 013 penetrates through one side of the aluminum melting furnace body 0, and the gas pipeline 06 is distributed, so that natural gas is supplemented to the purification cavity 013 according to requirements, and the temperature of the melt inside the purification furnace pipe 05 is maintained.

While the preferred embodiments of the present invention have been described in the foregoing illustrative manner, it will be understood by those skilled in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides an efficient living beings melt aluminium stove which characterized in that: the aluminum melting furnace comprises an aluminum melting furnace body, a feeding mechanism, a liquid discharging mechanism, a stirring mechanism, a laser range finder and a furnace cover mechanism, wherein the feeding mechanism comprises a feeding bin, the feeding bin is connected with a feeding bin through a discharging pipe, transmission shafts are distributed on the upper surface and the lower surface of the feeding bin in a penetrating manner, a material baffle is sleeved on the transmission shafts in the feeding bin, and the lower end of each transmission shaft is connected with a driving motor;

the aluminum melting furnace body is divided into a left purifying cavity and a right aluminum melting cavity, the aluminum melting cavity is divided into an upper melting cavity and a lower combustion chamber by a fireproof baffle, an aluminum melting furnace liner is arranged in the melting cavity, the top of the aluminum melting furnace liner protrudes out of a top cover of a furnace body shell, a furnace cover mechanism is distributed right above the aluminum melting furnace liner correspondingly, the furnace cover mechanism comprises a supporting rod rotatably arranged on one side of the aluminum melting furnace liner on the end face of the shell, a supporting beam is fixedly connected to the upper end of the supporting rod, a U-shaped groove is distributed at one end of the supporting beam far away from the supporting rod, a connecting block is hinged in the U-shaped groove, and the connecting block is connected with a; the right side wall of the combustion chamber is connected with the bottom end face of the feeding bin through a feeding chute, the right side of the combustion chamber is connected with an air blower through an air inlet pipe, and the front side of the combustion chamber is provided with a furnace ash door for cleaning furnace slag;

a purification furnace liner is arranged in the purification cavity, a purification furnace cover is detachably arranged at the top end of the purification furnace liner, a stirring mechanism penetrates through the center of the purification furnace cover, a laser range finder is fixedly arranged on the left side of the stirring mechanism, and a gas joint connected with a gas detector is distributed on the right side of the stirring mechanism; the liquid drainage mechanism is connected with the furnace body corresponding to the middle lower part of the purifying furnace liner in a penetrating manner, the liquid drainage mechanism comprises a liquid discharge part fixed outside the furnace body, electromagnetic valves are distributed at the top end of the liquid discharge part, and liquid discharge chutes are distributed on the side surfaces of the liquid discharge part; and chimneys are distributed on the upper end of the side wall of the furnace body corresponding to the purification cavity.

2. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: the purifying cavity and the melting cavity are communicated through a refractory hole brick, the middle part of the aluminum melting furnace liner is communicated with the middle part of the purifying furnace liner through an aluminum liquid channel, and a fire blocking ring plate and a fire blocking block are arranged between the purifying cavity and the purifying furnace liner as well as between the melting cavity and the aluminum melting furnace liner.

3. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: furnace liners are distributed among the aluminum melting furnace liner, the fire-resistant baffle, the purification furnace liner and the furnace body bottom plate of the melting furnace and supported, the furnace liners are supported by supporting ring plates and supporting blocks positioned on the supporting ring plates, and flue gas openings for flame and flue gas to pass through are formed between every two supporting blocks.

4. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: the handle is fixed on the top end or the end face of the side part of the connecting block, and the connecting block can rotate up and down along the axis of the U-shaped groove by lifting the handle up and down.

5. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: the stirring mechanism comprises a shaft sleeve fixed in the center of the purification furnace cover, the center of the shaft sleeve penetrates through the purification furnace cover and extends into the purification furnace liner, stirring shafts are distributed inside the purification furnace liner, two rows of stirring blades are distributed on the lower portion of each stirring shaft along the radial direction, and the upper portion of each stirring shaft is located outside the purification furnace liner and fixedly connected with a stirring motor.

6. The high-efficiency biomass aluminum melting furnace of claim 5, is characterized in that: gas channels are distributed in the stirring shaft, an opening is formed at the bottom end of the stirring shaft, and the gas channels are communicated with a gas inlet pipe distributed at the top of the shaft sleeve.

7. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: the laser range finder comprises a laser control box positioned on the purification furnace cover, cable connectors distributed on the side surface of the laser control box and double-row laser probes penetrating through the purification furnace cover.

8. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: the feeding bin positive side fixedly connected with switch board, switch board and driving motor, agitator motor, laser range finder, solenoid valve and air-blower electricity federation.

9. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: the chimney comprises a flue gas channel, the flue gas channel penetrates through the side wall of the furnace body and is communicated with the purification cavity, and a smoke exhaust pipeline is distributed on the outer portion of the furnace body and is perpendicular to the end face of the flue gas pipeline.

10. The high-efficiency biomass aluminum melting furnace according to claim 1, is characterized in that: and a gas pipeline is distributed at the bottom of the purification cavity and penetrates through one side of the aluminum melting furnace body.

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