CN1511797A - Process for producing mineral wool granular cotton and its hot air system - Google Patents

Abstract

The production process features that in the hot blast system, CO produced in the cupola furnace is used as energy source of the vertical incinerator to burn for the second time, air heated in the primary heat exchanger is used as the combustion supporting air in the cupola furnace, and the secondary heat exchanger heats the combustion supporting air for the incinerator with afterheat. The said technological process can save fuel and power, raise waste gas utilization, lower production cost and reduce CO and dust content in waste gas.

Description

A kind of production technique of mineral wool granulated wool and hot-air system thereof

Technical field

The present invention relates to a kind of production process of building materials, more particularly, relate to a kind of production technique of mineral wool granulated wool.

Background technology

The mineral wool granulated wool is the useless dry slag of blast furnace through hot melt, become that processes such as cotton, granulation, screening form have light weight, porous, the New Building Materials of characteristics such as do not fire.It is the insulation of a kind of fine, sound-absorbing material, and external existing long production and applicating history are used general and extensively, be mainly used in industry, construction industry etc., wherein in the application of construction industry, occupies than large portion as the main raw material of mineral wool sound absorption board.With the mineral wool granulated wool is the mineral wool sound absorption decorative plate that main raw material processes, have sound-absorbing, do not fire, characteristics such as adiabatic, attractive in appearance, decorative effect is splendid, is the main lifting exterior material of public places such as cinema, gymnasium, music hall, boarding lounge, market, hotel.

The production line of small-sized granulated wool, its production technique is for can be divided into six steps: acceptable material (slag, coke, silica) the difference even feeding that 1. enters factory, through the incoming stock storehouse of charging belt machine, by the Distribution Warehouse belt three kinds of raw materials are poured in the corresponding storehouse, crude fuel in the feed bin adds electronic scales by oscillating feeder, the material that weighs up is discharged at the bottom of the storehouse on the rotary conveyor, and batch can promotes in the impouring, and last batch can is sitting in smelting system loading and unloading material (being finished by the weighing feeding system); 2. raw material drops into raw material high-temp combustion behind the cupola furnace, continues to provide combustion air and combustion gas by hot-air system in the combustion processes, flows out (being finished by system of founding and hot-air system) through the melt of high temperature melt from the cupola furnace outlet; 3. pass through the water-cooled chute from the effusive high-temperature fusant of cupola furnace, flow on the roller of cotton device, through the centrifugation of high speed rotating roller, the stream thigh is got rid of into fiber (by becoming fine system to finish); 4. after with wind fiber being blown into cotton collecting chamber, send through the transition roller-way to broken cotton machine (cotton system finishes by collection) by cotton collecting chamber at the cotton felt that cotton collecting chamber forms; 5. smash through broken cotton machine, broken cotton enters tablets press through slag bulb spacer, whirlwind tube and makes granulated wool, after trommel screen removes impurity, measures packing (being finished by granulated wool granulation and packaging system) again.

Wherein hot-air system becomes a important step in the production as the afterheat utilization system, according to " thermal power transfer and utilization " book of Beijing metallurgical industry press chapter 4---industrial furnace flue gas waste heat recovery system one literary composition as can be seen, the energy recovery of traditional metallurgical industrial furnace production process is a high-temp waste gas that blast furnace is discharged by interchanger combustion air as thermal source preheating industrial furnace, blast then in the stove to improve temperature of combustion and efficiency of combustion, fuel economy consumption.And because the production technique and the prescription of granulated wool have determined that the temperature of the hot smoke waste gas of cupola furnace discharge is not high in process of production, only be about 100 ℃ during ordinary production, but contain higher flammable CO and H ₂S.Therefore above-mentioned this heat energy recovering method also is not suitable for the production of granulated wool.Be to the production of cupola furnace drum cold wind in the present production process,, and hot smoke waste gas directly entered atmosphere, caused the waste of heat energy and exhaust gas emission pollution environment to entering the combustion air heating of cupola furnace.

In the prior art, can carry out secondary to the industrial gaseous waste that contains imperfect combustion gas burns, the general incinerator 200 of handling combustible exhaust gas is horizontal type structure, as Fig. 5-shown in Figure 7, comprise hot-blast outlet 201, ash removing hole 202, combustion air inlet 203, safe valve opening 204, hand-hole 205, combustion nozzle hole 206, hot smoke waste gas inlet 207, the outer wall 208 of steel construction, the inwall 209 of fire resisting construction, combustion air airduct 210, vane 211.Its burner 206 is positioned at an end of body of heater, and hot-blast outlet 201 is positioned at the other end of body of heater, thereby is unfavorable for that the heat of burner 206 1 sides enters hot air duct, and heat transfer efficiency is lower.Secondly, the dust granules in the incinerator 200 should not be discharged, and causes a large amount of ashes to enter hot-blast pipe line, causes the obstruction of pipeline, has reduced heat transfer efficiencies.Simultaneously because the interior hot smoke waste gas inlet 206 of former stove is to be designed to round shape, the waste gas flow velocity that enters in the stove is not high, because this horizontal type structure does not utilize the natural rising power of hot gas, causes the waste gas can not perfect combustion, reduce the generation of heat energy, and caused also containing in the exhaust gas discharged CO.

Summary of the invention

The technical problem to be solved in the present invention is the production technique that proposes a kind of mineral wool granulated wool, and the inflammable gas that utilizes cupola furnace to discharge carries out secondary combustion, and the combustion-supporting gas with the heating cupola furnace effectively utilizes heat energy and purifying exhaust air.

In order to achieve the above object, the invention provides a kind of production technique of mineral wool granulated wool, may further comprise the steps: (a) with slag, coke, three kinds of raw materials difference of silica even feeding, through the incoming stock storehouse of charging belt machine, by the Distribution Warehouse belt three kinds of raw materials are poured in the corresponding storehouse, the crude fuel in the feed bin adds electronic scales by oscillating feeder, and the material that weighs up is discharged at the bottom of the storehouse on the rotary conveyor, batch can promotes in the impouring, and last batch can is sitting in the smelting system loading and unloading material; (b) raw material drops into high-temp combustion behind the cupola furnace, flows out from the cupola furnace outlet through the melt of high temperature melt, and ore and coke melting burning is produced in the cupola furnace contains a large amount of CO and H without perfect combustion ₂The hot smoke waste gas of S is handled the back by hot-air system and is discharged, and provides the cupola furnace burning required combustion air by this hot-air system; (c) pass through the water-cooled chute from the effusive high-temperature fusant of cupola furnace, flow on the roller of cotton device, through the centrifugation of high speed rotating roller, the stream thigh is got rid of into fiber; (d) with wind fiber is blown into cotton collecting chamber after, send through the transition roller-way to broken cotton machine by cotton collecting chamber at the cotton felt that cotton collecting chamber forms; (e) smash through broken cotton machine, broken cotton enters tablets press through slag bulb spacer, whirlwind tube and makes granulated wool, and after trommel screen removed impurity, metering was packed again; Be characterized in: described hot-air system is handled hot smoke waste gas and is provided the step of combustion air to be: the hot smoke waste gas that cupola furnace is discharged is sent into cyclonic separator removal particulate state dust, send into waste gas combustion furnace again and carry out secondary combustion; The high-temp waste gas that secondary combustion generates is sent into an interchanger as thermal source, heat an interchanger blower fan and send air, as the cupola furnace combustion-supporting gas under 250 ℃～500 ℃ with 5000M per hour ³～7000M ³Flow send into cupola furnace; Waste gas after the heat exchange is cooled to below 200 ℃ through air-water heat exchanger again, enters atmosphere by air exhauster by chimney at last.

In the such scheme, be characterized in sending into the secondary heat exchange device again as thermal source from the waste gas that interchanger is sent, the air that heating secondary heat exchange device blower fan is sent, with its as the incinerator combustion-supporting gas under 200 ℃～350 ℃ with 5000M per hour ³-6000M ³Flow send into incinerator, again the waste gas behind the secondary heat exchange is sent into air-water heat exchanger.To make full use of the heat energy of high-temp waste gas, reduce the energy consumption of incinerator self work.

Another technical problem that the present invention will solve provides a kind of hot-air system that the mineral wool granulated wool is produced that is used for, be characterized in: comprise tornado dust collector, incinerator, an interchanger, an interchanger blower fan, the secondary heat exchange device, secondary heat exchange device blower fan, air-water heat exchanger, air exhauster and chimney, each equipment room is connected to form holonomic system by pipeline, the hot smoke waste gas that described cupola furnace produces passes through tornado dust collector successively, incinerator, an interchanger, the secondary heat exchange device, air-water heat exchanger, enter atmosphere behind air exhauster and the chimney, be provided with the cupola furnace waste gas regulating valve between described tornado dust collector and the incinerator, a described interchanger blower fan blasts an interchanger preheating after cupola furnace combustion air pipeline is sent into described cupola furnace with air, its air output and flow velocity are respectively by the cupola furnace air intake valve and the by-pass valve control that are installed in cupola furnace combustion air pipeline and the bypass, air is blasted the preheating of secondary heat exchange device with described secondary heat exchange blower fan after incinerator combustion air pipeline is sent into described incinerator, its air output and flow velocity by the incinerator combustion air variable valve and the control of emptying variable valve that are installed in incinerator combustion air pipeline and the bypass, are provided with waste gas blast variable valve respectively between described air-water heat exchanger and the air exhauster.

In the above-mentioned design, be characterized in that this hot-air system also comprises the temperature adjustment blower fan, described temperature adjustment blower fan produces cold wind and send into a described interchanger again as thermal source after oozing the cold wind variable valve and the high-temp waste gas of incinerator generation mixes.This is because the combustion air temperature that cupola furnace needs in process of production is high more good more, but this need be conflicting with the deployment cost of equipment in the system, the combustion air temperature is high more, and is also just high to the requirement of equipment and piping system, and the fuel oil consumption of incinerator is improved relatively.Therefore be that the waste gas that produces with incinerator perfect combustion cupola furnace is principle in actual production, improve the combustion air temperature of cupola furnace as far as possible, avoid causing injury simultaneously again equipment because temperature is too high.By the design of temperature adjustment blower fan, when the hot flue-gas temperature of burning the device generation is too high, can blast cold wind, the protection interchanger is without prejudice.

Aforesaid device all can utilize known device to implement, but because the defective of general horizontal incinerator the invention provides a kind of novel incinerator, comprising: the cylindric body of heater of the setting that is made of metal outer wall and fire-resistant inwall; Be opened in the hot-blast outlet at the top of this body of heater; Be opened in the ash removing hole of bottom of furnace body; Be opened in the safe valve opening of body of heater upper lateral part; By inwall recessed vane that forms horizontal ring cavity and constitute in stove of body of heater lower side, the outer wall of this vane one side offers the combustion air inlet, and the inwall of its opposite side is provided with one group of combustion air airduct and body of heater internal communication; And be opened in the body of heater lower side and with the hot smoke waste gas inlet and the combustion nozzle hole of body of heater internal communication.The burner of the vertical incinerator that the present invention adopts is positioned at the sidewall of the furnace body bottom, hot-blast outlet is positioned at the top of body of heater, the characteristics of motion that meets heat energy more, big area unfolded flame enters interchanger No. one time with the top that the mode of convection current passes to heat body of heater rapidly, thereby has improved the service efficiency of heat energy.

In the above-mentioned design, the bottom of furnace body that is characterized in described incinerator is a taper shape, and described ash removing hole is located at this conical vertex of a cone.Can remove dust stratification easily, prevent the dust blocking pipeline.

In the above-mentioned design, it is wide outside and narrow inside horn-like to be characterized in that described hot smoke waste gas ingress utilizes refractory materials to form, the flow velocity when entering body of heater with the hot smoke waste gas of further raising.

In the above-mentioned design, be characterized in that described combustion air airduct is evenly distributed at described inner wall of ring body, its axis direction becomes the angle of 60～80 degree with the tangent line at this airduct and inwall intersection point place, make the flame of combustion exhaust be close to the furnace wall and at the stove internal rotation, the waste gas that enters in the stove can be burnt fully, improve heat and imitate, and reduced the CO content in the discharging waste gas.

In the above-mentioned design, be characterized in that described hot smoke waste gas inlet is positioned on the same level with described vane, the position in described combustion nozzle hole is a little more than described hot smoke waste gas inlet, and the axis direction in this combustion nozzle hole becomes a right angle with the axis direction of described hot smoke waste gas inlet, to guarantee the abundant burning of hot smoke waste gas, improve heat and imitate, reduced the CO content in the discharging waste gas.

In the above-mentioned design, be characterized in also offering a hand-hole near the described combustion nozzle hole.

In sum, granulated wool production technique of the present invention, utilize the above-mentioned hot-air system waste gas that cupola furnace is imperfect combustion as the secondary combustion of the incinerator energy, the required combustion air of coke burning in the heating cupola furnace, interchanger as heat exchanging apparatus with the combustion air of purified air heating as cupola furnace, the secondary heat exchange device heats with the combustion air of waste heat with incinerator, thereby fuel and power required when making the burning of cupola furnace and incinerator reduce, improved the utilization of the waste gas energy, reduced energy consumption and cost, and exhaust gas discharged is substantially free of CO, H ₂Objectionable impuritiess such as S have been protected environment.

Description of drawings

Fig. 1 is the structure and the schematic flow sheet of hot-air system of the present invention

Fig. 2 is the front view of the vertical incinerator of the present invention

Fig. 3 is the vertical view of incinerator among Fig. 2

Fig. 4 is the A-A sectional view of incinerator among Fig. 2

Fig. 5 is the front view of existing horizontal incinerator

Fig. 6 is that the A of incinerator among Fig. 5 is to view

Fig. 7 is that the B of incinerator among Fig. 5 is to view

Embodiment

Present embodiment is 30,000 tons of/year granulated wool Production Line technologies.Hot-air system structure and flow process in the production technique are seen Fig. 1.Comprise cupola furnace 1, tornado dust collector 2, emergent chimney 3, incinerator 4, interchanger 5, water cooler 6, air-water heat exchanger 7, chimney 8, waste gas injection blower fan 9, an interchanger blower fan 10, secondary heat exchange device blower fan 11, air exhauster 12, temperature adjustment blower fan 13, cupola furnace by-pass valve 14, cupola furnace air intake valve 15, emergent chimney blow-off valve 16, injection blower fan exit butterfly valve 17, cupola furnace waste gas regulating valve 18, incinerator combustion air variable valve 19, ooze cold wind variable valve 20, combustion air bypass emptying variable valve 21, waste gas blast variable valve 22.Each equipment connects into complete hot-air system by pipeline.

As shown in Figure 1, ore and coke contain in a large number CO and H without perfect combustion what the melting combustion processes can produce in the cupola furnace 1 ₂The hot smoke waste gas of S, this hot smoke waste gas are sent into incinerator 4 through cupola furnace variable valve 18 after entering tornado dust collector 2 removal particulate state dust by pipeline, and waste gas combustion furnace 4 is a fuel with 0# diesel oil, burns CO and H ₂500 ℃～800 ℃ the high-temp waste gas that generates behind the S produces with temperature adjustment blower fan 13 and mixes through the cold wind that oozes cold blast engine variable valve 20, feed interchanger 5 thermal source as an interchanger 5, make its combustion air that becomes 300 ℃～500 ℃ to heat the freezing air that interchanger blower fan 10 bloats, this through the cupola furnace combustion air of preheating under 300 ℃～500 ℃ with 5000M per hour ³～7000M ³Flow enter into the vane of cupola furnace 1 by pipeline, blast cupola furnace 1 inside by the combustion air pipeline around the cupola furnace 1 then, help the coke burning in the stove, its air output and flow velocity can be respectively by the cupola furnace air intake valve 15 and 14 controls of cupola furnace by-pass valve that are installed in cupola furnace 1 combustion air pipeline and the bypass.

In interchanger 5, continue to flow in the secondary heat exchange device 6 as thermal source the freezing air that heating is bloated by secondary heat exchange device blower fan 11 through the high-temp waste gas of a heat exchange.This freezing air becomes incinerator combustion air about 350 ℃ after heating, by incinerator combustion air variable valve 19 with 5000M per hour ³～6000M ³Blast in the incinerator 4, support the diesel combustion of incinerator 4.The combustion air flow and the flow velocity that enter incinerator 4 are controlled by incinerator combustion air variable valve 19 on the pipeline between being installed in from the water cooler to the incinerator and combustion air bypass emptying variable valve 21 respectively; Hot smoke waste gas through secondary heat exchange continues to enter air-water heat exchanger 7, the temperature of hot flue gas further is reduced to below 150 ℃, prevent that the hot flue-gas temperature of discharging is too high, burn out the air exhauster of back, finally enter atmosphere by waste gas blast variable valve 22 and air exhauster 12 by chimney 8 then.

In system, emergent chimney 3, emergent chimney blow-off valve 16, waste gas injection blower fan 9 and injection blower fan exit butterfly valve 17 are safety equipment of safeguards system, when cupola furnace 1 or miscellaneous equipment break down or emergency are arranged, emergent chimney blow-off valve 16 and waste gas injection blower fan 9 on the tornado dust collector 2 are opened, the waste gas that cupola furnace 1 is come is directly discharged by emergent chimney 3, to guarantee the safety of total system, follow-up equipment can be rushed to repair.Hot-air system of the present invention relies on air exhauster 12 to make total system keep negative pressure state, guarantees the normal operation of system.

By Fig. 2-Fig. 4 as can be known, the structure of the vertical incinerator 100 of the embodiment of the invention comprises hot-blast outlet 101, ash removing hole 102, combustion air inlet 103, safe valve opening 104, manhole 105, combustion nozzle hole 106, hot smoke waste gas inlet 107, outer wall 108, inwall 109, combustion air airduct 110, the vane 111 after the burning.

As shown in the figure; the cylinder of incinerator 100 for erectting; its outer wall 108 is the steel construction of boiler steel welding; inwall 109 is for building refractory brick and fire-resistant soil layer protection steel construction; also can add other refractory materials to adapt to higher temperature of combustion; the bottom is a taper shape; establish ash removing hole 102 in conical lower section; open top is as hot-blast outlet 101; incinerator 100 cylindrical shell upper lateral parts are safe valve opening 104; be welded with disc flange and be convenient to install explosion trap; acting as when the body of heater internal pressure is too high of explosion trap can be opened release automatically; prevent accident; the cylindrical shell lower side has combustion air inlet 103; its structure also is a circular pipe; the outside is welded with flange; be convenient to be connected to the combustion air pipeline that burning device 100 interior flames provide air; combustion air inlet 103 is connected with the intravital vane 111 of incinerator 100 stoves; these wind 111 rings are made of inwall recessed horizontal ring cavity that forms in stove of body of heater bottom; evenly be provided with 12 combustion air airducts 110 on the inwall of vane 111 1 sides, the angle of every airduct 110 and furnace wall intersection point place tangent line is 70 °.Entering the mouth with combustion air, to also have the longitudinal center line angles of hot smoke waste gas inlet 107, two inlets be 110 ° to 103 sustained heights.It is rolled by steel plate and is welded; the outside is welded with flange; the steel plate inside that rolls is wiped with fire-resistant soil layer inwall 109; the waste gas that feeds directly communicates with incinerator 100 internal cavities; after waste gas blasts incinerator 100; directly touch the flame that send in combustion nozzle hole 106; make the CO can be by perfect combustion; the center absolute altitude in combustion nozzle hole 106 is a little more than the medullary ray of combustion air inlet 103 and hot smoke waste gas inlet 107; with the hot smoke waste gas 107 axis centre wire clamp angles that enter the mouth be 90 °; it is 107 similar that structure and hot smoke waste gas enter the mouth, and the outside is welded with flange, is convenient to install burn the device burner; burner stretches into and burns in the device 100; the flame that ejection continues is lighted the CO in the waste gas, uses the refractory mortar seal protection between burner and burning device 100 sidewalls.For ease of the maintenance burner, manhole 105 can be opened near combustion nozzle hole 106, uses the refractory mortar seal protection when works better in the manhole 105, and seal with steel plate the outside, opens during maintenance.

Through experimental verification, use the production line of the mineral wool granulated wool of hot-air system of the present invention and technical process, its fuel consumption all reduces than old system greatly with the hot-air system power consumption.

Claims (10)

1, a kind of production technique of mineral wool granulated wool may further comprise the steps

(a) with slag, coke, three kinds of raw materials difference of silica even feeding, through the incoming stock storehouse of charging belt machine, by the Distribution Warehouse belt three kinds of raw materials are poured in the corresponding storehouse, crude fuel in the feed bin adds electronic scales by oscillating feeder, the material that weighs up is discharged at the bottom of the storehouse on the rotary conveyor, batch can promotes in the impouring, and last batch can is sitting in the smelting system loading and unloading material; (b) raw material drops into high-temp combustion behind the cupola furnace, flows out from the cupola furnace outlet through the melt of high temperature melt, and ore and coke melting burning is produced in the cupola furnace contains a large amount of CO and H without perfect combustion ₂The hot smoke waste gas of S is handled the back by hot-air system and is discharged, and provides the cupola furnace burning required combustion air by this hot-air system; (c) pass through the water-cooled chute from the effusive high-temperature fusant of cupola furnace, flow on the roller of cotton device, through the centrifugation of high speed rotating roller, the stream thigh is got rid of into fiber; (d) with wind fiber is blown into cotton collecting chamber after, send through the transition roller-way to broken cotton machine by cotton collecting chamber at the cotton felt that cotton collecting chamber forms; (e) smash through broken cotton machine, broken cotton enters tablets press through slag bulb spacer, whirlwind tube and makes granulated wool, and after trommel screen removed impurity, metering was packed again;

It is characterized in that: described hot-air system is handled hot smoke waste gas and is provided the step of combustion air to be: the hot smoke waste gas that cupola furnace is discharged is sent into cyclonic separator removal particulate state dust, send into waste gas combustion furnace again and carry out secondary combustion; The high-temp waste gas that secondary combustion generates is sent into an interchanger as thermal source, heat an interchanger blower fan and send air, as the cupola furnace combustion-supporting gas under 250 ℃～500 ℃ with 5000M per hour ³～7000M ³Flow send into cupola furnace; Waste gas after the heat exchange is cooled to below 200 ℃ through air-water heat exchanger again, enters atmosphere by air exhauster by chimney at last.

2, the production technique of mineral wool granulated wool according to claim 1, it is characterized in that sending into the secondary heat exchange device again as thermal source from the waste gas that interchanger is sent, the air that heating secondary heat exchange device blower fan is sent, with its as the incinerator combustion-supporting gas under 200 ℃～350 ℃ with 5000M per hour ³-6000M ³Flow send into incinerator, again the waste gas behind the secondary heat exchange is sent into air-water heat exchanger.

3, a kind of hot-air system that is used for the production of mineral wool granulated wool, it is characterized in that: comprise tornado dust collector, incinerator, an interchanger, an interchanger blower fan, the secondary heat exchange device, secondary heat exchange device blower fan, air-water heat exchanger, air exhauster and chimney, each equipment room is connected to form holonomic system by pipeline, the hot smoke waste gas that described cupola furnace produces passes through tornado dust collector successively, incinerator, an interchanger, the secondary heat exchange device, air-water heat exchanger, enter atmosphere behind air exhauster and the chimney, be provided with the cupola furnace waste gas regulating valve between described tornado dust collector and the incinerator, a described interchanger blower fan blasts an interchanger preheating after cupola furnace combustion air pipeline is sent into described cupola furnace with air, its air output and flow velocity are respectively by the cupola furnace air intake valve and the by-pass valve control that are installed in cupola furnace combustion air pipeline and the bypass, air is blasted the preheating of secondary heat exchange device with described secondary heat exchange blower fan after incinerator combustion air pipeline is sent into described incinerator, its air output and flow velocity by the incinerator combustion air variable valve and the control of emptying variable valve that are installed in incinerator combustion air pipeline and the bypass, are provided with waste gas blast variable valve respectively between described air-water heat exchanger and the air exhauster.

4, hot-air system as claimed in claim 3 is characterized in that also comprising the temperature adjustment blower fan, and described temperature adjustment blower fan produces cold wind and send into a described interchanger again as thermal source after oozing the cold wind variable valve and the high-temp waste gas of incinerator generation mixes.

5, hot-air system as claimed in claim 3 is characterized in that described incinerator comprises: the cylindric body of heater of the setting that is made of metal outer wall and fire-resistant inwall; Be opened in the hot-blast outlet at the top of this body of heater; Be opened in the ash removing hole of bottom of furnace body; Be opened in the safe valve opening of body of heater upper lateral part; By inwall recessed vane that forms horizontal ring cavity and constitute in stove of body of heater lower side, the outer wall of this vane one side offers the combustion air inlet, and the inwall of its opposite side is provided with one group of combustion air airduct and body of heater internal communication; And be opened in the body of heater lower side and with the hot smoke waste gas inlet and the combustion nozzle hole of body of heater internal communication.

6, hot-air system as claimed in claim 5, the bottom of furnace body that it is characterized in that described incinerator is a taper shape, described ash removing hole is located at this conical vertex of a cone.

7, hot-air system as claimed in claim 5 is characterized in that described combustion air airduct is evenly distributed on the inwall of ring body one side, and its axis direction becomes the angle of 60～80 degree with the tangent line at this airduct and inwall intersection point place.

8, hot-air system as claimed in claim 5, it is wide outside and narrow inside horn-like to it is characterized in that described hot smoke waste gas ingress utilizes refractory materials to form.

9, hot-air system as claimed in claim 5, it is characterized in that described hot smoke waste gas inlet is positioned on the same level with vane, the position in described combustion nozzle hole is a little more than described hot smoke waste gas inlet, and the axis direction in this combustion nozzle hole becomes a right angle with the axis direction of described hot smoke waste gas inlet.

10, hot-air system as claimed in claim 5 is characterized in that also offering a hand-hole near the described combustion nozzle hole.

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