CN103851605B - A kind of granule fuel warming stove - Google Patents

Abstract

A kind of granule fuel warming stove, comprise hopper, the lower end of hopper connects the charging aperture of stirring cage, the discharging opening of stirring cage connects combustion furnace, the axle of stirring cage connects motor, the furnace chamber connecting fan of combustion furnace, and the bottom of combustion furnace connects the charging aperture of stirring cage, the discharging opening of stirring cage connects combustion furnace, and the axle of stirring cage connects motor; The furnace chamber of combustion furnace connects Gas Pipe and air hose, and Gas Pipe and the equal connecting fan of air hose, Gas Pipe arranges fireproof tempering device; Combustion furnace connects one end of oxygen hose, and the other end of oxygen hose connects oxygenerator; Vapor lamp installed by combustion furnace, and vapor lamp is made up of tube wall and arm, and arm is arranged in tube wall, and arm connects one end of house steward, and the other end of house steward connects liquid-fuel tank.

Description

A kind of granule fuel warming stove

Technical field

The present invention relates to a kind of combustor, is exactly a kind of granule fuel warming stove.

Background technology

At present; in existing granule fuel warming stove; granule fuel is by after ignition combustion; the living beings pulverized particles still having part unburned most or wood chip; these living beings pulverized particles or wood chip directly discharge combustion furnace with ashes sedimentation; not only to environment, can not make full use of simultaneously and cause waste.The furnace wall temperature of combustion furnace is higher, and long-time hot conditions causes furnace wall aging, and service life is short; Heat after furnace wall raises scatters and disappears in atmosphere usually, virtually causes the waste of the energy.It is that continuous print machine feeds intake that fuel drops into process, there will be burning and does not totally also feed intake, cause the phenomenon of stopping working; Or unburned is complete, new fuel drops into, and causes the phenomenon that anoxic is extinguished, and affects the continuity of use procedure.Existing granule fuel warming stove, can with Some gases in ventilation in order to improve efficiency of combustion, and be the mist of combustion gas and air in the gas namely passed into, fuel gas buring contributes to the burning of granule fuel.Generally, the amount of combustion gas is less, and reason is, has tempering phenomenon in breather pipe, if gas quantity crosses conference cause gas explosion in breather pipe, forms potential safety hazard.In existing granule fuel warming stove, granule fuel combustion is insufficient, and a large amount of fuel cannot after-flame, and the energy of fuel cannot fully discharge, and causes waste; Insufficient owing to burning, fuel produces the pernicious gases such as a large amount of carbon monoxide under hypoxia, pollutes air, easily explodes simultaneously, there is potential safety hazard when carbonomonoxide concentration is too high.

Summary of the invention

For solving the problem, the object of this invention is to provide a kind of granule fuel warming stove, effectively can utilize unburnt living beings pulverized particles or wood chip, decreasing pollution and waste by secondary.

The present invention for achieving the above object, be achieved through the following technical solutions: a kind of granule fuel warming stove, comprise the first hopper, the lower end of the first hopper connects the charging aperture of the first stirring cage, and the discharging opening of the first stirring cage connects the first combustion furnace, and the axle of the first stirring cage connects the first motor, the furnace chamber of the first combustion furnace connects the first blower fan, the bottom of the first combustion furnace connects the charging aperture of the second stirring cage, and the discharging opening of the second stirring cage connects the second combustion furnace, and the axle of the second stirring cage connects the second motor; The furnace chamber of the first combustion furnace connects Gas Pipe and air hose, Gas Pipe and air hose are all connected the first blower fan, Gas Pipe arranges fireproof tempering device, fireproof tempering device comprises shell and explosion chamber, explosion chamber is towards the direction of the first combustion furnace, interior pipe is set in shell, groove offered by interior pipe, through connecting axle in the middle of interior pipe, one end of connecting axle arranges circular jam, and the external diameter of jam is greater than the internal diameter of interior pipe, and jam is positioned at explosion chamber, the other end of connecting axle arranges limiting plate, limiting plate and groove fit; Second combustion furnace connects one end of oxygen hose, and the other end of oxygen hose connects oxygenerator; Vapor lamp installed by first combustion furnace, and vapor lamp is made up of tube wall and arm, and arm is arranged in tube wall, and arm connects one end of house steward, and the other end of house steward connects liquid-fuel tank.

For realizing object of the present invention further, can also by the following technical solutions: fan housing is installed at the first described combustion furnace top, and the 3rd blower fan is installed on fan housing top, and fan housing upper end connects one end of airduct, and the other end of airduct connects the second combustion furnace.Described airduct installs baffle ring close on one end inwall of the second combustion furnace, and through joint pin in the middle of baffle ring, two blend stops are installed in joint pin upper end, and two blend stops coordinate with baffle ring, and catch is installed in joint pin lower end, and the diameter of catch is greater than the internal diameter of baffle ring.The inwall of described shell arranges baffle ring, arranges loose collar between interior pipe and shell, loose collar relative baffle ring near-by explosion chamber, loose collar is away from one end of one end linking springs of explosion chamber, the other end of spring connects baffle ring, and shell arranges exhaust outlet, and exhaust outlet is positioned at the side of loose collar.The second described upper furnace installs vapour hood, vapour hood internal upper part arranges blast pipe, install steamer in the middle part of blast pipe, the rotating shaft of steamer passes blast pipe and connects generator, and generator connects oxygenerator by electric wire, the top of blast pipe connects one end of opposing steam flow pipe, the other end of opposing steam flow pipe connects condenser, and condenser connects water tank, one end of water tank connecting water pipe, the other end of water pipe connects vapour hood, and water pump installed by water pipe.Described vapour hood installs nozzle, and nozzle is connected with water pipe.In described vapour hood and the second combustion furnace, heat conductive filament is set.Described house steward is made up of feed tube and drain pipe, bottle in the middle of installing between feed tube and drain pipe, the upper end of middle bottle connects feed tube and drain pipe, feed tube is installed the second check valve, drain pipe is installed the first check valve, arrange piston in middle bottle, the bottom of piston connects cylinder, first combustion furnace arranges support, cylinder installed by support.Net circle is installed at the mouth of pipe place of described arm.

The invention has the advantages that: the ashes after burning drop in another combustion furnace and carry out secondary utilization by the present invention; unburnt living beings pulverized particles or wood chip is made to carry out second-time burning; make the fault offset do not utilized; make full use of resource; the ashes of after-flame can utilize as fertilizer secondary, environmentally safe.The present invention will effectively utilize the heat of the furnace wall of combustion furnace, the heat collection produced is utilized in other heating power technique, effective economize energy; Cooling process is carried out to the furnace wall of combustion furnace simultaneously, slow down the speed that furnace wall is aging, extend the service life of furnace wall, reduce production cost.Mode thrown in by fuel of the present invention is batch (-type), namely in batches by granule fuel area density in hopper, a batch of burning throws in next batch again after completely in hopper.The fuel of each batch is obtained for Thorough combustion, both can not stop working to the greatest extent because of fuel combustion, and also granule fuel combustion too much will being caused insufficient because of feeding intake, continuity of the present invention can be kept to burn.Of the present inventionly by combustion gas and air inlet separately in Gas Pipe, increase fireproof tempering device, avoid tempering phenomenon, thus improve the security of Gas Pipe.The gas quantity entering the first combustion furnace increases, and promotes the burning of granule fuel further, improves efficiency of combustion, improves production of energy rate.The present invention increases the content of oxygen in combustion, is the burning under oxygen-enriched environment, in the presence of oxygen, can improve large the burnouting as far as possible of granule fuel, effectively by the fault offset of granule fuel, improve efficiency of combustion; Under excess oxygen, sufficient combustion, even if produce CO gas also can burn into carbon dioxide rapidly, to free of air pollution; Reduce the generation of fuel gas, reduce potential safety hazard.The present invention sprays into the flammable liquid of gasification in combustion, liquid burns rapidly after meeting fire, improve the temperature of the first combustion furnace, promote large the burnouting as far as possible of granule fuel, effectively the ability of granule fuel is discharged, improve efficiency of combustion, reduce the generation of the pernicious gases such as carbon monoxide, reduce environmental pollution.The present invention also has advantage compact, cheap for manufacturing cost and easy to use simple for structure.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention; Fig. 2 is the I partial enlargement structural representation of Fig. 1; Fig. 3 is that the A of Fig. 2 is to TV structure schematic diagram; Fig. 4 is the I partial enlargement structural representation of Fig. 1; Fig. 5 is fireproof tempering device structural representation; Fig. 6 is the III partial enlargement structural representation of Fig. 1; Fig. 7 is the IV partial enlargement structural representation of Fig. 1; Fig. 8 is the V partial enlargement structural representation of Fig. 7; Fig. 9 is that the B of Fig. 7 is to TV structure schematic diagram.

Reference: 1 the first drive motor into the hopper 2 3 first fan 4 first stirred cage 5 first furnace 6 second motor 7 second cage fan 9 second combustion furnace 10 8 second article 11 third fan duct 12 wind cover 13 block baffle ring of 14 15 16 block slice 17 18 bearing pressure pipe connection column 19 rotating blade 20 branch distributor 21 22 23 24 25 return pipe heat pipe pump cooling tube 26 coil 27 28 bin 29 conveyor belt conveyor belt stent 30 31 32 33 inclined plate laser light sensors cylinder and cylinder bracket 35 tempering prevention device controller 36 37 air pipe and gas pipe 39 40 41 limit groove plate shell 42 43 vent 44 connecting shaft wall piece of 45 46 activity ring 47 48 spring tube explosion cavity 49 50 baffle ring oxygen and 51 oxygenerator 52 reflux condenser water storage tank pumps 54 55 53 steam pipe nozzle and legislation thermal cover silk 58 59 turbine steam generator 60 61 wire 62 exhaust pipe liquid fuel tank wall 65 65 64 63 liquid pipe 67 the first check valve 68 into liquid among the second check valve cylinder bracket 72 71 70 69 bottles of 73 piston 74 branch 75 net.

Detailed description of the invention

A kind of granule fuel warming stove, as shown in Figure 1, comprise the first hopper 2, living beings pulverized particles or wood chip is thrown in the present invention by the first hopper 2, the lower end of the first hopper 2 connects the charging aperture of the first stirring cage 4, the discharging opening of the first stirring cage 4 connects the first combustion furnace 5, pulverized particles or wood chip have stirring cage 4 to be delivered in the first combustion furnace 5, the axle of the first stirring cage 4 connects the first motor 1, the furnace chamber of the first combustion furnace 5 connects the first blower fan 3, first blower fan 3 ventilates in the first combustion furnace 5, the bottom of the first combustion furnace 5 connects the charging aperture of the second stirring cage 7, the discharging opening of the second stirring cage 7 connects the second combustion furnace 9, the axle of the second stirring cage 7 connects the second motor 6, the furnace chamber of the second combustion furnace 9 connects the second blower fan 8, the furnace wall of the second combustion furnace 9 is wound around coil pipe 26 is set, one end of coil pipe 26 connects one end of water inlet pipe 17, the other end of coil pipe 26 connects one end of return pipe 24, return pipe 24 is installed water pump 25, water pump 25 drives the water flow of coil pipe 26, the other end of water inlet pipe 17 is all connected heat exchanger tube pass with the other end of return pipe 24, the shell side of heat exchanger connects cold pipe 22 and heat pipe 23 respectively, first hopper 2 top arranges feed bin 28, feed bin 28 can place a large amount of granule fuel, the sidewall of the first hopper 2 installs conveyer belt support 27, conveyer belt support 27 is installed conveyer belt 29, one end of conveyer belt 29 is positioned at the top of the first hopper 2, the other end of conveyer belt 29 is positioned at the bottom of feed bin 28, and Dump gate is offered in feed bin 28 bottom.The furnace chamber of the first combustion furnace 5 connects Gas Pipe 38 and air hose 37, Gas Pipe 38 and air hose 37 are all connected the first blower fan 3, Gas Pipe 38 is arranged fireproof tempering device 36, fireproof tempering device comprises shell 39 and explosion chamber 45, explosion chamber 45 is towards the direction of the first combustion furnace 5, interior pipe 47 is set in shell 39, groove 40 offered by interior pipe 47, through connecting axle 42 in the middle of interior pipe 47, one end of connecting axle 42 arranges circular jam 44, the external diameter of jam 44 is greater than the internal diameter of interior pipe 47, jam 44 is positioned at explosion chamber 45, the other end of connecting axle 42 arranges limiting plate 41, limiting plate 41 coordinates with groove 40.Second combustion furnace 9 connects one end of oxygen hose 50, and the other end of oxygen hose 50 connects oxygenerator 51.Vapor lamp installed by first combustion furnace 5, and vapor lamp is made up of tube wall 65 and arm 74, and arm 74 is arranged in tube wall 65, and arm 74 connects one end of house steward, and the other end of house steward connects liquid-fuel tank 64.The present invention the first combustion furnace 5 is burnt after ashes dropped in the second combustion furnace 9 by the second stirring cage 7 and carry out secondary utilization; unburnt living beings pulverized particles or wood chip is made to carry out second-time burning; make the fault offset do not utilized; make full use of resource; the ashes of after-flame can utilize as fertilizer secondary, environmentally safe.Because the furnace wall temperature of combustion furnace is higher, the cold water being entered coil pipe 26 by return pipe 24 is heated to high temperature, have in water inlet pipe 17 inflow heat exchanger again, the water in cold pipe 22 heats by heat exchanger after heat exchange, then has heat pipe 23 to be delivered to need to utilize between the technique car of heating power.The present invention will effectively utilize the heat of the furnace wall of combustion furnace, the heat collection produced is utilized in other heating power technique, effective economize energy; Cooling process is carried out to the furnace wall of combustion furnace simultaneously, slow down the speed that furnace wall is aging, extend the service life of furnace wall, reduce production cost.By controlling the opening and closing of Dump gate, realizing feed bin 28 and placing fuel to conveyer belt 29, then having conveyer belt 29 by fuel area density to the first hopper 2.Dump gate is batch (-type) opening and closing, and therefore mode thrown in by fuel is batch (-type), namely in batches by granule fuel area density in hopper, a batch of burning throws in next batch again after completely in hopper.The fuel of each batch is obtained for Thorough combustion, both can not stop working to the greatest extent because of fuel combustion, and also granule fuel combustion too much will being caused insufficient because of feeding intake, continuity of the present invention can be kept to burn.Of the present inventionly by combustion gas and air inlet separately in Gas Pipe 38, increase fireproof tempering device 36, avoid tempering phenomenon, thus improve the security of Gas Pipe 38.The gas quantity entering the first combustion furnace 5 increases, and promotes the burning of granule fuel further, improves efficiency of combustion, improves production of energy rate.Once there are the tongues of fire in Gas Pipe 38, slight blast can be there is in the explosion chamber 45 of Gas Pipe, under the pressure effect of blast, jam 44 moves to the such as right side shown in figure direction, interior pipe 47 is blocked, more combustion gas is avoided to receive the danger of the tongues of fire, after blast terminates, under the effect of gaseous-pressure, jam 44 resets, and continues to ventilate in the first combustion furnace 5.The oxygen that oxygenerator 51 produces directly has oxygen hose 50 to be delivered in the second combustion furnace 9.The present invention increases the content of oxygen in combustion, is the burning under oxygen-enriched environment, in the presence of oxygen, can improve large the burnouting as far as possible of granule fuel, effectively by the fault offset of granule fuel, improve efficiency of combustion; Under excess oxygen, sufficient combustion, even if produce CO gas also can burn into carbon dioxide rapidly, to free of air pollution; Reduce the generation of fuel gas, reduce potential safety hazard.After liquid fuel enters arm 74 by house steward, area of section reduces, flow velocity increases, and by resistance instantaneous reduction after arm 74, forms gasification, can burn rapidly after the fuel gasified runs into the tongues of fire, the temperature improving the first combustion furnace 5 promotes large the burnouting as far as possible of granule fuel, effectively the ability of granule fuel is discharged, improves efficiency of combustion, reduce the generation of the pernicious gases such as carbon monoxide, reduce environmental pollution.

Because flow of flue gas is very fast, in order to avoid part combustible is taken away by flue gas, as shown in Figure 1, fan housing 12 is installed at the first described combustion furnace 5 top, the 3rd blower fan 10 is installed on fan housing 12 top, and fan housing 12 upper end connects one end of airduct 11, and the other end of airduct 11 connects the second combustion furnace 9.The combustibles such as the dust in flue gas are delivered in the second combustion furnace 9 by the 3rd blower fan 10, promote recycling, decreasing pollution and the waste of uncombusted granule fuel further.

In second combustion furnace 9 combustion process, hot gas can drive partial fume oppositely to enter airduct 11, this to refluence phenomenon in order to avoid occurring, as shown in Figures 2 and 3, one end inwall of described airduct 11 close to the second combustion furnace 9 installs baffle ring 14, through joint pin 15 in the middle of baffle ring 14, joint pin 15 upper end is installed two blend stops, 13, two blend stops 13 and is coordinated with baffle ring 14, catch 16 is installed in joint pin 15 lower end, and the diameter of catch 16 is greater than the internal diameter of baffle ring 14.When the flue gas in the second combustion furnace 9 flows backwards, under the drive of flue gas, upwards blown afloat by catch 16, catch 16 coordinates with baffle ring 14, is blocked by airduct 11, and flue gas can not be flow backwards.After flue gas pressures declines, under gravity, catch 16 declines, and blend stop 13 is coordinated with baffle ring 14, ensures the proper flow of flue gas.

In exchanger heat exchange process, the tube side of heat exchanger is longer, cause resistance larger, in order to overcome this shortcoming, described heat exchanger tube pass is straight tube, and straight tube is vertical array, and straight tube sets gradually several bearing 18 from top to bottom, install rotating vane 19 outside bearing 18, cold pipe 22 is arranged on the sidepiece of heat exchanger.Straight tube can effective less tube side, is added the contact area of heat exchange, can not reduce heat exchange efficiency by rotating vane 19.Described cold pipe 22 arranges distributor 21, and distributor 21 arranges several arm 20, and arm 20 is positioned at the sidepiece of rotating vane 19.The cold water having arm 20 to discharge directly contacts rotating vane 19, promotes that heat transfer process carries out.Described heat pipe 24 is connected to the bottom of heat exchanger, and the bottom of heat exchanger is inclined-plane, and the water after heat exchange directly falls into inclined-plane and enters heat pipe 24, accelerates the flowing of hot water.

As shown in Figure 2, described Dump gate is swash plate 32, the hinged bottom being arranged on feed bin 28, one end of swash plate 32, swash plate 32 coordinates completely with the end opening of feed bin 28, cylinder support 34 is set between feed bin 28 and conveyer belt 29, the cylinder body of hinged cylinder 33 on cylinder support 34, the bottom of the piston rod Hinged-Skew Plates 32 of cylinder 33.Realize swash plate 32 by the push-and-pull of cylinder 33 piston rod to coordinate with feed bin 28 and to be separated, thus realize the input granule fuel of interval.Swash plate 32, when closed, bears the Dump gate that pressure is less than level, therefore more laborsaving, economize energy.

In order to realize the automation fed intake, the inwall of the first described hopper 2 installs optical inductor 30, and the top of the first hopper 2 arranges laser lamp 31, laser lamp 31 direct light inductor 30, and optical inductor 30 and cylinder are by wire connection controller 35.When granule fuel did not have optical inductor 30, optical inductor 30 did not receive the light of laser lamp 31, and controller 35 controls cylinder 33 and makes swash plate 32 pushes away the stopping that feeding intake; When granule fuel declines, optical inductor 30 spills the signal receiving laser lamp 31, and after signal certain time, controller 35 controls cylinder 33 by drop-down for swash plate 32, starts new a collection ofly to feed intake.

In blast process, pressure is excessive, in order to reduce the pressure in explosion chamber 45, as shown in Figure 5, the inwall of described shell 39 arranges baffle ring 49, arranges loose collar 46 between interior pipe 47 and shell 39, and loose collar 46 is baffle ring 49 near-by explosion chamber 45 relatively, loose collar 46 is away from one end of one end linking springs 48 of explosion chamber 45, the other end of spring 48 connects baffle ring 49, and shell 39 is arranged exhaust outlet 43, exhaust outlet 43 is positioned at the side of loose collar 46.After blast, loose collar 46 can move to the right side in direction as shown in the figure under the effect of the pressure, and now by exhaust outlet 43 and explosion chamber 45 communications and liaison, the gas that blast produces is discharged by exhaust outlet 43, plays the effect of pressure release.After pressure drop, under the effect of spring 48, loose collar 46 resets.

Oxygenerator 51 needs external power supply, in order to realize power self-support, as shown in Figure 2, vapour hood 59 is installed on the second described combustion furnace 9 top, vapour hood 59 internal upper part arranges blast pipe 62, steamer 58 is installed in the middle part of blast pipe 62, the rotating shaft of steamer 58 passes blast pipe 62 and connects generator 60, generator 60 connects oxygenerator 51 by electric wire 61, the top of blast pipe 62 connects one end of opposing steam flow pipe 55, the other end of opposing steam flow pipe 55 connects condenser 52, condenser 52 connects water tank 53, one end of water tank 53 connecting water pipe 63, the other end of water pipe 63 connects vapour hood 59, water pipe 63 is installed water pump 54.Second combustion furnace 9 top is high temperature, and after water enters vapour hood 59 by water pipe 63, under high temperature action, evaporation forms steam, and steam is discharged by blast pipe 62 and entered in condenser 62, enters water tank 53 after steam liquefied.Steam drives steamer 58 to rotate when blast pipe 62, steamer 58 drive electrical generators 60, and generator 60 can generate electricity, the electricity supply oxygenerator 51 sent.Described vapour hood 59 installs nozzle 56, and nozzle 56 is connected with water pipe 63.Nozzle 56, by the water refinement of ejection, increases evaporation rate.Arrange heat conductive filament 57 in described vapour hood 59 and the second combustion furnace 9, heat conductive filament 57 can accelerate heat trnasfer, is directly passed in vapour hood 59 by the heat that the second combustion furnace 9 produces, and improves the speed of water evaporation.

Still send into liquid fuel when granule fuel itself can burn completely, can waste be caused.In order to overcome the problems referred to above, the liquid fuel of gasification is dropped into the first combustion furnace 5 with adopting having a rest property, as shown in Figures 2 and 3, described house steward is made up of feed tube 68 and drain pipe 66, bottle 72 in the middle of installing between feed tube 68 and drain pipe 66, the upper end of middle bottle 72 connects feed tube 68 and drain pipe 66, feed tube 68 is installed the second check valve 69, drain pipe 66 is installed the first check valve 67, first check valve 67 and 69, the second check valve allow liquid by moving from left to right as shown in the figure, in middle bottle 72, piston 73 is set, the bottom of piston 73 connects cylinder 70, first combustion furnace 5 arranges support 71, support 71 is installed cylinder 70.Cylinder 70 is taken out piston 73 and is moved up and down, and the pressure in middle bottle 72 is changed.When piston 73 is positioned at the bottom of middle bottle 72, the pressure in middle bottle 72 reduces, and liquid fuel enters middle bottle 72, when piston 73 moves up, by the liquid fuel press-in drain pipe 66 in middle bottle 72, then enters the first combustion furnace 5.Being sent into by liquid fuel in the first combustion furnace in batches can keep the interrupted type burnt, and avoids remaining that the liquid fuel of granule fuel and gasification burns simultaneously.Net circle 75 is installed at the mouth of pipe place of described arm 74, and net circle 75 can barrier liquid fuel, improves the speed of liquid fuel flow, improve vaporization ability further, fine grain liquid fuel more easy firing.

Technical scheme of the present invention is not restricted in the scope of embodiment of the present invention.The technology contents of the not detailed description of the present invention is known technology.

Claims (7)

1. a granule fuel warming stove, it is characterized in that: comprise the first hopper (2), the lower end of the first hopper (2) connects the charging aperture of the first stirring cage (4), the discharging opening of the first stirring cage (4) connects the first combustion furnace (5), the axle of the first stirring cage (4) connects the first motor (1), the furnace chamber of the first combustion furnace (5) connects the first blower fan (3), the bottom of the first combustion furnace (5) connects the charging aperture of the second stirring cage (7), the discharging opening of the second stirring cage (7) connects the second combustion furnace (9), and the axle of the second stirring cage (7) connects the second motor (6), the furnace chamber of the first combustion furnace (5) connects Gas Pipe (38) and air hose (37), Gas Pipe (38) is all connected the first blower fan (3) with air hose (37), Gas Pipe (38) is arranged fireproof tempering device (36), fireproof tempering device comprises shell (39) and explosion chamber (45), explosion chamber (45) is towards the direction of the first combustion furnace (5), interior pipe (47) is set in shell (39), interior pipe (47) is offered groove (40), through connecting axle (42) in the middle of interior pipe (47), one end of connecting axle (42) arranges circular jam (44), the external diameter of jam (44) is greater than the internal diameter of interior pipe (47), jam (44) is positioned at explosion chamber (45), the other end of connecting axle (42) arranges limiting plate (41), limiting plate (41) coordinates with groove (40), second combustion furnace (9) connects one end of oxygen hose (50), and the other end of oxygen hose (50) connects oxygenerator (51), (5) install vapor lamp with first combustion furnace, and vapor lamp is made up of tube wall (65) and arm (74), and arm (74) is arranged in tube wall (65), and arm (74) connects one end of house steward, and the other end of house steward connects liquid-fuel tank (64), fan housing (12) is installed at described the first combustion furnace (5) top, and the 3rd blower fan (10) is installed on fan housing (12) top, and fan housing (12) upper end connects one end of airduct (11), and the other end of airduct (11) connects the second combustion furnace (9), one end inwall of described airduct (11) close to the second combustion furnace (9) installs baffle ring (14), through joint pin (15) in the middle of baffle ring (14), two blend stops (13) are installed in joint pin (15) upper end, two blend stops (13) coordinate with baffle ring (14), catch (16) is installed in joint pin (15) lower end, and the diameter of catch (16) is greater than the internal diameter of baffle ring (14).

2. a kind of granule fuel warming stove according to claim 1, it is characterized in that: the inwall of described shell (39) arranges baffle ring (49), loose collar (46) is set between interior pipe (47) and shell (39), loose collar (46) is baffle ring (49) near-by explosion chamber (45) relatively, loose collar (46) is away from one end of one end linking springs (48) of explosion chamber (45), the other end of spring (48) connects baffle ring (49), shell (39) is arranged exhaust outlet (43), exhaust outlet (43) is positioned at the side of loose collar (46).

3. a kind of granule fuel warming stove according to claim 1, it is characterized in that: vapour hood (59) is installed on described the second combustion furnace (9) top, vapour hood (59) internal upper part arranges blast pipe (62), steamer (58) is installed at blast pipe (62) middle part, the rotating shaft of steamer (58) passes blast pipe (62) and connects generator (60), generator (60) connects oxygenerator (51) by electric wire (61), the top of blast pipe (62) connects one end of opposing steam flow pipe (55), the other end of opposing steam flow pipe (55) connects condenser (52), condenser (52) connects water tank (53), one end of water tank (53) connecting water pipe (63), the other end of water pipe (63) connects vapour hood (59), water pipe (63) is installed water pump (54).

4. a kind of granule fuel warming stove according to claim 3, is characterized in that: described vapour hood (59) installs nozzle (56), and nozzle (56) is connected with water pipe (63).

5. a kind of granule fuel warming stove according to claim 3, is characterized in that: arrange heat conductive filament (57) in described vapour hood (59) and the second combustion furnace (9).

6. a kind of granule fuel warming stove according to claim 1, it is characterized in that: described house steward is made up of feed tube (68) and drain pipe (66), bottle (72) in the middle of installing between feed tube (68) and drain pipe (66), the upper end of middle bottle (72) connects feed tube (68) and drain pipe (66), upper installation second check valve (69) of feed tube (68), upper installation first check valve (67) of drain pipe (66), in middle bottle (72), piston (73) is set, the bottom of piston (73) connects cylinder (70), first combustion furnace (5) is arranged support (71), support (71) is installed cylinder (70).

7. a kind of granule fuel warming stove according to claim 1, is characterized in that: net circle (75) is installed at the mouth of pipe place of described arm (74).