CN104456533A - Full-automatic multifunctional heating furnace - Google Patents

Abstract

The invention discloses a full-automatic multifunctional heating furnace which comprises a material conveying device, wherein the outlets of the two material conveying pipes of the material conveying device are supported by a supporting plate in an air box; the space between the supporting plate and the third side wall of the air box is an air inlet; a plurality of air holes are formed in the upper surfaces of the parts, positioned at the air inlet, of the material conveying pipes; a material receiving plate is arranged below the outlets of the material conveying pipes and connected with the supporting plate; an ignition electrical heating rod is arranged between the material receiving plate and an ash discharging plate; the lower opening of an external water jacket is fixed to the upper part of the air box through a connecting plate; the external water jacket is connected with a sandwich chimney; the sandwich chimney is communicated with an internal water jacket through a water pipe; a control circuit comprises a stabilized voltage power supply, two 555 chips, two triodes and three relays. According to the full-automatic multifunctional heating furnace, a material conveying motor is used for conveying materials while the ignition electrical heating rod is electrified and starts heating; the ignition electrical heating rod stops heating, a fan blows furnace fire, the fuel combustion is finished, and the material conveying motor starts to convey the materials; the fan of the heating furnace can supply air from the upper surfaces of the material conveying pipes, the manpower can be reduced during operation, and the structure is simple.

Description

Full-automatic multi-functional warming stove

Technical field

The invention belongs to warming stove technical field, particularly full-automatic multi-functional warming stove.

Background technology

The present warming stove gas flow direction that blower fan is supplied when burning is single, and fuel combustion is insufficient, and the thermal efficiency is low, and at warming stove operation, needs more manpower and carry out participation control and operation, waste more manpower.

Summary of the invention

The object of this invention is to provide full-automatic multi-functional warming stove, the direction of this warming stove blower fan air feed is not single, can save manpower when operation, and structure is simple, easy to operate.

The technical scheme adopted is:

Full-automatic multi-functional warming stove, comprises pay-off and boiler plant.

Pay-off comprises the first feeding motor, the second feeding motor and hopper.

The output shaft of the first feeding motor connects the first screw-conveyer-shaft, and the first screw-conveyer-shaft is arranged in the first feed pipe.

The output shaft of the second feeding motor connects the second screw-conveyer-shaft, and the second screw-conveyer-shaft is arranged in the second feed pipe.

Feed hopper bottom is connected with the second feed pipe with the first feed pipe respectively.

Boiler plant comprises bellows, blower fan, igniting electrical bar and goes out hawk.

3rd sidewall opening place of bellows is provided with blower fan.

First feed pipe and the second feed pipe are all positioned at above blower fan.

Its technical essential is:

The outlet of the first feed pipe and the outlet of the second feed pipe are all positioned at bellows, and support by the gripper shoe be fixed in bellows.

Space between gripper shoe and the 3rd sidewall of bellows forms air inlet.

The upper surface of the part that the first feed pipe is positioned at above air inlet offers multiple first pore.

The upper surface of the part that the second feed pipe is positioned at above air inlet offers multiple second pore.

Splicing plate is provided with below the outlet of the first feed pipe and the outlet of the second feed pipe.Splicing plate is fixed between the first side wall of bellows and the second sidewall.

Splicing plate is fixedly connected with gripper shoe.

Go out hawk to be fixed between the first side wall of bellows and the second sidewall, go out hawk and offer multiple air-vent.

Splicing plate and the position gone out between hawk are provided with igniting electrical bar.

Splicing plate, go out hawk and igniting electrical bar forms a complete surface.

Outer water jacket is provided with suitable for reading and end opening, and outer water jacket end opening is fixed on above bellows by connecting plate, bellows the first side wall, the second sidewall, gripper shoe, form combustion chamber between connecting plate and outer water jacket.

Described connecting plate comprises cover plate, the first connecting plate and the second connecting plate, and the first connecting plate is arranged on the side of cover plate, and the second connecting plate is arranged on the opposite side of cover plate.Cover plate, the first connecting plate and the second connecting plate are structure as a whole.

Cover plate is fixed on above air inlet, and is connected with the 3rd sidewall of the first side wall of gripper shoe, bellows, the second sidewall of bellows and bellows.

The first side wall is relative with the second sidewall.

First connecting plate is fixedly connected with the first side wall of bellows.

Second connecting plate is fixedly connected with the second sidewall of bellows.

Outer water jacket and go out between hawk outward flange to form ash hole.

Outer water jacket offers cigarette hole, and cigarette hole place is fixed with interlayer chimney, and the interlayer of interlayer chimney is connected with outer water jacket, and outer water jacket outer surface is connected with water inlet pipe.

Interlayer chimney is connected with inner water sleeve by water pipe, and inner water sleeve is arranged in outer water jacket, and the inward flange shape suitable for reading of outer water jacket and the matching form of inner water sleeve outer surface close.

First feeding motor, the second feeding motor, blower fan are connected with control circuit respectively with igniting electrical bar.

Described control circuit comprises voltage-stabilized power supply, remote controller, the one 555 chip, the 2 555 chip, triode VT ₁, triode VT ₂, relay J ₁, relay J ₂and relay J ₃.

The 12V DC output end of voltage-stabilized power supply connects the input of remote controller.

The control output end of remote controller connects No. 4 pin of the one 555 chip, the one 555 chip

No. 4 pin connecting triode VT ₁emitter stage.

By resistance R between No. 6 pin of the one 555 chip and No. 8 pin of the one 555 chip ₁connect.

No. 3 pin of the one 555 chip are by resistance R ₄with triode VT ₁base stage connect, triode VT ₁base stage by resistance R ₅be connected with No. 4 pin of the one 555 chip.

No. 2 pin of the one 555 chip connect electrochemical capacitor C ₁positive pole, electrochemical capacitor C ₁negative pole be connected with No. 1 pin of the one 555 chip, No. 1 pin of the one 555 chip connects the negative pole of voltage-stabilized power supply.

Triode VT ₁colelctor electrode by resistance R ₆connecting triode VT ₂base stage.

Triode VT ₂emitter stage connect No. 7 pin of the 2 555 chip.

No. 8 pin of the 2 555 chip connect the control output end of remote controller.

No. 8 pin of the 2 555 chip are by resistance R ₂connect diode D ₁anode, diode D ₁negative terminal connecting triode VT ₂colelctor electrode.

No. 6 pin of the 2 555 chip connect diode D ₂negative terminal, diode D ₂anode connect diode D ₁anode.

Diode D ₂anode by resistance R ₃connect diode D ₃negative terminal, diode D ₃anode connect No. 6 pin of the 2 555 chip.

No. 2 pin of the 2 555 chip connect electrochemical capacitor C ₂positive pole, electrochemical capacitor C ₂negative pole connect No. 1 pin of the 2 555 chip, No. 1 pin of the 2 555 chip 22 connects the negative pole of voltage-stabilized power supply.

No. 2 pin of the one 555 chip are connected with No. 6 pin of the one 555 chip.No. 4 pin of the one 555 chip are connected with No. 8 pin of the one 555 chip.

No. 2 pin of the 2 555 chip are connected with No. 6 pin of the 2 555 chip.No. 4 pin of the 2 555 chip are connected with No. 8 pin of the 2 555 chip.

No. 3 pin of the 2 555 chip connect relay J ₂coil one end, relay J ₂the coil other end connect the negative pole of voltage-stabilized power supply.

Relay J _2-2connect one end of the first feeding motor and the second feeding motor.

Triode VT ₁collector connection relay J ₃coil one end, relay J ₃the coil other end connect the negative pole of voltage-stabilized power supply.

Relay J _3-2one end of connecting fan.

No. 3 pin of the one 555 chip connect relay J ₁coil one end, relay J ₁the coil other end connect the negative pole of voltage-stabilized power supply.

Relay J _1-2one end of tie point thermoelectricity hot pin.

Described outer water jacket can be cylindrical shape, and inner water sleeve outer surface is taper seat.Described bellows can be cuboid.

The first described feed pipe is cylindrical pipe, and multiple first pore is positioned at the first feed pipe upper semi-circle cylinder.

Second feed pipe is cylindrical pipe, and multiple second pore is positioned at the second feed pipe upper semi-circle cylinder.

The described bottom outside going out hawk aweather case is obliquely installed.

Described diode D ₁, diode D ₂with diode D ₃model be 1N4007.

Triode VT ₁model be TIP42, triode VT ₂model be C1815.

Relay J ₁, relay J ₂and relay J ₃be 12V relay, model is HH53P.

Model AC-DC Adaptor model: KS-2011EO of voltage-stabilized power supply.

The model of remote controller is PC-SC4B.

Its advantage is:

This warming stove blower fan, except from going out hawk air feed, can also, from the top surface porosity air feed of two material pipes, can save manpower, and structure be simple when operation by control circui, easy to operate.Can as cooking, warm oneself, the multipurpose such as to have a bath.

Accompanying drawing explanation

Fig. 1 is the assembly structure schematic diagram of pay-off and boiler plant.

Fig. 2 is the top view of bellows, pay-off.

Fig. 3 is the perspective view of outer water jacket and inner water sleeve.

Fig. 4 is the top view of outer water jacket and inner water sleeve.

Fig. 5 is the circuit diagram of control circuit.

Fig. 6 is the assembly structure top view of connecting plate and air inlet.

Detailed description of the invention

Full-automatic multi-functional warming stove, comprises pay-off and boiler plant.

Pay-off comprises the first feeding motor 1, second feeding motor 2 and hopper 5.

The output shaft of the first feeding motor 1 connects the first screw-conveyer-shaft 3, first screw-conveyer-shaft 3 and is arranged in the first feed pipe.

The output shaft of the second feeding motor 2 connects the second screw-conveyer-shaft 4, second screw-conveyer-shaft 4 and is arranged in the second feed pipe.

Be connected with the second feed pipe with the first feed pipe respectively bottom hopper 5.

Boiler plant comprises bellows 6, blower fan 7, igniting electrical bar 8 and goes out hawk 9.

3rd sidewall 27 opening part of bellows 6 is provided with blower fan 7.

First feed pipe and the second feed pipe are all positioned at above blower fan 7.

The outlet of the first feed pipe and the outlet of the second feed pipe are all positioned at bellows 6, and support by the gripper shoe 15 be fixed in bellows 6.

Space between gripper shoe 15 and the 3rd sidewall 27 of bellows 6 forms air inlet 13.

The upper surface of the part that the first feed pipe is positioned at above air inlet 13 offers multiple first pore 16.

The upper surface of the part that the second feed pipe is positioned at above air inlet 13 offers multiple second pore.

Splicing plate 14 is provided with below the outlet of the first feed pipe and the outlet of the second feed pipe.Splicing plate 14 is fixed between the first side wall 26 of bellows and the second sidewall.

Splicing plate 14 is fixedly connected with gripper shoe 15.

Go out hawk 9 to be fixed between the first side wall 26 of bellows 6 and the second sidewall, go out hawk 9 and offer multiple air-vent 12.

Splicing plate 14 and the position gone out between hawk 9 are provided with igniting electrical bar 8.

Splicing plate 14, go out hawk 9 and igniting electrical bar 8 forms a complete surface, fuel can not be fallen into bottom bellows 6.

Outer water jacket 10 is provided with suitable for reading and end opening, outer water jacket 10 end opening is fixed on above bellows 6 by connecting plate 18, bellows 6 the first side wall 26, second sidewall, gripper shoe 15, form combustion chamber between connecting plate 18 and outer water jacket 10, air inlet 13 seals by connecting plate 18.

Described connecting plate 18 comprises the side that cover plate 25, first connecting plate 28 and the second connecting plate 29, first connecting plate 28 are arranged on cover plate 25, and the second connecting plate 29 is arranged on the opposite side of cover plate 25.Cover plate 25, first connecting plate 28 and the second connecting plate 29 are structure as a whole.

Cover plate 25 is fixed on above air inlet 13, and is connected with the 3rd sidewall 27 of the first side wall 26 of gripper shoe 15, bellows 6, the second sidewall of bellows 6 and bellows 6.

The first side wall 26 is relative with the second sidewall.

First connecting plate 28 is fixedly connected with the first side wall 26 of bellows 6.

Second connecting plate 29 is fixedly connected with the second sidewall of bellows 6.

Outer water jacket 10 and go out between hawk 9 outward flange to form ash hole 20.

Outer water jacket 10 offers cigarette hole, and cigarette hole place is fixed with interlayer chimney 19, and the interlayer of interlayer chimney 19 is connected with outer water jacket 10, and outer water jacket 10 outer surface is connected with water inlet pipe.

Interlayer chimney 19 is connected with inner water sleeve 11 by water pipe, and inner water sleeve 11 is arranged in outer water jacket 10, and the inward flange shape suitable for reading of outer water jacket 10 and the matching form of inner water sleeve 11 outer surface close.

The internal layer of interlayer chimney 19 walks cigarette, and the water in the interlayer of interlayer chimney 19 can also utilize the fume afterheat heating water discharged.

First feeding motor 1, second feeding motor 2, blower fan 7 are connected with control circuit respectively with igniting electrical bar 8.

Bellows 6, outer water jacket 10 are all arranged in the first housing, and the first housing upper surface has the first shell nozzle, and inner water sleeve 11 is put into by the first shell nozzle or taken out.

First feeding motor 1, second feeding motor 2 and hopper 5 are all arranged in the second housing, and the second housing upper surface has the second shell nozzle, and hopper port is positioned at the second shell nozzle place, and hopper port is provided with lid, conveniently loads fuel.

Described control circuit comprises voltage-stabilized power supply 23, remote controller the 24, the 1 chip the 21, the 2 555 chip 22, triode VT ₁, triode VT ₂, relay J ₁, relay J ₂and relay J ₃.

The 12V DC output end of voltage-stabilized power supply 23 connects the input of remote controller 24.

The control output end of remote controller 24 connects No. 4 pin of the one 555 chip 21, No. 4 pin connecting triode VT of the one 555 chip 21 ₁emitter stage.

By resistance R between No. 6 pin of the one 555 chip 21 and No. 8 pin of the one 555 chip 21 ₁connect.

No. 3 pin of the one 555 chip 21 are by resistance R ₄with triode VT ₁base stage connect, triode VT ₁base stage by resistance R ₅be connected with No. 4 pin of the one 555 chip 21.

No. 2 pin of the one 555 chip 21 connect electrochemical capacitor C ₁positive pole, electrochemical capacitor C ₁negative pole be connected with No. 1 pin of the one 555 chip 21, No. 1 pin of the one 555 chip 21 connects the negative pole of voltage-stabilized power supply 23.

Triode VT ₁colelctor electrode by resistance R ₆connecting triode VT ₂base stage.

Triode VT ₂emitter stage connect No. 7 pin of the 2 555 chip 22.

No. 8 pin of the 2 555 chip 22 connect the control output end of remote controller 24.

No. 8 pin of the 2 555 chip 22 are by resistance R ₂connect diode D ₁anode, diode D ₁negative terminal connecting triode VT ₂colelctor electrode.

No. 6 pin of the 2 555 chip 22 connect diode D ₂negative terminal, diode D ₂anode connect diode D ₁anode.

Diode D ₂anode by resistance R ₃connect diode D ₃negative terminal, diode D ₃anode connect No. 6 pin of the 2 555 chip 22.

No. 2 pin of the 2 555 chip 22 connect electrochemical capacitor C ₂positive pole, electrochemical capacitor C ₂negative pole connect No. 1 pin of the 2 555 chip 22, No. 1 pin of the 2 555 chip 22 connects the negative pole of voltage-stabilized power supply 23.

No. 2 pin of the one 555 chip 21 are connected with No. 6 pin of the one 555 chip 21.No. 4 pin of the one 555 chip 21 are connected with No. 8 pin of the one 555 chip 21.

No. 2 pin of the 2 555 chip 22 are connected with No. 6 pin of the 2 555 chip 22.No. 4 pin of the 2 555 chip 22 are connected with No. 8 pin of the 2 555 chip 22.

No. 3 pin of the 2 555 chip 22 connect relay J ₂coil one end, relay J ₂the coil other end connect the negative pole of voltage-stabilized power supply 23.

Relay J ₂- ₁connect the live wire 30 of 220V civil power, relay J _2-2connect one end of the first feeding motor 1 and the second feeding motor 2, the first feeding motor 1 is connected the zero line 31 of 220V civil power together with the other end of the second feeding motor 2.

Triode VT ₁collector connection relay J ₃coil one end, relay J ₃the coil other end connect the negative pole of voltage-stabilized power supply 23.

Relay J _3-1connect the live wire 30 of 220V civil power, relay J _3-2one end of connecting fan 7.The other end of blower fan 7 connects the zero line 31 of 220V civil power.

No. 3 pin of the one 555 chip 21 connect relay J ₁coil one end, relay J ₁the coil other end connect the negative pole of voltage-stabilized power supply 23.

Relay J _1-1connect the live wire 30 of 220V civil power, relay J _1-2one end of tie point thermoelectricity hot pin 8, the other end of igniting electrical bar 8 connects the zero line 31 of 220V civil power.

No. 1 contact (J of three described relays _1-1, J _2-1, J _3-1), No. 2 contact (J _1-2, J _2-2, J _3-2) be the normally opened contact of each self-corresponding relay.

Described outer water jacket 10 is cylindrical shape, and inner water sleeve 11 outer surface is taper seat.Described bellows 6 are cuboid.

The first described feed pipe is cylindrical pipe, and multiple first pore 16 is positioned at the first feed pipe upper semi-circle cylinder.

Second feed pipe is cylindrical pipe, and multiple first pore 16 is positioned at the second feed pipe upper semi-circle cylinder.

Described go out hawk 9 and be obliquely installed to the bottom outside of bellows 6.

Described diode D ₁, diode D ₂with diode D ₃model be 1N4007.

Triode VT ₁model be TIP42, triode VT ₂model be C1815.

Relay J ₁, relay J ₂and relay J ₃be 12V relay, model is HH53P.

Model AC-DC Adaptor model: KS-2011EO of voltage-stabilized power supply 23.

The model of remote controller 24 is PC-SC4B (12V).

Inner water sleeve 11 bottom lock, the flue gas that fuel combustion produces, between inner water sleeve 11 and outer water jacket 10, is discharged from interlayer chimney 19.

The main circuit that relay J 1, relay J 2, relay J 3 and voltage-stabilized power supply 23 are common is furnished with earth leakage protective device 17, and described earth leakage protective device 17 is known technology, therefore not repeated description.

Circuit diagram as shown in Figure 5.Circuit, by three relays and pulse signal oscillator feeding, igniting and air feed, realizes automatic function.

The negative pole of the ground connection termination voltage-stabilized power supply 23 of remote controller 24.

220V civil power converts 12V direct current voltage-stabilized power supply to two 555 chip power supplies.

Two 555 chips are the cores controlled, and two 555 chips and around original paper form to account for be controlled than self-adjustable pulse signal oscillator.

Pulse signal oscillator as shown in phantom in Figure 5.

When 220V city electrically connects, press the switch of remote controller 24, make two 555 chip access 12V dc sources.

Press the switch of remote controller 24, C ₁pass through R ₁charging, relay J ₁energized action, igniting electrical bar obtains electric ignition electrical bar and starts heating.

One 555 chip (IC in this process ₁) No. 2 pin be low level (0-8V), No. 3 pin are high level (9.5-10.5V).

Electrochemical capacitor C ₁charging interval is 8 minutes, and therefore the duration of ignition is 8 minutes.

Press the switch of remote controller 24 simultaneously, C ₂pass through R ₂and D ₂charging, relay J ₂energized action, two feeding motors start to drive auger feeding.

2 555 chip 22(IC in this process ₂) No. 2 pin be low level (0-8V), No. 3 pin are high level (9.5-10.5V).

Electrochemical capacitor C ₂charging interval is 1 minute, and feeding time is 1 minute, and when No. 3 pin of the 2 555 chip 22 become low level (0V), feeding terminates.

From pressing the switch of remote controller 24, after 8 minutes, No. 3 pin of the one 555 chip are low level (0V), relay J ₁release, igniting terminates.

J ₁vT while release ₁conducting, relay J ₃energized action, fan is started working, and is blown by stove fire, and stove is started working.

VT ₁while conducting, through R ₆make VT ₂conducting, through D ₁, R ₃, D ₃, the 2 555 chip 22 No. 7 pin internal discharge tube discharges, discharge time is 2 minutes, electric discharge terminate.

Discharge time is 2 minutes, electric discharge terminates, and biological particles (this is commercially available known product) fuel sent in bellows will burnout, and No. 3 pin of the 2 555 chip 22 are high level (9.5-10.5V), two feeding motors start feeding 1 minute, achieve automatic function.

Resistance R ₁resistance is 360 kilo-ohms, resistance R ₂resistance is 66 kilo-ohms, resistance R ₃resistance is 130 kilo-ohms, resistance R ₄resistance is 3.9 kilo-ohms, resistance R ₅resistance is 1 kilo-ohm, resistance R ₆resistance is 3.9 kilo-ohms.

Electrochemical capacitor C ₁be 1000 microfarad electrochemical capacitors, electrochemical capacitor C ₂be 1000 microfarad electrochemical capacitors.

When use.

When using as cooking, inner water sleeve 11 being taken out from outer water jacket 10, pot is placed in outer water jacket 10, namely can be used as cooking and use.

When as heating time, by water inlet pipe and outlet pipe access heating radiator equipment.

When as bathing time, outlet pipe is accessed bath apparatus entrance.

Claims (6)

1. full-automatic multi-functional warming stove, comprises pay-off and boiler plant;

Pay-off comprises the first feeding motor (1), the second feeding motor (2) and hopper (5);

The output shaft of the first feeding motor (1) connects the first screw-conveyer-shaft (3), and the first screw-conveyer-shaft (3) is arranged in the first feed pipe;

The output shaft of the second feeding motor (2) connects the second screw-conveyer-shaft (4), and the second screw-conveyer-shaft (4) is arranged in the second feed pipe;

Hopper (5) bottom is connected with the second feed pipe with the first feed pipe respectively;

Boiler plant comprises bellows (6), blower fan (7), igniting electrical bar (8) and goes out hawk (9);

3rd sidewall (27) opening part of bellows (6) is provided with blower fan (7);

First feed pipe and the second feed pipe are all positioned at blower fan (7) top;

It is characterized in that:

The outlet of the first feed pipe and the outlet of the second feed pipe are all positioned at bellows (6), and support by the gripper shoe (15) be fixed in bellows (6);

Space between gripper shoe (15) and the 3rd sidewall (27) of bellows (6) forms air inlet (13);

The upper surface that first feed pipe is positioned at the part of air inlet (13) top offers multiple first pore (16);

The upper surface that second feed pipe is positioned at the part of air inlet (13) top offers multiple second pore;

Splicing plate (14) is provided with below the outlet of the first feed pipe and the outlet of the second feed pipe; Splicing plate (14) is fixed between the first side wall (26) of bellows and the second sidewall;

Splicing plate (14) is fixedly connected with gripper shoe (15);

Go out hawk (9) to be fixed between the first side wall (26) of bellows (6) and the second sidewall, go out hawk (9) and offer multiple air-vent (12);

Splicing plate (14) and the position gone out between hawk (9) are provided with igniting electrical bar (8);

Splicing plate (14), go out hawk (9) and igniting electrical bar (8) forms a complete surface;

Outer water jacket (10) is provided with suitable for reading and end opening, outer water jacket (10) end opening is fixed on bellows (6) top by connecting plate (18), the first side wall (26) in bellows (6), the second sidewall, gripper shoe (15), forms combustion chamber between connecting plate (18) and outer water jacket (10);

Described connecting plate (18) comprises cover plate (25), the first connecting plate (28) and the second connecting plate (29), and the first connecting plate (28) is arranged on the side of cover plate (25), and the second connecting plate (29) is arranged on the opposite side of cover plate (25); Cover plate (25), the first connecting plate (28) and the second connecting plate (29) are structure as a whole;

Cover plate (25) is fixed on air inlet (13) top, and is connected with the 3rd sidewall (27) of the first side wall (26) of gripper shoe (15), bellows (6), the second sidewall of bellows (6) and bellows (6);

The first side wall (26) is relative with the second sidewall;

First connecting plate (28) is fixedly connected with the first side wall (26) of bellows (6);

Second connecting plate (29) is fixedly connected with the second sidewall of bellows (6);

Outer water jacket (10) and go out between hawk (9) outward flange to form ash hole (20);

Outer water jacket (10) offers cigarette hole, and cigarette hole place is fixed with interlayer chimney (19), and the interlayer of interlayer chimney (19) is connected with outer water jacket (10), and outer water jacket (10) outer surface is connected with water inlet pipe;

Interlayer chimney (19) is connected with inner water sleeve (11) by water pipe, and inner water sleeve (11) is arranged in outer water jacket (10), and the inward flange shape suitable for reading of outer water jacket (10) and the matching form of inner water sleeve (11) outer surface close;

First feeding motor (1), the second feeding motor (2), blower fan (7) are connected with control circuit respectively with igniting electrical bar (8);

Described control circuit comprises voltage-stabilized power supply (23), remote controller (24), the one 555 chip (21), the 2 555 chip (22), triode VT ₁, triode VT ₂, relay J ₁, relay J ₂and relay J ₃;

The 12V DC output end of voltage-stabilized power supply (23) connects the input of remote controller (24);

The control output end of remote controller (24) connects No. 4 pin of the one 555 chip (21), No. 4 pin connecting triode VT of the one 555 chip (21) ₁emitter stage;

By resistance R between No. 6 pin of the one 555 chip (21) and No. 8 pin of the one 555 chip (21) ₁connect;

No. 3 pin of the one 555 chip (21) are by resistance R ₄with triode VT ₁base stage connect, triode VT ₁base stage by resistance R ₅be connected with No. 4 pin of the one 555 chip (21);

No. 2 pin of the one 555 chip (21) connect electrochemical capacitor C ₁positive pole, electrochemical capacitor C ₁negative pole be connected with No. 1 pin of the one 555 chip (21), No. 1 pin of the one 555 chip (21) connects the negative pole of voltage-stabilized power supply (23);

Triode VT ₁colelctor electrode by resistance R ₆connecting triode VT ₂base stage;

Triode VT ₂emitter stage connect No. 7 pin of the 2 555 chip (22);

No. 8 pin of the 2 555 chip (22) connect the control output end of remote controller (24);

No. 8 pin of the 2 555 chip (22) are by resistance R ₂connect diode D ₁anode, diode D ₁negative terminal connecting triode VT ₂colelctor electrode;

No. 6 pin of the 2 555 chip (22) connect diode D ₂negative terminal, diode D ₂anode connect diode D ₁anode;

Diode D ₂anode by resistance R ₃connect diode D ₃negative terminal, diode D ₃anode connect No. 6 pin of the 2 555 chip (22);

No. 2 pin of the 2 555 chip (22) connect electrochemical capacitor C ₂positive pole, electrochemical capacitor C ₂negative pole connect No. 1 pin of the 2 555 chip (22), No. 1 pin of the 2 555 chip 22 connects the negative pole of voltage-stabilized power supply (23);

No. 2 pin of the one 555 chip (21) are connected with No. 6 pin of the one 555 chip (21); No. 4 pin of the one 555 chip (21) are connected with No. 8 pin of the one 555 chip (21);

No. 2 pin of the 2 555 chip (22) are connected with No. 6 pin of the 2 555 chip (22); No. 4 pin of the 2 555 chip (22) are connected with No. 8 pin of the 2 555 chip (22);

No. 3 pin of the 2 555 chip (22) connect relay J ₂coil one end, relay J ₂the coil other end connect voltage-stabilized power supply (23) negative pole;

Relay J _2-2connect one end of the first feeding motor (1) and the second feeding motor (2);

Triode VT ₁collector connection relay J ₃coil one end, relay J ₃the coil other end connect voltage-stabilized power supply (23) negative pole;

Relay J _3-2one end of connecting fan (7);

No. 3 pin of the one 555 chip (21) connect relay J ₁coil one end, relay J ₁the coil other end connect voltage-stabilized power supply (23) negative pole;

Relay J _1-2one end of tie point thermoelectricity hot pin (8).

2. full-automatic multi-functional warming stove according to claim 1, is characterized in that:

Described outer water jacket (10) is cylindrical shape, and inner water sleeve (11) outer surface is taper seat; Described bellows (6) are cuboid.

3. full-automatic multi-functional warming stove according to claim 1, is characterized in that: the first described feed pipe is cylindrical pipe, and multiple first pore (16) is positioned at the first feed pipe upper semi-circle cylinder;

Second feed pipe is cylindrical pipe, and multiple second pore is positioned at the second feed pipe upper semi-circle cylinder.

4. full-automatic multi-functional warming stove according to claim 1, is characterized in that:

Described go out hawk (9) and be obliquely installed to the bottom outside of bellows (6).

5. full-automatic multi-functional warming stove according to claim 1, is characterized in that: described diode D ₁, diode D ₂with diode D ₃model be 1N4007;

Triode VT ₁model be TIP42, triode VT ₂model be C1815;

Relay J ₁, relay J ₂and relay J ₃be 12V relay, model is HH53P;

Model AC-DC Adaptor model: KS-2011EO of voltage-stabilized power supply (23);

The model of remote controller (24) is PC-SC4B.

6. full-automatic multi-functional warming stove according to claim 1, is characterized in that:

Described bellows (6), outer water jacket (10) are all arranged in the first housing, and the first housing upper surface has the first shell nozzle;

First feeding motor (1), the second feeding motor (2) and hopper (5) are all arranged in the second housing, and the second housing upper surface has the second shell nozzle, and hopper port is positioned at the second shell nozzle place, and hopper port is provided with lid.