CN208042187U - The automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving - Google Patents

Abstract

The utility model discloses a kind of automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving, including furnace body, feed mechanism, combustion mechanism, flue dust separating mechanism and high exhaust temperatures recovering mechanism are equipped in the furnace body.The utility model is reasonable for structure, can use pluralities of fuel, and high-temp waste gas and cool combustion air are carried out heat exchange, enters combustion chamber after burning air heating, reduces heat-energy losses, save fuel, improve heating stove heating rate；Multiple circulation rotating in gas discharge process centrifuges force effect by flue dust and repeatedly carries out flue dust separation, reaches dustless discharge, energy conservation and environmental protection；There is fire-retardant partition board among hopper and combustion chamber, when so having a power failure suddenly, the fuel in hopper is separated with combustion chamber, is not in the phenomenon that igniting hopper；Motor drives electronic push plate gradation feeding, keeps feeding more uniform, control safe and convenient.

Description

The automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving

Technical field

The present invention relates to Domestic heating stove technical fields, and in particular to a kind of automatic heating of multi fuel whirlwind temperature-increasing energy-saving Stove.

Background technology

Currently, on the ground of the unrealized large area central heating such as the cell portion in city, the combination area of city and country, wast rural area Side, needs to heat using heating stove.Traditional heating stove has the defect of the following aspects：First, common heating stove is only firing It burns and is equipped with water jacket at room and flue, heat exchange area is small, serious heat loss.Second is that flue is directly connected to combustion chamber, make heat very It is easy that outdoor is discharged by flue, and heat is biased to one side of flue, keeps cooker uneven heating even.Third, frequently feed, when charging Easy anoxic has carbon monoxide generation, and can't burn completely leads to waste of fuel, and water heating speed is slower, pollution environment etc., at present The heating stove that the fuel combustion mode used carries out heat exchange is required for keying in burner hearth a large amount of ground warm air, excludes a large amount of high temperature Exhaust gas, this partial heat energy wastes, therefore, it is necessary to be improved to the prior art.

Invention content

The purpose of the present invention aiming at defect of the existing technology, provide it is a kind of reasonable for structure, high combustion efficiency plus Thermal efficiency height, the automatic heating stove of pollution-free, environmental protection and energy saving multi fuel whirlwind temperature-increasing energy-saving easy to use, safe.

The technical scheme is that：The automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving, including furnace body are set in the furnace body Have

Feed mechanism, the feed mechanism include hopper, and blanking plate is equipped with below the bottom opening of the hopper, described Electronic push plate is slidably fitted on blanking plate, one end of the electronic push plate connect with motor and realizes reciprocal fortune by motor It is dynamic；

Combustion mechanism, the combustion mechanism include lighting-up tuyere, fire grate and quirk, and the lighting-up tuyere is located under furnace body Side, the fire grate is mounted on the furnace body between lighting-up tuyere and quirk and one end and the end of blanking plate connect, the quirk Side fire-retardant partition board is installed, the electronic push plate is located at the lower section of fire-retardant partition board and is contacted with the lower face of fire-retardant partition board, The electronic push plate and fire-retardant partition board formed fire-retardant chamber be connected to hopper, the quirk lower section and fire-retardant partition board and fire grate it Between form combustion chamber, when electronic push plate retreats, the fire-retardant chamber is connected to combustion chamber, is equipped on the outside of the furnace body for controlling The air-introduced machine of combustion chamber burning velocity；

Flue dust separating mechanism, the flue dust separating mechanism includes high-temperature flue, and the side of the quirk is equipped with exhanst gas outlet, The high-temperature flue is connected to by exhanst gas outlet with quirk, and high-temperature flue gas rotation is formed by multiple partition boards in the high-temperature flue Rotating channel, the top outer of the high-temperature flue is equipped with the outlet port being connected to rotating channel；

High exhaust temperatures recovering mechanism, the high exhaust temperatures recovering mechanism include Cryogenic air heat exchange jacket, and the low temperature is empty The middle part of gas heat exchange jacket is equipped with heat exchanging chamber, and the rotating channel is arranged in heat exchanging chamber, in the Cryogenic air heat exchange jacket It is exported equipped with Cryogenic air entrance and heat exchange air, the heat exchange air is exported and is connected at the lighting-up tuyere of furnace body, described The bottom outside of furnace body is equipped with the flue dust being connected to low temperature heat exchange jacket bottom and detaches cleaning door.

The rotating channel includes the first partition being separately positioned in heat exchanging chamber, second partition and cylinder, and described The vertically spaced and parallel setting of one partition board, second partition and cylinder is laterally vertically set between the first partition and second partition There is exhaust gas baffle, the lower face of the first partition forms the first waste gas outlet with the bottom of Cryogenic air heat exchange jacket, described First partition, second partition form the first flue dust disengagement chamber being connected to the first waste gas outlet, the cylinder with exhaust gas baffle The first exhaust steam passage and the second exhaust steam passage being mutually parallel, first exhaust steam passage and first are equipped between second partition Flue dust disengagement chamber is connected to, and the separation tube inner chamber is the second flue dust disengagement chamber, the first partition, second partition and exhaust gas baffle The third flue dust disengagement chamber being connected to the second exhaust steam passage is formed, the outlet port is connected to third flue dust disengagement chamber.

It is located at below fire grate on the furnace body and is equipped with breast hole.

The motor is mounted on inboard wall of furnace body, is located to be equipped at quirk on the furnace body and is seen burner.

The end of the electronic push plate is equipped with fuel transport board downward vertically.

The Cryogenic air entrance is multiple, is evenly distributed on low temperature heat exchange and puts on.

The bottom of the electronic push plate is equipped with the pulley for being moved forward and backward on blanking plate.

The hopper is funnel structure.

The present invention compared with prior art, has the following advantages：It is reasonable for structure, pluralities of fuel can be used, high temperature is given up Gas carries out heat exchange with cool combustion air, enters combustion chamber after burning air heating, reduces heat-energy losses, save fuel, carry High heating stove heating rate；Multiple circulation rotating in gas discharge process centrifuges force effect by flue dust and repeatedly carries out flue dust point From reaching dustless discharge, energy conservation and environmental protection；There is fire-retardant partition board among hopper and combustion chamber, when so having a power failure suddenly, the combustion in hopper Material is separated with combustion chamber, is not in the phenomenon that igniting hopper；Motor drives electronic push plate gradation feeding, makes feeding more Uniformly, control safe and convenient.

Description of the drawings

Fig. 1 is the structural schematic diagram of the present invention；

Fig. 2 is the structural schematic diagram of high exhaust temperatures recovering mechanism of the present invention；

In figure：1, hopper, 2, blanking plate, 3, pulley, 4, electronic push plate, 5, motor, 6, lighting-up tuyere, 7, fire grate, 8, fire Road, 9, furnace body, 10, fire-retardant partition board, 11, fire-retardant chamber, 12, combustion chamber, 13, fuel transport board, 14, high-temperature flue, 15, flue gas goes out Mouthful, 16, rotating channel, 17, outlet port, 18, Cryogenic air heat exchange jacket, 19, heat exchanging chamber, 20, Cryogenic air entrance, 21, burner is seen, 22, first partition, 23, second partition, 24, cylinder, 25, exhaust gas baffle, the 26, first waste gas outlet, 27, the One flue dust disengagement chamber, the 28, first exhaust steam passage, the 29, second exhaust steam passage, the 30, second flue dust disengagement chamber, 31, third flue dust point From chamber, 32, breast hole, 33, flue dust detach cleaning door.

Specific implementation mode

Here is that the present invention is further described in conjunction with the accompanying drawings and embodiments.

Referring to Fig.1, the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving, including furnace body 9, the furnace body 9 is interior to be equipped with feeder Structure, combustion mechanism, flue dust separating mechanism and high exhaust temperatures recovering mechanism.

Wherein, feed mechanism includes hopper 1, and hopper 1 is funnel structure.It is equipped with below the bottom opening of hopper 1 Blanking plate 2, blanking plate 2 are mounted on by furnace body support in furnace body 9.The top of blanking plate 2 is equipped with electronic push plate 4, electronic push plate 4 Pulley 3 is installed by support leg and is moved back and forth on blanking plate 2, one end of electronic push plate 4 is connect with motor 5, and motor 5 is pacified On 9 inner wall of furnace body, electronic push plate 4 can be driven to realize reciprocating motion on blanking plate 2 by motor 5.Motor 5 drives electronic 4 gradation feeding of push plate, keeps feeding more uniform, control safe and convenient.

Combustion mechanism includes lighting-up tuyere 6, fire grate 7 and quirk 8, and the lower section that fire grate 7 is located on furnace body 9 is equipped with breast hole 32, it is located on furnace body 9 to be equipped at quirk 8 and sees burner 21, lighting-up tuyere 6 is located at the lower section of furnace body 9, and fire grate 7 is mounted on lighting-up tuyere 6 On furnace body 9 between quirk 8, and one end is connect with the end of blanking plate 2, and the side of quirk 8 is equipped with fire-retardant partition board 10, electricity Dynamic push plate 4 is located at the lower section of fire-retardant partition board 10 and is contacted with the lower face of fire-retardant partition board 10, and the end of electronic push plate 4 is downward vertically Equipped with fuel transport board 13, combustion chamber 12 is formed between the lower section of quirk 8 and fire-retardant partition board 10 and fire grate 7, in combustion chamber 12 Fuel it is unburned when finishing, be connected to hopper 1 since the fuel transport board 13 of 4 end of electronic push plate is formed with fire-retardant partition board 10 Fire-retardant chamber 11, the phenomenon that such combustion chamber 12 and hopper 1 have interval, be not in the fuel to ignite in hopper 1 always；Work as electricity When dynamic push plate 10 retreats, the fuel in hopper 1 falls, and fire-retardant chamber 11 is connected to combustion chamber 12, when electronic push plate 10 is advanced, leads to It crosses fuel transport board 13 and pushes to fuel on fire grate 7 and burn, in addition, being equipped with air-introduced machine in the outside of furnace body 9（In figure It is not shown）, the burning velocity of combustion chamber 12 can be controlled by air-introduced machine.

Above-mentioned flue dust separating mechanism includes high-temperature flue 14, and exhanst gas outlet 15, high-temperature flue are equipped in the side of quirk 8 It is connected to quirk 8 by exhanst gas outlet 15, forms the rotating channel of high-temperature flue gas rotation in high-temperature flue 14 by multiple partition boards 16, the top outer of high-temperature flue 14 is equipped with the outlet port 17 being connected to rotating channel 16, the height that when fuel combustion generates Warm flue gas by quirk 8 through exhanst gas outlet 15 enter high-temperature flue 14 in, and by the rotating channel 16 in high-temperature flue 14 into Row flue dust detaches, and exhaust gas is discharged by outlet port 17.

Above-mentioned high exhaust temperatures recovering mechanism includes Cryogenic air heat exchange jacket 18, the middle part of Cryogenic air heat exchange jacket 18 Equipped with heat exchanging chamber 19, rotating channel 16 is arranged in heat exchanging chamber 19, and Cryogenic air heat exchange jacket 18 is equipped with Cryogenic air entrance 20 and heat exchange air outlet（It is not shown in figure）, heat exchange air export and be connected at the lighting-up tuyere 6 of furnace body 9, the bottom of furnace body 9 It is equipped on the outside of portion and detaches cleaning door 33 with the flue dust that 18 bottom of low temperature heat exchange jacket is connected to, high-temperature gas and Cryogenic air heat exchange After Cryogenic air in set 18 carries out heat exchange, i.e., after high exhaust temperatures recycling separation, dust detaches cleaning door 33 by flue dust Discharge.

As shown in Fig. 2, haircut direction is the trend of high-temp waste gas.Wherein, rotating channel includes being separately positioned on heat exchanging chamber First partition 22, second partition 23 in 19 and cylinder 24, first partition 22, second partition 23 and cylinder 24 are vertically spaced It is arranged in parallel, exhaust gas baffle 25, the lower end of first partition 22 is laterally vertically equipped between first partition 22 and second partition 23 First waste gas outlet 26 is formed on face and the bottom of Cryogenic air heat exchange jacket 18, and first partition 22, second partition 23 and exhaust gas are kept off Plate 25 forms the first flue dust disengagement chamber 27 being connected to the first waste gas outlet 26, and phase is equipped between cylinder 24 and second partition 23 Mutually parallel the first exhaust steam passage 28 and the second exhaust steam passage 29, the first exhaust steam passage 28 are connected to the first flue dust disengagement chamber 27, The inner cavity of the cylinder 24 is the second flue dust disengagement chamber 30, first partition 22, second partition 23 and exhaust gas baffle 25 formed with The third flue dust disengagement chamber 31 of second exhaust steam passage 29 connection, the outlet port 17 are connected to third flue dust disengagement chamber 31. The high-temperature flue gas generated when fuel combustion is entered through exhanst gas outlet 15 in high-temperature flue 14 by quirk 8, and is directly entered heat exchange In chamber 19, high-temperature flue gas is respectively through the first flue dust disengagement chamber 27, the second flue dust disengagement chamber 30 and third flue dust flue dust disengagement chamber 31 Flue dust detaches after being rotated, and centrifuges force effect separating for several times flue dust by flue dust in such exhaust gas recycling rotary course, reaches To dustless discharge, the exhaust gas after heat exchange is discharged eventually by outlet port 17.

Have multiple Cryogenic air entrances 20 in Cryogenic air heat exchange jacket 18, and be uniformly distributed, can realize so quickly into Enter Cryogenic air, and passes through inlet point burner 6 after heat exchange.

When work, fuel is filled in hopper 1, manually boots motor 5, motor drives electronic push plate 4 that fuel is pushed away full stove Grate 7 stops feeding.It is put into inflammable fire-lighter at lighting-up tuyere 6 to light, waits for firing above fire grate 7 seeing observation at burner 21 After material ignites completely, electric machine speed regulation appliance mains switch is opened, adjusting knob regulation motor feeding speed is passed through, you can realized automatic Burning,（The higher feeding speed of motor speed percentage is faster at this time）.Hot gas can pass through quirk 8 under air-introduced machine effect when burning Into flue dust separating mechanism cycle excluded after a week by outlet port 17, i.e., high-temperature gas by quirk 8 through exhanst gas outlet 15 It into high-temperature flue 14, and is directly entered in heat exchanging chamber 19, high-temperature flue gas is respectively through the first flue dust disengagement chamber 27, the second flue dust Flue dust detaches after disengagement chamber 30 and third flue dust flue dust disengagement chamber 31 are rotated, and passes through in such exhaust gas recycling rotary course Flue dust centrifuges force effect separating for several times flue dust, reaches dustless discharge, the exhaust gas after heat exchange is eventually by 17 row of outlet port Go out, and the cinder generated that burns can be fallen under the thrust of electronic push plate 4 in breast hole 32, there is hopper 1 and combustion chamber 12 It is separation that the fire-retardant partition board 10 of the effect at interval, which makes the fuel to burn on fuel and fire grate 7 in fire-retardant chamber 11 always,.Combustion Burn required Cryogenic air by Cryogenic air entrance 20 enter Cryogenic air heat exchange jacket 18, and with the height in heat exchanging chamber 19 Warming stove is entered by the opposite of lighting-up tuyere 6 after warm exhaust gas heat exchange.

This stove can be used without any adjustment；Natural gas, biologic grain, environment-friendly coal, a variety of combustions such as scattered coal of environmental protection Material.The present invention is that high-temp waste gas and cool combustion air are carried out heat exchange, enters combustion chamber after burning air heating, reduces heat The loss of energy can save fuel 40%, improve heating stove heating rate.Simultaneously exhaust gas recycling rotary course in by flue dust from Mental power function separating for several times flue dust, reaches dustless discharge.Automatic ignition, firepower size is automatically adjustable, and water temperature automatically controls, once Charging can burn 12 hours or more, select automatic charging machine that can realize and do not shut down burning；This stove is non-pressure heating furnace, cyclic system Water shortage of uniting or suddenly power failure are not in safety accident.Burner hearth has interval always with hopper, is not in the combustion ignited in hopper The phenomenon that material；Feed mechanism is that motor drives electronic push plate gradation feeding, keeps feeding more uniform, control safe and convenient.

The present invention is not limited to above-mentioned embodiments, within the knowledge of those skilled in the art, may be used also To make a variety of changes without departing from the purpose of the present invention, the content after variation still falls within protection scope of the present invention.

Claims (8)

1. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving, it is characterised in that：Including furnace body, it is equipped in the furnace body

Feed mechanism, the feed mechanism include hopper, and blanking plate, the blanking are equipped with below the bottom opening of the hopper Electronic push plate is slidably fitted on plate, one end of the electronic push plate connect with motor and realized by motor and moved back and forth；

Combustion mechanism, the combustion mechanism include lighting-up tuyere, fire grate and quirk, and the lighting-up tuyere is located at the lower section of furnace body, institute It states on the furnace body that fire grate is mounted between lighting-up tuyere and quirk and one end and the end of blanking plate connects, the side of the quirk Fire-retardant partition board is installed, the electronic push plate is located at the lower section of fire-retardant partition board and is contacted with the lower face of fire-retardant partition board, the electricity Dynamic push plate forms the fire-retardant chamber being connected to hopper with fire-retardant partition board, is formed between fire-retardant partition board and fire grate below the quirk Combustion chamber, when electronic push plate retreats, the fire-retardant chamber is connected to combustion chamber, is equipped on the outside of the furnace body for controlling combustion chamber The air-introduced machine of burning velocity；

Flue dust separating mechanism, the flue dust separating mechanism includes high-temperature flue, and the side of the quirk is equipped with exhanst gas outlet, described High-temperature flue is connected to by exhanst gas outlet with quirk, forms the rotation of high-temperature flue gas rotation in the high-temperature flue by multiple partition boards Turn channel, the top outer of the high-temperature flue is equipped with the outlet port being connected to rotating channel；

High exhaust temperatures recovering mechanism, the high exhaust temperatures recovering mechanism include Cryogenic air heat exchange jacket, the Cryogenic air heat The middle part for exchanging set is equipped with heat exchanging chamber, and the rotating channel is arranged in heat exchanging chamber, and the Cryogenic air heat exchange jacket is equipped with Cryogenic air entrance and heat exchange air outlet, the heat exchange air are exported and are connected at the lighting-up tuyere of furnace body, the furnace body Bottom outside be equipped with the flue dust that is connected to low temperature heat exchange jacket bottom and detach cleaning door.

2. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 1, it is characterised in that：The rotating channel Including first partition, second partition and the cylinder being separately positioned in heat exchanging chamber, the first partition, second partition and separation The vertical spaced and parallel setting of cylinder, is laterally vertically equipped with exhaust gas baffle between the first partition and second partition, described first every First waste gas outlet formed on the lower face of plate and the bottom of Cryogenic air heat exchange jacket, the first partition, second partition with it is useless Gas baffle forms the first flue dust disengagement chamber being connected to the first waste gas outlet, is equipped between the cylinder and second partition mutual Parallel the first exhaust steam passage and the second exhaust steam passage, first exhaust steam passage are connected to the first flue dust disengagement chamber, described point It is the second flue dust disengagement chamber from tube inner chamber, the first partition, second partition and exhaust gas baffle are formed to be connected with the second exhaust steam passage Logical third flue dust disengagement chamber, the outlet port are connected to third flue dust disengagement chamber.

3. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 2, it is characterised in that：The furnace body is upper Breast hole is equipped with below fire grate.

4. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 1, it is characterised in that：The motor installation It is located to be equipped at quirk on inboard wall of furnace body, on the furnace body and sees burner.

5. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 1, it is characterised in that：The electronic push plate End downward vertically be equipped with fuel transport board.

6. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 1, it is characterised in that：The Cryogenic air Entrance is multiple, is evenly distributed on low temperature heat exchange and puts on.

7. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 1, it is characterised in that：The electronic push plate Bottom be equipped with pulley for being moved forward and backward on blanking plate.

8. the automatic heating stove of multi fuel whirlwind temperature-increasing energy-saving according to claim 1, it is characterised in that：The hopper is leakage Bucket type structure.