CN105090974A - Incinerator - Google Patents

Abstract

The invention provides an incinerator. The incinerator comprises a base, a lower truncated cone-shaped body, an upper truncated cone-shaped body, a hot-air blower, a smoke exhaust pipe and a heat-energy air returning pipe, wherein the lower truncated cone-shaped body is mounted on the base, and a first combustion chamber in which fuel is combusted is arranged in the lower truncated cone-shaped body; a lower shrink opening is formed in the bottom part of the lower truncated cone-shaped body, and a first ventilating channel is arranged in the lower truncated cone-shaped body; a second combustion chamber is arranged in the upper truncated cone-shaped body, and an upper shrink opening is formed in the top part of the upper truncated cone-shaped body; a second ventilating channel is arranged in the upper truncated cone-shaped body; the smoke exhaust pipe communicates with the second combustion chamber through the upper shrink opening; one end of the heat-energy air returning pipe passes through the smoke exhaust pipe and is provided with an air exhaust opening through which air can be charged into the heat-energy air returning pipe, and the other end of the heat-energy air returning pipe communicates with the hot-air blower; the hot-air blower communicates with the first ventilating channel and can be used for absorbing the mixed hot air through the heat-energy air returning pipe and then blowing the mixed hot air into the first combustion chamber through the first ventilating chamber and the first ventilating hole and blowing the mixed hot air into the second combustion chamber through the second ventilating channel and the second ventilating hole, wherein the mixed hot air is the mixture of the heat energy in the heat-energy-driven air returning pipe and the air charged through the air exhaust opening.

Description

A kind of incinerator

[technical field]

The present invention relates to a kind of stove and accessory, be specifically related to a kind of environmental-friendcombustion combustion furnace.

[background technology]

Along with the raising of life in the countryside level, the thing followed is then a large amount of house refuse, produce black smoke from burning away the refuse everywhere and directly shroud whole rural area, to setting up some garbage pool or incinerator to alleviate the discharge of smog, but all there is the problem of a large amount of black smoke of the insufficient direct discharge of incineration firing in the processing mode of above-mentioned rubbish, so not only contaminated environment but also discharge that some are unburnt, the pernicious gas as bioxin one class threatens the healthy of whole villager.

[summary of the invention]

In view of above content, be necessary to provide a kind of incinerator, this incinerator can make rubbish Thorough combustion, and has continuous high temperature resolving harmful gas, thus reduces the discharge of pernicious gas.

For achieving the above object, the technical solution adopted in the present invention is: an incinerator, and described incinerator includes base, furnace body, air-heater, smoke exhaust pipe and heat energy backwind tube; Described furnace body includes truncated cone-shaped lower furnace body and truncated cone-shaped upper furnace body, described truncated cone-shaped lower furnace body is arranged on described base, and the first combustion chamber of combustion fuel is provided with in inside, and bottom offers the lower reducing in order to discharge lime-ash outside described furnace body, described truncated cone-shaped lower furnace body is also provided with the first ventilating duct with described first combustion chamber; Described truncated cone-shaped upper furnace body and described truncated cone-shaped lower furnace body one-body molded, and be provided with the second combustion chamber with described first combustion chamber in inside, and top offers in order to the upper reducing to the heat produced during discharge fuel burning outside described furnace body and/or flame; The urceolus that described truncated cone-shaped lower furnace body and described truncated cone-shaped upper furnace body also include inner core respectively and be set in outside described inner core, be formed with the first ventilating duct between the inner core of described truncated cone-shaped lower furnace body and urceolus, the inner core of described truncated cone-shaped upper furnace body be formed with the second ventilating duct be communicated with the first ventilating duct between urceolus; The inner core of described truncated cone-shaped lower furnace body circumferentially offers around at least two of the central shaft of described truncated cone-shaped lower furnace body some first air vents being communicated with described first combustion chamber and described first ventilating duct respectively, the inner core of described truncated cone-shaped upper furnace body circumferentially offers around at least one of the central shaft of described truncated cone-shaped upper furnace body some second air vents being communicated with described second combustion chamber and described second ventilating duct; Described smoke exhaust pipe is by described upper reducing and described second combustion chamber, and described smoke exhaust pipe is run through in described heat energy backwind tube one end, and offers the exhaust outlet entering air in described heat energy backwind tube, and the other end is communicated with described air-heater; Described air-heater is communicated with described first ventilating duct, and through being blown into described first combustion chamber by described first ventilating duct and described some first air vents after the heat of mixing absorption of air that the heat energy in described heat energy backwind tube and the air entered from described exhaust outlet can be mixed to get by described heat energy backwind tube, be blown into described second combustion chamber via described second ventilating duct and described some second air vents.

Preferably, described heat energy backwind tube includes heat-conducting part, transfer tube and tube connector, described heat-conducting part is positioned at described smoke exhaust pipe, and heat energy can be passed in described heat energy backwind tube, described transfer tube can be communicated with described heat-conducting part after the described smoke exhaust pipe of insertion, and described tube connector is communicated with described transfer tube and described air-heater.

Preferably, described heat-conducting part includes the first heat pipe and the second heat pipe, described first heat pipe is positioned at the inside of described smoke exhaust pipe, and part exposes described smoke exhaust pipe, the first end of described first heat pipe offers described exhaust outlet, described second heat pipe is positioned at described smoke exhaust pipe, and one end second end relative with first end with described first heat pipe is communicated with, and the other end is communicated with described transfer tube.

Preferably, the central shaft of described truncated cone-shaped lower furnace body overlaps with the central shaft of described truncated cone-shaped upper furnace body; On the center of described upper reducing and the central shaft being centrally located at described truncated cone-shaped lower furnace body of described lower reducing.

Preferably, the internal diameter that described truncated cone-shaped lower furnace body points to described upper reducing by described lower reducing increases gradually, and the internal diameter that described truncated cone-shaped upper furnace body points to described upper reducing by described lower reducing reduces gradually.

Preferably, the central shaft of described at least two circumference overlaps with the central shaft of described truncated cone-shaped lower furnace body.

Preferably, the center of described at least one circumference is on the central shaft of described truncated cone-shaped upper furnace body, and described at least one circumference is perpendicular to the central shaft of described truncated cone-shaped upper furnace body.

Preferably, described at least two circumference equidistantly distribute on the central axis direction of parallel described truncated cone-shaped lower furnace body.

Preferably, each first air vent and each the second air vent tilt towards the tangential direction of place circumferential position, and each second air vent tilts towards described lower reducing on parallel and described furnace body central axis direction.

Preferably, described incinerator also includes the grey cylinder of storage and scum pipe, and described storage ash cylinder is positioned at the below of described truncated cone-shaped lower furnace body, and described scum pipe can be communicated with by cylinder with described storage.

The present invention has following beneficial effect:

The present invention is when incineration firing, described air-heater work heat outputting air-flow, described first combustion chamber is blown into via described first ventilating duct and described some first air vents, be blown into described second combustion chamber via described second ventilating duct and described some second air vents, and form eddy current in described second combustion chamber, in described first combustion chamber, thermal current can be dried rubbish and/or be accelerated incineration firing, rubbish produces a large amount of unburnt gas when described first combustion chambers burn, again burn after the thermal current that these unburnt gas spray with described some second air vents in described second combustion chamber fully mixes, treat that the temperature in described smoke exhaust pipe raises gradually, heat energy in described smoke exhaust pipe is passed in described heat energy backwind tube, and after mixing with the air entered from described exhaust outlet, continue and unburnt gas mixing after-combustion in the second combustion chamber by described air-heater the heat of mixing air in described heat energy backwind tube being drawn into described furnace body again by described heat energy backwind tube, recycle mixing heat energy like this, make rubbish Thorough combustion, treat certain hour, the pernicious gas as bioxin one class can be decomposed after temperature in combustion chamber reaches 950 °-1100 °, greatly reduce the discharge of pernicious gas, and save the heat energy of at least 30%.

[accompanying drawing explanation]

Fig. 1 is a structural representation of a better embodiment of incinerator of the present invention.

Main element symbol description

Incinerator 100	Base 10	Furnace body 20
			Feed pipe 30	Store up grey cylinder 40	Scum pipe 50
Cover body 70	Air-heater 80	Chassis 11
			Feet 12	Truncated cone-shaped lower furnace body 21	Truncated cone-shaped upper furnace body 22
First combustion chamber 211	Lower reducing 212	Upper reducing 222
			Inner core 213,223	Urceolus 214,224	First ventilating duct 215
First air vent 2131	Second ventilating duct 225	Second air vent 2231
			Charging aperture 31	Closing door 32	Slag-drip opening 51
Deslagging lid 52	Second combustion chamber 221	Smoke exhaust pipe 60
			Heat energy backwind tube 90	Heat-conducting part 91	Transfer tube 92
Tube connector 93	First heat pipe 911	Second heat pipe 912
			Exhaust outlet 9111

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

[detailed description of the invention]

Refer to Fig. 1, in a better embodiment of the present invention, an incinerator 100 includes base 10, furnace body 20, feed pipe 30, grey cylinder 40, scum pipe 50, smoke exhaust pipe 60, cover body 70, air-heater 80 of storage and a heat energy backwind tube 90.Described furnace body 20, the grey cylinder of described storage 40, described scum pipe 50, described smoke exhaust pipe 60 and described heat energy backwind tube 90 are made by exotic material.

Described base 10 includes a chassis 11 and some feets 12 (only showing in figure).In the present embodiment, described chassis 11 is rounded, and can place on the ground; Described feet 12 has three, and this three feet 12 is evenly distributed on described chassis 11, and in order to support described furnace body 20.

Described furnace body 20 includes truncated cone-shaped lower furnace body 21 and a truncated cone-shaped upper furnace body 22.Described truncated cone-shaped lower furnace body 21 is arranged on described base 10, and is provided with the first combustion chamber 211 of a combustion fuel in inside, and bottom offers one in order to discharge the lower reducing 212 of lime-ash outside described furnace body 20.Described truncated cone-shaped upper furnace body 22 is one-body molded with described truncated cone-shaped lower furnace body 21, and be provided with second combustion chamber 221 be communicated with described first combustion chamber 211 in inside, and top offer one in order to burn to the outer discharge fuel of described furnace body 20 time the heat that produces and/or the upper reducing 222 of flame.

Described truncated cone-shaped lower furnace body 21 and described truncated cone-shaped upper furnace body 22 also include an inner core 213,223 and respectively and are set in urceolus 214,224 outside described inner core 213,223.Described first combustion chamber 211 is located in the inner core 213 of described truncated cone-shaped lower furnace body 21, forms one first ventilating duct 215 between the inner core 213 of described truncated cone-shaped lower furnace body 21 and urceolus 214; The inner core 213 of described truncated cone-shaped lower furnace body 21 circumferentially offers around the some of the central shaft of described truncated cone-shaped lower furnace body 21 some first air vents 2131 being communicated with described first combustion chamber 211 and described second combustion chamber 221 respectively, and the central shaft of described some circumference overlaps with the central shaft of described truncated cone-shaped lower furnace body 21; In the present embodiment, the inner core 213 of described truncated cone-shaped lower furnace body 21 offers described some first air vents 2131 respectively on three circumference A, B, C of the central shaft of described truncated cone-shaped lower furnace body 21.

Described second combustion chamber 221 is located in the inner core 223 of described truncated cone-shaped upper furnace body 22, form second ventilating duct 225 be communicated with described first ventilating duct 215 between the inner core 223 of described truncated cone-shaped upper furnace body 22 and urceolus 224, described second ventilating duct 225 can be communicated with described second combustion chamber 221; The inner core 223 of described truncated cone-shaped upper furnace body 22 circumferentially offers around the some of the central shaft of described truncated cone-shaped upper furnace body 22 some second air vents 2231 being communicated with described second combustion chamber 221 and described second ventilating duct 225 respectively, in the present embodiment, the inner core 223 of described truncated cone-shaped upper furnace body 22 offers described some second air vents 2231 respectively on two circumference D, E of the central shaft of described truncated cone-shaped upper furnace body 22.

Inner core 213 internal diameter of described truncated cone-shaped lower furnace body 21 is pointed on described upper reducing 222 direction by described lower reducing 212 and increases gradually, and the internal diameter that inner core 223 internal diameter of described truncated cone-shaped upper furnace body 22 is pointed on described upper reducing 222 direction by described lower reducing 212 reduces gradually; Preferably, inner core 213 and the urceolus 214 of described truncated cone-shaped lower furnace body 21 all have truncated cone-shaped profile, and inner core 223 and the urceolus 224 of described truncated cone-shaped upper furnace body 21 all have truncated cone-shaped profile.The central shaft of described truncated cone-shaped lower furnace body 21 overlaps with the central shaft of described truncated cone-shaped upper furnace body 22, on the center of described upper reducing 222 and the central shaft being centrally located at described truncated cone-shaped lower furnace body 21 of described lower reducing 212.

Please continue to refer to Fig. 1, in embodiments of the present invention, described three circumference A, B, C equidistantly distribute on the central axis direction being parallel to described truncated cone-shaped lower furnace body 21; Described two circumference D, E are greater than the distance of described two circumference to place, described upper reducing 222 edge plane to described truncated cone-shaped lower furnace body 21 and the distance of described truncated cone-shaped upper furnace body 22 joint face.Each first air vent 2131 and each the second air vent 2231 tilt towards correspondence tangential direction circumferentially, and diameter is 0.5-4.5cm, aperture can be prevented so too large and air-flow via described first air vent 2131 or the second air vent 2231 blows out fuel, in addition, aperture also can be prevented too little and be easy to be blocked by particle; Simultaneously, on the central axis direction being parallel to described furnace body 20, each second air vent 2231 tilts towards described lower reducing 212 direction, can ensure that the air-flow sprayed via described some second air vents 2231 forms eddy current in described second combustion chamber 22 like this.Further, the height of described truncated cone-shaped lower furnace body 21 is less than the height of described truncated cone-shaped upper furnace body 22, thus when can ensure the fuel combustion in the first combustion chamber 211 of described truncated cone-shaped lower furnace body 21, described truncated cone-shaped upper furnace body 22 can have time enough process smog and decomposing harmful substances.

Described feed pipe 30 one end connects described truncated cone-shaped upper furnace body 22, and the other end offers a charging aperture 31, and fuel can enter described feed pipe 30 via described charging aperture 31, is then pushed to described second combustion chamber 221 and drops to described first combustion chamber 211.The edge of described charging aperture 31 is provided with one in order to close the closing door 32 of described charging aperture 31, and described closing door 32 is in order to close described furnace body 20 when described fuel combustion.

The grey cylinder of described storage 40 is arranged on the below of described truncated cone-shaped lower furnace body 21, and is communicated with described first combustion chamber 211, and in addition, conflict described chassis 11 in the bottom of the grey cylinder of described storage 40.In the present embodiment, the internal diameter of the grey cylinder of described storage 40 is suitable with the diameter of described lower reducing 212.The ash that fuel combustion is remaining and/or recrement all fall to the grey cylinder 40 of described storage, thus prevent dust and/or recrement from flashing, contaminated environment.One end of described scum pipe 50 is communicated with the grey cylinder 40 of described storage, the other end is provided with slag-drip opening 51, ash and/or recrement discharge the grey cylinder 40 of described storage by described scum pipe 50 via described slag-drip opening 51, thus prevent the situation directly causing scald from storage grey cylinder 40 ash discharge and/or slag.In the present embodiment, the grey cylinder of described storage 40 is coaxial with described furnace body 20.For preventing scum pipe 50 from having foreign matter to enter, the edge of described slag-drip opening 51 is provided with a deslagging lid 52, and described deslagging lid 52 closes to close described slag-drip opening 51 when described scum pipe 50 does not use.

The lower end of described smoke exhaust pipe 60 is connected by adpting flange with the top of described truncated cone-shaped upper furnace body 22, and is communicated with described furnace body 20 by described upper reducing 222, in order to heat and/or the flame of generation after discharge fuel burning.Described cover body 70 is arranged on the top of described smoke exhaust pipe 60, to cover described smoke exhaust pipe 60, thus prevents rainwater to drop described furnace body 20.

Described air-heater 80 is arranged on described base 10, and is communicated with described first ventilating duct 215, carries thermal current with in described furnace body 20 in the past.

Described smoke exhaust pipe 60 is run through in described heat energy backwind tube 90 one end, and the other end is communicated with described air-heater 80, and includes heat-conducting part 91, transfer tube 92 and a tube connector 93.Described heat-conducting part 91 is positioned at described smoke exhaust pipe 60, and heat energy can be passed in described heat energy backwind tube 90, described transfer tube 92 can be communicated with described heat-conducting part 91 after the described smoke exhaust pipe 60 of insertion, and described tube connector 93 is communicated with described transfer tube 92 and described air-heater 90.Further, described heat-conducting part 91 includes one first heat pipe 911 and one second heat pipe 912, described first heat pipe 911 is positioned at the inside of described smoke exhaust pipe 60, and part exposes described smoke exhaust pipe 60, in addition, the first end of described first heat pipe 911 offers the exhaust outlet 9111 that enters air in described heat energy backwind tube 90, and described second heat pipe 912 is positioned at described smoke exhaust pipe 60, and one end second end relative with first end with described first heat pipe 911 is communicated with; The other end is communicated with described transfer tube 92.In the present embodiment, the central shaft of described first heat pipe 911 and the central shaft of institute's family transfer tube 92 respectively with central axis, the central shaft of described transfer tube 92 and the central axis of described tube connector 93 of described second heat pipe 912.

Please refer to Fig. 1, during use, open described closing door 32, fuel is sent into described feed pipe 30 from described feeding port 31, then fuel is pushed described second combustion chamber 221 and fall to described first combustion chamber 211, described air-heater 80 is started while lighting rubbish, described air-heater 80 works heat outputting air-flow, described first combustion chamber 211 is blown into via described first ventilating duct 215 and described some first air vents 2131, be blown into described second combustion chamber 221 via described second ventilating duct 225 and described some second air vents 2231, and form eddy current in described second combustion chamber 221, in described first combustion chamber 211, thermal current can be dried rubbish and/or be accelerated incineration firing, rubbish produces a large amount of unburnt gas when burning in described first combustion chamber 211, again burn after the thermal current that these unburnt gas spray with described some second air vents 2231 in described second combustion chamber 221 fully mixes, treat that the temperature in described smoke exhaust pipe 60 raises gradually, heat energy in described smoke exhaust pipe 60 is passed in described heat energy backwind tube 90, and after mixing with the air entered from described exhaust outlet 9111, by described air-heater 80, the heat of mixing air in described heat energy backwind tube 90 is drawn into the second interior continuation in combustion chamber 221 and unburnt gas mixing after-combustion of described furnace body 20 again by described heat energy backwind tube 90, recycle mixing heat energy like this, make rubbish Thorough combustion, treat certain hour, the pernicious gas as bioxin one class can be decomposed after temperature in combustion chamber reaches 950 °-1100 °, greatly reduce the discharge of pernicious gas, and save the heat energy of at least 30%.

In addition, the internal diameter that inner core 223 due to described truncated cone-shaped upper furnace body 22 points to described upper reducing 222 reduces gradually, therefore, the imperfect combustion particle that the inner core 223 of described round platform taper upper furnace body 22 produces when can block incineration firing, the gravity of adding imperfect combustion particle self again falls to described first combustion chamber 211 and again burns, and realizes clean-burning object.

Above-mentioned explanation is the detailed description for the better possible embodiments of the present invention, but embodiment is also not used to limit patent claim of the present invention, the equal change completed under technical spirit suggested by all the present invention or modification are changed, and all should belong to the present invention and contain the scope of the claims.

Claims (10)

1. an incinerator, is characterized in that: described incinerator includes base, furnace body, air-heater, smoke exhaust pipe and heat energy backwind tube;

Described furnace body includes truncated cone-shaped lower furnace body and truncated cone-shaped upper furnace body, described truncated cone-shaped lower furnace body is arranged on described base, and the first combustion chamber of combustion fuel is provided with in inside, and bottom offers the lower reducing in order to discharge lime-ash outside described furnace body, described truncated cone-shaped lower furnace body is also provided with the first ventilating duct with described first combustion chamber;

Described truncated cone-shaped upper furnace body and described truncated cone-shaped lower furnace body one-body molded, and be provided with the second combustion chamber with described first combustion chamber in inside, and top offers in order to the upper reducing to the heat produced during discharge fuel burning outside described furnace body and/or flame; The urceolus that described truncated cone-shaped lower furnace body and described truncated cone-shaped upper furnace body also include inner core respectively and be set in outside described inner core, be formed with the first ventilating duct between the inner core of described truncated cone-shaped lower furnace body and urceolus, the inner core of described truncated cone-shaped upper furnace body be formed with the second ventilating duct be communicated with the first ventilating duct between urceolus; The inner core of described truncated cone-shaped lower furnace body circumferentially offers around at least two of the central shaft of described truncated cone-shaped lower furnace body some first air vents being communicated with described first combustion chamber and described first ventilating duct respectively, the inner core of described truncated cone-shaped upper furnace body circumferentially offers around at least one of the central shaft of described truncated cone-shaped upper furnace body some second air vents being communicated with described second combustion chamber and described second ventilating duct;

Described smoke exhaust pipe is by described upper reducing and described second combustion chamber, and described smoke exhaust pipe is run through in described heat energy backwind tube one end, and offers the exhaust outlet entering air in described heat energy backwind tube, and the other end is communicated with described air-heater; Described air-heater is communicated with described first ventilating duct, and through being blown into described first combustion chamber by described first ventilating duct and described some first air vents after the heat of mixing absorption of air that the heat energy in described heat energy backwind tube and the air entered from described exhaust outlet can be mixed to get by described heat energy backwind tube, be blown into described second combustion chamber via described second ventilating duct and described some second air vents.

2. incinerator as claimed in claim 1, it is characterized in that: described heat energy backwind tube includes heat-conducting part, transfer tube and tube connector, described heat-conducting part is positioned at described smoke exhaust pipe, and heat energy can be passed in described heat energy backwind tube, described transfer tube can be communicated with described heat-conducting part after the described smoke exhaust pipe of insertion, and described tube connector is communicated with described transfer tube and described air-heater.

3. incinerator as claimed in claim 2, it is characterized in that: described heat-conducting part includes the first heat pipe and the second heat pipe, described first heat pipe is positioned at the inside of described smoke exhaust pipe, and part exposes described smoke exhaust pipe, the first end of described first heat pipe offers described exhaust outlet, described second heat pipe is positioned at described smoke exhaust pipe, and one end second end relative with first end with described first heat pipe is communicated with, and the other end is communicated with described transfer tube.

4. the incinerator as described in claim 1 or 3, is characterized in that: the central shaft of described truncated cone-shaped lower furnace body overlaps with the central shaft of described truncated cone-shaped upper furnace body; On the center of described upper reducing and the central shaft being centrally located at described truncated cone-shaped lower furnace body of described lower reducing.

5. incinerator as claimed in claim 4, it is characterized in that: the inner core internal diameter of described truncated cone-shaped lower furnace body is pointed on described upper reducing direction by described lower reducing and increases gradually, described truncated cone-shaped upper furnace body is pointed on described upper reducing direction by described lower reducing and reduces gradually.

6. incinerator as claimed in claim 5, is characterized in that: the central shaft of described at least two circumference overlaps with the central shaft of described truncated cone-shaped lower furnace body.

7. incinerator as claimed in claim 6, is characterized in that: the center of described at least one circumference is on the central shaft of described truncated cone-shaped upper furnace body, and described at least one circumference is perpendicular to the central shaft of described truncated cone-shaped upper furnace body.

8. incinerator as claimed in claim 6, is characterized in that: described at least two circumference equidistantly distribute on the central axis direction of parallel described truncated cone-shaped lower furnace body.

9. incinerator as claimed in claim 7, it is characterized in that: each first air vent and each the second air vent tilt towards the tangential direction of place circumferential position, and each second air vent tilts towards described lower reducing on parallel and described furnace body central axis direction.

10. incinerator as claimed in claim 1, is characterized in that: described incinerator also includes the grey cylinder of storage and scum pipe, and described storage ash cylinder is positioned at the below of described truncated cone-shaped lower furnace body, and described scum pipe can be communicated with by cylinder with described storage.