CN105090968A

CN105090968A - Garbage incinerator

Info

Publication number: CN105090968A
Application number: CN201510566186.1A
Authority: CN
Inventors: 黄峰
Original assignee: Guangxi Xiumei Zhuangxiang Energy Environmental Protection Co Ltd
Current assignee: The Guangxi Zhuang Autonomous Region Leye County Science and Technology Information Institute
Priority date: 2015-09-08
Filing date: 2015-09-08
Publication date: 2015-11-25
Anticipated expiration: 2035-09-08
Also published as: CN105090968B

Abstract

The invention provides a garbage incinerator. The garbage incinerator comprises a first incinerator body, a second incinerator body, a draught fan, an air guiding part and a smoke pipe, and a feeding port and a slag discharging port are formed. The first incinerator body is used for combusting solid garbage, the second incinerator body is used for combusting gas decomposed out when the solid garbage is combusted, and air is guided into the first incinerator body, the second incinerator body and the smoke pipe through the air guiding part and the draught fan; the fresh charging efficiency of the garbage incinerator is improved, and the combustion efficiency and temperature of the garbage incinerator are increased; and the temperature in the garbage incinerator reaches 950 DEG C-1,100 DEG C, the decomposing temperature of Dioxin is reached, and emission of the Dioxin is reduced. Meanwhile, incompletely-combusted particles in the combusting process are bonded through water steam and fall onto a flame blocking air inlet part, and due to the fact that the top face of the flame blocking air inlet part is downwards inclined, the incompletely-combusted particles finally fall into a first combustion chamber through gravity and are combusted again.

Description

A kind of incinerator

[technical field]

The invention belongs to a kind of stove and accessory, particularly a kind of incinerator.

[background technology]

Along with the development of society, the quality of life of people is become better and better, the thing followed is then a large amount of house refuse, current normally used trash processing way has following two kinds: one adopts garbage loading embeading technology, but, along with the minimizing gradually of urban land, people are also finding the scheme substituting garbage loading embeading technology; Another kind of mode is exactly burning domestic garbage, house refuse produces a large amount of toxic gases when burning, and house refuse is due to of a great variety, the density of combustible wherein, shape, chemical property, burning special efficacy are all different, therefore in the middle of common burning mode, many combustibles all can not Thorough combustion, and produce a large amount of black smokes and pernicious gas unburnt, the health of atmosphere pollution and harm humans simultaneously.In addition, the life that a large amount of foul smell affects surrounding resident can be produced in the open when rubbish burns.

， bioxin system one class extremely toxic substance in the pernicious gas produced in waste incineration, its toxicity is equivalent to 130 times of the extremely toxic substance cyanide that people know, 900 times of arsenic.Be discharged into bioxin in atmospheric environment can be adsorbed on particle, be deposited to water body and soil, then enter human body by the enrichment of food chain.Its generation be due to temperature when using common mode to carry out waste incineration is lower and bioxin the duration too shortly causes in high temperature environments.

[summary of the invention]

In view of above problem, be necessary that the stink providing a kind of incinerator to be used for when preventing incineration firing fills the air, and can decompose producing during burning bioxin.

For achieving the above object, the present invention adopts following technical scheme: a kind of incinerator, and described incinerator comprises the first body of heater, the second body of heater, blower fan, air inducing portion and smoke exhaust pipe, and is provided with spout and slag-drip opening; Described first body of heater comprises urceolus, inner core, hollow sealing part and base plate; Described inner core is arranged on outer barrel, and described base plate is arranged on the bottom surface of described inner core and described urceolus; Described hollow sealing part offers through hole, and connects the top of described inner core and described urceolus; Described inner core inside is the first combustion chamber, and surrounds into space of taking a breath together with described urceolus, described hollow sealing part and described base plate; Described inner core lower sidewall and top offer the first air admission hole, the second air admission hole respectively, and described slag-drip opening is arranged on described first bottom of furnace body, and with described first combustion chamber; Described second body of heater comprises cylindrical shell and blocks fiery intake section; Described inner barrel is the second combustion chamber, and one end is communicated with described smoke exhaust pipe, and the other end is communicated with described inner core; Describedly block fiery intake section and comprise two hollow round tables and connecting wall, outer rim is connected with described cylindrical shell, and inner side offers exhaust duct, and on the connecting wall round exhaust duct, offer the 3rd air admission hole, and is provided with air channel; Described two hollow round tables are arranged in the same way, and miner diameter end points to the first body of heater, and coaxial with described urceolus; Described air channel is between described two hollow round tables, and described connecting wall connects described two hollow round table miner diameter ends; Described 3rd air admission hole is communicated with described air channel and described exhaust duct; Described air inducing portion is communicated with described first air admission hole, the second air admission hole and the 3rd air admission hole; The fresh air that described blower fan sucks can pass described first air admission hole, the second air admission hole and the 3rd air admission hole and enter described first combustion chamber and the second combustion chamber.

Further, described cylindrical shell one end is provided with lower reducing; Described lower reducing is connected with described first body of heater top and is communicated with the first combustion chamber and the second combustion chamber.

Further, described cylindrical shell one end is provided with reducing, and described upper reducing, lower reducing are separately positioned on the two ends of described cylindrical shell, and described upper reducing is connected with described smoke exhaust pipe and is communicated with described second combustion chamber and smoke exhaust pipe.

Further, described urceolus, described inner core, described cylindrical shell, described two hollow round tables, described smoke exhaust pipe are coaxial.

Further, on the axis direction of described hollow round table, described 3rd air admission hole axis is towards the first body of heater lopsidedness.

Further, in the plane perpendicular to described hollow round table axis, described 3rd air admission hole axis tilts towards the tangential direction of the position on the connecting wall of place.

Further, described spout inclined bottom surface is downward, and to make feed end high, discharge end is low.

Further, described smoke exhaust pipe comprises smoke exhaust pipe body and rain cover, and described rain cover is arranged on described smoke exhaust pipe bodies top.

Further, the exhaust outlet of described blower fan is communicated with described urceolus, in order to fresh air is entered described first combustion chamber and described air channel by described air inducing portion.

Further, described blower fan is communicated with described air inducing portion, in order to fresh air is entered described first combustion chamber and described air channel by described air inducing portion.

The present invention has following beneficial effect:

The present invention is used for the first body of heater of burning solid rubbish, the second body of heater of gas for decompositing during burning solid incineration firing by arranging, and be provided with air inducing portion and fresh air is introduced the first body of heater and the second body of heater by blower fan, improve efficiency of combustion and the temperature of incinerator, the temperature in incinerator is made to reach 950 DEG C ~ 1100 DEG C, reach the decomposition temperature of bioxin, greatly reduce the discharge of bioxin.Simultaneously, steam can be produced during oven dry rubbish and when solid refuse burns, imperfect combustion particle in combustion process is clung to drop by steam and is blocking on fiery intake section, downward-sloping and be affected by gravity owing to blocking fiery intake section end face, imperfect combustion particle finally to fall in the first combustion chamber and again burns.Unburnt gas spreads to both sides in lower reducing place after entering described second combustion chamber, block fiery intake section place due to block the impact of fiery intake section to while intermediate reflux simultaneously because the impact of inertia is flow backwards to the first body of heater side, and then unburnt gas is fully mixed with air, improve the efficiency of combustion of unburnt gas.

[accompanying drawing explanation]

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

Main element symbol description

Incinerator 100	First body of heater 1	Urceolus 11
			Inner core 12	First air admission hole 121	Second air admission hole 122
Base plate 13	Hollow sealing part 14	Through hole 141
			Bracing frame 15	First combustion chamber 16	Ventilation space 17
Cylindrical shell 21	Lower reducing 211	Upper reducing 212
			Block fiery intake section 22	Connecting wall 221	3rd air admission hole 222
Air channel 223	Hollow round table 224	Second combustion chamber 23
			Exhaust duct 24	Smoke exhaust pipe 3	Smoke exhaust pipe body 31
Rain cover 32	Air inducing portion 4	Blower fan 5
			Spout 6	Slag-drip opening 7	Lid 71

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 comprises one first body of heater 1,1 second body of heater 2, smoke exhaust pipe 3, air inducing portion 4 and a blower fan 5, and is provided with spout 6 and a slag-drip opening 7.

Described first body of heater 1 comprises urceolus 11, inner core 12, base plate 13, hollow sealing part 14 and three bracing frames 15.The bottom of described inner core 12 sidewall offers circle first air admission hole 121, and top offers circle second air admission hole 122.Described base plate 13 is arranged on the bottom of described urceolus 11, described inner core 12, and described hollow sealing part 14 offers through hole 141, and connects the top of described inner core 12 and described urceolus 11.Described inner core 12 inside is the first combustion chamber 16; Described urceolus 11, described inner core 12, described base plate 13 and described hollow sealing part 14 surround into a ventilation space 17 together.Described urceolus 11 is coaxial with described inner core 12.Described slag-drip opening 7 is arranged on the sidewall bottom described first body of heater 1, is communicated with, and is provided with lid 71 with described first combustion chamber 16.Described three bracing frames 15 are evenly arranged on the sidewall of described urceolus 11, for supporting described incinerator 100.

Described second body of heater 2 comprises a cylindrical shell 21 and and blocks fiery intake section 22.Described cylindrical shell 21 inside is the second combustion chamber 23, and two ends are respectively arranged with reducing 212, lower reducing 211.Described lower reducing 211 is connected with described first body of heater 1 top and is communicated with the first combustion chamber 16 and the second combustion chamber 23 by described through hole 141.Described upper reducing 212 is connected with described smoke exhaust pipe 3 and is communicated with described second combustion chamber 23 and described smoke exhaust pipe 3.Describedly block fiery intake section 22 outer rim and be connected with described cylindrical shell 21, inner side offers exhaust duct 24, and on the connecting wall 221 round described exhaust duct 24, offer a circle the 3rd air admission hole 222.Describedly block fiery intake section 22 inside and be provided with an air channel 223; Described 3rd air admission hole 222 is communicated with described air channel 223 and described exhaust duct 24.In the middle of the present embodiment, described in block fiery intake section 22 and comprise two hollow round tables 224 and described connecting wall 221; Described two hollow round tables 224 are arranged in the same way, and miner diameter end points to the first body of heater 1, and coaxial with described urceolus 11, described inner core 12; Form described air channel 223 between described two hollow round tables 224, described connecting wall 221 connects described two hollow round table 224 miner diameter ends; Described spout 6 is connected with bottom described second body of heater 2, and described spout 6 bottom surface is tilted to down towards the central axis direction of described second body of heater 2, and to make feed end high, discharge end is low.Preferably, on the axis direction of described two hollow round tables 224, described 3rd air admission hole 222 axis is towards described first body of heater 1 lopsidedness; In the plane perpendicular to described hollow round table 224 axis, described 3rd air admission hole 222 axis tilts towards the tangential direction of the position on place connecting wall 221.In another embodiment of the present invention, described hollow sealing portion 14 is the extension of described lower reducing 211, and described lower reducing 211 miner diameter end is connected with described inner core 12, and sidewall or the bigger diameter end of described urceolus 11 and described lower reducing 211 are connected.

Described smoke exhaust pipe 3 comprises smoke exhaust pipe body 31 and rain cover 32, and described rain cover 32 is arranged on the top of described smoke exhaust pipe 3.Especially, described urceolus 11, described inner core 12, described cylindrical shell 21, described two hollow round tables 224, described smoke exhaust pipe body 31 are coaxial.

Described air inducing portion 4 is hollow pipeline, and is communicated with described ventilation space 17 and described air channel 223.Described blower fan 5 is arranged on the first body of heater 1, the exhaust outlet of described blower fan 5 is communicated with described urceolus 11, in order to by fresh air by described ventilation space 17, described air inducing portion 4, through described first air admission hole 121, second air admission hole 122, the 3rd air admission hole 222, enter described first combustion chamber 16 and described air channel 223.In the middle of another embodiment of the present invention, the exhaust outlet of described blower fan is communicated with described air inducing portion 4.

During use, rubbish is poured into described incinerator 100 from spout 6, rubbish falls into the inner core 12 of described first body of heater 1 along described spout 6, then blower fan 5 air feed is opened, charcoal and gasoline is used to light rubbish, along with increasing gradually and the increase of intake air temperature of furnace temperature, the moisture in rubbish is evaporated gradually, therefore need not add charcoal again and gasoline rubbish all can burn away.Solid decomposites a large amount of unburnt gas when burning in described first combustion chamber 16, can again burn during the air that these unburnt gas run into described second air admission hole 122 in described second combustion chamber 23, described 3rd air admission hole 222 sprays.Because described 3rd air admission hole 222 tangentially enters described second combustion chamber 23, eddy current can be formed in described second combustion chamber 23; Unburnt gas spreads to both sides at lower reducing 211 place after entering described second combustion chamber 23, block fiery intake section place 22 due to block the impact of fiery intake section to while intermediate reflux simultaneously because the impact of inertia is flow backwards to the first body of heater 1 side, and then unburnt gas is fully mixed with air, and then improve the efficiency of combustion of unburnt gas.Meanwhile, because the temperature of described second combustion chamber 23 reaches 950-1100 DEG C, produce bioxin in incineration firing process and be decomposed in described second combustion chamber 23 and described smoke exhaust pipe 3, greatly reduce the discharge of bioxin.

Simultaneously, the steam that imperfect combustion particle in combustion process produces when being dried rubbish and solid refuse burning clings to drop and blocks fiery intake section 22 described, to block fiery intake section 22 end face downward-sloping and be affected by gravity due to described, imperfect combustion particle finally falls in the first combustion chamber 16 and also again burns, and blocks fiery intake section 22 and be not easy carbon deposit described in making.

Lime-ash after incineration firing drops in the bottom of the first body of heater 1, can be taken out by slag-drip opening 7.

The present invention is used for the first body of heater 1 of burning solid rubbish, the second body of heater 2 of gas for decompositing during burning solid incineration firing by arranging, and be provided with air inducing portion 4 and fresh air is introduced the first body of heater 1, second body of heater 2 and smoke exhaust pipe 3 by blower fan 5, add the fresh charge of incinerator 100, improve efficiency of combustion and the temperature of incinerator 100, the temperature in incinerator is made to reach 950 DEG C ~ 1100 DEG C, reach the decomposition temperature of bioxin, greatly reduce the discharge of bioxin.Simultaneously, steam can be produced during oven dry rubbish and when solid refuse burns, imperfect combustion particle in combustion process is clung to drop by steam and is blocking on fiery intake section 22, downward-sloping and be affected by gravity owing to blocking fiery intake section 22 end face, imperfect combustion particle finally to fall in the first combustion chamber 16 and again burns.Unburnt gas spreads to both sides at lower reducing 211 place after entering described second combustion chamber 23, block fiery intake section place 22 due to block the impact of fiery intake section to while intermediate reflux simultaneously because the impact of inertia is flow backwards to the first body of heater 1 side, and then unburnt gas is fully mixed with air, improve the efficiency of combustion of unburnt gas

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

1. an incinerator, is characterized in that: described incinerator comprises the first body of heater, the second body of heater, blower fan, air inducing portion and smoke exhaust pipe, and is provided with spout and slag-drip opening; Described first body of heater comprises urceolus, inner core, hollow sealing part and base plate; Described inner core is arranged on outer barrel, and described base plate is arranged on the bottom surface of described inner core and described urceolus; Described hollow sealing part offers through hole, and connects the top of described inner core and described urceolus; Described inner core inside is the first combustion chamber, and surrounds into space of taking a breath together with described urceolus, described hollow sealing part and described base plate; Described inner core lower sidewall and top offer the first air admission hole, the second air admission hole respectively, and described slag-drip opening is arranged on described first bottom of furnace body, and with described first combustion chamber; Described second body of heater comprises cylindrical shell and blocks fiery intake section; Described inner barrel is the second combustion chamber, and one end is communicated with described smoke exhaust pipe, and the other end is communicated with described inner core by described through hole; Describedly block fiery intake section outer rim and be connected with described cylindrical shell, inner side offers exhaust duct, and on the connecting wall round exhaust duct, offer the 3rd air admission hole, and is provided with air channel; Described air channel is communicated with described air inducing portion; Described 3rd air admission hole is communicated with described air channel and described exhaust duct; Described 3rd air admission hole is communicated with described air channel and described exhaust duct; Described air inducing portion is communicated with described first air admission hole, the second air admission hole and the 3rd air admission hole; The fresh air that described blower fan sucks can pass described first air admission hole, the second air admission hole and the 3rd air admission hole and enter described first combustion chamber and the second combustion chamber.

2. incinerator as claimed in claim 1, is characterized in that: described cylindrical shell one end is provided with lower reducing; Described lower reducing is connected with described first body of heater top and is communicated with the first combustion chamber and the second combustion chamber.

3. incinerator as claimed in claim 2, it is characterized in that: described cylindrical shell one end is provided with reducing, described upper reducing, lower reducing are separately positioned on the two ends of described cylindrical shell, and described upper reducing is connected with described smoke exhaust pipe and is communicated with described second combustion chamber and smoke exhaust pipe.

4. incinerator as claimed in claim 3, is characterized in that: described urceolus, described inner core, described cylindrical shell, described two hollow round tables, described smoke exhaust pipe are coaxial.

5. incinerator as claimed in claim 4, it is characterized in that: on the axis direction of described hollow round table, described 3rd air admission hole axis is towards the first body of heater lopsidedness.

6. incinerator as claimed in claim 5, it is characterized in that: in the plane perpendicular to described hollow round table axis, described 3rd air admission hole axis tilts towards the tangential direction of the position on the connecting wall of place.

7. incinerator as claimed in claim 6, is characterized in that: described spout bottom surface is tilted to down towards the central axis direction of described second body of heater, and to make feed end high, discharge end is low.

8. incinerator as claimed in claim 7, it is characterized in that: described smoke exhaust pipe comprises smoke exhaust pipe body and rain cover, described rain cover is arranged on described smoke exhaust pipe bodies top.

9., as the incinerator as described in arbitrary in claim 1-8, it is characterized in that: the exhaust outlet of described blower fan is communicated with described urceolus, in order to fresh air is entered described first combustion chamber and described air channel by described air inducing portion.

10., as the incinerator as described in arbitrary in claim 1-8, it is characterized in that: described blower fan is communicated with described air inducing portion, in order to fresh air is entered described first combustion chamber and described air channel by described air inducing portion.