CN217057544U

CN217057544U - Multifunctional garbage incinerator

Info

Publication number: CN217057544U
Application number: CN202121163285.2U
Authority: CN
Inventors: 宋利; 段翠兰
Original assignee: Bayannur Huili Boiler Manufacturing Co ltd
Current assignee: Bayannur Huili Boiler Manufacturing Co ltd
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2022-07-26
Anticipated expiration: 2031-05-27

Abstract

The utility model relates to an burn burning furnace, in particular to multi-functional waste incinerator. The dry type adsorption and purification device comprises a furnace body, a dry type adsorption and purification device for flue gas and an air distribution structure, wherein an ash cleaning chamber, a primary combustion chamber and a secondary combustion chamber which are communicated with each other are sequentially arranged in the furnace body from bottom to top; the air distribution structure is used for providing oxygen for the combustion of the primary combustion chamber and the secondary combustion chamber and providing stirring power for dust fall of the smoke staying in the sedimentation tank. The utility model discloses can make various rubbish burning thoroughly, harmful gas adsorbs filtration purification treatment effectually, discharges and reaches the requirement, and the power consumption is low, can not cause secondary pollution.

Description

Multifunctional garbage incinerator

Technical Field

The utility model relates to an burn burning furnace, in particular to multi-functional waste incinerator.

Background

Along with the acceleration of urban and rural construction process and the improvement of economic conditions in China, the most serious is the pollution of various wastes, medical wastes, animal carcasses and household wastes are the most prominent phenomena of infectious diseases for a long time, the pollution problem of the medical wastes, the animal carcasses and the household wastes becomes an important factor influencing the sustainable development of life production and urban construction of people, and the development process of life of people is hindered.

The current medical waste, animal carcass and household garbage treatment mode is generally single and laggard, the problems of long transportation distance, high operation cost and the like are faced in the 'collection, transportation and treatment' mode, the waste can not come out of a city, and the low-cost on-site pollution-free treatment is the latest effective method for environment-friendly treatment. As the living standard of people is continuously improved, the production amount of various wastes is increased, the phenomena of throwing and putting wastes everywhere are more prominent, the incidence rate of infectious diseases is continuously improved, the air quality is seriously polluted, and the medical wastes, animal carcasses and domestic wastes are thrown and put everywhere to form a public hazard which influences the healthy survival of human beings. At present, one of garbage disposal modes is a mode of incineration, and the existing garbage incinerator has the problems of single disposal, incomplete garbage combustion, incapability of purifying harmful gases, incapability of meeting the emission requirement, secondary pollution and the like.

SUMMERY OF THE UTILITY MODEL

To the problem, an object of the utility model is to provide a multifunctional garbage incinerator to solve traditional garbage incinerator and have the processing singleness, the refuse combustion is not thorough, the unable purification treatment of harmful gas, the emission can not reach the requirement, causes secondary pollution scheduling problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a multifunctional garbage incinerator comprises a furnace body, a dry-type smoke adsorption and purification device and an air distribution structure, wherein an ash cleaning chamber, a primary combustion chamber and a secondary combustion chamber which are communicated with each other are sequentially arranged in the furnace body from bottom to top; and the furnace body is provided with an air distribution structure, and the air distribution structure is used for providing oxygen for the combustion of the primary combustion chamber and the secondary combustion chamber and providing stirring power for dust fall of the flue gas staying in the sedimentation tank.

The air distribution structure comprises a primary air distribution port, a secondary air distribution port, a tertiary air distribution port and a quaternary air distribution port which are respectively communicated with the ash cleaning chamber, the primary combustion chamber, the secondary combustion chamber and the smoke retention sedimentation tank, and the primary air distribution port, the secondary air distribution port, the tertiary air distribution port and the quaternary air distribution port are all connected with an external air distribution system.

The four air distribution openings are obliquely arranged, so that air distribution enters the smoke retention sedimentation tank along the circumferential direction, the smoke in the smoke retention sedimentation tank is driven to spirally rise, and granular dust in the smoke sinks.

The primary combustion chamber is provided with a high-temperature resistant material construction layer positioned on the inner side of the furnace body; a fire grate is arranged at the bottom of the primary combustion chamber and positioned above the ash removing chamber;

the side wall of the primary combustion chamber is provided with a garbage feeding hole, a water vapor interface and a primary combustion machine interface, wherein the primary combustion machine interface is used for being connected with a primary combustion machine; the water vapor interface is used for injecting water vapor into the primary combustion chamber.

The garbage feeding port is arranged at the front end of the primary combustion chamber, the top of the rear end of the primary combustion chamber is communicated with the secondary combustion chamber through a flue, and the flue gradually shrinks along the height direction.

The rear end of the secondary combustion chamber is close to the flue and is provided with a secondary combustion machine interface which is used for being connected with a secondary combustion machine.

The volume of the secondary combustion chamber is smaller than that of the primary combustion chamber; the height of the smoke staying and precipitating tank is greater than that of the secondary combustion chamber.

The furnace body includes the stove courage and sets up in the external body in the stove courage outside, for heating the chamber between stove courage and the external body, the bottom in heating the chamber is equipped with moisturizing mouth and drain, and the top is equipped with the steam outlet.

The flue gas dry adsorption and purification equipment comprises a flue gas dry adsorption and purification equipment outer body and a high-temperature-resistant filter screen arranged in the flue gas dry adsorption and purification equipment outer body, wherein the lower end of the flue gas dry adsorption and purification equipment outer body is provided with a connector communicated with a flue gas staying and precipitating tank, and the upper end of the flue gas dry adsorption and purification equipment outer body is provided with a smoke outlet.

The outer body of the dry-type flue gas adsorption and purification equipment is constructed by calcium hydroxide filter bricks.

The utility model has the advantages and beneficial effects that: the utility model discloses in rubbish in airtight furnace body, high temperature pyrolysis, gasification burning let various rubbish pass through, pass through in the primary combustion chamber through having adopted secondary air distribution, water spray steam and high temperature pyrolysis gasification incineration technique to make the interior temperature in the incinerator pass to 500 ℃ by 200 ℃, rubbish can not produce frit, cinder block, sintering scheduling problem in the burning process, the flue gas after the gasification is mixed into high temperature flame through the after burner of after combustion chamber and tertiary air distribution, the temperature is above 1300 ℃, carry out the high temperature burning with the harmful substance in the flue gas and get rid of; the burned flue gas passes through a flue gas retention sedimentation tank, is obliquely and rotationally stirred through a four-time air distribution port for dust reduction, then enters a dry type tail gas adsorption and purification device arranged at the upper part of the incinerator, and is used for adsorbing a small amount of residual hydrogen chloride, oxysulfide and the like generated in the incineration, and components such as odor and the like in the flue gas are decomposed at high temperature. The flue gas adsorption and purification equipment is provided with a calcium hydroxide filter brick, a high-temperature-resistant filter screen is used for adsorption and filtration, and neutralization reaction is carried out on the calcium hydroxide filter brick and acid gas, so that the purposes of adsorbing acid gas and purifying tail gas are achieved, the treated flue gas is finally discharged into the atmosphere, and various wastes do not generate carcinogens and harmful and toxic substances during high-temperature pyrolysis gasification and high-temperature combustion.

The utility model discloses can make various rubbish burning thoroughly, harmful gas adsorbs filtration purification treatment effectual, discharges and reaches the requirement, and the power consumption is low, can not cause secondary pollution.

Drawings

FIG. 1 is a schematic view of a multifunctional garbage incinerator of the present invention;

FIG. 2 is a left side view of FIG. 1;

fig. 3 is a right side view of fig. 1.

In the figure: 1 is an ash cleaning chamber, 2 is a primary combustion chamber outer body, 3 is a primary combustion chamber furnace pipe, 4 is a high temperature resistant material construction layer, 5 is a secondary combustion chamber outer body, 6 is a secondary combustion machine interface, 7 is a secondary combustion chamber, 8 is a secondary combustion chamber inner pipe, 9 is a smoke dry adsorption purification device, 10 is a calcium hydroxide filter brick, 11 is a high temperature resistant filter screen, 12 is a smoke dry adsorption purification device outer body, 13 is a smoke retention sedimentation tank outer body, 14 is a smoke retention sedimentation tank inner pipe, 15 is a smoke retention sedimentation tank, 16 is a garbage feed port, 17 is a water vapor interface, 18 is a primary combustion chamber, 19 is a fire grate, 20 is a dry slag cleaning port, 21 is a smoke adsorption purification device inspection port, 22 is a quartic air distribution port, 23 is a secondary air distribution port, 24 is a primary air distribution port, 25 is a furnace temperature test port, 26 is a primary combustion machine interface, 27 is a water compensation port, 28 is a tertiary air distribution port, 29 is a sewage discharge port, 30 is a steam outlet, 31 is a dust removal port, and 32 is a flue.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention is described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the utility model provides a multifunctional garbage incinerator, which comprises a furnace body, a dry-type flue gas adsorption and purification device 9 and an air distribution structure, wherein the furnace body is a vertical and horizontal mixed structure, an ash cleaning chamber 1, a primary combustion chamber 18 and a secondary combustion chamber 7 which are communicated with each other are sequentially arranged in the furnace body from bottom to top, a flue gas retention sedimentation tank 15 is arranged at the tail end of the secondary combustion chamber 7, and the dry-type flue gas adsorption and purification device 9 is arranged at the top of the flue gas retention sedimentation tank 15; the air distribution structure is arranged on the furnace body and used for providing oxygen for combustion of the primary combustion chamber 18 and the secondary combustion chamber 7 and providing stirring power for dust fall of the flue gas staying in the sedimentation tank 15.

The embodiment of the utility model provides an in, the air distribution structure includes respectively with deashing room 1, primary combustion chamber 18, after combustion chamber 7 and flue gas stop sedimentation tank 15 intercommunication one time air distribution 24, secondary air distribution 23, cubic air distribution 28 and quartic air distribution 22, one time air distribution 24, secondary air distribution 23, cubic air distribution 28 and quartic air distribution 22 all with outside air distribution headtotail.

Performing secondary air distribution and water steam spraying in the primary combustion chamber 18 to perform high-temperature pyrolysis gasification on the medical waste, the animal carcasses and the household garbage; thirdly, the flue gas after high-temperature pyrolysis and gasification is subjected to tertiary air distribution in a secondary combustion chamber 7, and high-temperature combustion is carried out to eliminate harmful substances in the flue gas; after eliminating harmful substances, the flue gas stays in a flue gas sedimentation tank 15 for four times of air distribution and stirring, so that particle dust stays and sediments; the precipitated flue gas passes through a flue gas dry adsorption purification device 9 to carry out adsorption treatment on the residual small amount of hydrogen chloride, oxysulfide and the like generated in incineration, and components such as odor and the like in the flue gas are decomposed at high temperature.

As shown in fig. 1 to 3, in the embodiment of the present invention, the primary combustion chamber 18 is provided with a high temperature resistant material structure layer 4 located inside the furnace body, and the high temperature resistant material structure layer 4 is constructed by using a refractory material with a high temperature of 1300 ℃. The bottom of the primary combustion chamber 18 is provided with a fire grate 19 positioned above the ash removing chamber 1, and the front side of the ash removing chamber 1 is provided with a slag removing port 20; the side wall of the primary combustion chamber 18 is provided with a garbage feeding port 16, a water vapor interface 17 and a primary combustion machine interface 26, wherein the primary combustion machine interface 26 is used for being connected with a primary combustion machine; the water vapor interface 17 is used for injecting water vapor into the primary combustion chamber 18, and the secondary air distribution port 23 is used for distributing air and supplying oxygen into the primary combustion chamber 18.

Further, the garbage feeding port 16 is arranged at the front end of the primary combustion chamber 18, the secondary air distribution port 23 and the primary combustor interface 26 are respectively arranged at the left side and the right side of the primary combustion chamber 18, and the top of the rear end of the primary combustion chamber 18 is communicated with the secondary combustion chamber 7 through a flue 32. The external air distribution system provides fresh air into the primary combustion chamber 18 through the primary air distribution port 24 and the secondary air distribution port 23 to provide sufficient oxygen for combustion in the primary combustion chamber 18. Medical waste, animal carcasses or household garbage and the like are subjected to combustion supporting and secondary air distribution mixing in the primary combustion chamber 18 through a primary combustor, and subjected to high-temperature pyrolysis gasification. The garbage is subjected to high-temperature pyrolysis gasification incineration in the primary combustion chamber 18 by adopting secondary air distribution and water spraying steam, so that the temperature in the incinerator is shifted from 200 ℃ to 500 ℃, and the problems of fusion cakes, slag blocks, sintering and the like cannot be generated in the incineration process of the garbage.

Further, the primary combustion chamber 18 is also provided with a furnace temperature test port 25 so as to detect the temperature in the primary combustion chamber 18.

As shown in fig. 1, in the embodiment of the present invention, the rear end of the secondary combustion chamber 7 is provided with a secondary combustion engine interface 6 near the flue 32, and the secondary combustion engine interface 6 is used for being connected with a secondary combustion engine. Preferably, the volume of the secondary combustion chamber 7 is smaller than the volume of the primary combustion chamber 18, and the flue 32 is gradually contracted in the height direction so as to be connected to the secondary combustion chamber 7. The secondary combustion chamber 7 is transversely arranged, and a flue gas retention sedimentation tank 15 is arranged at the tail end (front end) of the secondary combustion chamber 7 along the flow direction of the flue gas. The external air distribution system supplies oxygen for combustion into the secondary combustion chamber 7 through the tertiary air distribution ports 28, so that the incompletely combusted flue gas is further combusted.

The gasified flue gas in the primary combustion chamber 18 enters the secondary combustion chamber 7 through the flue 32, and is mixed with tertiary air distribution to form high-temperature flame through a secondary burner of the secondary combustion chamber 7, so that harmful substances in the flue gas are combusted at high temperature.

As shown in FIG. 1, in the embodiment of the present invention, the flue gas stays in the vertical setting of the sedimentation tank 15, and the height is greater than the height of the secondary combustion chamber 7, so that the flue gas has enough sedimentation space.

Furthermore, a plurality of quartic air distribution ports 22 are arranged on the side wall of the smoke retention sedimentation tank 15 along the height direction, and each quartic air distribution port 22 is obliquely arranged, so that air distribution enters the smoke retention sedimentation tank 15 along the circumferential direction to drive smoke in the smoke retention sedimentation tank 15 to spirally rise, and granular dust in the smoke sinks. The bottom of the smoke staying and precipitating tank 15 is provided with a dust removal port 31 so as to clean the precipitated dust.

The flue gas after burning in the secondary combustion chamber 7 enters a flue gas retention sedimentation tank 15, after four times of air distribution and stirring through the flue gas retention sedimentation tank 15, granular dust in the flue gas stays and sediments to the bottom of the flue gas retention sedimentation tank 15, and the flue gas spirally rises and enters the flue gas dry-type adsorption and purification equipment 9.

As shown in figures 1-3, in the embodiment of the present invention, the furnace body comprises a furnace pipe and an outer body arranged outside the furnace pipe, a heating cavity is arranged between the furnace pipe and the outer body, a water replenishing port 27 and a sewage draining port 29 are arranged at the bottom of the heating cavity, and a steam outlet 30 is arranged at the top.

Specifically, as shown in fig. 1, the furnace body of the primary combustion chamber 18 includes a primary combustion chamber outer body 2 and a primary combustion chamber furnace 3 disposed inside the primary combustion chamber outer body 2; the furnace body of the secondary combustion chamber 7 comprises a secondary combustion chamber outer body 5 and a secondary combustion chamber inner container 8 arranged on the inner side of the secondary combustion chamber outer body 5; the furnace body of the smoke staying and precipitating tank 15 comprises a smoke staying and precipitating tank outer body 13 and a smoke staying and precipitating tank inner container 14 arranged on the inner side of the smoke staying and precipitating tank outer body 13; wherein the primary combustion chamber outer body 2, the secondary combustion chamber outer body 5 and the smoke staying and precipitating tank outer body 13 are of an integrated structure, and the primary combustion chamber furnace pipe 3, the secondary combustion chamber inner pipe 8 and the smoke staying and precipitating tank inner pipe 14 are of an integrated structure.

As shown in fig. 1 and fig. 3, in the embodiment of the present invention, the flue gas dry-type adsorption and purification equipment 9 comprises a flue gas dry-type adsorption and purification equipment outer body 12 and a high temperature resistant filter screen 11 arranged in the flue gas dry-type adsorption and purification equipment outer body 12, the lower end of the flue gas dry-type adsorption and purification equipment outer body 12 is provided with a connector which is communicated with the flue gas retention sedimentation tank 15, and the upper end is provided with a smoke exhaust port.

The embodiment of the utility model provides an in, the dry-type absorption clarification plant external body 12 of flue gas adopts calcium hydroxide filter brick 10 to build and forms, and calcium hydroxide filter brick 10 and acid gas carry out neutralization reaction, reach the purpose of adsorbing acid gas, tail gas purification. Specifically, the outer body 12 of the dry flue gas adsorption and purification equipment has a structure with thick middle part and thin two ends, i.e. the diameters of the connection port and the smoke exhaust port are smaller than the diameter of the middle part, so as to improve the purification effect. Further, a flue gas dry-type adsorption and purification equipment inspection opening 21 is formed in the side wall of the flue gas dry-type adsorption and purification equipment outer body 12 so as to inspect the high-temperature-resistant filter screen 11. The flue gas in the flue gas dry-type adsorption and purification equipment 9 is adsorbed and filtered by a calcium hydroxide filter brick 10 and a high-temperature-resistant filter screen 11, and the treated flue gas is finally discharged into the atmosphere from a smoke outlet.

The utility model provides a pair of multifunctional garbage incinerator's theory of operation is:

the garbage is burned in the primary combustion chamber 18 by adopting secondary air distribution, water vapor spraying and high-temperature pyrolysis gasification burning technology, so that the temperature in the incinerator is shifted from 200 ℃ to 500 ℃, and the problems of fusion cakes, slag blocks, sintering and the like cannot be caused in the burning process of the garbage. The gasified flue gas in the primary combustion chamber 18 enters the secondary combustion chamber 7 through the flue 32, and is mixed with tertiary air distribution to form high-temperature flame through a secondary burner of the secondary combustion chamber 7, so that harmful substances in the flue gas are combusted at high temperature. The flue gas after burning in the secondary combustion chamber 7 enters a flue gas retention sedimentation tank 15, the flue gas is stirred in the flue gas retention sedimentation tank 15 through four-time air distribution, so that the flue gas in the flue gas retention sedimentation tank 15 spirally rises, and particle dust in the flue gas sinks to the bottom of the flue gas retention sedimentation tank 15 and is retained and precipitated. The spirally rising flue gas enters a dry type tail gas adsorption and purification device 9 arranged at the upper part of the incinerator, the dry type tail gas adsorption and purification device 9 adsorbs a small amount of residual hydrogen chloride, oxysulfide and the like generated in the incineration, and components such as odor and the like in the flue gas are decomposed at high temperature. The calcium hydroxide filter brick 10 adopted by the dry tail gas adsorption and purification equipment 9 performs neutralization reaction with the acid gas to achieve the purposes of adsorbing the acid gas and purifying the tail gas, and the treated flue gas is finally discharged into the atmosphere. The utility model discloses can make medical waste, spoil and domestic waste etc. burn thoroughly, harmful gas purifies the adsorption treatment effectual, discharges and reaches the requirement, can not cause secondary pollution.

The above description is only for the embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, improvement, extension, etc. made within the spirit and principle of the present invention are all included in the protection scope of the present invention.

Claims

1. A multifunctional garbage incinerator is characterized by comprising a furnace body, a dry-type flue gas adsorption and purification device (9) and an air distribution structure, wherein an ash cleaning chamber (1), a primary combustion chamber (18) and a secondary combustion chamber (7) which are communicated with each other are sequentially arranged in the furnace body from bottom to top, a flue gas retention sedimentation tank (15) is arranged at the tail end of the secondary combustion chamber (7), and the dry-type flue gas adsorption and purification device (9) is arranged at the top of the flue gas retention sedimentation tank (15); and an air distribution structure is arranged on the furnace body and used for providing oxygen for combustion of the primary combustion chamber (18) and the secondary combustion chamber (7) and providing stirring power for dust fall of the flue gas staying sedimentation tank (15).

2. The multi-functional garbage incinerator according to claim 1, wherein said air distribution structure comprises a primary air distribution opening (24), a secondary air distribution opening (23), a tertiary air distribution opening (28) and a quaternary air distribution opening (22) respectively communicating with the ash cleaning chamber (1), the primary combustion chamber (18), the secondary combustion chamber (7) and the flue gas staying and settling tank (15), and said primary air distribution opening (24), secondary air distribution opening (23), tertiary air distribution opening (28) and quaternary air distribution opening (22) are all connected by an external air distribution system.

3. The multifunctional garbage incinerator according to claim 2, wherein said four-time air distribution ports (22) are arranged obliquely, so that air distribution enters into said flue gas retention sedimentation tank (15) along the circumferential direction, the flue gas retained in said flue gas retention sedimentation tank (15) is driven to rise spirally, and the granular dust in the flue gas sinks.

4. The multi-functional waste incinerator according to claim 1, characterized in that said primary combustion chamber (18) is provided with a high temperature resistant material construction layer (4) inside said furnace body; a fire grate (19) positioned above the ash removing chamber (1) is arranged at the bottom of the primary combustion chamber (18);

a garbage feeding hole (16), a water vapor interface (17) and a primary combustion machine interface (26) are arranged on the side wall of the primary combustion chamber (18), wherein the primary combustion machine interface (26) is used for being connected with a primary combustion machine; the water vapor interface (17) is used for injecting water vapor into the primary combustion chamber (18).

5. A multi-functional waste incinerator according to claim 4 wherein, said waste feed inlet (16) is located at the front end of said primary combustion chamber (18), the top of the rear end of said primary combustion chamber (18) is connected to said secondary combustion chamber (7) through a flue (32), said flue (32) being gradually constricted in the height direction.

6. A multifunctional garbage incinerator according to claim 5, characterized in that the rear end of the secondary combustion chamber (7) near the flue (32) is provided with a secondary combustion engine interface (6), said secondary combustion engine interface (6) being adapted for connection with a secondary combustion engine.

7. A multi-functional waste incinerator according to claim 1 characterized in that the volume of said secondary combustion chamber (7) is smaller than the volume of said primary combustion chamber (18); the height of the smoke staying and precipitating pool (15) is greater than that of the secondary combustion chamber (7).

8. The multifunctional garbage incinerator according to claim 1, wherein the furnace body comprises a furnace pipe and an outer body arranged outside the furnace pipe, a heating cavity is arranged between the furnace pipe and the outer body, a water replenishing opening (27) and a sewage draining opening (29) are arranged at the bottom of the heating cavity, and a steam outlet (30) is arranged at the top of the heating cavity.

9. The multifunctional garbage incinerator according to claim 1, wherein said flue gas dry adsorption purification device (9) comprises a flue gas dry adsorption purification device outer body (12) and a high temperature resistant filter screen (11) disposed inside the flue gas dry adsorption purification device outer body (12), the lower end of the flue gas dry adsorption purification device outer body (12) is provided with a connection port communicated with said flue gas staying and precipitating tank (15), and the upper end is provided with a smoke exhaust port.

10. The multi-functional garbage incinerator according to claim 9, wherein said flue gas dry adsorption purification equipment outer body (12) is constructed by using calcium hydroxide filter bricks (10).