CN215975659U

CN215975659U - Garbage pyrolysis device

Info

Publication number: CN215975659U
Application number: CN202120113187.1U
Authority: CN
Inventors: 付宝成; 马琳
Original assignee: Beijing Jinyang Yusheng Environmental Protection Technology Co ltd
Current assignee: Beijing Jinyang Yusheng Environmental Protection Technology Co ltd
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2022-03-08
Anticipated expiration: 2031-01-15

Abstract

The garbage pyrolysis device comprises a pyrolyzer, a cooling tower, a first filtering tower, a second filtering tower, a third filtering tower, a Roots blower and a gas fire head, wherein a first gas pipeline is arranged at the left end of the pyrolyzer and connected with the cooling tower, a second gas pipeline is arranged at the left end of the cooling tower and connected with the first filtering tower, a third gas pipeline is arranged at the left end of the first filtering tower and connected with the second filtering tower, a fourth gas pipeline is arranged at the second filtering tower and connected with the third filtering tower, a fifth gas pipeline is arranged at the third filtering tower and connected with the Roots blower, and the Roots blower is provided with a sixth gas pipeline and connected with the gas fire head. The garbage pyrolysis device and the flue gas converter ensure that no pollutant is discharged, the generation of harmful substances can be effectively inhibited in the pyrolysis process, no waste gas is discharged in the whole process, and the filtered gas can be used for a gas generator to generate electricity.

Description

Garbage pyrolysis device

Technical Field

The utility model belongs to the technical field of harmless treatment of garbage, and particularly relates to a garbage pyrolysis device.

Background

With the rapid development of economy, the living standard of people is continuously improved, and the yield of municipal solid waste is increased day by day. The flooding disaster-caused urban domestic garbage becomes a serious social problem, so that the safety and survival of residents are threatened, and serious environmental pollution is brought. The harmless and recycling treatment of the household garbage becomes an important problem to be solved urgently in municipal administration.

After the domestic garbage enters a factory, the domestic garbage is poured into a garbage pool to be manually matched for crushing and classifying, and the domestic garbage is divided into two types of organic matters and inorganic matters, wherein the inorganic matters are small parts of construction garbage such as bricks, tiles, ash, sand, stones, reinforcing steel bars and the like in the domestic garbage.

In recent years, pyrolysis treatment of waste has gained increased attention. The method for treating the municipal solid waste by adopting the pyrolysis technology has the advantages of short process, strong raw material adaptability, rapid reaction, high conversion rate, no generation of toxic and harmful substances, co-production of solid, liquid or gas fuel and the like.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims to provide a garbage pyrolysis device which is practical and convenient, ensures no pollutant emission and can effectively inhibit the generation of harmful substances in the pyrolysis process; the combustible gas of the garbage pyrolysis product is used as a heat source, the self-heating garbage pyrolysis conversion can be basically realized, meanwhile, the surplus heat can also be used for providing heat sources such as hot water or steam, no waste gas is discharged in the whole process, and the filtered clean gas can also be used for a gas generator to generate electricity.

The technical scheme is as follows: the utility model provides a garbage pyrolysis device which comprises a pyrolyzer, a cooling tower, a filtering tower and a Roots blower, wherein one end of the pyrolyzer is connected with the cooling tower through a gas pipeline, the cooling tower is sequentially connected with at least 2 filtering towers through pipelines, the filtering tower is connected with the Roots blower through a pipeline, and the Roots blower is connected with gas equipment through a pipeline.

Further, the gas-using equipment is any one of a generator or a gas firing head.

The garbage pyrolysis device comprises a pyrolyzer, a cooling tower, a first filtering tower, a second filtering tower, a third filtering tower, a Roots blower and a gas fire head, wherein a first gas pipeline is arranged at the left end of the pyrolyzer and connected with the cooling tower, a second gas pipeline is arranged at the left end of the cooling tower and connected with the first filtering tower, a third gas pipeline is arranged at the left end of the first filtering tower and connected with the second filtering tower, a fourth gas pipeline is arranged at the second filtering tower and connected with the third filtering tower, a fifth gas pipeline is arranged at the third filtering tower and connected with the Roots blower, and a sixth gas pipeline is arranged at the Roots blower and connected with the gas fire head.

Further, in the garbage pyrolysis device, the top of the pyrolyzer is provided with a material feed port, the top of the material feed port is provided with a cover plate, the outer wall of the pyrolyzer is provided with a furnace body outer sleeve, the inner wall of the pyrolyzer is provided with a furnace body inner sleeve, cooling water is arranged in the furnace body outer sleeve, the top of the furnace body outer sleeve is provided with an overflow pipe, a pyrolysis bin is arranged in the furnace body inner sleeve, the upper end of the pyrolyzer is provided with a waste gas inlet, the bottom end of the pyrolysis bin is provided with a pyrolysis bin bottom plate, one end of the furnace body outer sleeve, which is close to the pyrolysis bin bottom plate, is provided with a pyrolysis bin water inlet, a bridge is arranged between the inner walls of the pyrolysis bins, the bridge penetrates through the outer wall of the furnace body outer sleeve and is connected with a first motor through a second gear, the inner wall of the bottom of the pyrolysis bin is provided with a grate, a rotating arm vertical shaft is arranged at the center of the grate and the bridge, a first gear is sleeved at the top end of the rotating arm vertical shaft, and a chain is arranged between the first gear and the second gear, the upper surface of the fire grate is sequentially provided with a first rotating arm rod, a second rotating arm rod and a third rotating arm rod from top to bottom, and the first rotating arm rod, the second rotating arm rod and the third rotating arm rod form a trapezoidal structure with a wide top and a narrow bottom; pyrolysis storehouse bottom plate bottom both sides are equipped with the flue gas converter, the flue gas converter bottom is equipped with the gas storehouse, the gas storehouse export is equipped with the water seal pond, the water seal pond is equipped with U type water seal pool wall, the grate bottom is equipped with the ash removal funnel, ash removal funnel upper end mouth diameter is greater than the diameter of grate, ash removal funnel bottom passes the gas storehouse and extends in the water seal pond, the ash removal funnel bottom is through closed auger connection second motor. The water seal tank filled with water prevents gas from escaping out and is used for water recycling.

The fixed swinging boom vertical axis of bridge, first motor drive the second gear, and the second gear drives the chain, and the chain drives first gear, and first gear drives the swinging boom vertical axis, and the swinging boom vertical axis drives first rotating arm pole, second rotating arm pole and third rotating arm pole and rotates, and the ash residue after decomposing on the grate is sieved and is fallen to the ash removal funnel. The ash removal funnel opening is larger than the fire grate, ash residues on the fire grate are screened into the ash removal funnel when the rotary arm rod rotates, and an unburnt garbage rod cannot fall off.

Further, foretell rubbish pyrolysis device, flue gas converter inside and outside wall is equipped with the flue gas converter cover, the flue gas converter outer wall is equipped with the flue gas converter water inlet, both ends are equipped with the flue gas converter panel about the flue gas converter, the flue gas converter inner wall is equipped with a plurality of first spray set. The flue gas converter is placed to flue gas converter cover and flue gas converter panel formation one whole, drives the gas that the air current produced with the pyrolysis through external equipment roots's fan and brings into wherein and convert the gas into, through the dust in first spray set with the gas, impurity washs, obtains the combustible gas.

Further, foretell rubbish pyrolysis device, the gas storehouse top is equipped with the gas storehouse panel, the gas storehouse lateral wall is equipped with the gas export and is connected with first gas pipeline, the inside and outside wall of gas storehouse is equipped with the gas storehouse cover.

Further, foretell rubbish pyrolysis device, the dusting funnel is equipped with dusting funnel wall, closed auger slope sets up, is close to the second motor and is equipped with closed auger export, just closed auger export sets up outside the water seal pond. The second motor drives the closed packing auger to discharge ash from an outlet of the closed packing auger.

Further, foretell rubbish pyrolysis device, the cooling tower outer wall is equipped with the tower wall, and inside is equipped with the gas chamber, cooling tower upper end lateral wall is equipped with first gas export and second gas pipe connection, the cooling tower top is equipped with second spray set, second spray set end connection cold water pipe, cooling tower bottom lateral wall is equipped with first gas import and is connected with first gas pipeline, the cooling tower bottom is equipped with first drainage mouth and connects first drainage pipe, first drainage pipe extends to in the water seal pool. The gas is brought into the gas chamber in the cooling tower through the first gas pipeline of roots's fan, first gas entry, and then filters in getting into first filter tower from first gas export, second gas pipeline through cold water pipe and second spray set cooling, and the water after the cooling gets into the water seal pond through first outlet, first drainage pipe.

Further, foretell rubbish pyrolysis device, first filter column bottom is equipped with the bottom plate, first filter column upper end lateral wall is equipped with second gas export and third gas pipe connection, first filter column top is equipped with third spray set, third spray set end connection feed pipe, divide into first gas chamber, second gas chamber and third gas chamber through the filtering material interval in the first filter column, filtering material is equipped with the filtering material import, first filter column bottom lateral wall is equipped with second gas import and second gas pipe connection, first filter column bottom is equipped with second outlet connection second drainage pipe, second drainage pipe extends to in the water seal pond. The filtering material is replaced once in half a year, and is plugged in batches through the inlet of the filtering material, so that the operation is convenient and fast.

The cooled fuel gas is brought into the second fuel gas pipeline through the Roots blower, enters the first filter tower through the second fuel gas inlet, is filtered through the three filter devices and respectively enters the first fuel gas chamber, the second fuel gas chamber and the third fuel gas chamber, the gas is washed through the third spray device and the water supply pipe, and the water for washing the gas enters the water seal tank through the second water outlet and the second water drainage pipeline. And then the filtered gas enters a second filter tower and a third filter tower for secondary filtration through a second fuel gas outlet and a third fuel gas pipeline.

The technical scheme shows that the utility model has the following beneficial effects: the garbage pyrolysis device and the flue gas converter are simple in structure and reasonable in design, no pollutant is discharged, and generation of harmful substances can be effectively inhibited in the pyrolysis process; the combustible gas of the waste pyrolysis product is used as a heat source, the self-heating type waste pyrolysis conversion can be basically realized, meanwhile, redundant heat can be used for providing heat sources such as hot water or steam, the whole process has no waste gas emission, the filtered clean gas can also be used for a gas generator to generate electricity, a water seal tank avoids gas from running out, the gas is used for water recycling, the filtering material is replaced once in half a year, and the filtering material is plugged in batches through an inlet of the filtering material, so that the operation is convenient and fast, and the high popularization value is realized.

Drawings

Fig. 1 is a first schematic structural diagram of a garbage pyrolysis device and a flue gas converter according to the present invention;

FIG. 2 is a schematic view of a pyrolyzer for the garbage pyrolysis apparatus and flue gas converter according to the present invention;

FIG. 3 is a schematic view of the cooling tower of the garbage pyrolysis apparatus and the flue gas converter according to the present invention;

FIG. 4 is a schematic view of a filter tower of the garbage pyrolysis apparatus and a flue gas converter according to the present invention;

fig. 5 is a schematic structural diagram of a waste pyrolysis device and a flue gas converter according to the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

The garbage pyrolysis device and the flue gas converter shown in fig. 1 and 5 comprise a pyrolyzer 16, a cooling tower 55, a first filter tower 65, a second filter tower 81, a third filter tower 82, a roots blower 85 and a gas burner 87, wherein a first gas pipeline 54 is arranged at the left end of the pyrolyzer 16 and connected with the cooling tower 55, a second gas pipeline 69 is arranged at the left end of the cooling tower 55 and connected with the first filter tower 65, a third gas pipeline 80 is arranged at the left end of the first filter tower 65 and connected with the second filter tower 81, a fourth gas pipeline 83 is arranged at the second filter tower 81 and connected with the third filter tower 82, a fifth gas pipeline 84 is arranged at the third filter tower 82 and connected with the roots blower 85, and a sixth gas pipeline 86 is arranged at the roots blower 85 and connected with the gas burner 87.

As shown in fig. 2, a material feeding hole 17 is formed in the top of the pyrolyzer 16, a cover plate 37 is arranged on the top of the material feeding hole 17, an outer furnace body jacket 19 is arranged on the outer wall of the pyrolyzer 16, an inner furnace body jacket 20 is arranged on the inner wall of the furnace body jacket 19, cooling water 22 is arranged in the outer furnace body jacket 19, an overflow pipe 38 is arranged on the top of the outer furnace body jacket 19, a pyrolysis chamber 21 is arranged in the inner furnace body jacket 20, a waste gas inlet 39 is arranged at the upper end of the pyrolyzer 16, a pyrolysis chamber bottom plate 44 is arranged at the bottom end of the pyrolysis chamber 21, a pyrolysis chamber water inlet 45 is arranged at one end of the outer furnace body jacket 19 close to the pyrolysis chamber bottom plate 44, a bridge 25 is arranged between the inner walls of the pyrolysis chamber 21, the bridge 25 penetrates through the outer wall of the outer furnace body jacket 19 and is connected with a first motor 43 through a second gear 40, a fire grate 41 is arranged on the inner wall at the bottom of the pyrolysis chamber 21, a rotating arm vertical shaft 26 is arranged at the center of the fire grate 41 and the bridge 25, a first gear 24 is sleeved on the top end of the rotating arm vertical shaft 26, a chain 23 is arranged between the first gear 24 and the second gear 40, a first rotating arm 27, a second rotating arm 28 and a third rotating arm 29 are sequentially arranged on the upper surface of the fire grate 41 from top to bottom, and the first rotating arm 27, the second rotating arm 28 and the third rotating arm 29 form a trapezoidal structure with a wide top and a narrow bottom; pyrolysis storehouse bottom plate 44 bottom both sides are equipped with gas converter 42, gas converter 42 bottom is equipped with gas storehouse 33, gas storehouse 33 export is equipped with water seal tank 36, water seal tank 36 is equipped with U type water seal tank wall, grate 41 bottom is equipped with dusting funnel 49, dusting funnel 49 upper end mouth diameter is greater than the diameter of grate 41, dusting funnel 49 bottom is passed in gas storehouse 33 extends to water seal tank 36, dusting funnel 49 bottom is through closed auger 53 connection second motor 51. The bridge 25 fixes the vertical shaft 26 of the rotating arm, the first motor 43 drives the second gear 40, the second gear 40 drives the chain 23, the chain 23 drives the first gear 24, the first gear 24 drives the vertical shaft 26 of the rotating arm, the vertical shaft 26 of the rotating arm drives the first rotating arm 27, the second rotating arm 28 and the third rotating arm 29 to rotate, and ash residue decomposed on the fire grate 41 is screened and dropped into the ash removing funnel 49. The opening of the ash removing funnel 49 is larger than the fire grate 41, ash residue on the fire grate 41 is screened into the ash removing funnel 49 when the rotating arm rod rotates, and unburned garbage sticks cannot fall off. The water sealed tank 36 filled with water prevents gas from escaping for water recycling.

The inner side wall and the outer side wall of the flue gas converter 42 are provided with flue gas converter sleeves 31, the outer wall of the flue gas converter 42 is provided with a flue gas converter water inlet 46, the upper end portion and the lower end portion of the flue gas converter 42 are provided with flue gas converter panels 47, and the inner wall of the flue gas converter 42 is provided with a plurality of first spraying devices 30. The flue gas converter sleeve and the flue gas converter panel form a whole body for placing the flue gas converter, the gas generated by pyrolysis is brought into the flue gas converter by the driving of the Roots blower 85 through external equipment to be converted into fuel gas, and dust and impurities in the gas are cleaned through the first spraying device 30 to obtain the combustible gas.

The top end of the gas cabin 33 is provided with a gas cabin panel 48, the side wall of the gas cabin 33 is provided with a gas outlet 32 connected with a first gas pipeline 54, and the inner wall and the outer wall of the gas cabin 33 are provided with a gas cabin sleeve 34.

Ash removal funnel 49 is equipped with ash removal funnel wall 50, closed auger 53 slope sets up, is close to second motor 51 and is equipped with closed auger export 52, just closed auger export 52 sets up outside water seal pond 36. The second motor 51 drives the closed auger 53 to discharge ash from the closed auger outlet 52.

As shown in fig. 3, a tower wall 58 is arranged on the outer wall of the cooling tower 55, a gas chamber 59 is arranged inside the cooling tower 55, a first gas outlet 64 is arranged on the side wall of the upper end of the cooling tower 55 and connected with a second gas pipeline 69, a second spraying device 56 is arranged at the top end of the cooling tower 55, the end part of the second spraying device 56 is connected with the cold water pipe 57, a first gas inlet 60 is arranged on the side wall of the bottom end of the cooling tower 55 and connected with the first gas pipeline 54, a first water outlet 61 is arranged at the bottom of the cooling tower 55 and connected with a first water outlet pipe 62, and the first water outlet pipe 62 extends into the water seal tank 36. The fuel gas is brought into the fuel gas chamber 59 of the cooling tower 55 through the first fuel gas pipeline 54 and the first fuel gas inlet 60 of the Roots blower, cooled through the cold water pipe 57 and the second spray device 69 and then enters the first filter tower 65 from the first fuel gas outlet 64 and the second fuel gas pipeline 69 for filtering, and the cooled water enters the water seal tank through the first water discharge port 61 and the first water discharge pipeline 62.

As shown in fig. 4, a tower bottom plate 76 is arranged at the bottom of the first filter tower 65, a second fuel gas outlet 77 is arranged on the side wall of the upper end of the first filter tower 65 and connected with a third fuel gas pipeline 80, a third spray device 66 is arranged at the top of the first filter tower 65, the end of the third spray device 66 is connected with the water supply pipe 68, the first filter tower 65 is internally divided into a first fuel gas chamber 71, a second fuel gas chamber 70 and a third fuel gas chamber 67 at intervals by a filter material, the filter material is provided with a filter material inlet 78, a second fuel gas inlet 73 is arranged on the side wall of the bottom end of the first filter tower 65 and connected with the second fuel gas pipeline 69, a second water discharge pipe 74 is arranged at the bottom of the first filter tower 65 and connected with a second water discharge pipe 75, and the second water discharge pipe 75 extends into the water seal tank 36.

The cooled fuel gas is brought into the second fuel gas pipeline 69 through the Roots blower 85, enters the first filter tower 65 through the second fuel gas inlet 73, is filtered through three filter devices and respectively enters the first fuel gas chamber 71, the second fuel gas chamber 70 and the third fuel gas chamber 67, and is subjected to gas washing through the third spraying device 66 and the water supply pipe 68, and water after the gas washing enters the water seal tank 36 through the second water discharge port 74 and the second water discharge pipe 75. The filtered gas is then filtered again by passing through the second fuel gas outlet 77, the third fuel gas pipe 80, and the second filter tower 81 and the third filter tower 83.

Finally, the filtered gas enters a gas firing head 87 through a Roots blower 85 and a sixth gas pipeline 86 to be ignited. The gas is driven by the Roots blower 85 throughout the treatment process. Besides being ignited at the firing head in the figure, the fuel gas can also be linked with a fuel gas generator for generating electricity (not shown in the figure).

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims

1. A garbage pyrolysis device is characterized in that: the device comprises a pyrolyzer, a cooling tower, a filtering tower and a Roots blower, wherein one end of the pyrolyzer is connected with the cooling tower through a gas pipeline, the cooling tower is sequentially connected with at least 2 filtering towers through pipelines, the filtering towers are connected with the Roots blower through pipelines, and the Roots blower is connected with gas equipment through pipelines.

2. The waste pyrolysis device of claim 1, wherein: the gas-using equipment is any one of a generator or a gas firing head.

3. The waste pyrolysis device of claim 1, wherein: the filter tower comprises a first filter tower (65), a second filter tower (81) and a third filter tower (82).

4. A waste pyrolysis apparatus as claimed in claim 3 wherein: the left end of the pyrolyzer (16) is provided with a first gas pipeline (54) connected with a cooling tower (55), the left end of the cooling tower (55) is provided with a second gas pipeline (69) connected with a first filter tower (65), the left end of the first filter tower (65) is provided with a third gas pipeline (80) connected with a second filter tower (81), the second filter tower (81) is provided with a fourth gas pipeline (83) connected with a third filter tower (82), the third filter tower (82) is provided with a fifth gas pipeline (84) connected with a Roots blower (85), and the Roots blower (85) is provided with a sixth gas pipeline (86) connected with gas equipment.

5. The waste pyrolysis device of claim 4, wherein: the pyrolysis device is characterized in that a material feeding hole (17) is formed in the top of the pyrolysis device (16), a cover plate (37) is arranged on the top of the material feeding hole (17), a furnace body outer sleeve (19) is arranged on the outer wall of the pyrolysis device (16), a furnace body inner sleeve (20) is arranged on the inner wall of the pyrolysis device, cooling water (22) is arranged in the furnace body outer sleeve (19), an overflow pipe (38) is arranged on the top of the furnace body outer sleeve (19), a pyrolysis bin (21) is arranged in the furnace body inner sleeve (20), a waste gas inlet (39) is formed in the upper end of the pyrolysis device (16), a pyrolysis bin bottom plate (44) is arranged at the bottom end of the pyrolysis bin (21), a pyrolysis bin water inlet (45) is formed in one end, close to the pyrolysis bin bottom plate (44), of the furnace body outer sleeve (19), a bridge (25) is arranged between the inner walls of the pyrolysis bin (21), and penetrates through the outer wall of the furnace body outer sleeve (19) to be connected with a first motor (43) through a second gear (40), the bottom inner wall of the pyrolysis bin (21) is provided with a fire grate (41), the centers of the fire grate (41) and the bridge (25) are provided with a rotating arm vertical shaft (26), the top end of the rotating arm vertical shaft (26) is sleeved with a first gear (24), a chain (23) is arranged between the first gear (24) and a second gear (40), the upper surface of the fire grate (41) is sequentially provided with a first rotating arm rod (27), a second rotating arm rod (28) and a third rotating arm rod (29) from top to bottom, and the first rotating arm rod (27), the second rotating arm rod (28) and the third rotating arm rod (29) form a trapezoidal structure with a wide upper part and a narrow lower part; pyrolysis storehouse bottom plate (44) bottom both sides are equipped with gas converter (42), gas converter (42) bottom is equipped with gas storehouse (33), gas storehouse (33) export is equipped with water seal pool (36), water seal pool (36) are equipped with U type water seal pool wall, grate (41) bottom is equipped with dusting funnel (49), dusting funnel (49) upper end mouth diameter is greater than the diameter of grate (41), dusting funnel (49) bottom is passed in gas storehouse (33) extends water seal pool (36), dusting funnel (49) bottom is through closed auger (53) connection second motor (51).

6. The waste pyrolysis device of claim 5, wherein: the gas storehouse (33) top is equipped with gas storehouse panel (48), gas storehouse (33) lateral wall is equipped with gas export (32) and is connected with first gas pipeline (54), the inside and outside wall of gas storehouse (33) is equipped with gas storehouse cover (34).

7. The waste pyrolysis device of claim 5, wherein: ash removal funnel (49) are equipped with ash removal funnel wall (50), closed auger (53) slope sets up, is close to second motor (51) and is equipped with closed auger export (52), just closed auger export (52) set up outside water seal pond (36).

8. The waste pyrolysis device of claim 4, wherein: the cooling tower (55) outer wall is equipped with tower wall (58), and inside is equipped with gas chamber (59), cooling tower (55) upper end lateral wall is equipped with first gas export (64) and is connected with second gas pipeline (69), cooling tower (55) top is equipped with second spray set (56), second spray set (56) end connection cold water pipe (57), cooling tower (55) bottom lateral wall is equipped with first gas import (60) and is connected with first gas pipeline (54), cooling tower (55) bottom is equipped with first drainage mouth (61) and connects first drainage pipe (62), first drainage pipe (62) extend to in water seal pond (36).

9. The waste pyrolysis device of claim 5, wherein: a tower bottom plate (76) is arranged at the bottom of the first filtering tower (65), a second fuel gas outlet (77) is arranged on the side wall of the upper end of the first filtering tower (65) and is connected with a third fuel gas pipeline (80), a third spray device (66) is arranged at the top of the first filter tower (65), the end part of the third spray device (66) is connected with a water supply pipe (68), the first filter tower (65) is internally divided into a first fuel gas chamber (71), a second fuel gas chamber (70) and a third fuel gas chamber (67) at intervals by a filter material, the filtering material is provided with a filtering material inlet (78), the side wall of the bottom end of the first filtering tower (65) is provided with a second fuel gas inlet (73) which is connected with a second fuel gas pipeline (69), the bottom of the first filter tower (65) is provided with a second water outlet (74) connected with a second water drainage pipeline (75), and the second water drainage pipeline (75) extends into the water seal tank (36).

10. The waste pyrolysis device of claim 5, wherein: the flue gas converter (42) inside and outside lateral wall is equipped with flue gas converter cover (31), flue gas converter (42) outer wall is equipped with flue gas converter water inlet (46), both ends are equipped with flue gas converter panel (47) about flue gas converter (42), flue gas converter (42) inner wall is equipped with a plurality of first spray set (30).

11. The waste pyrolysis device of claim 10, wherein: the flue gas converter (42) is applied to a garbage pyrolysis device.