CN114768410A

CN114768410A - Waste gas treatment equipment for incinerator

Info

Publication number: CN114768410A
Application number: CN202210409519.XA
Authority: CN
Inventors: 谭瑞平
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-19
Filing date: 2022-04-19
Publication date: 2022-07-22
Anticipated expiration: 2042-04-19
Also published as: CN114768410B

Abstract

The invention discloses waste gas treatment equipment for an incinerator, and relates to the technical field of waste gas treatment. This waste gas treatment equipment for incinerator, including the waste gas reaction storehouse, the right side in waste gas reaction storehouse is fixed with the connecting tube, the natural colloid pipeline is inlayed on the top in waste gas reaction storehouse, the inside upper end in waste gas reaction storehouse is fixed with filters cleaning device, it includes linear motor, filter screen, L type slide rail, control structure to cross to filter cleaning device. This exhaust-gas treatment equipment for incinerator realizes preliminary filtration and clearance purpose through setting up at colloid pipeline air outlet department and filtering cleaning device, carries out solid particle in preliminary waste gas through the filter screen and filters, collects the storehouse through linear motor control afterwards and removes, clears up the filter screen through the rotation of steel brush cylinder at the in-process that removes, will attach to the solid particle clearance on the filter screen and get off, can effectually prevent that the filter screen from being blockked up.

Description

Waste gas treatment equipment for incinerator

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to waste gas treatment equipment for an incinerator.

Background

In the process of incinerating waste garbage, an incinerator generates a lot of waste gas, the waste gas contains a lot of solid particles and harmful gases, the harmful gases comprise carbon monoxide, cyanide gas and the like, and the waste gas cannot be directly discharged into the atmosphere according to the limit of emission standards, so that waste gas treatment equipment is required to treat the waste gas.

Can set up the filter screen in the exhaust gas pipeline in exhaust gas treatment device generally, carry out prefilter to the solid particle in the waste gas, and after long-term filtration operation, the filter screen has the risk of jam, will cause the waste gas conveying efficiency variation if taking place to block up, and among the prior art, generally adopts the mode of artifical clearance to clear up, not only the clearance effect is not good, and cleaning efficiency is extremely poor moreover.

Disclosure of Invention

In view of the deficiencies of the prior art, the present invention provides an exhaust gas treatment device for an incinerator, which solves the problems set forth in the background art. In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a waste gas treatment equipment for incinerator, includes waste gas reaction storehouse, the right side in waste gas reaction storehouse is fixed with the connecting tube, natural colloid pipeline is inlayed on the top in waste gas reaction storehouse, the inside upper end in waste gas reaction storehouse is fixed with filters cleaning device, cross and filter cleaning device and include linear electric motor, filter screen, L type slide rail, control structure, linear electric motor inlays the upper end in waste gas reaction storehouse, linear electric motor's removal axle department is fixed with the collection storehouse, the inside in waste gas reaction storehouse is just all fixed to total two of L type slide rail, the bottom and two L type slide rail sliding connection in collection storehouse, the filter screen rotates through the bull stick and connects in colloid pipeline air outlet department, control structure sets up the outside at waste gas reaction storehouse.

Preferably, the inside of collecting the storehouse is fixed with the arc scraper blade, it is connected with the steel brush cylinder to rotate on the right side wall in storehouse to collect, the front end of steel brush cylinder is fixed with friction pulley one, the front end rotation of collecting the storehouse is connected with friction pulley two, the one end and the friction pulley extrusion contact of friction pulley two, the other end and the front end L type slide rail upper surface extrusion contact of friction pulley two.

Preferably, the control structure comprises two fixing plates and two side cams, the two fixing plates are fixed outside the waste gas reaction bin, opposite ends of the two fixing plates are elastically connected with arc-shaped clamping blocks through elastic pieces, the two side cams are fixed at the front ends of the rotating rods, and knob rods are fixed at the ends, far away from the rotating rods, of the two side cams.

Preferably, the inside middle-end in waste gas reaction storehouse is provided with reaction filter equipment, reaction filter equipment is including mixing the storehouse, the inner wall middle-end in mixing the storehouse is fixed with a plurality of impact balls, the bottom in mixing the storehouse is fixed with rotating electrical machines, rotating electrical machines's axis of rotation department is fixed with the swing arm, the outer wall of swing arm is fixed with four puddlers, four the inside of puddler all is provided with aggregate unit.

Preferably, the linkage device comprises an arc-shaped plate and a first air pressure bin, the arc-shaped plate is connected to the inside of the stirring rod through rotation of a vertical rod, a rotating plate is fixed to the top end of the vertical rod, the top end of the stirring rod is fixed to the first air pressure bin, a striking rod is connected to one end of the inside of the first air pressure bin in a sliding mode, and an extrusion air bag is fixed to the other end of the first air pressure bin.

Preferably, four through openings are formed in the bottom of the mixing bin, and a blocking net is arranged in each through opening.

Preferably, be provided with the torsional spring in the montant of arc and puddler junction, the extrusion gasbag is located the front end of puddler, and the extrusion gasbag is in same height with the striking ball.

Preferably, the one end that waste gas reaction storehouse was kept away from to the colloid pipeline is fixed with connecting device, connecting device includes hollow inserted bar, the outer wall of hollow inserted bar is fixed with annular airbag, the outer wall of hollow inserted bar rotates and is connected with the clamp plate, be fixed with the arc elastic plate on the clamp plate, the inner wall sliding connection of hollow inserted bar has the slider, the inside of hollow inserted bar is fixed with atmospheric pressure storehouse two, the one end and the annular airbag intercommunication of atmospheric pressure storehouse two, the inside other end sliding connection of atmospheric pressure storehouse two has the atmospheric pressure pole.

Preferably, the inside sliding connection of hollow inserted bar has the annular pole, the top left side of annular pole is fixed with the release link, the right side and the slider of annular pole are fixed.

Preferably, the right side of the sliding block is rotatably connected with the left side of the arc-shaped elastic plate, and the top end of the sliding block is fixed with the air pressure rod.

The invention provides a waste gas treatment device for an incinerator. The method has the following beneficial effects:

(1) this exhaust-gas treatment equipment for incinerator realizes preliminary filtration and clearance purpose through setting up at colloid pipeline air outlet department and filtering cleaning device, carries out solid particle in preliminary waste gas through the filter screen and filters, collects the storehouse through linear motor control afterwards and removes, clears up the filter screen through the rotation of steel brush cylinder at the in-process that removes, will attach to the solid particle clearance on the filter screen and get off, can effectually prevent that the filter screen from being blockked up.

(2) This waste gas treatment equipment for incinerator comes to react the filtration to the cyanide waste gas in the waste gas through setting up reaction filter equipment, carries out the waste gas filtration through placing a large amount of calcium carbonate large granules in mixing the storehouse, and simultaneously, rotates through four puddlers on the rotating electrical machines control swing arm, turns the calcium carbonate large granule through the rotation of four puddlers, promotes the area of contact of calcium carbonate large granule and waste gas to promote the filterable effect of reaction.

(3) This exhaust-gas treatment equipment for incinerator, through set up aggregate unit in the puddler, at puddler pivoted in-process, a plurality of striking balls that mix the storehouse inner wall and fix can strike the extrusion gasbag in proper order, make its inside gaseous atmospheric pressure storehouse in one, pop out the puddler, change the board through the striking of puddler, make and change the board and rotate, and change the board bottom and be connected with the arc, so the arc can take place to rotate, thereby promote the stirring effect of puddler, make the calcium carbonate large granule can be better contact with waste gas.

(4) This waste gas treatment equipment for incinerator, connect colloid pipeline and incinerator through setting up connecting device, through inserting hollow inserted bar incinerator top opening, at first incinerator top opening can extrude the clamp plate, make clamp plate anticlockwise rotation, move slider downstream through arc elastic band, thereby drive the atmospheric pressure pole downstream through the slider, take away the gaseous body in the annular gasbag through atmospheric pressure storehouse two, make the annular gasbag shrink, the in-process that moves down lasts at hollow inserted bar, clamp plate and incinerator top opening separation, annular gasbag resets the inflation this moment, fix hollow inserted bar and incinerator top opening, the advantage that the compactness is stronger has simultaneously.

Drawings

FIG. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic three-dimensional view of a filtered cleaning device according to the present invention;

FIG. 3 is a schematic three-dimensional view of a collection chamber and its internal components according to the present invention;

FIG. 4 is a schematic three-dimensional structure of a control structure according to the present invention;

FIG. 5 is a schematic three-dimensional structure of a reaction filtration apparatus according to the present invention;

FIG. 6 is a schematic three-dimensional view of the linkage of the present invention;

FIG. 7 is a schematic three-dimensional structure of the connecting device of the present invention;

fig. 8 is a schematic cross-sectional three-dimensional structure of the connecting device of the present invention.

In the figure: 1. an exhaust gas reaction bin; 2. connecting a pipeline; 3. a colloid pipe; 4. an over-filtration cleaning device; 41. a linear motor; 42. a filter screen; 43. an L-shaped slide rail; 44. a control structure; 441. a fixing plate; 442. a knob stem; 443. an arc-shaped fixture block; 444. a bilateral cam; 45. a collecting bin; 46. a rotating rod; 47. an arc-shaped scraper plate; 48. a steel brush roller; 49. a first friction wheel; 410. a second friction wheel; 5. a reaction filtration device; 51. a mixing bin; 52. striking a ball; 53. a rotating electric machine; 54. rotating the rod; 55. a stirring rod; 56. a linkage device; 561. an arc-shaped plate; 562. rotating the plate; 563. a first air pressure bin; 564. extruding the air bag; 565. a striker bar; 6. a connecting device; 61. a hollow inserted link; 62. an annular air bag; 63. pressing a plate; 64. an arc-shaped elastic plate; 65. a slider; 66. a second air pressure cabin; 67. a pneumatic rod; 68. an annular rod; 69. a reset rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-8, the present invention provides a technical solution: a waste gas treatment device for incinerator, including waste gas reaction bin 1, the right side of waste gas reaction bin 1 is fixed with connecting pipeline 2, natural colloid pipeline 3 is inlayed on the top of waste gas reaction bin 1, the inside upper end of waste gas reaction bin 1 is fixed with filtering cleaning device 4, it includes linear motor 41 to cross filtering cleaning device 4, filter screen 42, L type slide rail 43, control structure 44, linear motor 41 is inlayed in the upper end of waste gas reaction bin 1, linear motor 41's removal axle department is fixed with collection bin 45, L type slide rail 43 has two and all fixes in the inside of waste gas reaction bin 1, the bottom and two L type slide rail 43 sliding connection of collection bin 45, filter screen 42 rotates through bull stick 46 and connects in colloid pipeline 3 air outlet department, control structure 44 sets up the outside of waste gas reaction bin 1, the inside of collecting bin 45 is fixed with arc scraper 47, it is connected with steel brush cylinder 48 to rotate on the right side wall of collection bin 45, the front end of the steel brush roller 48 is fixed with a first friction wheel 49, the front end of the collection bin 45 is rotatably connected with a second friction wheel 410, one end of the second friction wheel 410 is in extrusion contact with the first friction wheel 49, and the other end of the second friction wheel 410 is in extrusion contact with the upper surface of the front end L-shaped sliding rail 43. This exhaust-gas treatment equipment for incinerator, through set up at 3 air outlets on the colloid pipeline and filter cleaning device 4 and realize preliminary filtration and clearance purpose, carry out solid particle in the preliminary waste gas through filter screen 42 and filter, remove through linear electric motor 41 control collection storehouse 45 afterwards, the in-process that removes is cleared up filter screen 42 through the rotation of steel brush cylinder 48, the solid particle that will adhere to on filter screen 42 clears up, can effectually prevent that filter screen 42 from being blockked up.

Further, the control structure 44 includes two fixing plates 441 and two-sided cams 444, the two fixing plates 441 are both fixed outside the exhaust gas reaction bin 1, opposite ends of the two fixing plates 441 are both elastically connected with arc-shaped fixture blocks 443 through elastic pieces, the two-sided cams 444 are fixed at the front end of the rotating rod 46, and one ends of the two-sided cams 444, which are far away from the rotating rod 46, are fixed with the knob rods 442. The knob rod 442 is rotated to rotate the double-sided cam 444, and the left side of the double-sided cam 444 is fixed with the rotating rod 46, so that the filter screen 42 fixed with the rotating rod 46 rotates along with the rotating rod, and one end of the filter screen 42 attached with solid particles is turned to the lower part, thereby facilitating the subsequent cleaning treatment.

Further, the inside middle-end in exhaust gas reaction storehouse 1 is provided with reaction filter equipment 5, reaction filter equipment 5 is including mixing storehouse 51, the inner wall middle-end in mixing storehouse 51 is fixed with a plurality of impact balls 52, the bottom that mixes storehouse 51 is fixed with rotating electrical machines 53, rotating electrical machines 53's axis of rotation department is fixed with swing arm 54, the outer wall of swing arm 54 is fixed with four puddlers 55, the inside of four puddlers 55 all is provided with aggregate unit 56, four through openings have been seted up to the bottom that mixes storehouse 51, and all be provided with in every through opening and block the net. Come the cyanide waste gas in the waste gas to react through setting up reaction filter equipment 5 and filter, carry out the waste gas filtration through placing a large amount of calcium carbonate large granules in mixing storehouse 51, and simultaneously, four puddlers 55 on the control rotating rod 54 through rotating electrical machines 53 rotate, turn the calcium carbonate large granule through the rotation of four puddlers 55, promote the area of contact of calcium carbonate large granule and waste gas, thereby promote the filterable effect of reaction.

It is worth noting that aggregate unit 56 includes arc 561, atmospheric pressure storehouse 563, arc 561 rotates through the montant to be connected in the inside of puddler 55, and the top of montant is fixed with commentaries on classics board 562, atmospheric pressure storehouse 563 is fixed in the top of puddler 55, the inside one end sliding connection of atmospheric pressure storehouse 563 has striking rod 565, the other end of atmospheric pressure storehouse 563 is fixed with extrusion gasbag 564, be provided with the torsional spring in the montant of arc 561 and puddler 55 junction, extrusion gasbag 564 is located the front end of puddler 55, and extrusion gasbag 564 is in same height with striking ball 52. Through set up aggregate unit 56 in puddler 55, at puddler 55 pivoted in-process, mix a plurality of striking balls 52 that the inner wall of storehouse 51 is fixed and can strike extrusion gasbag 564 in proper order, make its inside gas entering atmospheric pressure storehouse 563 in, pop out striking rod 565, strike commentaries on classics board 562 through striking rod 565, make commentaries on classics board 562 rotate, and commentaries on classics board 562 bottom is connected with arc 561, so arc 561 can take place to rotate, thereby promote the stirring effect of puddler 55, make the calcium carbonate large granule can be better contact with waste gas.

It is worth to say that, a connecting device 6 is fixed at one end of the colloid pipeline 3 far away from the waste gas reaction bin 1, the connecting device 6 includes a hollow insert rod 61, an annular air bag 62 is fixed on an outer wall of the hollow insert rod 61, a pressing plate 63 is rotatably connected to an outer wall of the hollow insert rod 61, an arc-shaped elastic plate 64 is fixed on the pressing plate 63, a sliding block 65 is slidably connected to an inner wall of the hollow insert rod 61, a second air pressure bin 66 is fixed inside the hollow insert rod 61, one end of the second air pressure bin 66 is communicated with the annular air bag 62, the other end inside the second air pressure bin 66 is slidably connected with an air pressure rod 67, an annular rod 68 is slidably connected inside the hollow insert rod 61, a reset rod 69 is fixed on a left side of a top end of the annular rod 68, a right side of the annular rod 68 is fixed with the sliding block 65, a right side of the sliding block 65 is rotatably connected with a left side of the arc-shaped elastic plate 64, and a top end of the sliding block 65 is fixed with the air pressure rod 67. Connect colloid pipeline 3 and incinerator through setting up connecting device 6, through inserting hollow inserted bar 61 in incinerator top end opening, at first incinerator top end opening can extrude clamp plate 63, make clamp plate 63 anticlockwise rotate, drive slider 65 downstream through arc elastic plate 64, thereby drive atmospheric pressure pole 67 through slider 65 downstream, take away the gaseous body in annular gasbag 62 through atmospheric pressure storehouse two 66, make annular gasbag 62 shrink, in the in-process that hollow inserted bar 61 continuously moved down, clamp plate 63 and incinerator top end opening separation, annular gasbag 62 resets the inflation this moment, fix hollow inserted bar 61 and incinerator top end opening, have the stronger advantage of connection compactness simultaneously.

When the hollow inserting rod 61 is used, the hollow inserting rod 61 is firstly inserted into the top opening of the incinerator, the top opening of the incinerator extrudes the pressing plate 63, the pressing plate 63 rotates anticlockwise, the sliding block 65 is driven to move downwards through the arc-shaped elastic plate 64, the air pressure rod 67 is driven to move downwards through the sliding block 65, gas in the annular air bag 62 is pumped away through the air pressure bin II 66, the annular air bag 62 is contracted, the pressing plate 63 is separated from the top opening of the incinerator in the continuous downward moving process of the hollow inserting rod 61, and the annular air bag 62 is reset and expanded to fix the hollow inserting rod 61 and the top opening of the incinerator, and meanwhile, the hollow inserting rod 61 and the top opening of the incinerator have the advantage of high connection tightness;

when the incinerator works, waste gas can enter the waste gas reaction bin 1 through the colloid pipeline 3, firstly, solid particles are filtered through the filter screen 42 in the colloid pipeline 3, in the long-term filtering process, more solid particles can be attached to the filter screen 42, at the moment, the double-sided cam 444 is rotated by rotating the knob rod 442, the left side of the double-sided cam 444 is fixed with the rotating rod 46, the filter screen 42 fixed with the rotating rod 46 rotates along with the rotating rod, one end, attached to the solid particles, of the filter screen 42 is turned to the lower side, and meanwhile, the position of the double-sided cam 444 is assisted and positioned through the two arc-shaped clamping blocks 443. At the moment, the linear motor 41 is started to enable the collection bin 45 to move rightwards, in the moving process of the collection bin 45, the second friction wheel 410 rotates clockwise under the action of the L-shaped sliding rail 43, then the first friction wheel 49 is driven to rotate anticlockwise through the second friction wheel 410, the first friction wheel 49 rotates anticlockwise through the steel brush roller 48, at the moment, the bottom of the filter screen 42 is cleaned through the steel brush roller 48, meanwhile, solid particles attached to the steel brush roller 48 are scraped through the arc-shaped scraping plate 47, and then the filter screen 42 is cleaned;

then the waste gas after primary filtration enters a mixing bin 51, a large amount of large calcium carbonate particles are arranged in the mixing bin 51, four stirring rods 55 on a rotating rod 54 are controlled by a rotating motor 53 to rotate, the large calcium carbonate particles are turned through the rotation of the four stirring rods 55, the contact area between the large calcium carbonate particles and the waste gas is increased, meanwhile, in the rotating process of the stirring rods 55, a plurality of impact balls 52 fixed on the inner wall of the mixing bin 51 sequentially impact and extrude an air bag 564, so that the gas in the air bag enters a first pneumatic bin 563, an impact rod 565 is popped out, the impact rod 565 impacts a rotating plate 562, the rotating plate 562 rotates, the bottom of the rotating plate 562 is connected with an arc-shaped plate 561, the arc-shaped plate 561 rotates, the stirring effect of the stirring rods 55 is improved, and the large calcium carbonate particles can better contact with the waste gas;

the treated exhaust gas is fed to a subsequent treatment device through a connecting pipe 2.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An exhaust-gas treatment equipment for incinerator, includes waste gas reaction storehouse (1), its characterized in that: a connecting pipeline (2) is fixed on the right side of the waste gas reaction bin (1), a colloid pipeline (3) is embedded at the top end of the waste gas reaction bin (1), the upper end in the waste gas reaction bin (1) is fixed with a filtering and cleaning device (4), the filtering cleaning device (4) comprises a linear motor (41), a filter screen (42), an L-shaped slide rail (43) and a control structure (44), the linear motor (41) is embedded at the upper end of the waste gas reaction bin (1), a collection bin (45) is fixed at the moving shaft of the linear motor (41), the L-shaped slide rails (43) are two in total and are fixed in the waste gas reaction bin (1), the bottom of the collecting bin (45) is connected with two L-shaped sliding rails (43) in a sliding way, the filter screen (42) is rotationally connected with the air outlet of the colloid pipeline (3) through a rotating rod (46), the control structure (44) is arranged outside the waste gas reaction cabin (1).

2. An exhaust gas treatment apparatus for incinerator according to claim 1, characterized in that: collect the inside in storehouse (45) and be fixed with arc scraper blade (47), it is connected with steel brush cylinder (48) to rotate on the right side wall in storehouse (45) to collect, the front end of steel brush cylinder (48) is fixed with friction pulley (49), the front end of collecting storehouse (45) rotates and is connected with friction pulley two (410), the one end and the friction pulley one (49) extrusion contact of friction pulley two (410), the other end and front end L type slide rail (43) upper surface extrusion contact of friction pulley two (410).

3. The exhaust gas treatment equipment for incinerator according to claim 1, characterized by that: the control structure (44) comprises two fixing plates (441) and two double-sided cams (444), the two fixing plates (441) are fixed outside the waste gas reaction bin (1), opposite ends of the two fixing plates (441) are elastically connected with arc-shaped clamping blocks (443) through elastic pieces, the double-sided cams (444) are fixed at the front end of the rotating rod (46), and one ends, far away from the rotating rod (46), of the double-sided cams (444) are fixed with rotating button rods (442).

4. An exhaust gas treatment apparatus for incinerator according to claim 1, characterized in that: the inside middle-end in waste gas reaction storehouse (1) is provided with reaction filter equipment (5), reaction filter equipment (5) are including mixing storehouse (51), the inner wall middle-end in mixing storehouse (51) is fixed with a plurality of striking balls (52), the bottom in mixing storehouse (51) is fixed with rotating electrical machines (53), the axis of rotation department of rotating electrical machines (53) is fixed with swing arm (54), the outer wall of swing arm (54) is fixed with four puddlers (55), four the inside of puddler (55) all is provided with aggregate unit (56).

5. An exhaust gas treatment apparatus for incinerator according to claim 4, characterized in that: linkage (56) include arc (561), atmospheric pressure storehouse (563), arc (561) rotate through the montant and connect in the inside of puddler (55), and the top of montant is fixed with commentaries on classics board (562), the top at puddler (55) is fixed in atmospheric pressure storehouse (563), the inside one end sliding connection in atmospheric pressure storehouse (563) has striking pole (565), the other end in atmospheric pressure storehouse (563) is fixed with extrusion gasbag (564).

6. An exhaust gas treatment apparatus for incinerator according to claim 4, characterized in that: four through openings are formed in the bottom of the mixing bin (51), and a blocking net is arranged in each through opening.

7. An exhaust gas treatment apparatus for incinerator according to claim 5, wherein: a torsion spring is arranged in a vertical rod at the joint of the arc-shaped plate (561) and the stirring rod (55), the extrusion air bag (564) is positioned at the front end of the stirring rod (55), and the extrusion air bag (564) and the impact ball (52) are positioned at the same height.

8. An exhaust gas treatment apparatus for incinerator according to claim 1, characterized in that: the one end of keeping away from waste gas reaction storehouse (1) in colloid pipeline (3) is fixed with connecting device (6), connecting device (6) are including hollow inserted bar (61), the outer wall of hollow inserted bar (61) is fixed with annular gasbag (62), the outer wall of hollow inserted bar (61) rotates and is connected with clamp plate (63), be fixed with arc elastic plate (64) on clamp plate (63), the inner wall sliding connection of hollow inserted bar (61) has slider (65), the inside of hollow inserted bar (61) is fixed with atmospheric pressure storehouse two (66), the one end and the annular gasbag (62) intercommunication of atmospheric pressure storehouse two (66), the inside other end sliding connection of atmospheric pressure storehouse two (66) has atmospheric pressure pole (67).

9. An exhaust gas treatment apparatus for incinerator according to claim 8, wherein: the inner part of the hollow insert rod (61) is connected with an annular rod (68) in a sliding mode, a reset rod (69) is fixed to the left side of the top end of the annular rod (68), and the right side of the annular rod (68) is fixed to the sliding block (65).

10. An exhaust gas treatment apparatus for an incinerator as defined in claim 8 wherein: the right side of slider (65) is connected with arc elastic plate (64) left side rotation, the top and the pressure bar (67) of slider (65) are fixed.