CN112283724B - Through secondary treatment direct combustion formula exhaust-gas treatment incineration equipment to waste gas - Google Patents

Abstract

The invention provides direct combustion type waste gas treatment incineration equipment through secondary treatment of waste gas, relates to the technical field of environmental protection equipment, and solves the problems that residues are easy to accumulate on an incineration seat in the incineration process, and the incineration efficiency is directly influenced under the blockage of the residues; the mixing of the filtered liquid and the division of the gas cannot be achieved by structural improvement; the problem of the organic linkage of a slag removing structure and a purifying structure cannot be realized through structural improvement. A direct combustion type waste gas treatment incineration apparatus through secondary treatment of waste gas comprises an incineration box body; the incineration box is internally provided with an incineration seat structure, and the incineration box is provided with a driving structure. Because of the circular plate sliding connection in the purification box A, and the circular plate is provided with the rectangular holes in a rectangular array shape, the liquid in the purification box A can be mixed under the action of the circular plate and the rectangular holes when the purification box A reciprocates up and down, and the liquid filtering effect is further improved.

Description

Through secondary treatment direct combustion formula exhaust-gas treatment incineration equipment to waste gas

Technical Field

The invention belongs to the technical field of environmental protection equipment, and particularly relates to direct combustion type waste gas treatment incineration equipment for secondary treatment of waste gas.

Background

Along with the continuous promotion of national economy, the domestic waste who produces along with it also progressively increases, so need carry out effectual environmental protection to this rubbish and handle, because the rubbish volume is more, so need unified the drawing of this rubbish to the incineration plant and carry out the treatment of planning nature, because it adopts incineration disposal method, so can produce a large amount of harmful gas after the burning, need do purification treatment to this gas through exhaust-gas treatment equipment.

As in application No.: CN202010382459.8, the invention discloses waste gas treatment equipment of a waste incineration plant, and the structure of the waste gas treatment equipment comprises a controller, a spray tower, a delivery pipe, a thrust suppression device, a water pump, a pipeline and an exhaust pipe. Has the advantages that: the invention utilizes the matching of the scattering mechanism and the stirring inhibition component to facilitate the realization of the scattering function when the output gas is divided and linearly output, so that the output gas flows around in a scattering shape, and the redundant chemical or physical reaction on the opposite surface is avoided under the strong action of the linear output, so that the opposite surface wall is thinned.

The waste gas treatment incineration equipment similar to the above application has the following defects at present:

one is that the existing device has low incineration efficiency, residues are easy to accumulate on the incineration seat in the incineration process, and the incineration efficiency is directly influenced under the blockage of the residues; moreover, when the existing device is used for purifying gas, the mixing of filtered liquid and the division of gas cannot be realized through structural improvement, so that the purification efficiency is reduced; finally, the existing devices cannot realize the organic linkage of the slag removal structure and the purification structure through structural improvement.

In view of the above, the present invention provides a direct combustion type waste gas treatment and incineration apparatus for secondary treatment of waste gas, which is developed and improved in view of the existing structure and disadvantages, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides direct combustion type waste gas treatment incineration equipment for secondary treatment of waste gas, aiming at solving the problems that the existing device has low incineration efficiency, residues are easy to accumulate on an incineration seat in the incineration process, and the incineration efficiency is directly influenced under the blockage of the residues; moreover, when the existing device is used for purifying gas, the mixing of filtered liquid and the division of gas cannot be realized through structural improvement, so that the purification efficiency is reduced; finally, the existing device can not realize the organic linkage of the slag removal structure and the purification structure through structural improvement.

The invention relates to a direct-fired waste gas treatment incineration device for secondary treatment of waste gas, which aims to achieve the following specific technical means:

a direct combustion type waste gas treatment incineration apparatus by secondary treatment of waste gas includes an incineration tank body; an incineration seat structure is installed in the incineration box body, a driving structure is installed on the incineration box body, and a first purification structure is installed in the incineration box body; a second purification structure is arranged on the first purification structure; the first purification structure further comprises a sliding seat, a filter plate and filter holes, the sliding seat is welded in the purification box A, and the sliding seat is connected with the filter plate in a sliding manner; the filter plate is provided with filter holes in an annular array shape, and the filter holes in the annular array shape form a cutting structure for discharging sprayed gas from the exhaust hole A; the incinerator body comprises a connecting arm, a circular plate and a rectangular hole, the connecting arm is fixedly connected to the incinerator body through a bolt, the connecting arm is of an L-shaped structure, and the circular plate is welded to the connecting arm; the circular plate is connected in the purification box A in a sliding mode, and rectangular holes are formed in the circular plate in a rectangular array mode.

Furthermore, the incineration box body comprises a feeding pipe, a drawer, an exhaust pipe A and an exhaust hole A, the feeding pipe is fixedly connected to the incineration box body through a bolt, the drawer is connected to the incineration box body in a sliding mode, and the exhaust pipe A is connected to the incineration box body; the exhaust pipe A is of a cylindrical tubular structure, exhaust holes A are formed in the exhaust pipe A in an annular array shape, and the exhaust holes A formed in the annular array shape jointly form an even diffusion structure of incineration gas.

Furthermore, the incineration seat structure comprises a connecting seat, a sliding rod A, an incineration seat body and an elastic piece A, wherein the connecting seat is welded in the incineration box body, and the sliding rod A is welded on the connecting seat; the incineration seat body is of a circular plate-shaped structure with holes and is connected to the sliding rod A in a sliding mode; the elastic pieces A are provided with two elastic pieces A which are respectively sleeved on the two sliding rods A, and the two elastic pieces A jointly form an elastic reset structure of the incineration seat main body.

Furthermore, the driving structure comprises a rotating shaft, a driving motor and blades, the rotating shaft is rotatably connected to the incineration box body, and the driving motor is fixedly connected to the incineration box body; the rotating shaft is connected with a rotating shaft of the driving motor, blades are arranged on the rotating shaft in a rectangular array mode, and the blades arranged in the rectangular array mode form a combustion-supporting structure for burning materials on the burning seat main body.

Furthermore, the incineration seat structure also comprises two stress seats, the two stress seats are symmetrically welded on the bottom end surface of the incineration seat main body, and the two stress seats are both of L-shaped plate structures; the driving structure further comprises two poke rods A, and the two poke rods A are symmetrically and symmetrically welded on the rotating shaft; the poke rod A is aligned with the stressed seat, and the poke rod A is in elastic contact with the stressed seat.

Furthermore, the first purification structure comprises a sliding plate, sliding rods B, a purification box A and an elastic piece B, wherein the sliding plate is welded on the incineration box body, the sliding plate is connected with the four sliding rods B in a sliding manner, and the head ends of the four sliding rods B are welded with the purification box A together; each sliding rod B is sleeved with an elastic piece B, and the four elastic pieces B jointly form an elastic reset structure of the purification box A; the driving structure further comprises a poke rod B, the poke rod B is installed on the rotating shaft, and the poke rod B is in contact with the bottom end face of the purification box A.

Furthermore, the first purification structure further comprises an exhaust pipe B and an exhaust hole B, wherein the exhaust pipe B is connected to the purification box A and is inserted in the second purification structure; the exhaust pipe B is provided with exhaust holes B in an annular array shape, and the exhaust holes B in the annular array shape jointly form a gas diffusion type structure.

Further, the second purification structure comprises a filter box and a purification box B, the filter box is fixedly connected to the purification box A, and the purification box B is arranged in the filter box; and the purification box B is filled with activated carbon and is positioned above the exhaust pipe B.

Compared with the prior art, the invention has the following beneficial effects:

through the matching arrangement of the incineration seat structure, the driving structure and the first purification structure, firstly, the blades arranged in a rectangular array form a combustion-supporting structure of the incineration objects on the incineration seat main body, so that when the blades rotate, the wind power combustion supporting of the incineration objects on the incineration seat main body can be realized; secondly, the poke rod A is in elastic contact with the stressed seat, so that the stressed seat and the incineration seat main body are in a reciprocating vibration state when the poke rod A rotates along with the rotating shaft, and the vibration slag removal of the incineration seat main body is realized; thirdly, as the poke rod B is in contact with the bottom end face of the purification box A, the purification box A is in a reciprocating motion state when the poke rod B rotates, and the liquid in the purification box A can be mixed; fourthly, the sliding seat is connected with a filter plate in a sliding way; the filter plate is provided with filter holes in an annular array form, and the filter holes in the annular array form a division structure of the exhaust holes A for discharging sprayed gas, so that on one hand, the contact effect of the gas and the liquid in the purification box A can be improved through gas division, and further the gas filtering effect is improved, and on the other hand, when the purification box A reciprocates up and down, the filter plate also reciprocates, so that the mixing of the liquid in the purification box A is realized, and further the gas filtering effect is improved; fifthly, because of the disc sliding connection in the purification box A, and the disc is provided with rectangular holes in a rectangular array shape, the liquid in the purification box A can be mixed under the action of the disc and the rectangular holes when the purification box A reciprocates up and down, and the liquid filtering effect is further improved.

Through the setting of blast pipe A and exhaust hole A, because of blast pipe A is cylindricality tubular structure, and be the annular array form on the blast pipe A and seted up exhaust hole A to the exhaust hole A that the annular array form was seted up has constituteed the even diffusion structure of burning gas jointly, thereby burns the gaseous diffusion that produces to first purification structure in can be even.

Through the arrangement of the exhaust pipe B and the exhaust holes B, the exhaust holes B are formed in the exhaust pipe B in an annular array manner, and the exhaust holes B formed in the annular array manner jointly form a gas diffusion type structure, so that the contact effect of gas and a filtering structure in the second purification structure can be improved.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is an enlarged schematic view of fig. 2 at a.

Fig. 4 is an enlarged schematic view of fig. 2B according to the present invention.

FIG. 5 is a schematic view of a first purification structure according to the present invention in enlarged cross-sectional view.

Fig. 6 is an enlarged view of the structure of fig. 5C according to the present invention.

Fig. 7 is an enlarged view of fig. 5D according to the present invention.

Fig. 8 is a schematic cross-sectional structural view of a second purification structure of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. incinerating the box body; 101. a feed pipe; 102. a drawer; 103. an exhaust pipe A; 104. an exhaust hole A; 105. a connecting arm; 106. a circular plate; 107. a rectangular hole; 2. an incineration seat structure; 201. a connecting seat; 202. a slide bar A; 203. an incineration seat main body; 204. an elastic member A; 205. a stressed seat; 3. a drive structure; 301. a rotating shaft; 302. a drive motor; 303. a blade; 304. a poker rod A is dialed; 305. a poker rod B is dialed; 4. a first purification structure; 401. a sliding plate; 402. a slide bar B; 403. a purifying box A; 404. an elastic member B; 405. a sliding seat; 406. a filter plate; 407. a filtration pore; 408. an exhaust pipe B; 409. an exhaust hole B; 5. a second purification structure; 501. a filter cartridge; 502. and a purifying box B.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides direct combustion type waste gas treatment incineration equipment through secondary treatment of waste gas, which comprises an incineration box body 1; an incineration seat structure 2 is installed in the incineration box body 1, a driving structure 3 is installed on the incineration box body 1, and a first purification structure 4 is installed in the incineration box body 1; the first purifying structure 4 is provided with a second purifying structure 5; referring to fig. 5 and 6, the first purification structure 4 further includes a sliding seat 405, a filter plate 406 and filter holes 407, the sliding seat 405 is welded inside the purification cassette a403, and the filter plate 406 is slidably connected to the sliding seat 405; the filter plate 406 is provided with filter holes 407 in an annular array, and the filter holes 407 in the annular array form a division structure for the exhaust holes a104 to exhaust gas, so that on one hand, the contact effect of gas and liquid in the purification box a403 can be improved through gas division, and further the gas filtering effect is improved, and on the other hand, when the purification box a403 reciprocates up and down, the filter plate 406 also reciprocates, so that the mixing of the liquid in the purification box a403 is realized, and further the gas filtering effect is improved; referring to fig. 5, the incineration tank body 1 comprises a connecting arm 105, a circular plate 106 and a rectangular hole 107, the connecting arm 105 is fixedly connected to the incineration tank body 1 through bolts, the connecting arm 105 is of an L-shaped structure, and the circular plate 106 is welded on the connecting arm 105; the circular plate 106 is slidably connected in the purification box A403, and the rectangular holes 107 are formed in the circular plate 106 in a rectangular array, so that when the purification box A403 reciprocates up and down, the liquid in the purification box A403 can be mixed under the action of the circular plate 106 and the rectangular holes 107, and the liquid filtering effect is further improved.

Referring to fig. 5 and 6, the incineration chamber body 1 comprises a feeding pipe 101, a drawer 102, an exhaust pipe a103 and an exhaust hole a104, the feeding pipe 101 is fixedly connected to the incineration chamber body 1 through a bolt, the drawer 102 is slidably connected to the incineration chamber body 1, and the exhaust pipe a103 is connected to the incineration chamber body 1; exhaust pipe A103 is the cylindricality tubular structure, and has seted up exhaust hole A104 on exhaust pipe A103 for annular array form to the exhaust hole A104 that annular array form was seted up has constituteed the even diffusion structure of burning gaseous jointly, thereby burns the gaseous even diffusion of producing in can the first purification structure 4 of homogeneous diffusion.

Referring to fig. 2 and 3, the incineration seat structure 2 includes a connection seat 201, a sliding rod a202, an incineration seat body 203 and an elastic member a204, the connection seat 201 is welded in the incineration tank body 1, and the sliding rod a202 is welded on the connection seat 201; the incineration seat body 203 is a perforated circular plate-shaped structure, and the incineration seat body 203 is connected to the sliding rod A202 in a sliding manner; the number of the elastic pieces A204 is two, the two elastic pieces A204 are respectively sleeved on the two sliding rods A202, and the two elastic pieces A204 jointly form an elastic reset structure of the incineration seat main body 203, so that elastic reset after the incineration seat main body 203 is jacked up can be realized.

Referring to fig. 2, the driving structure 3 comprises a rotating shaft 301, a driving motor 302 and a blade 303, the rotating shaft 301 is rotatably connected to the incineration tank body 1, and the driving motor 302 is fixedly connected to the incineration tank body 1; the rotating shaft 301 is connected with a rotating shaft of the driving motor 302, the blades 303 are installed on the rotating shaft 301 in a rectangular array shape, and the blades 303 installed in the rectangular array shape form a combustion-supporting structure for the incineration materials on the incineration seat main body 203, so that wind power combustion supporting of the incineration materials on the incineration seat main body 203 can be realized when the blades 303 rotate.

Referring to fig. 2 and fig. 3, the incineration seat structure 2 further includes two force-bearing seats 205, the two force-bearing seats 205 are symmetrically welded on the bottom end face of the incineration seat main body 203, and both the two force-bearing seats 205 are L-shaped plate structures; the driving structure 3 further comprises two poking rods A304, and the two poking rods A304 are symmetrically welded on the rotating shaft 301; the poke rod A304 is aligned with the stressed seat 205, and the poke rod A304 is in elastic contact with the stressed seat 205, so that the stressed seat 205 and the incineration seat main body 203 are in a reciprocating vibration state when the poke rod A304 rotates along with the rotating shaft 301, and accordingly vibration slag removal of the incineration seat main body 203 is achieved.

Referring to fig. 2 and 4, the first purification structure 4 comprises a sliding plate 401, sliding rods B402, a purification box a403 and elastic members B404, the sliding plate 401 is welded on the incineration tank body 1, four sliding rods B402 are connected on the sliding plate 401 in a sliding manner, and the purification box a403 is welded together at the head ends of the four sliding rods B402; each sliding rod B402 is sleeved with an elastic piece B404, and the four elastic pieces B404 form an elastic reset structure of the purification box A403; the driving structure 3 further comprises a poke rod B305, the poke rod B305 is installed on the rotating shaft 301, and the poke rod B305 is in contact with the bottom end surface of the purifying box a403, so that the purifying box a403 is in a reciprocating motion state when the poke rod B305 rotates, and mixing of liquid in the purifying box a403 can be realized.

Referring to fig. 8, the first purification structure 4 further includes an exhaust pipe B408 and an exhaust hole B409, the exhaust pipe B408 is connected to the purification box a403, and the exhaust pipe B408 is further inserted into the second purification structure 5; exhaust pipe B408 is provided with exhaust holes B409 in an annular array, and exhaust holes B409 in an annular array form a gas diffusion structure, so that the contact effect of gas and the filtering structure in second purification structure 5 can be improved.

Referring to fig. 8, the second purification structure 5 includes a filter cassette 501 and a purification cassette B502, the filter cassette 501 is fixedly connected to the purification cassette a403, and the purification cassette B502 is installed in the filter cassette 501; the purification box B502 is filled with activated carbon, and the purification box B502 is located above the exhaust pipe B408.

The specific use mode and function of the embodiment are as follows:

when the combustion-supporting seat is used, when the driving motor 302 rotates, firstly, the rotating shaft 301 is connected with the rotating shaft of the driving motor 302, the blades 303 are arranged on the rotating shaft 301 in a rectangular array, and the blades 303 arranged in the rectangular array form a combustion-supporting structure for the incineration materials on the incineration seat main body 203, so that wind combustion supporting for the incineration materials on the incineration seat main body 203 can be realized when the blades 303 rotate; secondly, as the poke rod A304 is aligned with the stress base 205 and the poke rod A304 is in elastic contact with the stress base 205, when the poke rod A304 rotates along with the rotating shaft 301, the stress base 205 and the incineration base main body 203 are in a reciprocating vibration state, so that the vibration slag removal of the incineration base main body 203 is realized; thirdly, since the tap lever B305 is installed on the rotating shaft 301 and the tap lever B305 contacts with the bottom end surface of the purifying box a403, the purifying box a403 is in a reciprocating motion state when the tap lever B305 rotates, and the mixing of the liquid in the purifying box a403 can be realized; fourthly, the sliding seat 405 is welded in the purifying box A403, and the filtering plate 406 is connected on the sliding seat 405 in a sliding way; the filter plate 406 is provided with filter holes 407 in an annular array, and the filter holes 407 in the annular array form a division structure for the exhaust holes a104 to exhaust gas, so that on one hand, the contact effect of gas and liquid in the purification box a403 can be improved through gas division, and further the gas filtering effect is improved, and on the other hand, when the purification box a403 reciprocates up and down, the filter plate 406 also reciprocates, so that the mixing of the liquid in the purification box a403 is realized, and further the gas filtering effect is improved; fifthly, since the circular plate 106 is slidably connected in the purification box a403 and the rectangular holes 107 are formed in the circular plate 106 in a rectangular array, when the purification box a403 reciprocates up and down, the liquid in the purification box a403 can be mixed under the action of the circular plate 106 and the rectangular holes 107, thereby improving the liquid filtering effect.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (2)

1. A use method of a direct combustion type waste gas treatment incineration device through secondary treatment of waste gas is characterized in that: the equipment comprises an incineration tank body (1); an incineration seat structure (2) is installed in the incineration box body (1), a driving structure (3) is installed on the incineration box body (1), and a first purification structure (4) is installed in the incineration box body (1); a second purification structure (5) is arranged on the first purification structure (4); the first purification structure (4) further comprises a sliding seat (405), a filter plate (406) and filter holes (407), the sliding seat (405) is welded in the purification box A (403), and the sliding seat (405) is connected with the filter plate (406) in a sliding manner; the filtering plate (406) is provided with filtering holes (407) in an annular array, and the filtering holes (407) in the annular array form a dividing structure for the gas sprayed out of the exhaust hole A (104); the incineration box body (1) comprises a connecting arm (105), a circular plate (106) and a rectangular hole (107), the connecting arm (105) is fixedly connected to the incineration box body (1) through a bolt, the connecting arm (105) is of an L-shaped structure, and the circular plate (106) is welded on the connecting arm (105); the circular plate (106) is connected in the purification box A (403) in a sliding manner, and rectangular holes (107) are formed in the circular plate (106) in a rectangular array shape;

the incineration box body (1) comprises a feeding pipe (101), a drawer (102), an exhaust pipe A (103) and an exhaust hole A (104), the feeding pipe (101) is fixedly connected to the incineration box body (1) through a bolt, the drawer (102) is connected to the incineration box body (1) in a sliding mode, and the exhaust pipe A (103) is connected to the incineration box body (1); the exhaust pipe A (103) is of a cylindrical tubular structure, exhaust holes A (104) are formed in the exhaust pipe A (103) in an annular array manner, and the exhaust holes A (104) formed in the annular array manner jointly form a uniform diffusion structure of the incineration gas;

the incineration seat structure (2) comprises a connecting seat (201), a sliding rod A (202), an incineration seat main body (203) and an elastic piece A (204), wherein the connecting seat (201) is welded in the incineration box body (1), and the sliding rod A (202) is welded on the connecting seat (201); the incineration seat main body (203) is of a perforated circular plate-shaped structure, and the incineration seat main body (203) is connected to the sliding rod A (202) in a sliding mode; the two elastic pieces A (204) are arranged in total, the two elastic pieces A (204) are respectively sleeved on the two sliding rods A (202), and the two elastic pieces A (204) jointly form an elastic reset structure of the incineration seat main body (203);

the driving structure (3) comprises a rotating shaft (301), a driving motor (302) and blades (303), the rotating shaft (301) is rotatably connected to the incineration box body (1), and the driving motor (302) is fixedly connected to the incineration box body (1); the rotating shaft (301) is connected with a rotating shaft of the driving motor (302), the blades (303) are arranged on the rotating shaft (301) in a rectangular array manner, and the blades (303) arranged in the rectangular array manner form a combustion-supporting structure of the incineration materials on the incineration seat main body (203);

the incineration seat structure (2) further comprises two stress seats (205), the two stress seats (205) are symmetrically welded on the bottom end face of the incineration seat main body (203), and the two stress seats (205) are both L-shaped plate-shaped structures; the driving structure (3) further comprises two poking rods A (304), the two poking rods A (304) are arranged, and the two poking rods A (304) are symmetrically and symmetrically welded on the rotating shaft (301); the poke rod A (304) is aligned with the stress seat (205), and the poke rod A (304) is in elastic contact with the stress seat (205);

the first purification structure (4) comprises a sliding plate (401), sliding rods B (402), a purification box A (403) and an elastic piece B (404), wherein the sliding plate (401) is welded on the incineration box body (1), the sliding plate (401) is connected with four sliding rods B (402) in a sliding mode, and the purification box A (403) is welded at the head ends of the four sliding rods B (402) together; each sliding rod B (402) is sleeved with an elastic piece B (404), and the four elastic pieces B (404) jointly form an elastic reset structure of the purification box A (403); the driving structure (3) further comprises a poke rod B (305), the poke rod B (305) is installed on the rotating shaft (301), and the poke rod B (305) is in contact with the bottom end face of the purification box A (403);

the first purification structure (4) further comprises an exhaust pipe B (408) and an exhaust hole B (409), the exhaust pipe B (408) is connected to the purification box A (403), and the exhaust pipe B (408) is further inserted into the second purification structure (5); the exhaust pipe B (408) is provided with exhaust holes B (409) in an annular array, and the exhaust holes B (409) in the annular array form a gas diffusion structure together;

when the combustion-supporting seat is used, when the driving motor 302 rotates, firstly, the rotating shaft 301 is connected with the rotating shaft of the driving motor 302, the blades 303 are arranged on the rotating shaft 301 in a rectangular array, and the blades 303 arranged in the rectangular array form a combustion-supporting structure for the incineration materials on the incineration seat main body 203, so that wind combustion supporting for the incineration materials on the incineration seat main body 203 can be realized when the blades 303 rotate; secondly, as the poke rod A304 is aligned with the stress base 205 and the poke rod A304 is elastically contacted with the stress base 205, when the poke rod A304 rotates along with the rotating shaft 301, the stress base 205 and the incineration seat main body 203 are in a reciprocating vibration state, so that the vibration slag removal of the incineration seat main body 203 is realized; thirdly, as the poke rod B305 is arranged on the rotating shaft 301 and the poke rod B305 is in contact with the bottom end surface of the purifying box A403, the purifying box A403 is in a reciprocating motion state when the poke rod B305 rotates, and the mixing of the liquid in the purifying box A403 can be realized; fourthly, the sliding seat 405 is welded in the purifying box A403, and the sliding seat 405 is connected with the filter plate 406 in a sliding way; the filter plate 406 is provided with filter holes 407 in an annular array, and the filter holes 407 in the annular array form a division structure for the exhaust holes a104 to exhaust gas, so that on one hand, the contact effect of gas and liquid in the purification box a403 can be improved through gas division, and further the gas filtering effect is improved, and on the other hand, when the purification box a403 reciprocates up and down, the filter plate 406 also reciprocates, so that the mixing of the liquid in the purification box a403 is realized, and further the gas filtering effect is improved; fifthly, since the circular plate 106 is slidably connected in the purification box a403 and the rectangular holes 107 are formed in the circular plate 106 in a rectangular array, when the purification box a403 reciprocates up and down, the liquid in the purification box a403 can be mixed under the action of the circular plate 106 and the rectangular holes 107, thereby improving the liquid filtering effect.

2. The use method of a direct combustion type waste gas treatment incineration apparatus through secondary treatment of waste gas according to claim 1, characterized in that: the second purification structure (5) comprises a filter box (501) and a purification box B (502), the filter box (501) is fixedly connected to the purification box A (403), and the purification box B (502) is installed in the filter box (501); the purification box B (502) is filled with activated carbon, and the purification box B (502) is positioned above the exhaust pipe B (408).

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