CN111530218A - A haze canopy falls in environmental protection for outdoor large-scale scene of burning - Google Patents

Abstract

The invention relates to the technical field of haze reduction sheds, in particular to an environment-friendly haze reduction shed for outdoor large-scale incineration sites, which comprises a shed body, a spraying mechanism, a large-particle magnetic recovery mechanism and a multi-layer filtering mechanism, wherein the top end of the shed body is provided with an exhaust air pipe, the spraying mechanism comprises a first horizontal support, an adjusting spraying assembly and an adjusting driving assembly which are respectively arranged on the first horizontal support, the large-particle magnetic recovery mechanism comprises a second horizontal support, a recovery assembly and a plurality of magnetic absorption assemblies, the recovery assembly comprises a recovery blanking bin which extends towards one side below the second horizontal support, the multi-layer filtering mechanism comprises two third horizontal supports, the two third horizontal supports are arranged above the second horizontal support at intervals, each third horizontal support is respectively provided with a filter screen, and the technical scheme can filter and discharge incinerated gas in a graded manner, and when the defogging, collect the large granule thing in the gaseous after will burning, promote and remove the haze effect.

Description

A haze canopy falls in environmental protection for outdoor large-scale scene of burning

Technical Field

The invention relates to the technical field of haze reduction sheds, in particular to an environment-friendly haze reduction shed for an outdoor large-scale incineration site.

Background

Waste incineration is the most extensive refuse treatment mode of application among the refuse treatment, general rubbish is generally all put into to burn in the middle of burning furnace, there is some rubbish unable to burn in burning furnace, the gas that produces after burning need remove the haze and filter, the haze can only be removed through atomizing mode to current technique, only let the particulate matter adsorb water, then subside fast to ground after gaining weight, but along with the rising of temperature, can bring the particulate matter to the air once more, increase particulate matter content, can't collect large granule thing, therefore, we have provided an environmental protection that is used for outdoor large-scale burning scene and have fallen the haze canopy, so that solve the problem that the aforesaid provided.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the environment-friendly haze-reducing shed for the outdoor large-scale incineration site, the technical scheme can filter and discharge the incinerated gas in a grading manner, and collect large particles in the incinerated gas while demisting, so that the haze-removing effect is improved.

In order to solve the technical problems, the invention provides the following technical scheme:

an environment-friendly haze-reducing shed for outdoor large-scale incineration sites comprises a shed body, and further comprises a spraying mechanism, a large-particle magnetic force recovery mechanism and a multi-layer filtering mechanism, wherein an exhaust air pipe is arranged at the top end of the shed body, the spraying mechanism comprises a first horizontal support, an adjusting spraying assembly and an adjusting driving assembly which are respectively arranged on the first horizontal support, the first horizontal support is arranged at the middle end in the shed body, the working end of the adjusting driving assembly is in transmission connection with the inside of the adjusting spraying assembly, the large-particle magnetic force recovery mechanism comprises a second horizontal support, a recovery assembly and a plurality of magnetic force absorption assemblies, the second horizontal support is arranged above the first horizontal support, the second horizontal support is arranged on the inner wall of the shed body, the plurality of magnetic force absorption assemblies are arranged at the top of the second horizontal support at equal intervals along the length direction of the second horizontal support, the recovery assembly is arranged on the, the recovery assembly comprises a recovery blanking bin extending to one side below the second horizontal support, the multilayer filtering mechanism comprises two third horizontal supports, the two third horizontal supports are arranged above the second horizontal support at intervals, and a filter screen is arranged on each third horizontal support.

Preferably, the adjusting spray assembly comprises a plurality of spray guide pipes extending along the length direction of the first horizontal support, each spray guide pipe is located below the first horizontal support, a plurality of spray nozzles distributed at equal intervals are arranged on each spray guide pipe, first bearings are arranged at two ends of each spray guide pipe respectively, two ends of each spray guide pipe are rotatably connected with each first bearing through first rotating shafts respectively, and each first bearing is arranged on the first horizontal support respectively.

Preferably, the adjusting and driving assembly comprises a first motor, a first rotating rod and two second bearings, the first rotating rod is arranged at the tail end of the first horizontal support along the width direction of the first horizontal support, the two second bearings are respectively arranged at the two ends of the first rotating rod, each second bearing is respectively arranged on the first horizontal support, the two ends of the first rotating rod can be respectively rotatably inserted into the inner ring of each second bearing, the first motor is arranged at one end of one of the second bearings, the first motor is arranged on the first horizontal support, the output end of the first motor is in transmission connection with one end of the first rotating rod, one ends of all the first rotating rods, which are respectively close to the first rotating rod, are provided with first conical teeth, the first rotating rod is provided with second conical teeth which are in one-to-one correspondence with the first conical teeth, and the first conical teeth are arranged in a meshed manner with the second conical teeth.

Preferably, each magnetic force suction assembly comprises a driving roller, a driven roller and two horizontal side frames, the two horizontal side frames are horizontally distributed at the top of the second horizontal support along the width direction of the second horizontal support, the driving roller and the driven roller are horizontally arranged at two ends between the two horizontal side frames respectively, two ends of the driving roller and two ends of the driven roller can be rotatably inserted into the inner wall of each horizontal side frame through a second rotating shaft respectively, a second motor is installed on the side wall of one of the horizontal side frames, the output end of the second motor is in transmission connection with one end of one of the second rotating shafts of the driving roller, and the driving roller is in transmission connection with the driven roller through a magnetic synchronous belt.

Preferably, every the magnetic force absorbs the subassembly and still all includes the friction plate, and the friction plate is the level setting in the top of magnetic force hold-in range, and the lower surface of friction plate can be with the surface sliding contact of magnetic force hold-in range, and the both sides of friction plate are connected with the top of second horizontal bracket through fixed bolster respectively.

Preferably, one end of each magnetic force suction component, which is close to each other, is provided with a second rotating rod, two ends of each second rotating rod are connected with one of the second rotating shafts of each magnetic force suction component, which is close to each other, of all the magnetic force suction components, a second motor is arranged on one of the horizontal side frames, which is close to the tail end of the shed body, and the output end of each second motor is in transmission connection with one end of one of the second rotating shafts of the adjacent driving roller.

Preferably, retrieve the subassembly and still include the type of falling L frame that distributes the setting along the length direction who retrieves the blanking storehouse, the bottom of the type of falling L frame is connected with the top of second horizontal support, and the upper end of the type of falling L frame extends to the direction level of every magnetic force hold-in range, and the upper end of the type of falling L frame is provided with the scraper blade that distributes the setting along type of falling L frame length direction.

Preferably, the recycling assembly further comprises a recycling box, the recycling box is distributed on the outer side of the shed body along the length direction of the shed body, a plurality of air blowers which are distributed at equal intervals along the length direction of the recycling box are arranged on one side inside the recycling box, an inclined blanking plate which is obliquely arranged along the length direction of the recycling box is arranged at the lower end inside the recycling box, a collecting blanking port is arranged at one end of the recycling box, one inclined downward end of the inclined blanking plate penetrates through the collecting blanking port and extends to the outer part of the recycling box, two sides of the inclined downward end of the inclined blanking plate are respectively hinged to the inner wall of the recycling box, a fixing sleeve is arranged at the bottom of the inclined upward end of the inclined blanking plate, a transverse rotating rod is arranged at the center of the inner ring of the fixing sleeve, two ends of the transverse rotating rod can be respectively and rotatably inserted into the inner wall of the recycling box, a third motor is arranged on the outer wall of, the two ends of the transverse rotating rod are respectively provided with a cam which can be in sliding contact with the inner ring of the fixed sleeve, the bottom of the recovery blanking bin is provided with a plurality of material guide pipes which penetrate through two sides of one side of the shed body, and one end of each material guide pipe is respectively communicated with the inside of the recovery box.

Preferably, the exhaust air pipe includes total exhaust pipe, the air exhauster, the aiutage, top cap and a plurality of direction blast pipe, a plurality of direction blast pipe is the matrix distribution respectively and sets up the top at the canopy body, and every direction blast pipe's both ends link up the two sides at canopy body top respectively, total exhaust pipe is the level setting in the top of the canopy body, every direction blast pipe's upper end communicates with total exhaust pipe's inside respectively, total exhaust pipe's one end is equipped with the gas outlet, the air exhauster setting is close to the one end of gas outlet at total exhaust pipe, the aiutage sets up the upper end at the air exhauster, the top cap sets up the upper end at the.

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

an environment-friendly haze reduction shed for an outdoor large-scale incineration site is disclosed, wherein a shed body is arranged outdoors, when incineration needs to be carried out in the shed body, a first motor is started, a first rotating rod is driven to rotate through the first motor, each second conical tooth is driven to rotate through the first rotating rod, each first conical tooth is driven to rotate through each second conical tooth, each spray conduit is driven to rotate through each first conical tooth until each spray nozzle is adjusted to a required angle and stopped, each spray conduit is communicated with a water tank or tap water through a water pipe respectively, water is supplied, spraying is carried out through each spray nozzle, the incinerated gas is atomized most first, the incinerated gas content is dispersed, each driving roller is driven to rotate through the second motor and each second rotating rod respectively, each driving roller drives a driven roller to rotate through each synchronous belt respectively, the magnetic force synchronous belt rotates along the driving roller and the driven roller and is in sliding contact with the friction plate when rotating at each time, the magnetic force synchronous belt is enabled to generate magnetic force, large particle matters in incineration gas are adsorbed through the magnetic force synchronous belt generating the magnetic force, the large particle matters adsorbed on each rotating magnetic force synchronous belt are scraped through the scraper on the inverted L-shaped frame, the arranged scraped large particle matters fall into a recovery blanking bin arranged below, the large particle matters entering the recovery blanking bin respectively enter a recovery box through the arranged material guide pipes, the large particle matters in the recovery blanking bin can be sucked through each arranged air blower, all the large particle matters are sucked onto the inclined blanking plate, a third motor is started, the transverse rotating rod is driven to rotate through the third motor, each cam is driven to rotate through the transverse rotating rod, and the fixing sleeve slides and conflicts through each cam respectively, make fixed cover and slope blanking plate shake to discharge the collection from collecting the feed opening with big particulate matter, the gas after burning filters through the filter screen that sets up on every third horizontal stand at last, starts the air exhauster, and the gas after will filtering through air exhauster, total blast pipe and every direction blast pipe is discharged through the aiutage.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a partial perspective view of the first embodiment of the present invention;

FIG. 5 is a partial perspective view of the second embodiment of the present invention;

FIG. 6 is an enlarged view taken at A of FIG. 5 in accordance with the present invention;

FIG. 7 is an enlarged view of the invention at B in FIG. 5;

FIG. 8 is a third schematic view of a partial perspective structure of the present invention;

FIG. 9 is an enlarged view of the invention at C of FIG. 8;

FIG. 10 is a schematic perspective view of the retrieval assembly of the present invention;

FIG. 11 is a top view of the retrieval assembly of the present invention;

FIG. 12 is a cross-sectional view taken along line D-D of FIG. 11 of the present invention;

fig. 13 is an enlarged view of fig. 12 at E according to the present invention.

The reference numbers in the figures are: 1-shed body; 2-exhaust air pipe; 3-adjusting the spray assembly; 4-adjusting the drive assembly; 5-a first horizontal support; 6-a second horizontal support; 7-a recovery assembly; 8-a magnetic force suction assembly; 9-recovering a blanking bin; 10-a third horizontal support; 11-a filter screen; 12-a spray conduit; 13-a spray head; 14-a first shaft; 15-a first electric machine; 16-a first rotating rod; 17-a first bevel gear; 18-second taper teeth; 19-a drive roll; 20-a driven roller; 21-horizontal sideframe; 22-magnetic synchronous belt; 23-a friction plate; 24-a second rotating bar; 25-a second motor; 26-an inverted L-shaped frame; 27-a scraper; 28-a recovery tank; 29-inclined blanking plate; 30-collecting a feed opening; 31-a fixation sleeve; 32-transverse rotation rod; 33-a third motor; 34-a cam; 35-a material guide pipe; 36-total exhaust; 37-an exhaust fan; 38-exhaust stack; 39-a top cover; 40-guiding the exhaust pipe; 41-blower.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 13, the environment-friendly haze-reducing shed for outdoor large-scale incineration sites comprises a shed body 1, a spraying mechanism, a large-particle magnetic recycling mechanism and a multi-layer filtering mechanism, wherein an exhaust air pipe 2 is arranged at the top end of the shed body 1, the spraying mechanism comprises a first horizontal support 5, an adjusting spraying assembly 3 and an adjusting driving assembly 4, the adjusting spraying assembly 3 and the adjusting driving assembly 4 are respectively arranged on the first horizontal support 5, the first horizontal support 5 is arranged at the middle end inside the shed body 1, the working end of the adjusting driving assembly 4 is in transmission connection with the inside of the adjusting spraying assembly 3, the large-particle magnetic recycling mechanism comprises a second horizontal support 6, a recycling assembly 7 and a plurality of magnetic absorbing assemblies 8, the second horizontal support 6 is positioned above the first horizontal support 5, the second horizontal support 6 is arranged on the inner wall of the shed body 1, the plurality of magnetic absorbing assemblies 8 are arranged at the top of the second horizontal support 6 at equal intervals along the length, retrieve the subassembly 7 and install in the outside of canopy body 1, retrieve the subassembly 7 and include the recovery blanking storehouse 9 that extends the setting to 6 below one side of second horizontal stand, the multiple-layer filtering mechanism includes two third horizontal stands 10, and two third horizontal stands 10 interval sets up in the top of second horizontal stand 6, is provided with filter screen 11 on every third horizontal stand 10 respectively.

The adjusting spraying assembly 3 comprises a plurality of spraying guide pipes 12 extending along the length direction of the first horizontal support 5, each spraying guide pipe 12 is located below the first horizontal support 5, a plurality of spraying nozzles 13 distributed at equal intervals are arranged on each spraying guide pipe 12, first bearings are arranged at two ends of each spraying guide pipe 12 respectively, two ends of each spraying guide pipe 12 are rotatably connected with each first bearing through first rotating shafts 14 respectively, and each first bearing is installed on the first horizontal support 5 respectively.

The adjusting and driving assembly 4 comprises a first motor 15, a first rotating rod 16 and two second bearings, the first rotating rod 16 is distributed at the tail end of the first horizontal support 5 along the width direction of the first horizontal support 5, the two second bearings are respectively located at the two ends of the first rotating rod 16, each second bearing is respectively installed on the first horizontal support 5, the two ends of the first rotating rod 16 are respectively inserted into the inner ring of each second bearing in a rotating manner, the first motor 15 is located at one end of one of the second bearings, the first motor 15 is installed on the first horizontal support 5, the output end of the first motor 15 is in transmission connection with one end of the first rotating rod 16, first conical teeth 17 are respectively arranged at one end of each first rotating rod 14 close to the first rotating rod 16, second conical teeth 18 corresponding to each first conical tooth 17 one by one are arranged on the first rotating rod 16, the first conical teeth 17 are meshed with the second conical teeth 18, the canopy body 1 is established outdoors, when needs burn in the canopy body 1, start first motor 15, it is rotatory to drive first bull stick 16 through first motor 15, it is rotatory to drive every second taper tooth 18 respectively through first bull stick 16, it is rotatory to drive every first taper tooth 17 respectively through every second taper tooth 18, it rotates to drive every spray pipe 12 respectively through every first taper tooth 17, until adjusting every spray nozzle 13 to required angle and stopping, every spray pipe 12 links to each other with water tank intercommunication or running water through the water pipe respectively, and then supply water, spray through every spray nozzle 13, the gas after will burning atomizes most first, the gas content after the dispersion burns.

Each magnetic force suction assembly 8 comprises a driving roller 19, a driven roller 20 and two horizontal side frames 21, the two horizontal side frames 21 are horizontally distributed at the top of the second horizontal support 6 along the width direction of the second horizontal support 6, the driving roller 19 and the driven roller 20 are horizontally arranged at two ends between the two horizontal side frames 21 respectively, two ends of the driving roller 19 and two ends of the driven roller 20 can be rotatably inserted into the inner wall of each horizontal side frame 21 through second rotating shafts respectively, a second motor 25 is installed on the side wall of one of the horizontal side frames 21, the output end of the second motor 25 is in transmission connection with one end of one of the second rotating shafts of the driving roller 19, and the driving roller 19 is in transmission connection with the driven roller 20 through synchronous belt magnetic force 22.

Every magnetic force absorbs subassembly 8 and still all includes friction plate 23, and friction plate 23 is the level setting in the top of magnetic force hold-in range 22, and the lower surface of friction plate 23 can be with magnetic force hold-in range 22's surface sliding contact, and the both sides of friction plate 23 are connected with the top of second horizontal bracket through the fixed bolster respectively.

One end of each magnetic force absorbing component 8, which is close to each other, is respectively provided with a second rotating rod 24, two ends of each second rotating rod 24 are respectively connected with one of the second rotating shafts of each magnetic force absorbing component 8, which is close to each magnetic force absorbing component 8, each horizontal side frame 21, which is close to the tail end of the shed body 1, is provided with a second motor 25, the output end of each second motor 25 is in transmission connection with one end of one of the second rotating shafts of the adjacent driving rollers 19, each driving roll 19 is rotated by a second motor 25 and each second rotating bar 24, each driving roll 19 is rotated by a driven roll 20 by a magnetic synchronous belt 22, the magnetic synchronous belts 22 are rotated along the driving roll 19 and the driven roll 20, and is in sliding contact with the friction plate 23 every time of rotation, so that the magnetic force synchronous belt 22 generates magnetic force, and large particles in the incineration gas are adsorbed by the magnetic force synchronous belt 22 generating magnetic force.

Retrieve subassembly 7 still includes the type of falling L frame 26 that distributes and set up along the length direction who retrieves blanking storehouse 9, the bottom of type of falling L frame 26 is connected with the top of second horizontal support 6, the upper end of type of falling L frame 26 extends to the direction level of every magnetic force hold-in range 22, the upper end of type of falling L frame 26 is provided with the scraper blade 27 that distributes and set up along type of falling L frame 26 length direction, scrape off the adsorbed large granule thing on every pivoted magnetic force hold-in range 22 through scraper blade 27 on the type of falling L frame 26, the large granule thing of scraping that sets up falls into the recovery blanking storehouse 9 that the below was established.

The recycling assembly 7 further comprises a recycling box 28, the recycling box 28 is distributed on the outer side of the shed body 1 along the length direction of the shed body 1, a plurality of air blowers 41 are arranged on one side inside the recycling box 28 and are distributed at equal intervals along the length direction of the recycling box 28, an inclined blanking plate 29 is arranged at the lower end inside the recycling box 28 and is inclined along the length direction of the recycling box 28, a collecting blanking port 30 is arranged at one end of the recycling box 28, the inclined downward end of the inclined blanking plate 29 penetrates through the collecting blanking port 30 and extends to the outside of the recycling box 28, two sides of the inclined downward end of the inclined blanking plate 29 are hinged to the inner wall of the recycling box 28 respectively, a fixing sleeve 31 is arranged at the bottom of the inclined upward end of the inclined blanking plate 29, a transverse rotating rod 32 is arranged at the center of an inner ring of the fixing sleeve 31, two ends of the transverse rotating rod 32 are rotatably inserted into the inner wall of the recycling box 28 respectively, the output end of a third motor 33 is connected with one end of a transverse rotating rod 32 in a transmission way, two ends of the transverse rotating rod 32 are respectively provided with a cam 34 which can be in sliding contact with the inner ring of a fixed sleeve 31, the bottom of the recovery blanking bin 9 is provided with a plurality of material guide pipes 35 which penetrate through two sides of one side of the shed body 1, one end of each material guide pipe 35 is respectively communicated with the interior of the recovery box 28, large particles entering the recovery blanking bin 9 respectively enter the recovery box 28 through the arranged material guide pipes 35, the large particles in the recovery blanking bin 9 can be sucked through each arranged air blower 41, all the large particles are sucked onto an inclined blanking plate 29, the third motor 33 is started, the transverse rotating rod 32 is driven to rotate through the third motor 33, each cam 34 is respectively driven to rotate through the transverse rotating rod 32, each cam 34 respectively slides and butts against the fixed sleeve 31 through each cam 34, so that the fixed sleeve 31 and the inclined blanking plate, and the large particles are discharged from the collecting feed opening 30 and collected.

The exhaust air duct 2 comprises a main exhaust duct 36, an exhaust fan 37, an exhaust funnel 38, a top cover 39 and a plurality of guide exhaust ducts 40, the plurality of guide exhaust ducts 40 are respectively arranged on the top of the shed body 1 in a matrix distribution, and both ends of each guiding exhaust pipe 40 respectively penetrate through both sides of the top of the shed body 1, the main exhaust pipe 36 is horizontally arranged above the shed body 1, the upper end of each guiding exhaust pipe 40 is respectively communicated with the inside of the main exhaust pipe 36, one end of the main exhaust pipe 36 is provided with an air outlet, the exhaust fan 37 is arranged at one end of the main exhaust pipe 36 close to the air outlet, the exhaust funnel 38 is arranged at the upper end of the exhaust fan 37, the top cover 39 is arranged at the upper end of the exhaust funnel 38, the incinerated gas is finally filtered by the filter screen 11 arranged on each third horizontal bracket 10, the exhaust fan 37 is started, the filtered gas is discharged through a chimney 38 by means of a suction fan 37, a main exhaust pipe 36 and each guide exhaust pipe 40.

The working principle is as follows: the greenhouse body 1 is arranged outdoors, when incineration needs to be carried out in the greenhouse body 1, a first motor 15 is started, a first rotating rod 16 is driven to rotate through the first motor 15, each second conical tooth 18 is driven to rotate through the first rotating rod 16, each first conical tooth 17 is driven to rotate through each second conical tooth 18, each spray conduit 12 is driven to rotate through each first conical tooth 17 until each spray nozzle 13 is adjusted to a required angle and stopped, each spray conduit 12 is communicated with a water tank or tap water through a water pipe respectively, water is supplied, atomization is carried out through each spray nozzle 13, the incinerated gas is atomized most first, the content of the incinerated gas is dispersed, each driving roller 19 is driven to rotate through a second motor 25 and each second rotating rod 24 respectively, each driving roller 19 drives a driven roller 20 to rotate through each magnetic synchronous belt 22 respectively, the magnetic synchronous belt 22 rotates along the driving roller 19 and the driven roller 20, and is in sliding contact with the friction plate 23 when rotating at each time, so that the magnetic synchronous belt 22 generates magnetic force, large particles in incineration gas are adsorbed by the magnetic synchronous belt 22 generating magnetic force, the large particles adsorbed on each rotating magnetic synchronous belt 22 are scraped by the scraper 27 on the inverted L-shaped frame 26, the arranged scraped large particles fall into the recovery blanking bin 9 arranged below, the large particles entering the recovery blanking bin 9 respectively enter the recovery box 28 through the arranged material guide pipe 35, the large particles in the recovery blanking bin 9 can be sucked by each arranged air blower 41, all the large particles are sucked onto the inclined blanking plate 29, the third motor 33 is started, the transverse rotating rod 32 is driven to rotate by the third motor 33, each cam 34 is driven to rotate by the transverse rotating rod 32, the fixed sleeve 31 and the inclined blanking plate 29 are shaken by respectively sliding and abutting against the fixed sleeve 31 through each cam 34, large particles are discharged and collected from the collecting feed opening 30, the burned gas is finally filtered through the filter screen 11 arranged on each third horizontal bracket 10, the exhaust fan 37 is started, and the filtered gas is discharged through the exhaust funnel 38 through the exhaust fan 37, the main exhaust pipe 36 and each guide exhaust pipe 40.

Claims (9)

1. The utility model provides a haze canopy falls in environmental protection for outdoor large-scale scene of burning, including the canopy body (1), a serial communication port, still include the spraying mechanism, large granule magnetic force retrieves mechanism and multilayer filter mechanism, the top of the canopy body (1) is provided with exhaust tuber pipe (2), the spraying mechanism includes first horizontal stand (5) and installs regulation spraying component (3) and regulation drive assembly (4) on first horizontal stand (5) respectively, first horizontal stand (5) are installed in the inside middle-end of the canopy body (1), the work end of regulation drive assembly (4) is connected with the internal drive who adjusts spraying component (3), large granule magnetic force retrieves the mechanism and includes second horizontal stand (6), retrieve subassembly (7) and a plurality of magnetic force and absorb subassembly (8), second horizontal stand (6) are located the top of first horizontal stand (5), second horizontal stand (6) are installed at the inner wall of the canopy body (1), a plurality of magnetic force absorbs subassembly (8) and sets up at second horizontal stand (6) top along the length direction equidistant of second horizontal stand (6), retrieve the outside at the canopy body (1) in subassembly (7), retrieve subassembly (7) including extending recovery blanking storehouse (9) that set up to second horizontal stand (6) below one side, multilayer filter mechanism includes two third horizontal stands (10), two third horizontal stands (10) interval sets up the top at second horizontal stand (6), be provided with filter screen (11) on every third horizontal stand (10) respectively.

2. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that the adjusting spray assembly (3) comprises a plurality of spray pipes (12) extending along the length direction of the first horizontal support (5), each spray pipe (12) is located below the first horizontal support (5), a plurality of spray nozzles (13) distributed at equal intervals are arranged on each spray pipe (12), first bearings are arranged at two ends of each spray pipe (12), two ends of each spray pipe (12) are rotatably connected with each first bearing through a first rotating shaft (14), and each first bearing is arranged on the first horizontal support (5).

3. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that the adjusting drive assembly (4) comprises a first motor (15), a first rotating rod (16) and two second bearings, the first rotating rod (16) is distributed at the tail end of the first horizontal support (5) along the width direction of the first horizontal support (5), the two second bearings are respectively located at two ends of the first rotating rod (16), each second bearing is respectively installed on the first horizontal support (5), two ends of the first rotating rod (16) are respectively rotatably inserted into an inner ring of each second bearing, the first motor (15) is located at one end of one of the second bearings, the first motor (15) is installed on the first horizontal support (5), the output end of the first motor (15) is in transmission connection with one end of the first rotating rod (16), and first conical teeth (17) are respectively arranged at one end, close to the first rotating rod (16), of all the first rotating shafts (14) Second conical teeth (18) which correspond to the first conical teeth (17) one by one are arranged on the first rotating rod (16), and the first conical teeth (17) are meshed with the second conical teeth (18).

4. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that each magnetic force suction assembly (8) comprises a driving roller (19), a driven roller (20) and two horizontal side frames (21), the two horizontal side frames (21) are horizontally distributed at the top of the second horizontal support (6) along the width direction of the second horizontal support (6), the driving roller (19) and the driven roller (20) are respectively horizontally arranged at two ends between the two horizontal side frames (21), two ends of the driving roller (19) and the driven roller (20) are respectively inserted into the inner wall of each horizontal side frame (21) in a rotatable manner through a second rotating shaft, a second motor (25) is arranged on the side wall of one of the horizontal side frames (21), the output end of the second motor (25) is in transmission connection with one end of one of second rotating shafts of the driving roller (19), the driving roller (19) is in transmission connection with the driven roller (20) through a magnetic synchronous belt (22).

5. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that each magnetic force suction assembly (8) further comprises a friction plate (23), the friction plate (23) is horizontally arranged above the magnetic force synchronous belt (22), the lower surface of the friction plate (23) can be in sliding contact with the outer surface of the magnetic force synchronous belt (22), and two sides of the friction plate (23) are respectively connected with the top of the second horizontal frame through fixing supports.

6. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that one end, close to each other, of each magnetic force absorption component (8) is provided with a second rotating rod (24), two ends of each second rotating rod (24) are connected with one of second rotating shafts of each magnetic force absorption component (8) close to each other, all horizontal side frames (21) are provided with a second motor (25) close to one of horizontal side frames (21) at the tail end of the shed body (1), and the output end of each second motor (25) is in transmission connection with one end of one of second rotating shafts of adjacent driving rollers (19).

7. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that the recovery assembly (7) further comprises inverted L-shaped frames (26) distributed along the length direction of the recovery blanking bin (9), the bottom ends of the inverted L-shaped frames (26) are connected with the top of the second horizontal support (6), the upper ends of the inverted L-shaped frames (26) horizontally extend towards the direction of each magnetic synchronous belt (22), and scrapers (27) distributed along the length direction of the inverted L-shaped frames (26) are arranged at the upper ends of the inverted L-shaped frames (26).

8. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that the recovery assembly (7) further comprises a recovery box (28), the recovery box (28) is distributed on the outer side of the shed body (1) along the length direction of the shed body (1), a plurality of air blowers (41) are arranged on one side of the interior of the recovery box (28) and are distributed at equal intervals along the length direction of the recovery box (28), an inclined blanking plate (29) is obliquely arranged along the length direction of the recovery box (28) at the lower end of the interior of the recovery box (28), a collection blanking port (30) is arranged at one end of the recovery box (28), the obliquely downward end of the inclined blanking plate (29) penetrates through the collection blanking port (30) and extends to the exterior of the recovery box (28), and two sides of the obliquely downward end of the inclined blanking plate (29) are respectively hinged to the inner wall of the recovery box (28), the bottom of the one end of the slope that inclines blanking plate (29) upwards is provided with fixed cover (31), the inner circle center department of fixed cover (31) is provided with horizontal bull stick (32), the both ends of horizontal bull stick (32) can be the pivoted respectively insert the inner wall of locating collection box (28), the outer wall of collection box (28) is provided with third motor (33), the output of third motor (33) is connected with the one end transmission of horizontal bull stick (32), the both ends of horizontal bull stick (32) are provided with cam (34) that can with fixed cover (31) inner circle sliding contact respectively, the bottom of retrieving blanking storehouse (9) is equipped with guide pipe (35) that a plurality of passed canopy body (1) one side two sides, the one end of every guide pipe (35) communicates with the inside of collection box (28) respectively.

9. The environment-friendly haze-reducing shed for the outdoor large-scale incineration site is characterized in that the exhaust air pipe (2) comprises a main exhaust pipe (36), an exhaust fan (37), an exhaust funnel (38), a top cover (39) and a plurality of guide exhaust pipes (40), the guide exhaust pipes (40) are respectively arranged at the top of the shed body (1) in a matrix distribution manner, two ends of each guide exhaust pipe (40) respectively penetrate through two sides of the top of the shed body (1), the main exhaust pipe (36) is horizontally arranged above the shed body (1), the upper end of each guide exhaust pipe (40) is respectively communicated with the inside of the main exhaust pipe (36), one end of the main exhaust pipe (36) is provided with an air outlet, the exhaust fan (37) is arranged at one end of the main exhaust pipe (36) close to the air outlet, the exhaust funnel (38) is arranged at the upper end of the exhaust fan (37), the top cover (39) is arranged at the upper end of the exhaust cylinder (38).

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