CN115839494A - Waste gas absorption equipment for heat accumulating type incinerator - Google Patents

Abstract

The invention belongs to the technical field of waste gas absorption devices, and particularly relates to waste gas absorption equipment for a regenerative incinerator. The device can carry out edulcoration work through afterburning's mode with the tail gas that the incinerator discharged, and then consume the foreign particles in the tail gas, make tail gas be difficult to plug up the inside filter screen of device at filterable in-process, thereby make the filterable more unobstructed of device, and at the in-process of insulating heat (holding) chuck with tail gas afterburning, continuous pivoted metal sweeps the pole and can stir the waste gas residue who piles up at insulating heat (holding) chuck inner chamber and scatter, and then make the device higher to the combustion efficiency of waste gas, and then reduce required time of burning and energy consumption.

Description

Waste gas absorption equipment for heat accumulating type incinerator

Technical Field

The invention belongs to the technical field of waste gas absorption devices, and particularly relates to waste gas absorption equipment for a regenerative incinerator.

Background

The problem that the tail gas emission pollutes the environment is an important object for the governments to supervise the enterprises in various places. In the production process of carbon fiber, tail gas is generated, the tail gas contains organic matters such as acrylonitrile and dimethyl sulfoxide, and the direct emission can cause harm to the environment and waste of resources.

The tail gas that the incinerator discharged pollutes the environment very easily, need through handling before can discharging the environment in, because the incinerator is difficult to fully burn the material at the in-process of incinerating the material, so the tail gas after incinerating can contain a large amount of combustible small particles, directly carry out filter work to the tail gas and will make the filter screen block up very easily, so be difficult to carry out effectual processing work to the tail gas.

Disclosure of Invention

Aiming at the defects of the prior art, the technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a waste gas absorption equipment that heat accumulation formula incinerator was used, includes the main processing case, the fixed surface of main processing case is connected with control panel, the inner chamber of main processing case is provided with: the bottom end of the extrusion catalysis barrel is fixedly connected with the axis of the bottom of the inner cavity of the main processing box, the bottom of the inner cavity of the extrusion catalysis barrel is fixedly connected with a rotating fan shell, the bottom of the inner cavity of the rotating fan shell is rotatably connected with a rotating shaft fan blade, the top of the inner cavity of the extrusion catalysis barrel is fixedly connected with an air outlet pipe, the top of the inner cavity of the extrusion catalysis barrel is slidably connected with a pressurizing device, and gas in the inner cavity of the extrusion catalysis barrel can be extruded downwards through the pressurizing device; the air inlet rotating pipe is fixedly connected with one end, close to the extrusion catalysis barrel, of the air inlet rotating pipe and the inner cavity of the extrusion catalysis barrel, the top end of the inner cavity of the air inlet rotating pipe is connected with a U-shaped rotating pipe through a backflow prevention device in a sliding mode, the middle of the inner cavity of the U-shaped rotating pipe is fixedly connected with a filter, and one end, far away from the air inlet rotating pipe, of the U-shaped rotating pipe is rotatably connected with an incineration device. The device of burning includes the defeated material pole, the bottom fixedly connected with flame projecting pole of defeated material pole, the spout has been seted up to the bilateral symmetry of flame projecting pole inner chamber, the independent cover that changes of bottom fixedly connected with on defeated material pole surface, the both sides that independently change the cover surface all rotate and are connected with thermal-insulated (holding) chuck, one side that the cover was kept away from independently to thermal-insulated (holding) chuck inner chamber is rotated and is connected with the side position closing cap, the pole is swept to the middle part fixedly connected with metal of thermal-insulated (holding) chuck inner chamber, the bottom roll connection on thermal-insulated (holding) chuck surface has the power rotary column, the axle center department of power rotary column inner chamber is pegged graft and is had driving motor, right side the fixedly connected with breather pipe of axle center department of thermal-insulated (holding) chuck inner chamber. When the device is used for treating waste gas, the waste gas is introduced into the device through the vent pipe, the waste gas firstly enters the incineration device, and in the process, the hole on one side of the fixed disc and the hole on the other side of the staggered rotary disc are staggered mutually, so that under the condition that the vent pipe is closed, the conveying rod ignites the waste gas introduced into the inner cavity of the heat insulation chuck by utilizing the flame spray rod through a method of inputting clean fuel, and the complete incineration work is carried out.

Preferably, the one end fixedly connected with fixed disk that the inlet air runner was kept away from to U type runner pipe inner chamber, one side that the fixed disk surface is close to the burning device is rotated and is connected with the dislocation carousel, the opening that runs through has been seted up to one side of fixed disk inner chamber, the opening that runs through has also been seted up to one side of dislocation carousel inner chamber, and the opening that runs through of fixed disk and dislocation carousel crisscross each other, the inner chamber fixed connection of the thermal-insulated (holding) chuck in inserted bar and left side is passed through on the surface of dislocation carousel. In the incineration working process, the driving motor controls the rotation of the heat insulation chuck through the friction force of the power rotating column, so that the metal of the inner wall of the heat insulation chuck sweeps the rod, constantly sweeps the inner cavity of the heat insulation chuck, and the waste gas residue accumulated in the inner cavity of the heat insulation chuck is stirred to disperse, so that the flame spraying rod can fully combust the combustible in the waste gas in a short time. In the process, because the heat insulation chuck on the left side continuously rotates, the burnt waste gas can be discharged into the U-shaped rotating pipe through the fixed disk and the staggered rotating disk which are periodically communicated, then is input into the inside of the extrusion catalysis barrel, reacts with the catalyst to consume toxic substances, and then is discharged from the gas outlet pipe, so that the waste gas treatment work is completed.

Preferably, main processing incasement chamber bottom is kept away from the one side fixedly connected with air-blower that burns the device, the fixed surface of air-blower is connected with the cooling plate, the siphunculus tied in a bundle of the logical mouth department fixedly connected with at air-blower inner chamber top, and the siphunculus top of just tied in a bundle is close to one side of air-blower and is passed through and connect siphunculus fixedly connected with catalysis section of thick bamboo shell, the one end fixedly connected with feed supplement pipe of siphunculus tied in a bundle is kept away from to catalysis section of thick bamboo shell inner chamber, the inner chamber packing of catalysis section of thick bamboo shell has the VOCs gas, the breather pipe is kept away from the one end of thermal-insulated (holding) chuck and is extended to the outside of main processing case, the one end that extrusion catalysis bucket was kept away from to the outlet duct extends to the outside of main processing case. The device's bar filter plate can filter a small amount of unable burning material in the waste gas, prevents that waste gas from colliding with the blade of rotating fan blade at the in-process that carries out follow-up compression work, and then leads to the problem that the blade life-span shortens, and the device's bar filter plate can be under the condition of not dismantling, through outside personnel's operation, utilizes the inner chamber of aspiration pump clearance bar filter plate, prevents to appear frequently changing the problem that the bar filter plate leads to device gas tightness to worsen easily.

Preferably, the backflow preventer comprises an inner cylinder shell, a vertical hollow rod is slidably connected to the axis of an inner cavity of the inner cylinder shell, a thrust spring is sleeved on the top of the surface of the vertical hollow rod, a sealing and fixing shell is fixedly connected to the top end of an inner cavity of the air inlet rotating pipe, a sliding inner shell is slidably connected to the inner cavity of the sealing and fixing shell, and a tension meter is slidably connected to the bottom end of the sliding inner shell through a traction pull rod. The left end of U type bull stick is in the separation state with the admission bull stick under the prevailing conditions, thrust spring promotes vertical hollow pole downwards this moment, make the gas tank at vertical hollow pole top enter the inside of interior barrel casing, the inner tube casing is in encapsulated situation, and when needing exhaust, press down U type bull stick whole downwards through external depression bar, the extension of conveying material pole, driving motor's surface is along the inner wall gliding of main processing case, when the left end of U type bull stick descends, the bottom of vertical hollow pole inserts the axle center department of air admission bull stick directly under earlier, vertical hollow pole rises along the inner chamber of inner tube casing under the impetus of reaction afterwards, the bottom of vertical hollow pole promotes the inner shell downwards that slides, at this moment, put through vertical hollow pole with U type bull stick and air admission bull stick mutually, the decline height of the slip inner shell is monitored to the tensiometer of both sides.

Preferably, a side air inlet groove is formed in the bottom of the inner cavity of the vertical hollow rod, vertical cutting grooves are uniformly formed in the top of the inner cavity of the sliding inner shell, the bottom end of the vertical hollow rod is connected with the top of the inner cavity of the air inlet rotating pipe in a sliding mode through an axle center socket, the bottom end of the vertical hollow rod is extruded with the top of the sealing fixed shell, the top end of the sliding inner shell is connected with the top of the inner cavity of the sealing fixed shell in a sliding mode through a connecting spring, the surface of the tension meter is fixedly connected with the top of the inner cavity of the air inlet rotating pipe, the surface of the inner shell is fixedly connected with the bottom of the inner cavity of the U-shaped rotating pipe, and a filter plate is arranged in the middle of the inner cavity of the U-shaped rotating pipe. At the postcombustion during operation, U type commentaries on classics pipe and the commentaries on classics pipe alternate segregation that admits air, and U type commentaries on classics pipe and the commentaries on classics pipe that admits air all are in relative sealing state, and the inside gas combustion of U type commentaries on classics pipe is accomplished mutually with the commentaries on classics pipe that admits air after finishing, the automatic transport work that realizes gas that forms the route, the backward flow appears in-process mist that can effectively prevent catalytic reaction, lead to the problem of catalyst consumption increase, the tensiometer can prevent that U type commentaries on classics pipe and the commentaries on classics pipe extrusion of admitting air excessively simultaneously, the external depression bar of control presses the effect.

Preferably, the filter includes external depression bar, the axle center department fixedly connected with vertical connecting rod at external depression bar inner chamber top, the surperficial sliding connection of vertical connecting rod has the adaptation to keep off the dish, the surface of adaptation fender dish and the middle part fixed connection of U type rotating-tube inner chamber, the bottom fixedly connected with spring splint of vertical connecting rod, the top fixedly connected with bar filter plate of spring splint inner chamber, one side fixedly connected with aspiration pump that adaptation fender dish inner chamber is close to the device that burns. Under normal conditions, waste gas after the burning passes through the fixed disk through-hole and gets into the U type commentaries on classics pipe, when the U type commentaries on classics pipe middle part, simply filter work is carried out through the bar filter plate, and the jam problem can appear in bar filter plate inner chamber middle part after the filtration, after the filtering operation who carries out a period, stop letting in waste gas, external depression bar is pressed downwards, vertical connecting rod slides down along the inner chamber of adaptation fender dish, promote the bar filter plate downwards, the aspiration pump of side position this moment can be with the reverse residue of bar filter plate inner chamber of taking out, fall the bottom of adaptation fender dish inner chamber afterwards. The device's bar filter plate can filter a small amount of unable burning material in the waste gas, prevents that waste gas from colliding with the blade of rotating fan blade at the in-process that carries out follow-up compression work, and then leads to the problem that the blade life-span shortens, and the device's bar filter plate can be under the condition of not dismantling, through outside personnel's operation, utilizes the inner chamber of aspiration pump clearance bar filter plate, prevents to appear frequently changing the problem that the bar filter plate leads to device gas tightness to worsen easily.

Preferably, the pressurizing device comprises a folding barrel shell, the bottom end of the folding barrel shell is fixedly connected with a sliding base plate, the top end of the folding barrel shell is fixedly connected with the top of the inner cavity of the extrusion catalysis barrel, the top of the surface of the sliding base plate is fixedly connected with a telescopic pull rod, the axis of the inner cavity of the sliding base plate is slidably connected with a piston push disc, and the bottom end of the sliding base plate is fixedly connected with a buffer disc. In the in-process of carrying out catalytic reaction, the catalysis shell of thick bamboo lets in the extrusion catalysis bucket with the VOCs gas of inner chamber through the siphunculus tied in a bundle, then the air-blower is ventilated and is prevented the gas reflux, the flexible pull rod of both sides promotes the slip chassis downwards this moment, the slip chassis mixes the compression with the toxic gas that the right-hand member lets in the VOCs gas of bottom, the axostylus axostyle on pivot flabellum top inserts the inner chamber on slip chassis afterwards, this in-process, the pivot flabellum constantly rotates and mixes gas, make the toxic gas carry out abundant purification work, the pivot flabellum top pushes away the dish with the piston upwards afterwards, the inside of gaseous entering folding shell of thick bamboo, the purification work is accomplished to the outside of discharging the device through the outlet duct. The device is when using the gaseous toxic substance who dispels in the waste gas of VOCs, through the compression on slip chassis and the rotation of pivot flabellum, make waste gas and the gaseous abundant reaction that takes place of VOCs, and then effectively prevent the not enough problem of toxic substance reaction from appearing, and at the in-process that carries out catalytic reaction, can add VOCs gas at any time under the gaseous condition of not revealing and be used for reinforcing catalytic reaction, avoid appearing the gaseous too much and extravagant of adding of VOCs, add too little and the not enough problem of reaction.

Preferably, the buffer disc comprises a flat disc shell, a switching ring is fixedly connected to the middle of the inner cavity of the flat disc shell, an arc-shaped rotating cylinder is rotatably connected to the surface of the switching ring, a press switch is slidably connected to one side, far away from the piston push disc, of the surface of the arc-shaped rotating cylinder, and a control magnetic plate is fixedly connected to the bottom end of the press switch. The top end of the rotating shaft fan blade is connected with the axle center of the inner cavity of the flat disc shell in a sliding mode, the surface of the arc-shaped rotating drum is connected with the top end of the rotating shaft fan blade in a rotating mode, and the top of the arc-shaped rotating drum is fixedly connected with the top of the inner cavity of the flat disc shell through a spring band. In the in-process that constantly descends on sliding chassis, the axle lever on pivot flabellum top inserts the axle center department of flat shell earlier, relative friction takes place for the axostylus axostyle on pivot flabellum top and the surface of both sides arc rotary drum afterwards, and then make the arc rotary drum along the rotation of adapter ring, press the press switch of below, control magnetic plate begins work this moment, give magnetism for sliding chassis's bottom, and the inner chamber of pivot flabellum also is provided with the magnet, the magnet of upper and lower both sides produces the repulsion force, make sliding chassis more and more difficult to the lapse, and then it is excessive to effectively prevent that sliding chassis gliding from appearing, the flabellum that leads to the pivot flabellum takes place the touching with sliding chassis and leads to the impaired problem of flabellum.

The invention has the following beneficial effects:

1. the device can carry out edulcoration work through afterburning's mode with the tail gas that the incinerator discharged, and then consume the foreign particles in the tail gas, make tail gas be difficult to plug up the inside filter screen of device at filterable in-process, thereby make the filterable more unobstructed of device, and at the in-process of insulating heat (holding) chuck with tail gas afterburning, continuous pivoted metal sweeps the pole and can stir the waste gas residue who piles up at insulating heat (holding) chuck inner chamber and scatter, and then make the device higher to the combustion efficiency of waste gas, and then reduce required time of burning and energy consumption.

2. The device's bar filter plate can filter a small amount of unable burning material in the waste gas, prevents that waste gas from colliding with the blade of rotating fan blade at the in-process that carries out follow-up compression work, and then leads to the problem that the blade life-span shortens, and the device's bar filter plate can be under the condition of not dismantling, through outside personnel's operation, utilizes the inner chamber of aspiration pump clearance bar filter plate, prevents to appear frequently changing the problem that the bar filter plate leads to device gas tightness to worsen easily.

3. At the postcombustion during operation, U type commentaries on classics pipe and the commentaries on classics pipe alternate segregation that admits air, and U type commentaries on classics pipe and the commentaries on classics pipe that admits air all are in relative sealing state, and the inside gas combustion of U type commentaries on classics pipe is accomplished mutually with the commentaries on classics pipe that admits air after finishing, the automatic transport work that realizes gas that forms the route, the backward flow appears in-process mist that can effectively prevent catalytic reaction, lead to the problem of catalyst consumption increase, the tensiometer can prevent that U type commentaries on classics pipe and the commentaries on classics pipe extrusion of admitting air excessively simultaneously, the external depression bar of control presses the effect.

4. The device is when using the gaseous toxic substance who dispels in the waste gas of VOCs, through the compression on slip chassis and the rotation of pivot flabellum, make waste gas and the gaseous abundant reaction that takes place of VOCs, and then effectively prevent the not enough problem of toxic substance reaction from appearing, and at the in-process that carries out catalytic reaction, can add VOCs gas at any time under the gaseous condition of not revealing and be used for reinforcing catalytic reaction, avoid appearing the gaseous too much and extravagant of adding of VOCs, add too little and the not enough problem of reaction.

5. In the in-process that constantly descends on sliding chassis, the axle lever on pivot flabellum top inserts the axle center department of flat shell earlier, relative friction takes place for the axostylus axostyle on pivot flabellum top and the surface of both sides arc rotary drum afterwards, and then make the arc rotary drum along the rotation of adapter ring, press the press switch of below, control magnetic plate begins work this moment, give magnetism for sliding chassis's bottom, and the inner chamber of pivot flabellum also is provided with the magnet, the magnet of upper and lower both sides produces the repulsion force, make sliding chassis more and more difficult to the lapse, and then it is excessive to effectively prevent that sliding chassis gliding from appearing, the flabellum that leads to the pivot flabellum takes place the touching with sliding chassis and leads to the impaired problem of flabellum.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of an incineration apparatus according to the invention;

FIG. 4 is a detail view of the incineration apparatus according to the invention;

FIG. 5 is a cross-sectional view of the backflow device of the present invention;

FIG. 6 is a cross-sectional view of a filter plate of the present invention;

FIG. 7 is a schematic view of the construction of the pressurizing means of the present invention;

fig. 8 is a cross-sectional view of a buffer disk of the present invention.

In the figure: 1. a main processing box; 11. u-shaped rotating pipes; 12. a control panel; 13. a breather pipe; 14. an air outlet pipe; 2. extruding the catalytic barrel; 21. rotating the fan shell; 22. a rotating shaft fan blade; 23. an air inlet rotary pipe; 3. a blower; 31. a cooling plate; 4. a catalytic cartridge shell; 41. a material supplementing pipe; 42. collecting a bundle through pipe; 5. an incineration device; 51. a material conveying rod; 52. a flame projecting rod; 53. independent rotating sleeve; 54. a spout; 55. a thermally insulating chuck; 56. side position closing cap; 57. a metal sweeping rod; 58. a drive motor; 59. a power rotary column; 510. fixing the disc; 511. a staggered rotary table; 6. a backflow prevention device; 61. an inner barrel shell; 62. a vertical hollow rod; 63. a thrust spring; 64. sealing the fixed shell; 65. sliding the inner shell; 66. a tension meter; 8. a filter plate; 81. a pressure lever is externally connected; 82. adapting the baffle disc; 83. a vertical connecting rod; 84. a spring clamp plate; 85. a strip-shaped filter plate; 86. an air pump; 7. a pressurizing device; 71. folding the cartridge housing; 72. a sliding chassis; 73. a telescopic pull rod; 74. a piston push plate; 9. a buffer tray; 91. a flat disc housing; 92. a transfer ring; 93. an arc-shaped rotating drum; 94. pressing a switch; 95. the magnetic plate is controlled.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. 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 those of ordinary skill in the 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.

Example one

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a waste gas absorption equipment that heat accumulation formula incinerator was used, includes main processing case 1, and the fixed surface of main processing case 1 is connected with control panel 12, and the inner chamber of main processing case 1 is provided with:

the bottom end of the extrusion catalysis barrel 2 is fixedly connected with the axis of the bottom of the inner cavity of the main processing box 1, the bottom of the inner cavity of the extrusion catalysis barrel 2 is fixedly connected with a rotating fan shell 21, the bottom of the inner cavity of the rotating fan shell 21 is rotatably connected with a rotating shaft fan blade 22, the top of the inner cavity of the extrusion catalysis barrel 2 is fixedly connected with an air outlet pipe 14, the top of the inner cavity of the extrusion catalysis barrel 2 is slidably connected with a pressurizing device 7, and gas in the inner cavity of the extrusion catalysis barrel 2 can be extruded downwards through the pressurizing device 7;

the air inlet rotating pipe 23, one end of the air inlet rotating pipe 23 close to the extrusion catalysis barrel 2 is fixedly connected with the inner cavity of the extrusion catalysis barrel 2, the top end of the inner cavity of the air inlet rotating pipe 23 is connected with the U-shaped rotating pipe 11 in a sliding mode through the backflow prevention device 6, the middle of the inner cavity of the U-shaped rotating pipe 11 is fixedly connected with a filter, and one end, far away from the air inlet rotating pipe 23, of the U-shaped rotating pipe 11 is rotatably connected with the incineration device 5.

Incineration device 5 includes defeated material pole 51, defeated material pole 51's bottom fixedly connected with flame projecting pole 52, spout 54 has been seted up to the bilateral symmetry of flame projecting pole 52 inner chamber, defeated material pole 51 surperficial bottom fixedly connected with independently changes cover 53, independently change the both sides on cover 53 surface and all rotate and be connected with thermal-insulated (holding) chuck 55, one side that independent cover 53 was kept away from to thermal-insulated (holding) chuck 55 inner chamber is rotated and is connected with side position closing cap 56, pole 57 is swept to the middle part fixedly connected with metal of thermal-insulated (holding) chuck 55 inner chamber, thermal-insulated (holding) chuck 55 surperficial bottom roll connection has power rotary column 59, the axle center department of power rotary column 59 inner chamber is pegged graft and is had driving motor 58, the axle center department fixedly connected with breather pipe 13 of thermal-insulated (holding) 55 inner chambers of right side.

The one end fixedly connected with fixed disk 510 that the inlet air changes 23 is kept away from to U type commentaries on classics 11 inner chamber, and one side that the fixed disk 510 surface is close to the device of burning 5 is rotated and is connected with dislocation carousel 511, and the opening that runs through has been seted up to one side of fixed disk 510 inner chamber, and the opening that runs through of fixed disk 510 and dislocation carousel 511 is crisscross each other also to one side of dislocation carousel 511 inner chamber, and the inner chamber fixed connection of the thermal-insulated (holding) chuck 55 in the left side is passed through the inserted bar on the surface of dislocation carousel 511.

One side fixedly connected with air-blower 3 that burns device 5 is kept away from to main processing case 1 inner chamber bottom, the fixed surface of air-blower 3 is connected with cooling plate 31, the siphunculus 42 tied in a bundle of fixedly connected with of logical pipe department of 3 inner chamber tops of air-blower, and the siphunculus 42 inner chamber tops tied in a bundle is close to one side of air-blower 3 and is passed through connection siphunculus fixedly connected with catalysis shell 4, the one end fixedly connected with benefit pipe 41 of siphunculus 42 tied in a bundle is kept away from to catalysis shell 4 inner chamber, the inner chamber packing of catalysis shell 4 has the VOCs gas, the one end that thermal-insulated (holding) chuck 55 was kept away from to breather pipe 13 extends to the outside of main processing case 1, the one end that extrusion catalysis bucket 2 was kept away from to outlet duct 14 extends to the outside of main processing case 1.

When the device is used for treating waste gas, the waste gas is introduced into the device through the vent pipe 13, the waste gas firstly enters the incineration device 5, in the process, the hole on one side of the fixed disc 510 and the hole on the other side of the dislocation rotary disc 511 are staggered, so that under the condition that the vent pipe 13 is closed, the material conveying rod 51 ignites the waste gas introduced into the inner cavity of the heat insulation chuck 55 by using the flame spraying rod 52 through a method of inputting clean fuel to completely incinerate the waste gas, in the process, the driving motor 58 controls the heat insulation chuck 55 to rotate through the friction force of the power rotary column 59, the metal sweeping rod 57 on the inner wall of the heat insulation chuck 55 continuously sweeps the inner cavity of the heat insulation chuck 55 to scatter waste gas residues accumulated in the inner cavity of the heat insulation chuck 55, and further, the flame spraying rod 52 can fully combust combustible substances in the waste gas in a short time. In this process, since the thermal insulation chuck 55 on the left side continuously rotates, the burned exhaust gas is discharged into the U-shaped rotating pipe 11 through the fixed disk 510 and the dislocation rotating disk 511 which are periodically connected, and then is input into the inside of the extrusion catalysis barrel 2, reacts with the catalyst to consume the toxic substances, and is discharged from the gas outlet pipe 14, thereby completing the exhaust gas treatment.

Example two

Referring to fig. 1 to 8, the present invention provides a technical solution: on the basis of the first embodiment, the backflow prevention device 6 comprises an inner cylinder shell 61, a vertical hollow rod 62 is slidably connected to the axis of the inner cavity of the inner cylinder shell 61, a thrust spring 63 is sleeved on the top of the surface of the vertical hollow rod 62, a sealing fixing shell 64 is fixedly connected to the top end of the inner cavity of the air inlet rotating pipe 23, a sliding inner shell 65 is slidably connected to the inner cavity of the sealing fixing shell 64, and a tension meter 66 is slidably connected to the bottom end of the sliding inner shell 65 through a traction pull rod.

Side position air inlet tank has been seted up to the bottom of vertical hollow pole 62 inner chamber, vertical grooving has evenly been seted up at the top of slip inner shell 65 inner chamber, the top sliding connection of axle center socket and the 23 inner chambers of runner that admits air is passed through to the bottom of vertical hollow pole 62, the bottom of vertical hollow pole 62 and the top of sealed set casing 64 extrude each other, connecting spring and the top sliding connection of sealed set casing 64 inner chamber are passed through on the top of slip inner shell 65, the surface of tensiometer 66 and the top fixed connection of the 23 inner chambers of runner that admits air, the surface of inner tube shell 61 and the bottom fixed connection of the 11 inner chambers of U type runner, the middle part of the 11 inner chambers of U type runner is provided with filter 8.

The filter 8 includes external depression bar 81, the vertical connecting rod 83 of axle center fixedly connected with of external depression bar 81 inner chamber top, the surperficial sliding connection of vertical connecting rod 83 has the adaptation to keep off the dish 82, the surface of adaptation fender dish 82 and the middle part fixed connection of U type rotating-tube 11 inner chamber, the bottom fixedly connected with spring splint 84 of vertical connecting rod 83, the top fixedly connected with bar filter plate 85 of spring splint 84 inner chamber, the adaptation keeps off a side fixedly connected with aspiration pump 86 that the dish 82 inner chamber is close to the device of burning 5.

The pressurizing device 7 comprises a folding cylinder shell 71, the bottom end of the folding cylinder shell 71 is fixedly connected with a sliding base plate 72, the top end of the folding cylinder shell 71 is fixedly connected with the top of the inner cavity of the extrusion catalysis barrel 2, the top of the surface of the sliding base plate 72 is fixedly connected with a telescopic pull rod 73, the axis of the inner cavity of the sliding base plate 72 is slidably connected with a piston push disc 74, and the bottom end of the sliding base plate 72 is fixedly connected with a buffer disc 9.

Buffer disc 9 includes flat dish shell 91 of flat, and the middle part fixedly connected with adapter ring 92 of flat dish shell 91 inner chamber of flat, the surperficial rotation of adapter ring 92 is connected with arc rotary drum 93, and one side sliding connection that piston pushing tray 74 was kept away from on the surface of arc rotary drum 93 has press switch 94, press switch 94's bottom fixedly connected with control magnetic plate 95.

The top of pivot flabellum 22 and the axle center department sliding connection of flat shell 91 inner chamber slowly, the surface of arc rotary drum 93 rotates with the top of pivot flabellum 22 to be connected, and the top of arc rotary drum 93 passes through the top fixed connection of spring zone and flat shell 91 inner chamber slowly.

Under the normal condition, waste gas after the burning passes through fixed disk 510 through-hole entering U type commentaries on classics pipe 11, when the U type changes pipe 11 middle part, carry out simple and easy filtration work through bar filter plate 85, and the jam problem can appear in bar filter plate 85 inner chamber middle part after the filtration, after the filtration work that carries out a period, stop letting in waste gas, press external depression bar 81 downwards, vertical connecting rod 83 is along the inner chamber gliding of adaptation fender dish 82, promote bar filter plate 85 downwards, the aspiration pump 86 of side position this moment can be with the reverse extraction of residue in bar filter plate 85 inner chamber, the bottom of adaptation fender dish 82 inner chamber drops afterwards.

The left end of the U-shaped rotating pipe 11 and the air inlet rotating pipe 23 are in a separated state under a normal condition, at the moment, the thrust spring 63 pushes the vertical hollow rod 62 downwards, so that an air groove at the top of the vertical hollow rod 62 enters the inner part of the inner cylinder shell 61, the inner cylinder shell 61 is in a sealed state, when air needs to be exhausted, the whole U-shaped rotating pipe 11 is pressed downwards through the external pressure rod 81, the material conveying rod 51 extends, the surface of the driving motor 58 slides downwards along the inner wall of the main processing box 1, when the left end of the U-shaped rotating pipe 11 descends, the bottom end of the vertical hollow rod 62 is firstly inserted into the axis of the air inlet rotating pipe 23 right below, then the vertical hollow rod 62 ascends along the inner cavity of the inner cylinder shell 61 under the pushing action of the reaction force, the bottom end of the vertical hollow rod 62 pushes the sliding inner shell 65 downwards, at the moment, the U-shaped rotating pipe 11 is communicated with the air inlet rotating pipe 23 through the vertical hollow rod 62, and the tension meters 66 at two sides monitor the descending height of the sliding inner shell 65.

In the in-process of carrying out catalytic reaction, catalysis shell 4 lets in the extrusion catalysis bucket 2 with the VOCs gas of inner chamber through siphunculus 42 tied in a bundle, then air-blower 3 ventilates and prevents the gaseous backward flow, the flexible pull rod 73 of both sides promotes the slip chassis 72 downwards this moment, the slip chassis 72 mixes the compression to the VOCs gas of bottom and the toxic gas that the right-hand member lets in, the axostylus axostyle on pivot flabellum 22 top inserts in the inner chamber on slip chassis 72 afterwards, this in-process, pivot flabellum 22 constantly rotates and mixes gas, make the toxic gas carry out abundant purification work, pivot flabellum 22 top pushes away piston pushing away dish 74 upwards afterwards, the inside of gaseous entering folding shell 71, the outside that discharges the device through outlet duct 14 accomplishes purification work.

In the process of the continuous descending of the sliding chassis 72, the shaft lever at the top end of the rotating shaft fan blade 22 is firstly inserted into the axle center of the flat disc shell 91, then the shaft lever at the top end of the rotating shaft fan blade 22 and the outer surfaces of the arc-shaped rotary drums 93 at the two sides are in relative friction, further, the arc-shaped rotary drums 93 rotate along the adapter rings 92, the pressing switches 94 below are pressed, at the moment, the control magnetic plate 95 starts to work, magnetism is given to the bottom of the sliding chassis 72, the inner cavity of the rotating shaft fan blade 22 is also provided with magnets, the magnets at the upper side and the lower side generate repulsive force, the sliding chassis 72 is more and more difficult to slide downwards, further, the sliding chassis 72 is effectively prevented from sliding downwards excessively, and the problem that the fan blades are damaged due to the fact that the fan blades of the rotating shaft fan blade 22 touch the sliding chassis 72 is caused is solved.

It should be apparent that the described embodiments are only some of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (9)

1. The utility model provides a waste gas absorption equipment that regenerative incinerator was used, includes main processing case (1), the fixed surface of main processing case (1) is connected with control panel (12), the inner chamber of main processing case (1) is provided with:

the bottom end of the extrusion catalysis barrel (2) is fixedly connected with the axis of the bottom of the inner cavity of the main processing box (1), the bottom of the inner cavity of the extrusion catalysis barrel (2) is fixedly connected with a rotating fan shell (21), the bottom of the inner cavity of the rotating fan shell (21) is rotatably connected with a rotating shaft fan blade (22), the top of the inner cavity of the extrusion catalysis barrel (2) is fixedly connected with an air outlet pipe (14), the top of the inner cavity of the extrusion catalysis barrel (2) is slidably connected with a pressurizing device (7), and gas in the inner cavity of the extrusion catalysis barrel (2) can be downwards extruded through the pressurizing device (7);

admit air rotating pipe (23), this admit air rotating pipe (23) are close to the one end of extrusion catalysis bucket (2) and the inner chamber fixed connection of extrusion catalysis bucket (2), there is U type rotating pipe (11) on the top of the rotating pipe (23) inner chamber of admitting air through anti-return means (6) sliding connection, the middle part fixedly connected with filter of U type rotating pipe (11) inner chamber, the one end that admits air rotating pipe (23) was kept away from in U type rotating pipe (11) rotates and is connected with incineration device (5), its characterized in that:

incineration device (5) are including defeated material pole (51), the bottom fixedly connected with flame rod (52) of defeated material pole (51), spout (54) have been seted up to the bilateral symmetry of flame rod (52) inner chamber, the bottom fixedly connected with on defeated material pole (51) surface independently changes cover (53), independently change the both sides on cover (53) surface and all rotate and be connected with thermal-insulated (55) chuck, one side that independent cover (53) were changeed in keeping away from to thermal-insulated (55) inner chamber is rotated and is connected with side position closing cap (56), pole (57) are swept to the middle part fixedly connected with metal of thermal-insulated (55) inner chamber, the bottom roll connection on thermal-insulated (55) surface has power to change post (59), the axle center department of power commentaries on classics post (59) inner chamber is pegged graft and is had driving motor (58), right side the axle center department fixedly connected with breather pipe (13) of thermal-insulated (55) inner chamber.

2. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 1, wherein: the one end fixedly connected with fixed disk (510) of inlet air rotating pipe (23) is kept away from to U type rotating pipe (11) inner chamber, one side rotation that fixed disk (510) surface is close to incineration device (5) is connected with dislocation carousel (511), the opening that runs through has been seted up to one side of fixed disk (510) inner chamber, the opening that runs through of dislocation carousel (511) inner chamber has also been seted up and has been run through, and the opening that runs through of fixed disk (510) and dislocation carousel (511) crisscross each other, the inner chamber fixed connection of thermal-insulated (55) in inserted bar and left side is passed through to the surface of dislocation carousel (511).

3. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 1, wherein: main one side fixedly connected with air-blower (3) of burning device (5) are kept away from to main processing case (1) inner chamber bottom, the fixed surface of air-blower (3) is connected with cooling plate (31), the logical mouth department fixedly connected with siphunculus (42) tied in a bundle of air-blower (3) inner chamber top, and the siphunculus (42) inner chamber top of just tying in a bundle is close to one side of air-blower (3) through connecting siphunculus fixedly connected with catalysis shell (4), the one end fixedly connected with benefit pipe (41) of siphunculus (42) tied in a bundle are kept away from to catalysis shell (4) inner chamber, the inner chamber packing of catalysis shell (4) has the VOCs gas, the one end that thermal-insulated (55) was kept away from to thermal-insulated (13) extends to the outside of main processing case (1), the one end that extrusion catalysis bucket (2) was kept away from in outlet duct (14) extends to the outside of main processing case (1).

4. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 1, wherein: anti-reflux device (6) include inner tube shell (61), the axle center department sliding connection of inner tube shell (61) inner chamber has vertical hollow pole (62), thrust spring (63) have been cup jointed at the top on vertical hollow pole (62) surface, the sealed set casing (64) of top fixedly connected with of commentaries on classics pipe (23) inner chamber admits air, the inner chamber sliding connection of sealed set casing (64) has slip inner shell (65), there is tensiometer (66) bottom of slip inner shell (65) through drawing pull rod sliding connection.

5. An exhaust gas absorbing apparatus for a regenerative incinerator according to claim 4, characterized in that: the bottom of the inner cavity of the vertical hollow rod (62) is provided with a side air inlet groove, the top of the inner cavity of the sliding inner shell (65) is uniformly provided with vertical cutting grooves, the bottom end of the vertical hollow rod (62) is in sliding connection with the top of the inner cavity of the air inlet rotating pipe (23) through an axis socket, the bottom end of the vertical hollow rod (62) and the top of the sealing fixed shell (64) are mutually extruded, the top end of the sliding inner shell (65) is in sliding connection with the top of the inner cavity of the sealing fixed shell (64) through a connecting spring, the surface of the tension meter (66) is fixedly connected with the top of the inner cavity of the air inlet rotating pipe (23), the surface of the inner cylinder shell (61) is fixedly connected with the bottom of the inner cavity of the U-shaped rotating pipe (11), and the middle of the inner cavity of the U-shaped rotating pipe (11) is provided with a filter plate (8).

6. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 5, wherein: the utility model discloses a fire-fighting incinerator, including filter (8) including external depression bar (81), the vertical connecting rod of axle center department fixedly connected with (83) at external depression bar (81) inner chamber top, the sliding surface of vertical connecting rod (83) is connected with adaptation fender dish (82), the surface of adaptation fender dish (82) and the middle part fixed connection of U type commentaries on classics pipe (11) inner chamber, the bottom fixedly connected with spring splint (84) of vertical connecting rod (83), the top fixedly connected with bar filter plate (85) of spring splint (84) inner chamber, adaptation fender dish (82) inner chamber is close to one side fixedly connected with aspiration pump (86) of burning device (5).

7. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 1, wherein: pressure device (7) are including folding shell of drum (71), the bottom fixedly connected with slip chassis (72) of folding shell of drum (71), the top of folding shell of drum (71) and the top fixed connection of extrusion catalysis bucket (2) inner chamber, the top fixedly connected with telescopic pull rod (73) on slip chassis (72) surface, sliding connection has piston to push away dish (74) in the axle center department of slip chassis (72) inner chamber, the bottom fixedly connected with buffer disc (9) of slip chassis (72).

8. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 7, wherein: buffer disc (9) are including flat set shell (91), the middle part fixedly connected with adapter ring (92) of flat set shell (91) inner chamber of flattening, the surface of adapter ring (92) is rotated and is connected with arc rotary drum (93), one side sliding connection that piston pushed away set (74) is kept away from on arc rotary drum (93) surface has press switch (94), the bottom fixedly connected with control magnetic sheet (95) of press switch (94).

9. The exhaust gas absorption apparatus for a regenerative incinerator according to claim 8, wherein: the top of pivot flabellum (22) and the axle center department sliding connection of flat set shell (91) inner chamber slowly, the surface of arc rotary drum (93) rotates with the top of pivot flabellum (22) to be connected, the top of arc rotary drum (93) is through the top fixed connection of spring zone with flat set shell (91) inner chamber slowly.

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