CN109091982A

CN109091982A - A kind of industrial waste gas processing method

Info

Publication number: CN109091982A
Application number: CN201811027940.4A
Authority: CN
Inventors: 孙勇
Original assignee: Individual
Current assignee: Shenzhen Tianhaoyang Environmental Protection Co ltd
Priority date: 2018-09-04
Filing date: 2018-09-04
Publication date: 2018-12-28
Anticipated expiration: 2038-09-04
Also published as: CN109091982B

Abstract

The present invention relates to technical field of waste gas treatment, specifically a kind of industrial waste gas processing method, this method uses biofilter, including pedestal, supporting mechanism, slide, stocking mechanism, hoisting mechanism, biomembrane mechanism and retaining mechanism；Microorganism can be filled into growth slot by the present invention, the growth slot of recess is capable of forming the region of microorganism growth, avoids microorganism from falling or be flushed away, and microorganism can also grow around Anchored Bar, to increase the space utilization rate for growing slot, so that the distribution of microorganism is more three-dimensional；The quick update that can be realized biomembrane mechanism uses, and is not necessarily to integral demounting, and can be according to processing needs, so that multiple biomembrane Mechanism Combinations use, so that the functional structure of biomembrane is more various；Quickly stocking mechanism can be lifted by hoisting mechanism, remove cover board, to realize for biomembrane mechanism Fast-Maintenance, without manually lifting.

Description

A kind of industrial waste gas processing method

Technical field

The present invention relates to technical field of waste gas treatment, specifically a kind of industrial waste gas processing method.

Background technique

Industrial waste gas includes organic exhaust gas and inorganic waste gases.Organic exhaust gas mainly includes various hydro carbons, alcohols, aldehydes, acid Class, ketone and amine etc.；Inorganic waste gases mainly include oxysulfide, nitrogen oxides, oxycarbide, halogen and its compound etc.. China takes pollutant emission control system for atmosphere pollution.Organic exhaust gas is one of main atmosphere pollution, can be passed through Respiratory tract and skin enter human body, cause temporary and permanent lesion to the systems such as the breathing of people, blood, liver and organ. As PTA oxidized tail gas contains a large amount of pernicious gas, such as: formaldehyde, benzene,toluene,xylene, methyl acetate, CO, index It is more than national emission standard, environment is caused to seriously endanger.To prevent from polluting, except reduction oil loss, organic solvent is reduced Outside generation and discharge of the dosage to reduce organic exhaust gas, exhaust gas purification is current practicable governance way.

Biological aerated filter process has removal SS, COD, BOD, nitrification, denitrogenation, dephosphorization, removal AOX (harmful substance) Effect；Biological aerated filter is the new process for collecting biological oxidation and retaining suspended solid one.

Current biofilter lacks preferable growth district, so that microorganism is easy to fall, be displaced, can not have been formed Whole biomembrane, to influence the growth result of microorganism；Biofilm structure is more single, when being updated to biomembrane, It needs to dismantle whole membrane structure, also needs manually to lift, it is more time-consuming.In consideration of it, the present invention provides a kind of industrial waste gases Processing method has the following characteristics that

(1) a kind of industrial waste gas processing method of the present invention, this method use biofilter, can fill microorganism Into growth slot, the growth slot of recess is capable of forming the region of microorganism growth, and microorganism is avoided to fall or be flushed away, and Microorganism can also grow around Anchored Bar, to increase the space utilization rate for growing slot, so that the distribution of microorganism is more It is three-dimensional.

(2) a kind of industrial waste gas processing method of the present invention, this method uses biofilter, using multiple independent Accommodating groove is placed with biomembrane mechanism in each accommodating groove, and not used biomembrane mechanism can be stored in mounting groove, and The biomembrane mechanism of work is movable to the corresponding region of recirculation hole, so as to realize that the quick update of biomembrane mechanism makes With being not necessarily to integral demounting, and can be according to processing needs, so that multiple biomembrane Mechanism Combinations use, so that biomembrane Functional structure is more various.

(3) a kind of industrial waste gas processing method of the present invention, this method use biofilter, can pass through hoisting mechanism Quickly stocking mechanism is lifted, removes cover board, to realize for biomembrane mechanism Fast-Maintenance, without manually lifting.

Summary of the invention

For the problems of the prior art, the present invention provides a kind of industrial waste gas processing method, this method uses biology Microorganism can be filled into growth slot by filter tank, and the growth slot of recess is capable of forming the region of microorganism growth, avoids micro- life Object falls or is flushed away, and microorganism can also grow around Anchored Bar, thus increase the space utilization rate for growing slot, So that the distribution of microorganism is more three-dimensional；Using multiple independent accommodating grooves, biomembrane machine is placed in each accommodating groove Structure, not used biomembrane mechanism can be stored in mounting groove, and to be movable to recirculation hole corresponding for the biomembrane mechanism to work Region, so as to realize biomembrane mechanism quick update use, be not necessarily to integral demounting, and can according to processing needs, So that multiple biomembrane Mechanism Combinations use, so that the functional structure of biomembrane is more various；Can quickly will by hoisting mechanism Stocking mechanism lifts, and removes cover board, to realize for biomembrane mechanism Fast-Maintenance, without manually lifting.

The technical solution adopted by the present invention to solve the technical problems is: a kind of industrial waste gas processing method, this method packet Include following steps:

S1: the exhaust gas generated to production carries out water spray dedusting；

S2: cool down to the gas after dedusting；

S3: just desulfurization process is carried out to the gas after cooling；

S4: gas after first desulfurization is passed through biofilter and carries out final filtration；

The biofilter that this method uses, including pedestal, supporting mechanism, slide, stocking mechanism, hoisting mechanism, biomembrane Mechanism and retaining mechanism；The inner wall of the pedestal is equipped with the slide, and the slide is slidably connected the stocking mechanism, institute The top surface for stating stocking mechanism is equipped with the hoisting mechanism, and the hoisting mechanism is to drive the stocking mechanism to move up and down； The hoisting mechanism is fixedly connected with the supporting mechanism, and the supporting mechanism is to be fixed the hoisting mechanism；It is described The inside of stocking mechanism is equipped with several biomembrane mechanisms, and the biomembrane mechanism carries out attachment life to microorganism It is long；The junction of the biomembrane mechanism and the stocking mechanism is equipped with the retaining mechanism, and the retaining mechanism is to institute Biomembrane mechanism is stated to be locked.

Specifically, the inner wall of the pedestal is provided with circulation groove, the inner wall of the circulation groove is fixed with the slide, the bottom Region of the inside of seat in addition to the circulation groove is provided with mounting groove, the mounting groove and the circulation groove Relative distribution, described The outer wall of pedestal is fixed with cabinet.

Specifically, the stocking mechanism includes box body, partition, cover board and plugging plate, the box body and the mounting groove, It is slidably connected between the slide, the half of the box body is placed in the circulation groove, and the other half of the box body is embedded into institute It states in mounting groove, the part two sidewalls that the box body is located at the circulation groove are provided with recirculation hole, between inside of the box body etc. Away from several described partitions are equipped with, the length of the partition is identical as the inner length of the box body, between the adjacent partition, Accommodating groove is surrounded between the partition and the box body, be at the partition and the recirculation hole relative position it is mesh-structured, The plugging plate, the sectional area phase of the area of the plugging plate and the circulation groove are slidably connected in the middle part of the circulation groove Together, the outer wall thread of the box body connects the cover board, and the outer wall of the cover board is provided with first sliding groove and second sliding slot, described Second sliding slot and the plugging plate Relative distribution, the inner wall of the accommodating groove are symmetrically arranged with card hole.

Specifically, the inside of each accommodating groove slidably connects the biomembrane mechanism, the biomembrane mechanism Volume be the accommodating groove half, the biomembrane mechanism includes fixed frame, stop screw and filter plate, the fixation Frame connects the filter plate by the stop screw, and the outer wall of the fixed frame is equipped with pushing block, and described the is stretched in outside the pushing block One sliding slot.

Specifically, the filter plate, which is provided with rectangular array, is distributed with growth slot, the bottom surface of the growth slot be it is mesh-structured, The inner wall of the growth slot is vertically equipped with several Anchored Bars.

Specifically, the two sides of the fixed frame are equipped with tapered end, the tapered end is embedded in the inside of the card hole, the lock The recessed groove of head is connected with the retaining mechanism, and the retaining mechanism includes spring, locking bar and push rod, the locking bar Be connected together the tapered end, and the end of the locking bar is fixed with the spring, and the outer wall vertical of the locking bar is equipped with described push away Bar, the push rod stretch in the box body outer wall outside.

Specifically, the hoisting mechanism includes fixed pulley, traction rope, reel and rotary electric machine, the one of the traction rope End is fixedly connected with the cover board, and through the outer wall of the fixed pulley, the other end of the traction rope is wound in the traction rope The outer wall of the reel, the spool turns connect the rotary electric machine, and the reel, the rotary electric machine are set to cabinet Inside, the cabinet are set to the side wall of the pedestal.

Specifically, the supporting mechanism includes support rod and fixed link, the support rod is symmetrically fixed on the pedestal Outer wall, the top of the support rod are vertically equipped with the fixed link, and the fixed link is fixedly connected with the fixed pulley.

Beneficial effects of the present invention:

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is a kind of structural schematic diagram of preferred embodiment of moving bed biological aerated filter provided by the invention；

Fig. 2 is stocking mechanism structural schematic diagram shown in FIG. 1；

Fig. 3 is enlarged structure schematic diagram at A shown in Fig. 2；

Fig. 4 is accommodating groove attachment structure schematic diagram shown in Fig. 2；

Fig. 5 is enlarged structure schematic diagram at B shown in Fig. 4；

Fig. 6 is box inner structure schematic diagram shown in FIG. 1；

Fig. 7 is biomembrane mechanism structure schematic diagram shown in Fig. 4；

Fig. 8 is filter-plate structure schematic diagram shown in Fig. 7.

In figure: 1, pedestal, 11, mounting groove, 12, circulation groove, 2, supporting mechanism, 21, support rod, 22, fixed link, 3, cunning Seat, 4, stocking mechanism, 41, box body, 411, accommodating groove, 412, recirculation hole, 413, card hole, 42, partition, 43, cover board, 431, the One sliding slot, 432, second sliding slot, 44, plugging plate, 5, hoisting mechanism, 51, fixed pulley, 52, traction rope, 53, reel, 54, rotation Motor, 6, cabinet, 7, biomembrane mechanism, 71, fixed frame, 711, pushing block, 72, stop screw, 73, filter plate, 731, growth slot, 732, Anchored Bar, 8, retaining mechanism, 81, spring, 82, locking bar, 83, push rod, 9, tapered end.

Specific embodiment

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Specific embodiment is closed, the present invention is further explained.

As Figure 1-Figure 8, a kind of industrial waste gas processing method of the present invention, method includes the following steps:

S2: cool down to the gas after dedusting；

S3: just desulfurization process is carried out to the gas after cooling；

The biofilter that this method uses, including pedestal 1, supporting mechanism 2, slide 3, stocking mechanism 4, hoisting mechanism 5, Biomembrane mechanism 7 and retaining mechanism 8；The inner wall of the pedestal 1 is equipped with the slide 3, and the slide 3 is slidably connected described Stocking mechanism 4, the top surface of the stocking mechanism 4 are equipped with the hoisting mechanism 5, and the hoisting mechanism 5 is to drive the storage Deposit the up and down motion of mechanism 4；The hoisting mechanism 5 is fixedly connected with the supporting mechanism 2, and the supporting mechanism 2 to described to mention Mechanism 5 is risen to be fixed；The inside of the stocking mechanism 4 is equipped with several biomembrane mechanisms 7, the biomembrane machine Structure 7 carries out apposition growth to microorganism；The biomembrane mechanism 7 and the junction of the stocking mechanism 4 are equipped with the locking Mechanism 8, the retaining mechanism 8 is to lock the biomembrane mechanism 7.

Specifically, the inner wall of the circulation groove 12 is fixed as shown in Figure 1, the inner wall of the pedestal 1 is provided with circulation groove 12 There is the slide 3, region of the inside of the pedestal 1 in addition to the circulation groove 12 is provided with mounting groove 11, the mounting groove 11 With 12 Relative distribution of circulation groove, the outer wall of the pedestal 1 is fixed with cabinet 6；Sewage can be flowed out by circulation groove 12, be led to Stocking mechanism 4 can be fixed by crossing mounting groove.

Specifically, the stocking mechanism 4 includes box body 41, partition 42, cover board as shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 5 43 and plugging plate 44, it is slidably connected between the box body 41 and the mounting groove 11, the slide 3, the one of the box body 41 It is partly placed in the circulation groove 12, the other half of the box body 41 is embedded into the mounting groove 11, and the box body 41 is located at institute The part two sidewalls for stating circulation groove 12 are provided with recirculation hole 412, the inside of the box body 41 be equidistantly equipped with several it is described every Plate 42, the length of the partition 42 is identical as the inner length of the box body 41, between the adjacent partition 42, the partition Accommodating groove 411 is surrounded between 42 and the box body 41, is mesh at the partition 42 and 412 relative position of recirculation hole Structure, the middle part of the circulation groove 12 slidably connect the plugging plate 44, the area and the circulation groove of the plugging plate 44 12 sectional area is identical, and the outer wall thread of the box body 41 connects the cover board 43, and it is sliding that the outer wall of the cover board 43 is provided with first Slot 431 and second sliding slot 432, the second sliding slot 432 and 44 Relative distribution of plugging plate, the inner wall of the accommodating groove 411 It is symmetrically arranged with card hole 413；Stocking mechanism 4 can store multiple biomembrane mechanisms 7, and certainly convenient for different biomembranes It is replaced by mobile, use can also be combined, improve the performance of biomembrane.

Specifically, as shown in fig. 7, the inside of each accommodating groove 411 slidably connects the biomembrane mechanism 7, The volume of the biomembrane mechanism 7 is the half of the accommodating groove 411, and the biomembrane mechanism 7 includes fixed frame 71, limit Screw 72 and filter plate 73, the fixed frame 71 connect the filter plate 73 by the stop screw, the fixed frame 71 it is outer Wall is equipped with pushing block 711, stretches in the first sliding groove 431 outside the pushing block 711；Filter plate 73 can grow convenient for microorganism, may be used also Disassembly filter plate 73 is updated microorganism.

Specifically, as shown in figure 8, the filter plate 73, which is provided with rectangular array, is distributed with growth slot 731, the growth slot 731 bottom surface be it is mesh-structured, it is described growth slot 731 inner wall be vertically equipped with several Anchored Bars 732；Growing slot 731 can Microorganism is avoided to fall, Anchored Bar 732 can be improved space utilization rate.

Specifically, the tapered end 9 is embedded in the card as shown in figure 5, the two sides of the fixed frame 71 are equipped with tapered end 9 The inside in hole 413, the recessed groove of the tapered end 9 are connected with the retaining mechanism 8, and the retaining mechanism 8 includes spring 81, locking bar 82 and push rod 83, the locking bar 82 are connected together the tapered end 9, and the end of the locking bar 82 is fixed with the bullet Spring 81, the outer wall vertical of the locking bar 82 are equipped with the push rod 83, stretch in 41 outer wall of box body outside the push rod 83；It can lead to The mobile tapered end 9 of push rod 83 is crossed, realizes that the locking for biomembrane mechanism 7 controls.

Specifically, as shown in fig. 6, the hoisting mechanism 5 includes fixed pulley 51, traction rope 52, reel 53 and rotation electricity Machine 54, one end of the traction rope 52 are fixedly connected with the cover board 43, and the traction rope 52 is through the outer of the fixed pulley 51 Wall, the other end of the traction rope 52 are wound in the outer wall of the reel 53, and the reel 53 is rotatablely connected the rotary electric machine 54, the reel 53, the rotary electric machine 54 are set to the inside of cabinet 6, and the cabinet 6 is set to the side wall of the pedestal 1；It is logical Can quickly stocking mechanism 4 be lifted by crossing hoisting mechanism 5, easy to repair without manually lifting.

Specifically, the support rod 21 is right as shown in Figure 1, the supporting mechanism 2 includes support rod 21 and fixed link 22 Claim the outer wall for being fixed on the pedestal 1, the top of the support rod 21 is vertically equipped with the fixed link 22, the fixed link 22 It is fixedly connected with the fixed pulley 51；Supporting mechanism 2 can be supported hoisting mechanism 5.

Microorganism can be filled into growth slot 731, the growth slot 731 of recess is capable of forming the region of microorganism growth, Microorganism is avoided to fall or be flushed away, and microorganism can also grow around Anchored Bar 732, to increase for growing slot 731 Space utilization rate so that the distribution of microorganism is more three-dimensional；Using multiple independent accommodating grooves 411, each accommodating groove 411 It is inside placed with biomembrane mechanism 7, not used biomembrane mechanism 7 can be stored in mounting groove 11, and the biomembrane machine to work Structure 7 is movable to the corresponding region of recirculation hole 412, so as to realize that the quick update of biomembrane mechanism 7 uses, without whole Body disassembly, and can be according to processing needs, so that multiple biomembrane mechanisms 7 are applied in combination, so that the functional structure of biomembrane It is more various；Quickly stocking mechanism 4 can be lifted by hoisting mechanism 5, remove cover board 43, to realize for biomembrane machine 7 Fast-Maintenance of structure, without manually lifting.Specifically have:

(1) when manufacturing biomembrane, microorganism is filled into growth slot 731, the growth slot 731 of recess is capable of forming The region of microorganism growth, avoids microorganism from falling or be flushed away, and microorganism can also grow around Anchored Bar 732, thus Increase the space utilization rate for growing slot 731, so that the distribution of microorganism is more three-dimensional；

(2) waste water is drained into circulation groove 12, and the receipts of corresponding region are flowed by the recirculation hole 412 of 41 outer wall of box body It receives in slot 411, enters 7 region of biomembrane mechanism across partition 42, sewage enters in growth slot 731, microorganism energy Organic matter and certain inorganic toxic materials in enough oxygenolysis waste water, and be translated into and stablize harmless inorganic matter, passing through life After elongated slot 731 is disposed, the filtering for sewage can be realized by the mesh-structured discharge of growth 731 bottom of slot；

(3) different types of biomembrane can be placed in different accommodating grooves 411, also place same type of biomembrane, In use, when biomembrane is using a period of time, when treatment effect declines, locking bar 82 can be released by push rod 83 and compresses bullet Then spring 81 pushes pushing block 711 so that tapered end 9 is separated with corresponding card hole 413, so that biomembrane mechanism 7 is whole along receipts Slot 411 of receiving movement, leaves the corresponding region of recirculation hole 412 and enters in mounting groove 11, realizes for the biomembrane mechanism that fails Then 7 storage similarly can release not used biomembrane mechanism 7 from mounting groove 11, it is corresponding to enter recirculation hole 412 The replacement of biomembrane is realized in region；It, can be same by different biomembranes simultaneously and since each accommodating groove 411 is mutually independent When be pushed into 412 corresponding region of recirculation hole, realize that combination utilizes, so that the processing function of biomembrane is more various, flexible；

(4) when needing to safeguard biomembrane mechanism 7, rotary electric machine 54 can be started and rotated with movable reel 53, in turn Traction rope 52 is driven to be wrapped in the outer wall of reel 53, so that traction rope 52 is moved around fixed pulley 51, traction rope 52 drives storage Mechanism 4 moves upwards, and stocking mechanism 4 is moved upwards along slide 3, mounting groove 11, rises, is convenient for so that stocking mechanism 4 is whole Operator's processing, backs out cover board 43, can extract each biomembrane mechanism 7 out, then back out stop screw 72, can make filter Plate 73 is separated with fixed frame 71, can be handled microorganism, be updated.

Microorganism can be filled into growth slot 731 by the present invention, and the growth slot 731 of recess is capable of forming microorganism growth Region avoids microorganism from falling or be flushed away, and microorganism can also grow around Anchored Bar 732, to increase for growth The space utilization rate of slot 731, so that the distribution of microorganism is more three-dimensional；Using multiple independent accommodating grooves 411, each storage Biomembrane mechanism 7 is placed in slot 411, not used biomembrane mechanism 7 can be stored in mounting groove 11, and the life to work Wu Mo mechanism 7 is movable to the corresponding region of recirculation hole 412, so as to realize that the quick update of biomembrane mechanism 7 uses, Without integral demounting, and can be according to processing needs, so that multiple biomembrane mechanisms 7 are applied in combination, so that the function of biomembrane Energy structure is more various；Quickly stocking mechanism 4 can be lifted by hoisting mechanism 5, remove cover board 43, to realize for life 7 Fast-Maintenance of Wu Mo mechanism, without manually lifting.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the description in above embodiment and specification only illustrates the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation It is both fallen in the scope of protection of present invention with improvement.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims

1. a kind of industrial waste gas processing method, it is characterised in that: method includes the following steps:

S2: cool down to the gas after dedusting；

S3: just desulfurization process is carried out to the gas after cooling；

The biofilter that this method uses, including pedestal (1), supporting mechanism (2), slide (3), stocking mechanism (4), hoisting mechanism (5), biomembrane mechanism (7) and retaining mechanism (8)；The inner wall of the pedestal (1) is equipped with the slide (3), the slide (3) Be slidably connected the stocking mechanism (4), and the top surface of the stocking mechanism (4) is equipped with the hoisting mechanism (5), the elevator Structure (5) is to drive the stocking mechanism (4) to move up and down；The hoisting mechanism (5) is fixedly connected with the supporting mechanism (2), The supporting mechanism (2) is to be fixed the hoisting mechanism (5)；The inside of the stocking mechanism (4) is equipped with several A biomembrane mechanism (7), the biomembrane mechanism (7) carry out apposition growth to microorganism；The biomembrane mechanism (7) The retaining mechanism (8) are equipped with the junction of the stocking mechanism (4), the retaining mechanism (8) is to the biomembrane Mechanism (7) is locked.

2. a kind of industrial waste gas processing method according to claim 1, it is characterised in that: the inner wall of the pedestal (1) is opened Have circulation groove (12), the inner wall of the circulation groove (12) is fixed with the slide (3), and the stream is removed in the inside of the pedestal (1) Region other than through slot (12) is provided with mounting groove (11), the mounting groove (11) and the circulation groove (12) Relative distribution, described The outer wall of pedestal (1) is fixed with cabinet (6).

3. a kind of industrial waste gas processing method according to claim 2, it is characterised in that: the stocking mechanism (4) includes Box body (41), partition (42), cover board (43) and plugging plate (44), the box body (41) and the mounting groove (11), the cunning Be slidably connected between seat (3), the half of the box body (41) is placed in the circulation groove (12), the box body (41) the other half It is embedded into the mounting groove (11), the part two sidewalls that the box body (41) is located at the circulation groove (12) are provided with recirculation hole (412), the inside of the box body (41) is equidistantly equipped with several partitions (42), the length of the partition (42) with it is described The inner length of box body (41) is identical, encloses between the adjacent partition (42), between the partition (42) and the box body (41) It is mesh-structured, the circulation groove at the partition (42) and the recirculation hole (412) relative position at accommodating groove (411) (12) it is slidably connected in the middle part of the plugging plate (44), the area of the plugging plate (44) and the section of the circulation groove (12) Product is identical, and the outer wall thread of the box body (41) connects the cover board (43), and the outer wall of the cover board (43) is provided with first sliding groove (431) and second sliding slot (432), the second sliding slot (432) and the plugging plate (44) Relative distribution, the accommodating groove (411) inner wall is symmetrically arranged with card hole (413).

4. a kind of industrial waste gas processing method according to claim 3, it is characterised in that: each accommodating groove (411) Inside slidably connect the biomembrane mechanism (7), the volume of the biomembrane mechanism (7) is the accommodating groove (411) Half, the biomembrane mechanism (7) includes fixed frame (71), stop screw (72) and filter plate (73), the fixed frame (71) filter plate (73) is connected by the stop screw, the outer wall of the fixed frame (71) is equipped with pushing block (711), described to push away The first sliding groove (431) are stretched in outside block (711).

5. a kind of industrial waste gas processing method according to claim 4, it is characterised in that: the filter plate (73) is provided in square Shape array distribution has growth slot (731), and the bottom surface of growth slot (731) is mesh-structured, the inner wall of growth slot (731) Vertically it is equipped with several Anchored Bars (732).

6. a kind of industrial waste gas processing method according to claim 4, it is characterised in that: the two sides of the fixed frame (71) Face is equipped with tapered end (9), and the tapered end (9) is embedded in the inside of the card hole (413), and the recessed groove of the tapered end (9), which cooperates, to be connected It is connected to the retaining mechanism (8), the retaining mechanism (8) includes spring (81), locking bar (82) and push rod (83), the locking bar (82) be connected together the tapered end (9), and the end of the locking bar (82) is fixed with the spring (81), outside the locking bar (82) Wall is vertically equipped with the push rod (83), and the box body (41) outer wall is stretched in outside the push rod (83).

7. a kind of industrial waste gas processing method according to claim 3, it is characterised in that: the hoisting mechanism (5) includes One end of fixed pulley (51), traction rope (52), reel (53) and rotary electric machine (54), the traction rope (52) is fixedly connected with institute It states cover board (43), through the outer wall of the fixed pulley (51), the other end of the traction rope (52) twines the traction rope (52) It is around in the outer wall of the reel (53), the reel (53) is rotatablely connected the rotary electric machine (54), the reel (53), described Rotary electric machine (54) is set to the inside of cabinet (6), and the cabinet (6) is set to the side wall of the pedestal (1).

8. a kind of industrial waste gas processing method according to claim 7, it is characterised in that: the supporting mechanism (2) includes Support rod (21) and fixed link (22), the support rod (21) are symmetrically fixed on the outer wall of the pedestal (1), the support rod (21) top is vertically equipped with the fixed link (22), and the fixed link (22) is fixedly connected with the fixed pulley (51).