CN105664715A - Air handling tube and air handling equipment system for production line - Google Patents

Abstract

The invention provides an air handling tube. The air handling tube comprises a tube sleeve and an air handling structure mounted in the tube sleeve, wherein the air handling structure comprises a spiral belt and a lamp tube; the spiral belt spirally extends in the tube sleeve; the spiral belt is encircled to form an axis through hole in the center; the surface of the spiral belt is coated with a photocatalyst; the lamp tube is mounted in the axis through hole of the spiral belt. Besides, the invention also provides a VOC (volatile organic compounds) air handling equipment system with the air handling tube for a production line. By adoption of the air handling tube, VOC-containing air can be fully sucked to prevent environmental pollution.

Description

Air-treatment pipe and the air treatment equipment system for production line

Technical field

The present invention relates to the environmental protection equipment for administering Organic Waste Gas Pollution, particularly relate to a kind of air-treatment pipe and the air treatment equipment system for production line.

Background technology

VOC material refers to the general name of volatile organic matter under room temperature, common are formaldehyde, toluene, dimethylbenzene, acetone and butanone etc. Production in the industries such as petrochemical industry, pharmacy, paint, coating, electronic manufacture, surface anticorrosion, shoemaking, printing and transportation and substantial amounts of VOC can be produced in use procedure, air quality is caused extreme influence, human body is had stimulation and to the toxic effect of human body viscera by VOC, it is detrimental to health, and the inflammable potential safety hazard that causes of VOC, VOC because discharge capacity is big, kind is many, difficult degradation, strong toxicity, potential safety hazard have become as greatly the current whole world various countries focus to air-treatment problem. Such as, in sole manufacturing process, need many bottoms bonding by glue, when bonding, glue can volatilize VOC gas that is substantial amounts of and that have penetrating odor, and staff smells for a long time or sucks this gas, is unfavorable for healthy, therefore, the gas how quickly and fully eliminating glue volatilization generation becomes a technical problem urgently to be resolved hurrily of the industry.

Summary of the invention

In view of the above, the present invention provides the air-treatment pipe of a kind of VOC gas that can absorb and process volatilization fully.

Technical scheme provided by the invention is: a kind of air-treatment pipe, including pipe box and be arranged on the air-treatment structure in pipe box, described air-treatment structure includes hurricane band and fluorescent tube, hurricane band is arranged in pipe box, hurricane band center is surrounded by axis through-hole, being coated with photocatalyst on the zone face of hurricane band, become inorganic air in order to the cracking of catalysis organic air under the effect of illumination, fluorescent tube is arranged in the axis through-hole of hurricane band.

Further, described hurricane band is fixedly mounted in pipe box, and diameter and the internal diameter of pipe box that hurricane band is overall are suitable.

Further, described fluorescent tube adopts ultraviolet lamp tube.

Further, it is provided with the hurricane band of a plurality of cooperation that is interweaved in described pipe box and forms described axis through-hole.

Further, described air-treatment pipe includes air detection instrument, is arranged on entrance point and the port of export of pipe box.

Additionally, the present invention is necessary to provide a kind of VOC air treatment equipment system for production line.

A kind of VOC air treatment equipment system for production line, table is processed including some air trappings, some described air-treatment pipes, and air-treatment case, some air trappings process table and collect VOC air and the VOC air of collection is carried out first order process, and air-treatment pipe connects air trapping and processes table, import the air after air trapping processes table process and carry out second level process, and the air after two stage treatment is sent to air-treatment case, carry out third level process.

Further, described air-treatment pipe composition pipe frame structure, including house steward, the connection some arms on house steward, and it is connected on house steward in order to gas in house steward to be imported the collecting pipe of air-treatment case, each arm connects each air trapping respectively and processes table, to collect the VOC air after air trapping processes table collection process.

Further, described VOC air treatment equipment system includes intelligent checking system, intelligent checking system includes display and air detection instrument, and display is arranged on air trapping and processes the table surface of table, and air detection instrument is arranged on the port of export of air-treatment case.

Further, described air-treatment case includes casing, backflow clearing heat in QI system structure and admission line, casing top is formed with opening, microbial nutrient solution it is equipped with in casing, backflow clearing heat in QI system structure is arranged in casing, backflow clearing heat in QI system structure includes a dividing plate and some aeroscopic plates, casing is divided into a backflow space and a clearing heat in QI system space by described dividing plate, some aeroscopic plates are alternately mounted in clearing heat in QI system space the air guide channel of the polyline shaped prolonged in formation, the coated on bottom side of aeroscopic plate is furnished with microbial inoculant coating, the end face of aeroscopic plate is equipped with microbial nutrition component, admission line penetrates casing inner bottom part and is connected to the bottom of air guide channel, air is directed into air guide channel through admission line, VOC in air is bitten by microorganism and removes by the coating of VOC air contact aeroscopic plate bottom surface, and air driven microbial nutrient solution flows along air guide channel and passes through backflow space and flows back to box bottom, make nutritional solution at casing internal circulation flow.

Compared to prior art, the present invention adopts described air trapping to process pipe, by arranging photocatalyst structure in pipe, at VOC air when Bottomhole pressure, effectively the VOC gas of volatilization can be decomposed into inorganic gas.

Accompanying drawing explanation

Described above is only the general introduction of technical solution of the present invention, in order to be illustrated more clearly that technical scheme, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, accompanying drawing in description is only corresponding to specific embodiments of the invention, to those skilled in the art, under the premise not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings when needing.

Fig. 1 is the present invention structural representation for the VOC air treatment equipment system of production line;

Fig. 2 is the overall diagram of the collection and confinement of gases process table of the air treatment equipment system shown in Fig. 1;

Fig. 3 is the exploded view that the collection and confinement of gases shown in Fig. 2 processes table;

Fig. 4 is the top view that the air trapping shown in Fig. 2 processes the desktop of table;

Fig. 5 is the axonometric chart after the air trapping shown in Fig. 2 processes the desktop expansion of table;

Fig. 6 is the sectional view that the collection and confinement of gases shown in Fig. 2 processes the desk body of table;

Fig. 7 is the cross-sectional layers structural representation inhaling Flash Gas Compression Skid System bottom the desktop shown in Fig. 6;

Fig. 8 is the axonometric chart of the air-treatment tubular construction of the air treatment equipment system shown in Fig. 1;

Fig. 9 is the axonometric chart of the air-treatment box structure of the air treatment equipment system shown in Fig. 1;

Figure 10 is the schematic diagram of Rotating fields the first better embodiment in the air-treatment box structure shown in Fig. 9;

Figure 11 is the schematic cross-section of the present invention the second preferred embodiment air-treatment box structure;

Figure 12 is the schematic top plan view of the air-treatment box structure shown in Figure 11;

Figure 13 is the schematic diagram along A-A direction of the air-treatment box structure shown in Figure 11;

Figure 14 is the schematic diagram along B-B direction of the air-treatment box structure shown in Figure 11;

Figure 15 is schematic cross-section when being equipped with nutritional solution state of the air-treatment box structure shown in Figure 11;

Figure 16 is the schematic cross-section of the present invention the 3rd preferred embodiment air-treatment box structure;

Figure 17 is the schematic diagram along A-A direction of the air-treatment box structure shown in Figure 16.

Detailed description of the invention

It is the technical scheme reached predetermined technique purpose and take to elaborate the present invention, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the section Example of the present invention, rather than whole embodiments, and, under the premise not paying creative work, technological means or technical characteristic in embodiments of the invention can be replaced, and describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

Refer to Fig. 1, a kind of VOC air treatment equipment system for production line, be positioned at the side of flowing water conveyer belt 200. VOC air treatment equipment system includes some air trappings and processes table 10, some air-treatment pipes 20 and air-treatment case 30. Some air trappings process table 10 and are arranged on the side of flowing water conveyer belt 200, the air collected is carried out first order process, air-treatment pipe 20 connects air trapping and processes table 10, import the air after air trapping processes table 10 process and carry out second level process, and the air after two stage treatment is sent to air-treatment case 30, carry out third level process.

Referring to Fig. 2, Fig. 3, air trapping processes table 10 and includes desk body 11, gas skirt 12 and inhale Flash Gas Compression Skid System 13. Desk body 11 includes bracing frame 111, be arranged on bracing frame 111 table 112 and be arranged on the inducing QI bucket 113 bottom table 112. Bracing frame 111 includes some support bars 114 and is connected to the crossbeam 115 on support bar 114 top between two. In the present embodiment, desk body 11 is tetragon desk body, and support bar 114 and crossbeam 115 are four. Table 112 is carried on crossbeam 115, and on table 112 end face, contiguous both sides are relatively formed with processing district 116. In the present embodiment, processing district 116 is recessed square groove. Table 112 end face offers some getter holes 117, and the space that getter hole 117 surrounds with the inducing QI bucket 113 bottom table 112 connects.

Incorporated by reference to consulting Fig. 4, some getter holes 117 are avoided described processing district 116 and are offered and around described processing district 116, the distribution in I-shaped on the plate face of table 112. Further, the size position of center line isolated from two processing districts 116 in getter hole 117 tapers into contiguous corresponding edge, processing district 116, getter hole 117 size from away from two ends, processing district 116 taper into contiguous corresponding processing district 116 size, by such distribution, it is more beneficial for the gas above table 112 and fully absorbs.

Referring to Fig. 5, Fig. 6, table 112 is two and is oppositely arranged plate body composition, and each plate body is hinged on crossbeam 115 by loose-leaf, it is possible to relatively open, and is so easy to inhale Flash Gas Compression Skid System 13 parts and is mounted in inducing QI bucket 113. Inducing QI bucket 113 is in rectangular pyramid shape barrel structure, the top of inducing QI bucket 113 is fixed in the tetragon frame that crossbeam 115 surrounds, what the relative crossbeam 115 in top of inducing QI bucket 113 protruded out preset length protrudes out edge 118, plate body is correspondingly formed and protrudes out the engaging edge that the sealing of edge 118 phase coordinates, with the end sealing of inducing QI bucket 113 after making inducing QI bucket cover close, it is prevented that the air sucking inducing QI bucket 113 is revealed.The top middle portion of inducing QI bucket 113 is formed with two support beams 119, for the plate body supported after covering. Further, the internal perisporium of inducing QI bucket 113 is provided with some bracers 110, for assisting support beam 119 together to support the plate body after covering.

Described gas skirt 12 is in order to be located on table 112, and gas skirt 12 offers relative and corresponding with position, described processing district 116 gathering hole 121. In the present embodiment, the rectangular cover that gas skirt 12 is made for transparent material. Accurate for the ease of gas skirt 12 cooperation position on table 112, the corner place on table 112 is respectively arranged with locating piece 1121, coordinates for the corner with gas skirt 12. Additionally, gas skirt 12 also may be designed as two half relative case compositions, every half case is respectively hinged on crossbeam 115.

Refer to Fig. 6 and Fig. 7, inhale Flash Gas Compression Skid System 13 and be arranged on inducing QI bucket 113 outlet at bottom end, inhaling Flash Gas Compression Skid System 13 and include multistage filtering assembly 131 and suction fan 132, multistage filtering assembly 131 includes dust layer 133, adsorption layer 134 and cracking zone structure 135. Dust layer 133 is arranged on the port of export of inducing QI bucket 113, in order to by particle filtering bigger for the particle diameters such as dust. Adsorption layer 134 is arranged on below dust layer 133, is mainly activated carbon material, by activated carbon physical absorption VOC gas. Cracking zone structure 135 is arranged on below adsorption layer 134, in order to VOC gas is cracked, cracking zone structure 135 includes catalysis lamp 1351 and is arranged on the catalysis stratum reticulare 1352 of catalysis lamp 1351 both sides, catalysis stratum reticulare 1352 is formed cracking and catalyzing enzyme, such as nano peptide etc., can under the exciting of catalysis lamp 1351 effect VOC is gas cracking, namely carry out chemolysis. Suction fan 132 is arranged on the lower section of multistage filtering assembly 131, make the air being positioned at gas skirt 12 above table 112 be fully absorbed inducing QI bucket 113 by suction fan 132 air-breathing, import after multistage filtering assembly 131 processes then through inducing QI bucket 113 and discharge from suction fan 132 air outlet.

Further, air trapping processes table 10 and also includes intelligent checking system, intelligent checking system includes display 141 and air detection instrument (not shown), display 141 is arranged on table 112 surface, operator can direct viewing to display parameter value, parameter value includes concentration, temperature and suction fan power etc., air detection instrument be arranged on suction Flash Gas Compression Skid System 13 port of export, the related parameter values of VOC gas after processing with real-time detection, and show at display in real time.

During operator's production operation, open described suction fan 132, extraneous air enters from the gathering hole 121 of gas skirt 12 both sides, the VOC air volatilized above table 112 by material or workpiece will not shed and contaminated air from gathering hole 121, VOC air can be inhaled into, and the air stream entered from two gathering holes 121 is collided, the air stream collided can flow to two ends, flow to the two ends place of desk body 11, by in the getter hole 117 in the wide-bore footpath of centerline and open heavy caliber hole at two ends place, main air flow can be sucked to form negative pressure in gas skirt 12 along speed ground, so, volatilization VOC gas in gas skirt 12 can be taken away fully along speed, therefore, by being I shape and suction hole varying aperture direction by suction hole layout, utilize air rheology principle well, realize quickly fully sucking the VOC in gas skirt 12, and the working power of suction fan 132 can be reduced, effectively save the energy.

In conjunction with consulting Fig. 1 and Fig. 8, air-treatment pipe 20 includes pipe box 21 and the air-treatment structure 22 being arranged on pipe box in 21. Air-treatment structure 22 includes hurricane band 221 and fluorescent tube 222. The diameter of hurricane band 221 entirety is suitable with the internal diameter of pipe box 21, hurricane band 221 helically extends in pipe box 21, hurricane band 221 center is surrounded by axis through-hole, and the zone face of hurricane band 221 is coated with light enzyme catalyst (not shown), it is possible to catalytic decomposition gas under the effect of illumination. Fluorescent tube 222 is arranged in the axis through-hole at hurricane band 221 center, and fluorescent tube 222 can adopt ultraviolet lamp tube, excites the catalyst on hurricane band 221 zone face by illumination. It is preferred that be provided with the hurricane band 221 of a plurality of cooperation that is interweaved in pipe box 21 and form axis through-hole.

Air-treatment pipe 20 is some, and pore size can be different. In present pre-ferred embodiments, the pipe frame structure of some air-treatment pipes 20 composition, including house steward 23, the connection some arms 24 on house steward 23, and it is connected on house steward 23 in order to gas in house steward 23 to be imported the collecting pipe 25 of air-treatment case 30. Each arm 24 connects each air trapping respectively and processes suction fan 132 air outlet of table 10. So, the VOC air after table 10 collection processes is processed through suction fan 132 suction manifold 24, enter into house steward 23 from arm 24 again through air trapping, collecting pipe 25 is entered into again from house steward 23, enter into air-treatment case 30, so, VOC air processes with the long second level through the long path undertaken by air-treatment pipe 20, can preferably the VOC air not eliminated completely at air trapping process table 10 be processed further.

Referring to Fig. 9, Figure 10, air-treatment case 30 includes air-washer 31 and is arranged on the exhaust fan 32 on air-washer 31 top. Air-washer 31 includes casing 40, backflow clearing heat in QI system structure 50 and admission line 60.

The top of casing 40 has opening 41, is equipped with microbial nutrient solution in casing 40. During this is preferably implemented, casing 40 is chosen as the rectangular box of hollow, including being positioned at the first side wall 42 and second sidewall 43 of casing both sides, being positioned at the roof 44 at casing top and be positioned at the diapire 45 of box bottom. The first side wall 42 offers air inlet pipe installing hole 421. Roof 44 offers described opening 41. Diapire 45 offers outage 451.

Backflow clearing heat in QI system structure 50 is arranged in casing 40, and backflow clearing heat in QI system structure 50 includes a dividing plate 51, some aeroscopic plates 52, microbial inoculant coating and microbial nutrition component. Casing 40 is divided into backflow space 511 and a clearing heat in QI system space 512 by dividing plate 51, in the present embodiment specifically, dividing plate 51 both sides are solidly connected on the forward and backward end wall of casing, between the inner surface of the bottom of dividing plate 51 and the diapire of casing 40, there is certain gap, backflow space 511 is formed between dividing plate 51 and the first side wall 42, backflow gap, space 511 is less, for the liquid backflow box bottom at casing top. Form clearing heat in QI system space 512 between dividing plate 51 and the second sidewall 43, form air guide channel for assembling some aeroscopic plates 52. Aeroscopic plate 52 includes hang plate 521 and horizontal plate 522, hang plate 521 is relatively installed between two on the first side wall the 42, second sidewall 43 that clearing heat in QI system space is relative, in " eight " font, horizontal plate 522 is arranged on the top of two hang plates 521, and block is in the open top end of "eight" shape and has certain height distance with this opening. The two ends of horizontal plate are attached on the forward and backward end wall of clearing heat in QI system space internal box. Hang plate 521 is installed step by step from bottom to up in clearing heat in QI system space 512, and is provided with a horizontal plate 522 above the hang plate 521 of every a pair formation "eight" shape.So, the both sides in clearing heat in QI system space 512 form the air guide channel prolonged in two complications.

Bottom in clearing heat in QI system space 512 arranges a deflector 523 and is vertically connected to the bottom of dividing plate 51, an air inlet honeycomb duct 524 is formed between the diapire of deflector 523 and casing 40, and it is formed with gap between the end of deflector 523 and the second sidewall 53, conductance runner 524 is connected with air guide channel. when VOC gas imports in casing 40, the VOC gas introducing casing 40 inner bottom part flows into the space, bottom of two hang plates 521 forming "eight" shape along air inlet honeycomb duct 524, gas flows up along the bottom surface of two hang plates 521, the open top being then passed through "eight" shape flows to the bottom of horizontal plate 522, gas is divided into two strands along the bottom of horizontal plate 522 and flows to the both sides in clearing heat in QI system space 512, space, bottom subsequently into two hang plates 521 to upper level "eight" shape, so flow up step by step, until after dividing two plumes to go out from the bottom of the horizontal plate 522 of top, gas flows out from the opening 41 on casing 40 top. the gradient formed between hang plate 521 and horizontal plane selects between 10 degree to 45 degree, it is preferred that be chosen as 30 degree. when gas flows in air guide channel, the nutritional solution in clearing heat in QI system space 512 can be driven to flow from bottom to top simultaneously, and flow back into from the top in clearing heat in QI system space 512 in backflow space 511, nutritional solution is entered to air inlet honeycomb duct 524 by space 511 of refluxing, flow back into bottom in clearing heat in QI system space 512, so circulate.

Microbial inoculant coating applications, in the bottom surface of aeroscopic plate, forms microbiologic population's layer at aeroscopic plate bottom surface microbe inoculation. Microbial inoculant coating main component is to bite VOC fungus and be partly made up of the prokaryote of symbiosis, gas ingredients according to different polluter allocates composition by a certain percentage, and microbial inoculant coating of the present invention mainly adopts compound carbon-based nano bed (coating). Owing to VOC gas density is relatively low, the VOC gas bottom surface of rising edge aeroscopic plate in nutritional solution introducing box bottom is moved, namely the bottom surface of horizontal plate 522 is flowed into from hang plate 521 bottom surface, then move along horizontal plate 522 bottom surface, bottom surface subsequently into last layer hang plate 521, so, VOC gas flows along aeroscopic plate 52 bottom surface all the time.

Microbial nutrition component is arranged on the end face of aeroscopic plate 52, for providing nutrient to the microorganism in microbial inoculant coating, for microbial reproduction, cultivation. Containing trace mineral, saccharide in microbial nutrition component and be used for enzyme preparation that is stable and that accelerate microbiologic population's metabolism, VOC is considered as the nutriment of microorganism. Nutrient solution prescription can be directly placed at aeroscopic plate end face, or aeroscopic plate end face arranges accommodating device, such as grid or test tube, is respectively implanted microbial nutrition component in accommodating device.

Admission line 60 is arranged on the first side wall 42 of casing 40, and one end of admission line 60 is connected with extraneous suction nozzle, and the other end stretches in casing and extends bottom backflow clearing heat in QI system structure 50, connects with air inlet honeycomb duct 524.

When using air-treatment box structure, the microbial nutrient solution accommodating height in casing 40 is 2/3 position of backflow clearing heat in QI system structure height. By admission line 60, VOC air is directed into air guide channel, VOC in air is bitten by microorganism and removes by the coating of VOC air contact aeroscopic plate bottom surface, and VOC air driven microbial nutrient solution flows along air guide channel, nutritional solution flows back to box bottom through backflow space so that nutritional solution is at casing internal circulation flow.The detailed process of nutritional solution effect is, the microorganism of nutritional solution and attachment occurs to activate activation, jointly produces the cracking effect to VOC, after VOC cracking, solution is lysate, after using Preset Time, when splitting action decline maybe can not act on, by outage 451 waste discharge.

Exhaust fan 32 is arranged on opening 41 position of air-treatment box structure, discharges in order to the air will discharged from opening 41, and exhaust fan 32 includes exhaustor. Further, air detection instrument is installed in exhaustor, process the VOC content of the air after table 10, air-treatment pipe 20 and air-treatment case 30 process through air trapping with detection, detect and show in real time the various data of detection in real time, it is achieved air treatment equipment system is controlled in real time and feeds back Detection results in time.

Refer to Figure 11,12, the present invention is for second preferred embodiment of air-treatment case of the VOC air treatment equipment system of production line, including casing 70, backflow clearing heat in QI system structure 80 and admission line 90.

The top of casing 70 is formed with opening 71, is equipped with microbial nutrient solution in casing 70. During this is preferably implemented, casing 70 is chosen as the rectangular box of hollow, including being positioned at the first side wall 72 and second sidewall 73 of casing both sides, being positioned at the roof 74 at casing top and be positioned at the diapire 75 of box bottom. The first side wall 72 offers air inlet pipe installing hole 721. Roof 74 offers described opening 71. Diapire 75 offers outage 751.

Backflow clearing heat in QI system structure 80 is arranged in casing 70, and backflow clearing heat in QI system structure 80 includes a dividing plate 81, some aeroscopic plates 82, microbial inoculant coating and microbial nutrition component.

Incorporated by reference to consulting Figure 13, Figure 14, casing 70 is divided into backflow space 811 and a clearing heat in QI system space 812 by dividing plate 81, in the present embodiment specifically, dividing plate 81 both sides are solidly connected on the forward and backward end wall of casing, between the inner surface of the bottom of dividing plate 81 and the diapire of casing 70, there is certain gap, forming backflow space 811 between dividing plate 81 and the first side wall 72, backflow gap, space 811 is less, for the liquid backflow box bottom at casing top. Form clearing heat in QI system space 812 between dividing plate 81 and the second sidewall 73, form air guide channel for assembling some aeroscopic plates 82.

Default angle that some aeroscopic plates 82 are alternately installed on the sidewall that clearing heat in QI system space is 812 liang relative and aeroscopic plate 82 its one end being connected with sidewall relative is inclined upwardly, so forms the air guide channel prolonged in complications in clearing heat in QI system space. In the present embodiment, aeroscopic plate 82 is rectangular slab, aeroscopic plate 82 can be divided into some first aeroscopic plates being fixed on dividing plate 81 abreast, with some second aeroscopic plates being fixed in abreast on the second sidewall 73, first aeroscopic plate and the second aeroscopic plate are arranged alternately, specifically, one end of first aeroscopic plate is solidly connected on dividing plate 81, the angle that the other end extends to the second sidewall 73 and presets to updip, the other end of the first aeroscopic plate is not connected to the second sidewall 73, and forms the first ventilative gap 821 between the second sidewall 73; Accordingly, one end of second aeroscopic plate is solidly connected on the second sidewall 73 and is positioned at the height preset above the first ventilative gap 821, the angle that the other end of the second aeroscopic plate extends to dividing plate 81 and presets to updip, the other end of the second aeroscopic plate is not connected to dividing plate 81, and forms the second ventilative gap 822 between dividing plate 81. According to above-mentioned mounting means, alternately aeroscopic plate is installed successively, and the front and rear sides of aeroscopic plate is respectively fixed on the forward and backward end wall of casing, so, described air guide channel will be formed, it is illustrated that in, introduce the VOC gas of box bottom along the first aeroscopic plate bottom surface channel flow, after the first air-guiding gap 221, flow into the second aeroscopic plate bottom surface passage, after the second air-guiding gap 222, flow into the bottom surface passage of the first aeroscopic plate of last layer.So, guide VOC gas to flow along air guide channel, make the gas of introducing shed from the opening 71 of casing after air guide channel from the bottom of casing. Being appreciated that the gradient that the first aeroscopic plate updip or the second aeroscopic plate updip are formed may be the same or different, the gradient selects between 10 degree to 45 degree, it is preferred that be chosen as 30 degree. Ventilative the second ventilative gap 822 between gap 821 and the second aeroscopic plate end and dividing plate 81 of between first aeroscopic plate end and the second sidewall 73 first may be the same or different, it is preferred that, elect as identical.

When VOC gas flows in air guide channel, the nutritional solution in casing can be driven to flow to the top of backflow clearing heat in QI system structure simultaneously, for the ease of nutritional solution in top landing to backflow space 811, the aeroscopic plate of top is set to the first aeroscopic plate being connected with dividing plate 81, so, the end face of the first aeroscopic plate of top forms one and is easy to the domatic of nutritional solution downslide, for nutritional solution along the first aeroscopic plate end face landing to backflow space 811. If the aeroscopic plate of top is set to the second aeroscopic plate being connected with the second sidewall 31, then it is not easy to the nutritional solution from air guide channel flows out and circulates glibly, the stress stationarity of whole casing is impacted. In addition, the release of gas surge it is subject to, the ventilative gap (the ventilative gap between corresponding lowermost end the first aeroscopic plate and the second sidewall 73) when ventilative gap (the ventilative gap between corresponding top the first aeroscopic plate and the second sidewall 73) gap width of least significant end is more than lowermost end air inlet for the ease of air guide channel end.

Further, so that the impulsive force of casing both sides is balanced by the gas gone out from air guide channel, the present invention also provides for a kind of backflow clearing heat in QI system structure strengthening balance-impact power. Refer to Figure 16, Figure 17, a feeder current pipe 85 mounted below in the ventilative gap between corresponding top the first aeroscopic plate and the second sidewall 73, feeder current pipe 85 is communicated to the bottom in casing, so, nutritional solution be gas go out from air guide channel end time, nutritional solution in part through flowing through backflow space 811 to casing inner bottom part from the first aeroscopic plate top side, and another part directly flows back to the bottom of casing by feeder current pipe 85, so, the balance of casing both sides stress can be strengthened. In the present embodiment, feeder current pipe 85 adopts straight-through pipe, can be one or side by side some, and each feeder current pipe 85 penetrates the bottom that some aeroscopic plates are connected in casing.

Microbial inoculant coating applications is in the bottom surface of aeroscopic plate, and microbial nutrition component is arranged on the end face of aeroscopic plate. VOC gas flows into the bottom surface of the second aeroscopic plate from the first aeroscopic plate bottom surface after the first air-guiding gap 221, then move along the second aeroscopic plate bottom surface, entering the bottom surface of last layer the first aeroscopic plate after the second air-guiding gap 222, VOC gas flows along aeroscopic plate bottom surface all the time. Admission line 90 is arranged on the first side wall of casing, and one end of air inlet pipe 30 is connected with extraneous suction nozzle, and the other end stretches in casing and extend the lower section of the aeroscopic plate bottom backflow clearing heat in QI system structure 80, connects with air guide channel.

Referring to Figure 15, when using the air-treatment case of the second preferred embodiment, the microbial nutrient solution accommodating height in casing 70 is 2/3 position of backflow clearing heat in QI system structure height. By admission line 90, VOC air is directed into air guide channel, VOC in air is bitten by microorganism and removes by the coating of VOC air contact aeroscopic plate bottom surface, and VOC air driven microbial nutrient solution flows along air guide channel, nutritional solution flows back to box bottom through backflow space and feeder current pipe 85 so that nutritional solution is at casing internal circulation flow.

Further, in casing, in the top of backflow clearing heat in QI system structure 80, a VOC adsorption plate can be installed, to strengthen the removal to VOC.

VOC air treatment equipment system of the present invention includes air trapping process table 10 and processes, air-treatment pipe 20 processes, and the process of three processes of air-treatment case 30 process, air trapping processes table 10 and processes as physical absorption in conjunction with chemical light catalytic treatment, air-treatment pipe 20 is chemical light catalytic treatment, air-treatment case 30 is biological technical finesse, according to requirement to VOC composition of air or degree for the treatment of on production line, the optional combination merely through a process or any several process, as can be that independent air trapping processes table 10 and processes, independent air-treatment pipe 20 processes, independent air-treatment case 30 processes, or air trapping processes table 10 and combines with air-treatment pipe 20 process, or air trapping processes table 10, air-treatment pipe 20, and air-treatment case 30 three combines process. it is appreciated that the inlet and outlet at air trapping process table 10, air-treatment pipe 20 and air-treatment case 30 all can install air detection instrument.

In addition, air-treatment box structure provides the brand-new VOC technology path processed, utilize and pass through preferred and acclimated microorganism flora and a special backflow clearing heat in QI system structure with folding labyrinth-like containing microbial lytic liquid, ensure that organic exhaust gas can be fully contacted with the lysate containing microorganism, thus becoming have an opportunity thoroughly to decompose into harmless carbon dioxide and water, clearance can reach more than 98%, and when not updating lysate, can play a role in keeping 3 months. By the organic exhaust gas inlet and outlet at air-treatment box structure, organic exhaust gas on-Line Monitor Device is installed, it is possible to be directly observed organic exhaust gas changing value before improvement and after improvement, and upload to remote monitoring platform by wired or wireless mode. Treatment effect is checked, it is provided that data support reliably for administration section. By synchronization monitoring process before and after the emissions data of VOC, and upload to data center and analyzed, thus realizing air large database concept, realizing discharge charge for supervision and air regulation provides foundation. Native system operation costs are non-normally low, generally only the power consumption of tens watts, and the replacement cycle of lysate is more than 3 months, and low cost, overall cost is the 1/3 of existing process device, and management is safeguarded very easy.

The above, it it is only presently preferred embodiments of the present invention, not the present invention is done any pro forma restriction, although the present invention is disclosed above with preferred embodiment, but it is not limited to the present invention, any those skilled in the art, without departing within the scope of technical solution of the present invention, when the technology contents of available the disclosure above makes a little change or is modified to the Equivalent embodiments of equivalent variations, in every case it is without departing from technical solution of the present invention content, technical spirit according to the present invention, within the spirit and principles in the present invention, the any simple amendment that above example is made, equivalent replacement and improvement etc., all still fall within the protection domain of technical solution of the present invention.

Claims (9)

1. an air-treatment pipe (20), including pipe box (21) and be arranged on the air-treatment structure (22) in pipe box (21), it is characterized in that: described air-treatment structure includes hurricane band (221) and fluorescent tube (222), hurricane band (221) is arranged in pipe box (222), hurricane band (221) center is surrounded by axis through-hole, the zone face of hurricane band (221) is coated with photocatalyst, inorganic air is become in order to the cracking of catalysis organic air under the effect of illumination, fluorescent tube (222) is arranged in the axis through-hole of hurricane band.

2. air-treatment pipe (20) according to claim 1, it is characterized in that: described hurricane band (221) is fixedly mounted in pipe box (21), diameter and the internal diameter of pipe box (21) that hurricane band (221) is overall are suitable.

3. air-treatment pipe (20) according to claim 1, it is characterised in that: described fluorescent tube (222) adopts ultraviolet lamp tube.

4. air-treatment pipe (20) according to claim 1, it is characterised in that: it is provided with the hurricane band (221) of a plurality of cooperation that is interweaved in described pipe box (21) and forms described axis through-hole.

5. air-treatment pipe (20) according to claim 1, it is characterised in that: include air detection instrument, be arranged on entrance point and the port of export of pipe box (21).

6. the VOC air treatment equipment system for production line, it is characterized in that: include some air trappings and process table (10), some air-treatment pipes (20) as described in any one of claim 1 to 5, and air-treatment case (30), some air trappings process table (10) and collect VOC air and the VOC air collected is carried out first order process, air-treatment pipe (20) connects air trapping and processes table (10), import the air after air trapping processes table (10) process and carry out second level process, and the air after two stage treatment is sent to air-treatment case (30), carry out third level process.

7. VOC air treatment equipment system according to claim 6, it is characterized in that: described air-treatment pipe (20) composition pipe frame structure, including house steward (23), the connection some arms (24) on house steward (23), and it is connected on house steward (23) in order to interior for house steward (23) gas to be imported the collecting pipe (25) of air-treatment case (30), each arm (24) connects each air trapping respectively and processes table (10), to collect the VOC air after air trapping processes table (10) collection process.

8. VOC air treatment equipment system according to claim 6, it is characterized in that: include intelligent checking system, intelligent checking system includes display (141) and air detection instrument, display (141) is arranged on air trapping and processes table (112) surface of table (10), and air detection instrument is arranged on the port of export of air-treatment case (30).

9. VOC air treatment equipment system according to claim 8, it is characterized in that: described air-treatment case (30) includes casing (70), backflow clearing heat in QI system structure (80) and admission line (90), casing (70) top is formed with opening (71), casing is equipped with microbial nutrient solution in (70), backflow clearing heat in QI system structure (80) is arranged in casing (70), backflow clearing heat in QI system structure (80) includes a dividing plate (81) and some aeroscopic plates (82), casing (70) is divided into a backflow space (811) and a clearing heat in QI system space (812) by described dividing plate (81), some aeroscopic plates (82) are alternately mounted in clearing heat in QI system space the air guide channel of the polyline shaped prolonged in formation, the coated on bottom side of aeroscopic plate (82) is furnished with microbial inoculant coating, the end face of aeroscopic plate (82) is equipped with microbial nutrition component, admission line (90) penetrates casing inner bottom part and is connected to the bottom of air guide channel, air is directed into air guide channel through admission line (90), VOC in air is bitten by microorganism and removes by the coating of VOC air contact aeroscopic plate (82) bottom surface, and air driven microbial nutrient solution flows along air guide channel and passes through backflow space (811) and flows back to casing (70) bottom, make nutritional solution at casing (70) internal circulation flow.