CN205925384U - A VOC air treatment equipment system for production line - Google Patents
A VOC air treatment equipment system for production line Download PDFInfo
- Publication number
- CN205925384U CN205925384U CN201620341274.1U CN201620341274U CN205925384U CN 205925384 U CN205925384 U CN 205925384U CN 201620341274 U CN201620341274 U CN 201620341274U CN 205925384 U CN205925384 U CN 205925384U
- Authority
- CN
- China
- Prior art keywords
- air
- treatment
- voc
- equipment system
- treatment equipment
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/20—Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters
Abstract
The utility model provides a VOC air treatment equipment system for production line, collect to handle table, a plurality of air treatment pipe and air treatment case including the air, a plurality of air are collected and are handled the table and collect the VOC air and carry out primary treatment to the VOC air of collecting, and air treatment union coupling air is collected and is handled the table, and leading -in air is collected the air of handling after the table is handled and is carried out secondary treatment to lead the air behind the secondary treatment and deliver to air handling box, carry out tertiary treatment. VOC air treatment equipment system, but the VOC in the air fully absorb, prevent environmental pollution.
Description
Technical field
This utility model relate to administer Organic Waste Gas Pollution environmental protection equipment, more particularly, to a kind of air-treatment table and
VOC 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 fourth
Ketone etc..In the industries such as petrochemical industry, pharmacy, paint, coating, electronic manufacture, surface anticorrosion, shoemaking, printing and transportation
Production and use during can produce substantial amounts of VOC, air quality is caused with extreme influence, VOC has stimulation to human body
And the toxic effect to human body viscera, be detrimental to health, and VOC be inflammable causes potential safety hazard, VOC because discharge capacity is big, plant
Class is many, difficult degradation, strong toxicity, potential safety hazard have become as greatly the focus to air-treatment problem for the current whole world various countries.For example,
In sole manufacturing process, need for many bottoms to pass through glue bonding, in bonding, glue can volatilize substantial amounts of and have stimulation
The VOC gas of property abnormal smells from the patient, staff smells or sucks this gas for a long time, is unfavorable for healthy, therefore, how to realize
On production line, VOC gas that is quick and fully eliminating volatilization becomes a technical problem urgently to be resolved hurrily of the industry.
Utility model content
In view of the above, this utility model provides a kind of application can absorb quick and completely and process on a production line and waves
The VOC air treatment equipment system for production line of the VOC gas sent out.
This utility model provide technical scheme be:A kind of VOC air treatment equipment system for production line, including
Air trapping processes table, some air-treatment pipes and air-treatment case, and some air trappings process tables collection VOC air are simultaneously right
The VOC air collected carries out first order process, and air-treatment pipe connects air trapping and processes table, imports air trapping and processes at table
Air after reason carries out second level process, and the air after two stage treatment is sent to air-treatment case, carries out third level process.
Further, described air trapping process table includes desk body and air-breathing processing meanss, and desk body includes table and company
It is connected on the inducing QI bucket of table bottom, table top surface is offered some getter holes and connected with the inducing QI bucket of bottom, air-breathing processes dress
Put the outlet at bottom end being arranged on inducing QI bucket.
Further, described table top surface is relatively formed with processing district, some getter holes are avoided and added around described
Work area opens up, and is in that I-shaped is distributed in the plate face of table.
Further, described air-breathing processing meanss include multistage filtering assembly, and multistage filtering assembly includes dust layer, absorption
Layer and cracking Rotating fields.
Further, described cracking Rotating fields include the catalysis stratum reticulare being catalyzed lamp and being arranged on catalysis lamp both sides, catalysis net
It is formed with cracking and catalyzing enzyme on layer.
Further, described air-treatment pipe includes pipe box and is arranged on air-treatment structure in pipe box, at air
Reason structure is in order to crack VOC air.
Further, the fluorescent tube that described air-treatment structure includes hurricane band and is arranged on hurricane band axis direction.
Further, described air trapping processes table, some air-treatment pipes and air-treatment case and is mounted on air
Detector.
Compared to prior art, this utility model adopts the described VOC air treatment equipment system for production line, leads to
Cross and multistage air-treatment structure is set, can fully absorb the VOC of in the air.
Brief description
Described above is only the general introduction of technical solutions of the utility model, in order to be illustrated more clearly that technology of the present utility model
Scheme, will be briefly described to the accompanying drawing of required use in embodiment or description of the prior art, the accompanying drawing in description below
It is only corresponding to specific embodiment of the utility model, to those skilled in the art, do not paying creativeness
On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings when needing.
Fig. 1 is used for the structural representation of the VOC air treatment equipment system of production line for this utility model;
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;
Air trapping shown in Fig. 4 Fig. 2 processes the top view of the desktop of table;
Air trapping shown in Fig. 5 Fig. 2 processes the axonometric chart after the desktop expansion of table;
Fig. 6 is the sectional view of the desk body that the collection and confinement of gases shown in Fig. 2 processes table;
Fig. 7 is the cross-sectional layers structural representation of the air-breathing processing meanss of desktop bottom shown in Fig. 6;
Fig. 8 is the axonometric chart of the air-treatment tubular construction of air treatment equipment system shown in Fig. 1;
Fig. 9 is the axonometric chart of the air-treatment box structure of air treatment equipment system shown in Fig. 1;
Figure 10 is the schematic diagram of Rotating fields first better embodiment in the air-treatment box structure shown in Fig. 9;
Figure 11 is the schematic cross-section of this utility model 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 for the air-treatment box structure shown in Figure 11;
Figure 14 is the schematic diagram along B-B direction for the air-treatment box structure shown in Figure 11;
Figure 15 is that the air-treatment box structure shown in Figure 11 is equipped with schematic cross-section during nutrition liquid status;
Figure 16 is the schematic cross-section of this utility model the 3rd preferred embodiment air-treatment box structure;
Figure 17 is the schematic diagram along C-C direction for the air-treatment box structure shown in Figure 16.
Specific embodiment
It is the technical scheme reached predetermined technique purpose and taken to elaborate this utility model, below in conjunction with
Accompanying drawing in this utility model embodiment, is clearly and completely described to the technical scheme in this utility model embodiment, shows
So, described embodiment is only section Example of the present utility model, rather than whole embodiments, and, is not paying
On the premise of going out creative work, the technological means in embodiment of the present utility model or technical characteristic can be replaced, and below will
Refer to the attached drawing simultaneously to describe this utility model in detail in conjunction with the embodiments.
Refer to Fig. 1, a kind of VOC air treatment equipment system for production line, positioned at the one of flowing water conveyer belt 200
Side.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 the side that table 10 is arranged on flowing water conveyer belt 200, carry out first order process to the air collected,
Air-treatment pipe 20 connects air trapping and processes table 10, imports the air after air trapping process table 10 is processed and carries out at the second level
Reason, and the air after two stage treatment is sent to air-treatment case 30, carry out third level process.
Refer to Fig. 2, Fig. 3, air trapping processes table 10 and includes desk body 11, gas skirt 12 and air-breathing processing meanss 13.
Desk body 11 includes bracing frame 111, the table 112 being arranged on bracing frame 111 and the inducing QI bucket being arranged on table 112 bottom
113.The crossbeam 115 that bracing frame 111 includes some support bars 114 and is connected to support bar 114 top two-by-two.The present embodiment
In, desk body 11 is tetragon desk body, and support bar 114 and crossbeam 115 are four.Table 112 is carried on crossbeam 115, table
On plate 112 top surface, neighbouring both sides are relatively formed with processing district 116.In the present embodiment, processing district 116 is recessed square recessed
Groove.Table 112 top surface offers some getter holes 117, the space that the inducing QI bucket 113 of getter hole 117 and table 112 bottom surrounds
Connection.
Please refer to Fig. 4, some getter holes 117 are avoided described processing district 116 and opened up and around described processing district 116,
The plate face of table 112 is in I-shaped is distributed.Further, getter hole 117 size is from two processing districts 116 are isolated
Heart line position tapers into neighbouring corresponding processing district 116 edge, getter hole 117 size from away from processing district 116 two ends
Taper into neighbouring corresponding processing district 116 size, be distributed by such, the gas being more beneficial for table 112 top is abundant
Absorb.
Refer to Fig. 5, Fig. 6, table 112 is oppositely arranged plate body composition for two, each plate body is hinged on horizontal stroke by loose-leaf
On beam 115, can relatively open, so be easy to air-breathing processing meanss 13 part and be attached in inducing QI bucket 113.Inducing QI bucket 113 is in
Pyramid shape barrel structure, the top of inducing QI bucket 113 is fixed in the tetragon frame that crossbeam 115 surrounds, the top of inducing QI bucket 113
What relatively crossbeam 115 protruded out preset length protrudes out edge 118, plate body has been correspondingly formed and has protruded out edge 118 and mutually seal cooperation
Engaging edge so that inducing QI bucket cover close after end sealing with inducing QI bucket 113, prevent the air sucking inducing QI bucket 113 from revealing.Lead
The top middle portion of gas bucket 113 is formed with two support beams 119, for supporting the plate body after covering.Further, inducing QI bucket 113
Some support blocks 110 are provided with internal perisporium, for assisting support beam 119 together to support the plate body after covering.
Described gas skirt 12 in order to be located on table 112, gas skirt 12 offer relative and with described processing district 116
The corresponding gathering hole in position 121.In the present embodiment, the rectangular cover that gas skirt 12 is made for transparent material.For the ease of gas skirt
12 on table 112 cooperation position accurately, be respectively arranged with locating piece 1121 at the corner on table 112, for gas collection
The corner cooperation of cover 12.Additionally, gas skirt 12 also may be designed as two half relative case compositions, each half case is respectively articulated with
On crossbeam 115.
Refer to Fig. 6 and Fig. 7, air-breathing processing meanss 13 are arranged on inducing QI bucket 113 outlet at bottom end, air-breathing processing meanss 13
Including multistage filtering assembly 131 and suction fan 132, multistage filtering assembly 131 include dust layer 133, adsorption layer 134 and
Cracking Rotating fields 135.Dust layer 133 is arranged on the port of export of inducing QI bucket 113, in order to by granule mistake larger for the particle diameters such as dust
Filter.Adsorption layer 134 is arranged on below dust layer 133, predominantly activated carbon material, by activated carbon physical absorption VOC gas.Split
Change Rotating fields 135 to be arranged on below adsorption layer 134, in order to crack to VOC gas, cracking Rotating fields 135 include being catalyzed lamp 1351
And it is arranged on the catalysis stratum reticulare 1352 being catalyzed lamp 1351 both sides, catalysis stratum reticulare 1352 is formed with cracking and catalyzing enzyme, such as nano peptide
Deng, can catalysis lamp 1351 exciting under effect will be gas cracking for VOC, that is, carry out chemolysis.Suction fan 132 is arranged on
The lower section of multistage filtering assembly 131, makes air in gas skirt 12 for table 112 top by suction fan 132 air-breathing
It is fully absorbed in inducing QI bucket 113, then import after multistage filtering assembly 131 is processed to go out from suction fan 132 through inducing QI bucket 113
Air port is discharged.
Further, air trapping process table 10 also includes intelligent checking system, and intelligent checking system includes display 141
And air detection instrument (not shown), display 141 is arranged on table 112 surface, and operator can be with direct viewing to display
Parameter value, parameter value includes concentration, temperature and suction fan power etc., and air detection instrument is arranged on air-breathing processing meanss 13 and goes out
Mouth end, the related parameter values of VOC gas after being processed with real-time detection, and show in display in real time.
During operator's production operation, open described suction fan 132, extraneous air is from the gathering hole of gas skirt 12 both sides
Enter at 121, will not be shed from gathering hole 121 by the material or workpiece volatilization VOC air above table 112 and pollute sky
Gas, VOC air can be inhaled into, and the air stream entering at two gathering holes 121 is collided, and the air stream collided can flow to two ends
Dynamic, flow at the two ends of desk body 11, open heavy caliber by the getter hole 117 in the wide-bore footpath in centerline and at two ends
Hole, can suck main air flow to form negative pressure in gas skirt 12 along speed ground, so, can fully take away volatilization along speed and exist
VOC gas in gas skirt 12, therefore, by being I shape and suction hole varying aperture direction by air-breathing hole arrangement, very well
Ground utilizes air flow principle, realizes quickly fully sucking the VOC in gas skirt 12, and can reduce suction fan
132 working power, has saved the energy effectively.
In conjunction with refering to Fig. 1 and Fig. 8, air-treatment pipe 20 includes pipe box 21 and the air-treatment structure being arranged on pipe box in 21
22.Air-treatment structure 22 includes hurricane band 221 and fluorescent tube 222.The diameter of hurricane band 221 entirety and the internal diameter phase of pipe box 21
When hurricane band 221 helically extends in pipe box 21, and hurricane band 221 center is surrounded by axis through-hole, the zone face of hurricane band 221
On be coated with light enzyme catalyst (not shown), can in the presence of illumination catalytic decomposition gas.Fluorescent tube 222 is arranged on hurricane band
In the axis through-hole at 221 centers, fluorescent tube 222 can adopt ultraviolet lamp tube, excites the catalysis on hurricane band 221 zone face by illumination
Agent.It is preferred that being provided with the hurricane band 221 of a plurality of cooperation that is interweaved in pipe box 21 and forming axis through-hole.
Air-treatment pipe 20 is some, and pore size can be different.In this utility model preferred embodiment, if dry air
The pipe frame structure of processing tube 20 composition, including house steward 23, some arms 24 on house steward 23 for the connection, and is connected to house steward 23
On in order to by house steward 23 gas import air-treatment case 30 collecting pipe 25.Each arm 24 connects each air trapping respectively
Process suction fan 132 air outlet of table 10.So, process the VOC air after table 10 collection is processed through inhaling through air trapping
Gas blower fan 132 suction manifold 24, enter into house steward 23 from arm 24 again, then enter into collecting pipe 25 from house steward 23, enter into sky
Gas disposal case 30, so, VOC air is processed with the long second level through the long path being carried out by air-treatment pipe 20, can
Preferably the VOC air not eliminated completely in air trapping process table 10 is processed further.
Refer to Fig. 9, Figure 10, the aerofluxuss that air-treatment case 30 includes air-washer 31 and is arranged on air-washer 31 top
Fan 32.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
It is chosen as the rectangular box of hollow, including the first side wall 42 positioned at casing both sides and second sidewall 43, be located at casing top
Roof 44 and the diapire 45 being located at box bottom.Air inlet pipe installing hole 421 is offered on the first side wall 42.Open up on roof 44
There is described opening 41.Outage 451 is offered on diapire 45.
Backflow clearing heat in QI system structure 50 be arranged in casing 40, backflow clearing heat in QI system structure 50 include a dividing plate 51, some aeroscopic plates 52,
Microbial inoculant coating and microbial nutrition component.Casing 40 is divided into a backflow space 511 and a clearing heat in QI system space by dividing plate 51
512, dividing plate 51 both sides are solidly connected on the forward and backward end wall of casing in the present embodiment specifically, the bottom of dividing plate 51 and casing 40
There is between the inner surface of diapire certain gap, between dividing plate 51 and the first side wall 42, form backflow space 511, space of flowing back
511 gaps are less, for the liquid backflow box bottom of casing top.Form clearing heat in QI system space between dividing plate 51 and second sidewall 43
512, form air guide channel for assembling some aeroscopic plates 52.Aeroscopic plate 52 includes hang plate 521 and horizontal plate 522, hang plate
521 relatively install in the relative the first side wall in clearing heat in QI system space 42, second sidewall 43 two-by-two, in " eight " font, horizontal plate 522
It is arranged on the top of two hang plates 521, block in the open top end of "eight" shape and has certain height with this opening
Distance.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 in clearing heat in QI system space 512
Install step by step from bottom to up, and be provided with a horizontal plate 522 above the hang plate 521 of every a pair of formation "eight" shape.As
This, form, in the both sides in clearing heat in QI system space 512, the air guide channel prolonging in two complications.
Bottom in clearing heat in QI system space 512 arranges the bottom that a deflector 523 is vertically connected to dividing plate 51, deflector 523
Form an air inlet honeycomb duct 524 and the diapire of casing 40 between, and formed between the end of deflector 523 and second sidewall 53
There is gap, conductance runner 524 is connected with air guide channel.When VOC gas imports in casing 40, introduce casing 40 inner bottom part
VOC gas flows into the bottom space of two hang plates 521 forming "eight" shape along air inlet honeycomb duct 524, and gas is along two inclinations
The bottom surface of plate 521 flows up, and the open top being then passed through "eight" shape flows to the bottom of horizontal plate 522, and gas is along water
The bottom of flat board 522 is divided into two bursts of both sides flowings to clearing heat in QI system space 512, subsequently into two inclinations to upper level "eight" shape
The bottom space of plate 521, so flows up step by step, until after the bottom of the horizontal plate 522 of top divides two plumes to go out, gas
The opening 41 from casing 40 top for the body flows out.The gradient being formed between hang plate 521 and horizontal plane selects between 10 degree to 45 degree,
Preferably it is 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 from bottom simultaneously
To top flowing, and flow back in backflow space 511 from the top in clearing heat in QI system space 512, nutritional solution is entered to by space 511 of flowing back
Air inlet honeycomb duct 524, flows back into bottom in clearing heat in QI system space 512, so circulates.
Microbial inoculant coating is coated on the bottom surface of aeroscopic plate, for forming microorganism in aeroscopic plate bottom surface microbe inoculation
Group's layer.Microbial inoculant coating main component is to be made up of the prokaryote of symbiosiss with biting VOC funguses and part, according to
The gas ingredients of different polluter allocate composition by a certain percentage, and this utility model microbial inoculant coating mainly adopts composite carbon
Base nanometer bed (coating).Because VOC gas density is relatively low, it is introduced into VOC gas rising edge inducing QI in nutritional solution of box bottom
The bottom surface of plate is moved, and flows into the bottom surface of horizontal plate 522 from hang plate 521 bottom surface, then moves along horizontal plate 522 bottom surface,
Subsequently into the bottom surface of 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 top surface of aeroscopic plate 52, for providing to the microorganism in microbial inoculant coating
Nutrient, for microbial reproduction, culture.Contain trace mineral, saccharide in microbial nutrition component and be used for stable and accelerate micro-
The enzyme preparation of biome metabolism, VOC is considered as the nutriment of microorganism.Nutrient solution prescription can be directly placed at inducing QI top of the plate
Face, or inducing QI plate top surface setting accommodating device, such as grid or test tube, are respectively implanted microbial nutrition group toward in accommodating device
Point.
Admission line 60 is arranged on the first side wall 42 of casing 40, and one end of admission line 60 is with extraneous suction nozzle even
Connect, the other end stretches in casing and extends backflow clearing heat in QI system structure 50 bottom, connects with air inlet honeycomb duct 524.
During using air-treatment box structure, accommodating height in casing 40 for the microbial nutrient solution is that backflow clearing heat in QI system structure is high
At 2/3 position of degree.VOC air is directed into by air guide channel, the painting of VOC air contact aeroscopic plate bottom surface by admission line 60
The VOC of in the air is bitten by microorganism and removes by layer, and VOC air driven microbial nutrient solution flows along air guide channel, nutrition
Liquid flows back to box bottom so that nutritional solution is in casing internal circulation flow through backflow space.Nutritional solution effect detailed process be,
There is activation activation with the microorganism of attachment in nutritional solution, jointly produce the cracking effect to VOC, after VOC cracking, solution is
Lysate, after Preset Time, when splitting action declines or can not act on, by outage 451 waste discharge.
Exhaust fan 32 is arranged on opening 41 position of air-treatment box structure, in order to the air row that will discharge from opening 41
Go out, exhaust fan 32 includes exhaustor.Further, in exhaustor, air detection instrument is installed, is processed through air trapping with detecting
The VOC content of the air after table 10, air-treatment pipe 20 and air-treatment case 30 process, real-time detection simultaneously shows inspection in real time
The various data surveyed, realize to air treatment equipment system real-time control and in time feedback Detection results.
Refer to Figure 11,12, this utility model is used for the air-treatment case of VOC air treatment equipment system of production line
Second preferred embodiment, 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 rectangular box being chosen as hollow, including the first side wall 72 positioned at casing both sides and second sidewall 73, are located at casing top
Roof 74 and be located at box bottom diapire 75.Air inlet pipe installing hole 721 is offered on the first side wall 72.On roof 74
Offer described opening 71.Outage 751 is offered on diapire 75.
Backflow clearing heat in QI system structure 80 be arranged in casing 70, backflow clearing heat in QI system structure 80 include a dividing plate 81, some aeroscopic plates 82,
Microbial inoculant coating and microbial nutrition component.
Please refer to Figure 13, Figure 14, casing 70 is divided into a backflow space 811 and a clearing heat in QI system space 812 by dividing plate 81, this
In embodiment specifically, dividing plate 81 both sides are solidly connected on the forward and backward end wall of casing, the diapire of the bottom of dividing plate 81 and casing 70
There is between inner surface certain gap, form backflow space 811 between dividing plate 81 and the first side wall 72, between backflow space 811
Gap is less, for the liquid backflow box bottom of casing top.Form clearing heat in QI system space 812 between dividing plate 81 and second sidewall 73,
Form air guide channel for assembling some aeroscopic plates 82.
Some aeroscopic plates 82 are alternately installed on the relative side wall in 812 liang of clearing heat in QI system space and aeroscopic plate 82 is with respect to itself and side wall
The one end connecting is inclined upwardly default angle, so forms, in clearing heat in QI system space, the air guide channel prolonging in complications.This enforcement
In example, aeroscopic plate 82 is rectangular slab, and aeroscopic plate 82 can be divided into some first aeroscopic plates being abreast fixed on dividing plate 81, and flat
It is fixed in some second aeroscopic plates in second sidewall 73, the first aeroscopic plate is arranged alternately with the second aeroscopic plate capablely, specifically,
One end of first aeroscopic plate is solidly connected on dividing plate 81, and the other end extends to second sidewall 73 and to the default angle of updip, and first
The other end of aeroscopic plate is not connected to second sidewall 73, forms the first ventilative gap 821 and second sidewall 73 between;Accordingly,
One end of second aeroscopic plate is solidly connected in second sidewall 73 and is located at the default height in the first ventilative gap 821 top, and second leads
The other end of gas plate extends to dividing plate 81 and to the default angle of updip, and the other end of the second aeroscopic plate is not connected to dividing plate 81,
Form the second ventilative gap 822 and dividing plate 81 between.According to above-mentioned mounting means, alternately successively aeroscopic plate is installed, and inducing QI
The front and rear sides of 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, flows into second after the first air-guiding gap 221 and leads
Gas plate bottom surface passage, flows into the bottom surface passage of the first aeroscopic plate of last layer after the second air-guiding gap 222.So, guide
VOC gas flows along air guide channel, make the gas of introducing from the bottom of casing after air guide channel at the opening 71 of casing
Shed.It is 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, preferably it is chosen as 30 degree.Between first aeroscopic plate end and second sidewall 73 first ventilative gap
821 and second the second ventilative gaps 822 between aeroscopic plate end and dividing plate 81 may be the same or different, it is preferred that electing as identical.
When VOC gas flows in air guide channel, the nutritional solution in casing can be driven to flow to backflow clearing heat in QI system structure simultaneously
Top, for the ease of nutritional solution in top landing to space 811 of flowing back, the aeroscopic plate of top is set to be connected with dividing plate 81
The first aeroscopic plate, so, the top surface of the first aeroscopic plate of top forms one and is easy to the domatic, for nutrition of nutritional solution downslide
Liquid is along the first inducing QI plate top surface landing to space 811 of flowing back.If the aeroscopic plate of top is set to be connected with second sidewall 31
Second aeroscopic plate, then the nutritional solution being not easy to flow out from air guide channel circulates glibly, steady to the stress of whole casing
Property is impacted.Additionally, being discharged by gas surge for the ease of air guide channel end, the ventilative gap of least significant end is (corresponding
Ventilative gap between top first aeroscopic plate and second sidewall 73) gap width be more than lowermost end air inlet when ventilative gap
(the ventilative gap between corresponding lowermost end first aeroscopic plate and second sidewall 73).
Further, so that the impact dynamic balance to casing both sides for the gas gone out from air guide channel, this practicality is new
Type also provides a kind of backflow clearing heat in QI system structure strengthening balance-impact power.Refer to Figure 16, Figure 17, in corresponding top first inducing QI
A feeder current pipe 85 is installed in the lower section in the ventilative gap between plate and second sidewall 73, and feeder current pipe 85 is communicated to the bottom in casing,
So, when nutritional solution is gone out from air guide channel end for gas, a nutritional solution part is by flowing through from the first aeroscopic plate top side
To casing inner bottom part, another part directly flows back to the bottom of casing by feeder current pipe 85, so, can strengthen case in backflow space 811
The balance of body both sides stress.In the present embodiment, feeder current pipe 85, using straight-through pipe, can be one or side by side some,
Each feeder current pipe 85 penetrates some aeroscopic plates and connects the bottom to casing.
Microbial inoculant coating is coated on the bottom surface of aeroscopic plate, and microbial nutrition component is arranged on the top surface of aeroscopic plate.VOC
Gas flows into the bottom surface of the second aeroscopic plate after the first air-guiding gap 221 from the first aeroscopic plate bottom surface, then leads along second
Gas plate bottom surface is moved, and enters the bottom surface of last layer first aeroscopic plate after the second air-guiding gap 222, and lead all the time by edge for VOC gas
Flow in gas plate bottom surface.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,
The other end stretches in casing and extends the lower section of the aeroscopic plate of backflow clearing heat in QI system structure 80 bottom, connects with air guide channel.
Refer to Figure 15, using the second preferred embodiment air-treatment case when, microbial nutrient solution is in casing 70
Accommodating height is at 2/3 position of backflow clearing heat in QI system structure height.VOC air is directed into by air guide channel by admission line 90,
The VOC of in the air is bitten by microorganism and removes by the coating of VOC air contact aeroscopic plate bottom surface, and VOC air driven microorganism
Nutritional solution flows along air guide channel, and through backflow space and feeder current pipe 85 flows back to box bottom so that nutritional solution exists for nutritional solution
Casing internal circulation flow.
Further, in the top of backflow clearing heat in QI system structure 80, a VOC adsorption plate can be installed in casing, to strengthen to VOC
Removal.
This utility model VOC air treatment equipment system includes air trapping and processes table 10 processing, at air-treatment pipe 20
The process of three processes of reason and air-treatment case 30 process, air trapping processes table 10 and is processed as physical absorption combinationization
Learn photocatalysis treatment, air-treatment pipe 20 is chemical photocatalysis treatment, and air-treatment case 30 is biological technical finesse, according to production
Requirement to VOC composition of air or degree for the treatment of on line, may be selected the combination merely through a process or arbitrarily several process,
As being that single air trapping process table 10 is processed, single air-treatment pipe 20 is processed, single air-treatment case 30
Process, or air trapping processes table 10 and combines with air-treatment pipe 20 process, or air trapping process table 10, air-treatment pipe
20 and air-treatment case 30 three combine process.
Additionally, air-treatment box structure provides the technology path that a brand-new VOC is processed, using through preferably and tame and docile
The microorganism species changed and a special backflow clearing heat in QI system structure containing microbial lytic liquid with folding labyrinth-like, protect
Card organic exhaust gas can be fully contacted with the lysate containing microorganism, thus thoroughly decompose having an opportunity becoming harmless two
Carbonoxide and water, clearance can reach more than 98% it is possible in the case of not updating lysate, keep sending out in 3 months
Wave effect.Organic exhaust gas on-Line Monitor Device, energy are installed by the organic exhaust gas inlet and outlet in air-treatment box structure
Enough it is directly observed changing value before improvement and after improvement for the organic exhaust gas, and long-range prison is uploaded to by wired or wireless way
Control platform.Check treatment effect for administration section, provide reliable data to support.VOC's after synchronization monitoring before processing
Emissions data, and upload to data center and analyzed, thus realizing air large database concept, realizes discharge charge and empty for supervision
Gas regulation provides foundation.The system operation costs are very low, generally only tens watts of power consumption, the replacement cycle of lysate
More than 3 months, and low cost, overall cost is the 1/3 of existing processing meanss, and management service is very easy.
The above, be only preferred embodiment of the present utility model, not this utility model is made any formal
Restriction although this utility model is disclosed above with preferred embodiment, but be not limited to this utility model, any ripe
Know professional and technical personnel, in the range of without departing from technical solutions of the utility model, when in the technology of available the disclosure above
Hold and make a little Equivalent embodiments changing or be modified to equivalent variations, as long as being without departing from technical solutions of the utility model
Hold, according to technical spirit of the present utility model, within spirit of the present utility model and principle, above example is made
Any simple modification, equivalent and improvement etc., all still fall within the protection domain of technical solutions of the utility model.
Claims (8)
1. a kind of VOC air treatment equipment system for production line it is characterised in that:Including air trapping process table (10),
Some air-treatment pipes (20) and air-treatment case (30), some air trappings process table (10) and collect VOC air and to receipts
The VOC air of collection carries out first order process, and air-treatment pipe (20) connects air trapping and processes table (10), imports at air trapping
Air after reason table (10) is processed carries out second level process, and the air after two stage treatment is sent to air-treatment case (30),
Carry out third level process.
2. VOC air treatment equipment system according to claim 1 it is characterised in that:Described air trapping processes table
(10) desk body (11) and air-breathing processing meanss (13) are included, desk body (11) includes table (112) and is connected to table (112) bottom
The inducing QI bucket (113) in portion, table (112) top surface is offered some getter holes (117) and is connected with the inducing QI bucket (113) of bottom,
Air-breathing processing meanss (13) are arranged on the outlet at bottom end of inducing QI bucket (113).
3. VOC air treatment equipment system according to claim 2 it is characterised in that:Phase on described table (112) top surface
It is formed with processing district (116) over the ground, some getter holes (117) are avoided and opened up around described processing district (116), in table
(112) it is in that I-shaped is distributed in plate face.
4. VOC air treatment equipment system according to claim 2 it is characterised in that:Described air-breathing processing meanss (13)
Including multistage filtering assembly (131), multistage filtering assembly (131) includes dust layer (133), adsorption layer (134) and cracking zone
Structure (135).
5. VOC air treatment equipment system according to claim 4 it is characterised in that:Described cracking Rotating fields (135) bag
The catalysis stratum reticulare (1352) including catalysis lamp (1351) and being arranged on catalysis lamp (1351) both sides, catalysis stratum reticulare (1352) is formed with
Cracking and catalyzing enzyme.
6. VOC air treatment equipment system according to claim 1 it is characterised in that:Described air-treatment pipe (20) bag
Include pipe box (21) and be arranged on air-treatment structure (22) in pipe box (21), air-treatment structure (22) is in order to empty by VOC
Gas checking solution.
7. VOC air treatment equipment system according to claim 1 it is characterised in that:Described air-treatment structure includes
Hurricane band (221) and the fluorescent tube (222) being arranged on hurricane band (221) axis direction.
8. VOC air treatment equipment system according to claim 1 it is characterised in that:Described air trapping processes table
(10), some air-treatment pipes (20) and air-treatment case (30) are mounted on air detection instrument.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620341274.1U CN205925384U (en) | 2016-04-20 | 2016-04-20 | A VOC air treatment equipment system for production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620341274.1U CN205925384U (en) | 2016-04-20 | 2016-04-20 | A VOC air treatment equipment system for production line |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205925384U true CN205925384U (en) | 2017-02-08 |
Family
ID=57933867
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620341274.1U Active CN205925384U (en) | 2016-04-20 | 2016-04-20 | A VOC air treatment equipment system for production line |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205925384U (en) |
-
2016
- 2016-04-20 CN CN201620341274.1U patent/CN205925384U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
DE102018008259A1 (en) | Filter systems for suspended particles with particle sizes from 400 pm to ≤500 μm and their use | |
CN106975311B (en) | Smoke haze removal and carbon reduction microalgae culture system and smoke treatment method | |
CN205965503U (en) | Air treatment equipment system who handles table and be used for production line is collected to air | |
CN205925433U (en) | Air treatment manages and is used for air treatment equipment system of production line | |
CN205598966U (en) | Air treatment case and be used for air treatment equipment system of production line | |
CN205925384U (en) | A VOC air treatment equipment system for production line | |
CN105664715B (en) | Air-treatment pipe and the air treatment equipment system for production line | |
CN205965455U (en) | Air is collected and is handled table | |
CN205925429U (en) | VOC air handling box | |
CN105727741B (en) | Air-treatment case and the air treatment equipment system for production line | |
CN105664716A (en) | Air collecting and handling desk and air handling equipment system for production line | |
CN205598957U (en) | A VOC collecting and processing system for producing in line space | |
CN205598956U (en) | Air treatment case | |
CN107185393A (en) | Industrial VOC processing systems | |
CN206778150U (en) | Paper mill waste gas purification apparatus | |
CN206660960U (en) | A kind of machine for stir-frying Chinese medicine emission-control equipment | |
CN206965511U (en) | A kind of biological organic waste gas drips filter tower | |
CN109012139A (en) | Using the device of biological cleaning exhaust gas | |
CN206343049U (en) | Integral type organic waste gas purifying processing device | |
EP3345671B1 (en) | Systems for decontamination by means of a biofilter for retaining and recycling pollutants of particulate material from combustion fumes, and method thereof | |
CN108854468A (en) | Multifunctional mobile combined exhaust gas processing unit | |
CN205965499U (en) | Biological enzyme device and have VOC gas handling system of this biological enzyme device | |
CN204247049U (en) | A kind of feedstuff industry odor purification | |
CN109126416A (en) | A kind of waste emulsified mixture deodorizing device | |
CN207085673U (en) | Industrial VOC processing systems |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |