CN110280100A - A kind of exhaust gas automatic processing process suitable for spray booth - Google Patents

Abstract

The present invention relates to a kind of exhaust gas automatic processing process suitable for spray booth, and processing step: S1, exhaust fan will spray indoor exhaust gas and be blown into air inlet port；S2, scrubbing tower carry out treatment and purification to powder dust particle in exhaust gas and paint particle；S3, dynamic barrier device carry out physics interception to the floccule in exhaust gas；S4, dust removal filter adsorb the dust in exhaust gas；The wind direction of two pairs of runner change exhaust gas of the downside of S5, dust removal filter；S6, activated carbon adsorption room in exhaust gas organic substance and peculiar smell adsorb；Pure air at S7, air outlet is discharged into atmosphere through tapping equipment；The present invention makes more fully mixed, the raising clean-up effect of powder dust particle and paint particle and vapor in exhaust gas；Repeatedly each ingredient in exhaust gas is handled respectively by multi-stage processing equipment, the corresponding processing exhausted air quantity for reducing activated charcoal strainer avoids activated charcoal strainer from blocking, reduces the replacement frequency of activated charcoal strainer, saves cost.

Description

A kind of exhaust gas automatic processing process suitable for spray booth

Technical field

The present invention relates to lacquer spraying waste gas processing technology field more particularly to a kind of exhaust gas suitable for spray booth are automatic Treatment process.

Background technique

Spraying is a part of interior architecture construction or finishing, and spraying determines the appearance and weatherability of product, at this stage, with Science and technology development, most of region has used unmanned automatic spraying, but generates during the spraying operation of spray booth Exhaust gas main component be paint particle, powder dust particle, benzene class, non-methane total hydrocarbons and peculiar smell etc., these pollutants such as direct row It puts not only pollution atmospheric environment while high risks is caused to the health of people, therefore, how effectively to solve spraying industry institute The polluted gas of generation becomes very urgent；

Also there is split type waste gas treatment process to purify exhaust gas at this stage, makes dust particle and water as exhaust gas first passes through washout tower It is sufficiently mixed, to remove the particulate matter in air, then exhaust gas and peculiar smell is being adsorbed by active carbon adsorption equipment, to reach To the purpose of exhaust gas, but this split type waste gas treatment process, there are following defect, the i.e. excessive height of washout tower, maintenance is protected Support inconvenience；Wind speed when exhaust gas enters washout tower from spray booth is excessively high, is difficult to control, and then lead to the water and exhaust gas of washout tower In particle undercompounding, clean-up effect is bad；Washout tower it is bad to the treatment effect of paint particle, lead to subsequent work Property charcoal filter screen be easy blocking, need frequency change replacement, directly increase exhaust-gas treatment cost, therefore existing spraying exhaust-gas treatment Technique existing defects need to improve.

Summary of the invention

The present invention provides a kind of exhaust gas automatic processing process suitable for spray booth, the above problem of solution.

To solve the above problems, technical solution provided by the invention is as follows:

A kind of exhaust gas automatic processing process suitable for spray booth, including waste gas treatment equipment, wherein waste gas treatment equipment into The outlet side of spray booth is accepted and is connected at gas end, and exhaust gas is blown into exhaust-gas treatment by the exhaust fan of the outlet side installation of spray booth In equipment, waste gas treatment equipment includes cabinet and the air inlet port being fixed at left and right sides of cabinet and air outlet, box house Scrubbing tower, dynamic barrier device, dust removal filter and the active carbon connecting with air outlet pipe connecting with air inlet port pipe are installed It adsorption chamber and is successively connected to end；It is further comprising the steps of:

S1, exhaust fan will spray indoor exhaust gas and be blown into air inlet port；

S2, scrubbing tower carry out treatment and purification to powder dust particle in exhaust gas and paint particle；

The floccule that S3, dynamic barrier device are formed after mixing to paint particle, fibre object, goo in exhaust gas etc. with vapor Carry out physics interception；

S4, dust removal filter carry out adsorption treatment to the dust in exhaust gas；

S5, dust removal filter lower part gas outlet connect with the inlet-end manifold of activated carbon adsorption room by runner two, runner two is right The exhaust gas that gas outlet comes out is changed wind direction；

S6, activated carbon adsorption room in exhaust gas organic substance and peculiar smell effectively adsorbed；

Pure air at S7, air outlet is discharged into atmosphere through tapping equipment.

It preferably, further include step S0 before step S1, control exhaust gas enters the flow velocity of air inlet port；Exhaust fan is to adjust Fast fan, can manually or remotely remote control exhaust fan output power, and then be adjusted into inlet end according to the actual situation The exhaust gas flow velocity of mouth.

Preferably, further include step S15 after step S1 and before step S2, the exhaust gas for entering air inlet port is respectively joined Number is detected and uploads to display terminal；Wherein, installation detecting system one on air inlet port, detection system uniformly include combustible gas Body detector, flow detector, dust detector, temperature monitor and humidity measurement instrument and by wireless communication module and display The connection of terminal wireless signal；Display terminal is that smart phone, tablet computer, smartwatch, background monitoring display etc. can be shown The electronic equipment of each parameter；Further, combustible gas detector can be GC210 type；Flow detector can become for WS-20 type wind speed Send device；Dust detector can be JH-GF1000A(I) dust density detector；Temperature monitor can be thermometer, Humidity Detection Instrument is WE600 humidity sensor.

Preferably, in step S15: combustible gas detector to real-time detection in the exhaust gas flowed in air inlet port whether Containing flammable explosive gas and flammable explosive gas concentration, and it will test result and be transferred to display terminal；

Flow detector detect to the flow velocity flowed in air inlet port in exhaust gas and flow speed value is transferred to display terminal, with The flow velocity of exhaust gas can be controlled according to the flow speed value of exhaust gas convenient for staff；

Dust detector carries out detection to the dust concentration flowed in exhaust gas in air inlet port and is transferred to dust concentration value aobvious Show terminal, in order to which staff can control the amount of water sprayed of scrubbing tower according to the dust concentration value in exhaust gas；

Temperature monitor and humidity measurement instrument carry out detection to the temperature and humidity flowed in exhaust gas in air inlet port and by exhaust gas Epidemic disaster value be transferred to display terminal, in order to which staff can be according to the epidemic disaster value in exhaust gas to the temperature and humidity of exhaust gas It is reasonably adjusted.

Preferably, in step S15, show in exhaust gas whether there is flammable explosive gas on display terminal, if so, First alert is shown in display terminal with prompting staff to handle in time: " flammable explosive gas concentration value "； If nothing, " no flammable explosive gas " is shown on display terminal.

Preferably, the scrubbing tower includes sparge pipe group, primary filter component and liquid storage pool and is arranged successively from top to bottom, The primary filter component includes multiple filtering groove bodies arranged along the y axis, and the lower part for filtering groove body is detachable by truss It is mounted on the support portion one of box house, filters the multiple PP hollow spheres of placed inside of groove body；Liquid storage pool includes sump, clear Sink and sewage purification portion, the sewage mouth that the lower end of sump opens up pass through the circulation feed liquor in sewage purification portion and Rinsing Area side Mouth connection；Sump is in the underface of primary filter component, and drawing liquid pump is installed in the outside of Rinsing Area, the liquid feeding end of drawing liquid pump with It is deeply connected to the inlet tube of Rinsing Area, the outlet end of drawing liquid pump is connected by the water inlet end pipe of vertical collecting pipe and sparge pipe group It connects,

Preferably, in step s 2, scrubbing tower carries out treatment and purification to powder dust particle in exhaust gas and paint particle: specifically including step Rapid S21, sparge pipe group spray water with high pressure to surrounding, are respectively formed upper water with the lower part on sparge pipe groups periphery and filtering groove body and steam Gas and lower vapor；

Step S22, the powder dust particle in exhaust gas and paint particle float after air inlet port entrance is mixed to form with lower vapor Macromolecular is affected by gravity falls in sump in turn；

Step S23, the part powder dust particle and paint not mixed from the exhaust gas that air inlet port enters with lower vapor after floating Particle floats after passing through from the PP hollow sphere of filtering groove body, is mixed into macromolecular with upper vapor and is trapped in PP sky by gravity decline It is fallen in sump after in bulbus cordis or vertically passing through PP hollow sphere, to complete to powder dust particle in exhaust gas and paint particle Preliminary purification process.

Preferably, dynamic barrier device includes bracket, rotation wheel support, overhead gage, driving motor, driving wheel and rotating filter Disk, overhead gage are detachably tiltedly mounted on the inside top of cabinet and are located at the top of bracket, the fixing end installation of driving motor On the lower one end top of overhead gage, the fixed company in center after overhead gage with driving wheel is run through in the working end of driving motor downward It connects, the top of bracket offers the installation position of multiple array arrangements, rotates through filter disc and is detachably installed by filtering table frame body On installation position, driven wheel is respectively mounted in the middle part of multiple filtering table frame bodies of X-axis arrangement, driving wheel and driven wheel pass through rotation Belt connection；Inclination installation runner one between scrubbing tower and dynamic barrier device, and runner one is high close to one end of dynamic barrier device Degree is higher than the height close to scrubbing tower one end；Driving motor work drives driving wheel rotation, and then passes through rotating belt and multiple Driven wheel, drive a row along X-axis arrange it is multiple rotate through filter disc high speed rotation, and then realize and exhaust gas progress physics blocked It cuts；

In step S3, exhaust gas floating encounter it is high-speed rotating rotate through filter disc, paint, vapor particle, fibre object in exhaust gas, Floccule is formed after being mixed after goo etc. is intercepted with upper vapor because gravity is fallen on runner one and along runner One slides to scrubbing tower.

Preferably, after step S6 and before S7, further include step S65, the exhaust gas flowed out from air outlet is respectively joined Number is detected and uploads to display terminal；Installation detecting system two i.e. at air outlet, detection system two include: non-methane Total hydrocarbon monitor, dust monitor and temperature and humidity tester and by wireless communication module are connect with display terminal wireless signal； Non-methane total hydrocarbons monitor is to the non-methane total hydrocarbons concentration value in the pure air of air outlet, to judge whether pure air accords with Close the standard of safety dumping；Dust monitor detects dust concentration in the pure air in air outlet；Temperature and humidity inspection Instrument is surveyed to detect the temperature and humidity content of the pure air of air outlet；Further, non-methane total hydrocarbons monitor can be SNC4000-NMHC type, dust monitor is consistent with the structure of dust detector and model, and temperature and humidity tester is TH40GE type.

Beneficial effect compared with the existing technology is that using the above scheme, the present invention is first handled in exhaust gas by scrubbing tower Powder dust particle and paint particle are intercepting paint, vapor particle, fibre object, viscosity in exhaust gas by dynamic barrier implements reason Object etc. then adsorbs dust particles by dust removal filter again, and by the periodic cleaning of blowback cleaning plant, is changed by runner two The wind direction of exhaust gas then leads to activated carbon adsorption room absorption organic substance (benzene class, non-methane total hydrocarbons) and peculiar smell, last pure air It is discharged into atmosphere by air outlet and tapping equipment, i.e., is had by multi-stage processing equipment to gas, dust, the particle etc. in exhaust gas Machine substance and peculiar smell are effectively mixed, intercepted and are adsorbed, and clean-up effect and rate are improved；By the output for controlling exhaust fan Power makes the mixing of powder dust particle and paint particle and vapor in exhaust gas more to adjust the exhaust gas flow velocity of air inlet port indirectly Sufficiently, clean-up effect is improved；Repeatedly each ingredient in exhaust gas is handled respectively by multi-stage processing equipment, it is corresponding to reduce The processing exhausted air quantity of activated charcoal strainer, avoids activated charcoal strainer from blocking, and reduces the replacement frequency of activated charcoal strainer, saves Cost.

Detailed description of the invention

Illustrate embodiment or technical solution in the prior art in order to clearer, it below will be to embodiment or the prior art The required attached drawing used is briefly described in description, it is clear that, the accompanying drawings in the following description is only some realities invented Example is applied, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings Obtain other attached drawings.

Fig. 1 is disposed of in its entirety process logic block diagram of the invention；

Fig. 2 is disposed of in its entirety device structure schematic diagram of the invention；

Fig. 3 is air inlet port structural schematic diagram of the invention；

Fig. 4 is structure of column scrubber schematic diagram of the invention；

Fig. 5 is one of dynamic barrier device structural schematic diagram of the invention；

Fig. 6 is dynamic barrier device second structural representation of the invention；

Fig. 7 is one structural schematic diagram of runner of the invention；

Fig. 8 is dust removal filter structural schematic diagram of the invention；

Fig. 9 is blowback cleaning plant structural schematic diagram of the invention；

Figure 10 is activated carbon adsorption cell structure schematic diagram of the invention；

Shown in the above legend: 1, air inlet port 11, air inlet fixed part 12, inlet channel 13, outlet fixed part 2, wash Wash tower 21, sparge pipe group 22, vertical collecting pipe 23, sump 24, Rinsing Area 25, drawing liquid pump 26, primary mistake Filter component 3, dynamic barrier device 31, bracket 32, rotation wheel support 33, overhead gage 34, driving motor 35, rotation Filtering table 36, tensioning wheel 37, driving wheel 38, driven wheel 39, installation position 4, runner 1, honeycomb duct 42, Extension board 5, dust removal filter 51, filter core loading plate 52, dust removal filter element 53, blowback cleaning plant 531, confluence gas Pipe 532, air inlet pipe 533, branch's tracheae 534, gas blow pipe 535, air pressure regulator 54, gas outlet 6, runner 27, activated carbon adsorption room 71, support base 72, filter screen bracket 8, tapping equipment 9, air outlet 10, cabinet.

Specific embodiment

To facilitate the understanding of the present invention, in the following with reference to the drawings and specific embodiments, the present invention will be described in more detail. A better embodiment of the invention is given in the attached drawing.But the invention can be realized in many different forms, and unlimited In this specification described embodiment.On the contrary, purpose of providing these embodiments is makes to the disclosure Understand more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term used in this specification " fixation ", " integrated molding ", For illustrative purposes only, the similar unit of structure is to identical label in the figure for "left", "right" and similar statement Mark.

Unless otherwise defined, technical and scientific term all used in this specification is led with technology of the invention is belonged to The normally understood meaning of the technical staff in domain is identical.Used term is only in the description of the invention in this specification The purpose of description specific embodiment is not intended to the limitation present invention.

As shown in Fig. 2, overall structure of the invention is:

The inlet end of embodiment 1, a kind of exhaust gas automatic processing equipment suitable for spray booth, waste gas treatment equipment is accepted and is connected to In the outlet side of spray booth, exhaust gas is blown into waste treatment equipment by the exhaust fan of the outlet side installation of spray booth, described useless Gas disposal equipment includes air inlet port 1 and detachable shielding case body 10；Scrubbing tower 2, dynamic barrier are installed inside the cabinet 10 It device 3, dust removal filter 5 and activated carbon adsorption room 7 and is successively connected to end, the outlet side of the spray booth is by being mounted on case The air inlet port 1 of 10 side of body is connected to the inlet-end manifold of scrubbing tower 2, and the outlet side of activated carbon adsorption room 7 is by being mounted on case The air outlet 9 of 10 other side of body is connected to the inlet end of tapping equipment 8；The top outlet side of the scrubbing tower 2 passes through runner One 4 are connected with the lower part inlet end of dynamic barrier device 3, and the outlet side of the dust removal filter 5 passes through runner 26 and active carbon The inlet end of adsorption chamber 7 is connected to.

Further, in order to keep the physical life of cabinet 10, cabinet 10 may be configured as stainless steel structure；It is occupied to reduce Space, maintenance easy to repair, cabinet 10 are an integral structure；For the ease of later stage work personnel, to each of waste gas treatment equipment Part repairs replacement, in the surrounding and scrubbing tower 2, dynamic barrier device 3, dust removal filter 5 and activated carbon adsorption of cabinet 10 Maintenance door is opened up at 7 opposite position of room in advance, maintenance door is in close state when waste gas treatment equipment works normally, in failure When can open manually.

Embodiment 2, as shown in figure 3, on the basis of embodiment 1, the air inlet port 1 includes that the air inlet being wholely set is consolidated Determine portion 11, inlet channel 12 and outlet fixed part 13 and is from left to right arranged successively, the area of the longitudinal profile of inlet channel 12 It is become larger from air inlet fixed part 11 to outlet fixed part 13；Air outlet 9 and air inlet port 1 are bilateral symmetry；Into one Step, air inlet port 1 are spray booth and the intermediate conduit that scrubbing tower 2 is connected in waste gas treatment equipment, and air inlet port 1 is close to spraying The left end bore of room is less than the bore close to scrubbing tower 2, and then effectively reduces flow velocity of the exhaust gas in waste gas treatment equipment, The corresponding incorporation time for extending the paint particle in the water and exhaust gas that scrubbing tower 2 sprays, and then improve to the paint in exhaust gas The clean-up effect of particle and powder dust particle；And bore of the air outlet 9 close to 8 one end of tapping equipment is less than close to activated carbon adsorption The bore of 7 one end of room, and then the rate of outflow of the air after being cleaned virtually is increased, and then indirectly reduce tapping equipment 8 output loading, saves the cost of electric energy.

Embodiment 3, on the basis of embodiment 2, grafting is vertical with waste gas flow direction on the inlet channel 12 of air inlet port 1 Plugboard, the position in inlet channel 12 is inserted into plugboard to change flowing bore of the exhaust gas in air inlet port 1, from And realize flexibly has a grade control/adjustment exhaust gas to enter the flow velocity in waste gas treatment equipment manually；The plugboard is quieter material system At the noise that exhaust gas generates in air inlet port 1 by the blocking of plugboard can be reduced；The specific installation of plugboard: plugboard Including plate, support plate, telescopic rod and fixture nut, a bar shaped jack is opened up on 12 top of inlet channel of air inlet port 1, The upper end of plate is fixedly connected with the lower middle position of support plate, and the upper end of two telescopic rods is corresponding left with the lower part of support plate Right two sides are fixedly connected, and the lower end of two telescopic rods is fixed on 12 top of inlet channel by two fixture nuts, when needing to adjust When the depth of whole plate insertion air inlet port 1, support plate can be pulled up or be pressed manually, and then plate insertion air inlet is adjusted flexibly Depth in port 1；Further, which can be plugged on the top of inlet channel 12, also pluggable in inlet channel 12 Forward and backward side.

Preferably, as shown in figure 4, the scrubbing tower 2 include sparge pipe group 21, primary filter component 26 and liquid storage pool and from Top to bottm is arranged successively, and the primary filter component 26 includes multiple filtering groove bodies arranged along the y axis, is filtered under groove body Portion is removably mounted on the support portion one inside cabinet 10 by truss, filters the multiple PP hollow spheres of placed inside of groove body； Liquid storage pool includes sump 23, Rinsing Area 24 and sewage purification portion, and sump 23 is in the underface of primary filter component 26, clearly Drawing liquid pump 25 is installed in the outside of sink 24, and the liquid feeding end of drawing liquid pump 25 is connected to the inlet tube deeply to Rinsing Area 24, drawing liquid pump 25 outlet end is connect by vertical collecting pipe 22 with the water inlet end pipe of sparge pipe group 21, the sewage that the lower end of sump 23 opens up Mouth is connected to by sewage purification portion with the circulation inlet of 24 side of Rinsing Area；The sparge pipe group 21 includes more arranged in parallel Outlet tube, the upper and lower part of each outlet tube staggeredly equidistantly opens up multiple spray holes.

Further, when exhaust gas passes through scrubbing tower 2, the work of drawing liquid pump 25 extracts clear water out of Rinsing Area 24 and by converging It flows collecting pipe and 21 high pressure of sparge pipe group sprays, and then be sufficiently mixed particle and water in exhaust gas, at this moment under the effect of gravity, The macromolecular particle mixed with water can drop in lautertuns body, and the bulky grain coating cloud particle disposal in air is clean, greatly Molecule particles are flowed through between the intracorporal PP hollow sphere of lautertuns, and then are captured by PP hollow sphere, to reduce in sump 23 Impurity, and when exhaust gas passes through PP hollow sphere from bottom to up, the particle in exhaust gas can also be captured by PP hollow sphere, so as to To reduce the granule content in exhaust gas, detergent power is improved.

Further, sewage purification portion includes sewage pipe, sewage purifier, water pipe, water purifying tank and fresh water pump, the sewage The both ends of pipe are respectively corresponded to be connect with the inlet tube of the sewage mouth of sump 23 and sewage purifier, the outlet warp of sewage purifier The inlet tube for crossing water pipe and water purifying tank connects, and the outlet of water purifying tank connects by the circulation inlet of fresh water pump and Rinsing Area 24 It is logical, wherein equidistantly multiple filter screens are placed in inclination inside sewage purifier, and the filter screen close to sewage pipe needs frequency to change more Cleaning is changed, the impurity physics that multiple filter screens can flow into sewage pipe in sewage purifier intercepts, and can pass through artificial cleaning in time； Water treatment procedure in sump 23 and Rinsing Area 24: sewage in sump 23 through sewage pipe, sewage purifier, water pipe, It is back to after water purifying tank, fresh water pump in Rinsing Area 24, to realize sewage purification recycling, energy conservation and environmental protection.

Embodiment 4, on the basis of embodiment 3, in order to further slow down exhaust gas flow velocity, extend particle in exhaust gas with The incorporation time of water improves clean-up effect, is also fixedly installed with waterproof on the top for being internally located at sparge pipe group 21 of cabinet 10 Fan, the motor fixing end of the drip-proof fan are fixed on the inner tip of cabinet 10 by motor mounting rack, and drip-proof fan Motor fixing end outer cover is set up defences water hull, the flabellum of drip-proof fan downward, so that downward air pressure is generated, to slow down accordingly The flow velocity of exhaust gas.

Preferably, as shown in Figure 5 and Figure 6, the dynamic barrier device 3 includes bracket 31, rotation wheel support 32, overhead gage 33, driving motor 34, driving wheel 37 and filter disc 35 is rotated through, the support that the surrounding of the bracket 31 and the inner wall of cabinet 10 are installed Portion two is detachably connected, and overhead gage 33 is detachably tiltedly mounted on the inside top of cabinet 10 and is located at the top of bracket 31, is driven The fixing end of dynamic motor 34 is mounted on the lower one end top of overhead gage 33, and overhead gage is run through in the working end of driving motor 34 downward It is fixedly connected after 33 with the center of driving wheel 37, the top of bracket 31 offers the installation position 39 of multiple array arrangements, rotation Filtering table 35 is removably mounted on installation position 39 by filtering table frame body, along the middle part of multiple filtering table frame bodies of X-axis arrangement It is respectively mounted driven wheel 38, wherein the upper end for reinforcing rotary shaft is inlayed at the center of driven wheel 38, and the lower end for reinforcing rotary shaft penetrates through It is fixedly connected after the vertical Dustproof pipe of filter disc frame body central integral installation with the center for rotating through filter disc 35；31 top of bracket is fixed Multiple rotation wheel supports 32 corresponding with filtering table frame body are installed, it is adjustable that a pair of of spacing is installed on each 32 top of rotation wheel support Tensioning wheel 36, driving wheel 37 connect by rotating belt with multiple driven wheels 38 and tensioning wheel 36,34 work belt of driving motor Dynamic driving wheel 37 rotates, and then by rotating belt and multiple driven wheels 38, and a row is driven multiple to rotate through along what X-axis arranged 35 high speed rotation of filter disc, and then realize and the physics of exhaust gas is intercepted.

Further, the filter disc 35 that rotates through intercepts vapor particle, fibre object, viscosity for material for purification Dropbox Object etc., and the floccule high speed rotation under intercepting is got rid of on one 4 top of runner, to be received using the diversion trench on runner 1 Collect and is guided to filtering groove body top；Purification Dropbox includes upper fixed disk, radial support muscle and outer rim, upper fixed disk with The lower end for reinforcing rotary shaft is welded and fixed, and is opened up around upper fixed disk by the inner circle of multiple radial support muscle and outer rim Deep gouge spot welding, and multiple radial support muscle are equally spaced around in the outside of upper fixed disk；In order to effectively to the water in exhaust gas Vapour particle, fibre object, goo etc. effectively intercept and get rid of interceptor high speed rotation in one 4 top of runner, radial support muscle Vertical section be inverted trapezoidal；Blocking portion is installed on the top of filtering table frame body, rotates through filter disc 35 for interceptor for preventing Be thrown on overhead gage 33 without being convenient to clean, upper blocking portion is concave surface hemisphere directed downwardly, the top of upper blocking portion to lower part it Between open up a strip gab, when installation, the strip gab of upper blocking portion is from reinforcing passing through in rotary shaft, and under upper blocking portion Portion and the top of filtering table frame body are detachably connected by buckle or bolt and nut, in order to periodically safeguard to upper blocking portion Cleaning；Radial support muscle is made of stainless steel material, corrosion-resistant although early investment is at high cost, durable.

Further, tensioning wheel 36 includes rear regulating wheel, preceding fast pulley, upper platen and manual adjustment, is fixed before described The top axis connection of the top and bottom correspondence of wheel and the front end of upper platen and rotation wheel support 32, rotates 32 top of wheel support Waist typed through hole one is opened up, the rear end of upper platen opens up waist typed through hole two, and the top of rear regulating wheel passes through in two from waist type to be passed through And fastened by nut, the lower end of rear regulating wheel and the movable end grafting of manual adjustment, the fixing end of manual adjustment pass through Screw is fixed on rotation wheel support 32；Manual adjustment includes nut seat, rotary screw, Mobile base and reinforces knob, nut Seat be fixed by screws in rotation wheel support 32 on, one end of rotary screw with from the screw hole of nut seat pass through afterwards with reinforce revolve Button is fixedly connected, and the other end of rotary screw is fixedly connected with the rear end of Mobile base, and the lower end of rear regulating wheel is embedded in Mobile base In the circular hole on top；When need to adjust rotating belt it is elastic when, it is only necessary to knob is reinforced in manual operation, and then makes rotary screw Rotation is moved forward and backward to drag Mobile base and rear regulating wheel along waist typed through hole one, to realize the tensioning tune to rotating belt It is whole.

Preferably, each driving wheel 37, driven wheel 38 and 36 top of tensioning wheel are arranged with the dust-proof casing to match respectively One, dust-proof casing two and dust-proof casing three；Three dust-proof casings can effectively prevent moisture in exhaust gas, particle etc. from entering actively Inside wheel 37, driven wheel 38 and tensioning wheel 36, to prolong its service life accordingly.

Preferably, as shown in fig. 7, the runner 1 is oblique runner, wherein oblique runner is close to one end of scrubbing tower 2 It is gradually got higher to one end height close to dynamic barrier device 3；Preset multiple groups and multiple filtering groove bodies in the top of the oblique runner Corresponding honeycomb duct 41, every group of honeycomb duct 41 include multiple diversion trenches；Oblique runner may be used also close to one end lower part of scrubbing tower 2 Disassembly is equipped with the extension board 42 of heeling condition, and 42 top of extension board is also provided with the extension chute for being undertaken in diversion trench, exhaust gas Paint particle, goo for being intercepted after the high speed rotation interception function of dynamic barrier device 3 etc. in conjunction with vapor after formed Floccule is fallen on the honeycomb duct 41 of oblique runner, is fallen flowing after the extension chute of extension board 42 along diversion trench To lautertuns body.

Further, in the inside sandwich establishment of runner 1, the peace inside the multiple detents of interlayer internal preset, each detent A cooling rod is put, is mounted with multiple cover boards corresponding with detent in the bottom of runner 1, in order to which later maintenance picks and places, As long as middle cooling rod can be suitable for the technical program for any cooling rod that can reduce temperature in the prior art；Work as exhaust gas When by runner 1, because of the refrigeration by cooling rod, particles such as paint, goo, dust in exhaust gas etc. and vapor Become macromolecular in conjunction with after, to be trapped in one 4 top of runner, and then is fallen in lautertuns body along honeycomb duct 41；And it passes through 3 physics of dynamic barrier device intercept particle got rid of on runner 1, can also be condensed because of the refrigeration of cooling rod with surrounding its He is mixed to form macromolecular by particle, is snapped down in filtering groove body finally along honeycomb duct 41 and extension board 42.

Preferably, multiple as shown in figure 8, the dust removal filter 5 includes filter core loading plate 51 and multiple dust removal filter elements 52 Dust removal filter element 52 is removably mounted at 51 top of filter core loading plate at array arrangement, the left and right side of filter core loading plate 51 with The support portion three of the inner wall installation of cabinet 10 is detachably connected；Multiple dust removal filter elements 52 are arranged at array according to X-axis arrangement point For multiple groups dust removal filter element 52；Outlet is offered at the lower part opposite position of each dust removal filter element 52 on filter core loading plate 51 Mouth 54.

Further, dust removal filter element 52 matches nanometer film coating filter material, and precision is high, and good permeability can capture 0.1 micron or more Dust, arresting efficiency is high, and processing air quantity is big, and processing exhaust gas ability is stronger；Exhaust gas after the filtration of dust removal filter element 52 from Gas outlet 54 enters in runner 26.

Preferably, as shown in figure 9, the lower part of filter core loading plate 51 and the lower section corresponding position of every group of dust removal filter element 52 can Disassembly is equipped with one group of blowback cleaning plant 53；Blowback cleaning plant 53 includes confluence tracheae 531, branch's tracheae 533 and blows The side of pipe 534, the confluence tracheae 531 is connect by air inlet pipe 532 with the outlet end pipe of the air accumulator outside cabinet 10, is converged The other side of tracheae 531 is connect with the inlet-end manifold of multiple branch's tracheaes 533, and the outlet side of each branch's tracheae 533 passes through more A solenoid valve correspondence is connect with the lower end pipe of multiple gas blow pipes 534, and the upper end of each gas blow pipe 534 is deep into from gas outlet 54 In dust removal filter element 52, air pressure regulator 535 is installed on the tracheae 531 that converges；Blowback cleaning plant 53 is used for periodically to dust removal filter element 52 carry out air blowing dedusting, to extend the service life of dust removal filter element 52, reduce replacement maintenance frequency.

Preferably, the runner 26 is curved air duct, and the top air inlet end in curved air duct is undertaken in dust removal filter 5 Right side outlet side, the right side outlet side in curved air duct are connected to the left side inlet end of activated carbon adsorption room 7；Further, this is curved Air duct be c-type, semicircle, edge-on arch etc. any one；Since wind direction is downward after the filtering of dust removal filter 5 for exhaust gas, Into runner 26, and in order to reinforce the filter effect of activated charcoal strainer, activated charcoal strainer is vertically inserted in strainer branch Inside frame 72, therefore set curved for runner 26, to effectively change the flow direction of exhaust gas.

Preferably, as shown in Figure 10, for adsorbing the organic substance in exhaust gas, (benzene class, non-methane are total for activated carbon adsorption room 7 Hydrocarbon) and peculiar smell；The activated carbon adsorption room 7 be left-right situs multiple groups filter netware, every group of filtering netware include support base 71, Filter screen bracket 72 and activated charcoal strainer, the filter screen bracket 72 are mounted on the bottom plate of cabinet 10 by support base 71, activity Charcoal filter screen is vertically inserted in inside filter screen bracket 72.

Further, tapping equipment 8 includes exhaust blower and air-exhausting duct, and the inlet end and 9 pipe of air outlet of the exhaust blower connect It connects, the outlet side of exhaust blower and the lower end seal pipe of air-exhausting duct connect, and the upper end of air-exhausting duct towards the right side, that is, is passed through by elbow bend The filtered cleaned air in activated carbon adsorption room 7 is discharged into atmosphere by air-exhausting duct by the work of exhaust blower.

As shown in Figure 1, including: for the specific steps of the disposed of in its entirety technique of spray booth

S0, control exhaust gas enter the flow velocity of air inlet port；Exhaust fan is speed-regulating fan, can manually or remotely remote control air draft The output power of fan, and then it is adjusted into the exhaust gas flow velocity of air inlet port according to the actual situation；

S1, exhaust fan will spray indoor exhaust gas and be blown into air inlet port；That is the exhaust gas of exhaust fan task driven spray booth outlet side Flowing blows exhaust gas at the air inlet port of waste gas treatment equipment；

S15 detects each parameter of exhaust gas for entering air inlet port and uploads to display terminal；Wherein, pacify on air inlet port It is unified to fill detection system, detection system uniformly include combustible gas detector, flow detector, dust detector, temperature monitor and Humidity measurement instrument and by wireless communication module are connect with display terminal wireless signal；Display terminal is smart phone, plate electricity Brain, smartwatch, background monitoring display etc. can show the electronic equipment of each parameter；

S2, scrubbing tower carry out treatment and purification to powder dust particle in exhaust gas and paint particle；That is the high-pressure steam of scrubbing tower ejection Macromolecular is formed after mixing with powder dust particle and paint particle to be landed automatically by gravity；Wherein, the specific steps of step S2 include:

S21, sparge pipe group spray water with high pressure to surrounding, are respectively formed upper water with the lower part on sparge pipe groups periphery and filtering groove body Steam and lower vapor；

Powder dust particle and paint particle in S22, exhaust gas float after air inlet port entrance is mixed to form big point with lower vapor Son is affected by gravity falls in sump in turn；

S23, the part powder dust particle and paint particle not mixed from the exhaust gas that air inlet port enters with lower vapor after floating It floats after being passed through from the PP hollow sphere of filtering groove body, is mixed into macromolecular with upper vapor and is trapped in PP hollow sphere by gravity decline It is interior or fall in sump after vertically passing through PP hollow sphere, to complete to the preliminary of powder dust particle in exhaust gas and paint particle Purification process；

S3, dynamic barrier device carry out physics interception to the floccule in exhaust gas；That is exhaust gas floating encounters high-speed rotating rotate through Filter disc, paint, vapor particle, fibre object, goo etc. in exhaust gas are rotated through after filter disc intercepts and carry out with upper vapor Floccule is formed after mixing to fall on runner one because of gravity and slide along runner one to scrubbing tower；

S4, dust removal filter carry out adsorption treatment to the dust in exhaust gas；That is exhaust gas after the dust removal filter element of dust removal filter, Dust in exhaust gas is attracted on dust removal filter element, and purified air lowers into stream from the gas outlet of dust removal filter lower part In road two；

Runner two on the downside of S5, dust removal filter changes the wind direction of exhaust gas；The exhaust gas wind direction court of the gas outlet of dust removal filter Under, by the structure of curved runner two, exhaust gas wind direction horizontally to the right, to be more advantageous to vertical activated charcoal strainer in exhaust gas Organic substance and peculiar smell absorption remove；

S6, activated carbon adsorption room in exhaust gas organic substance and peculiar smell adsorb；

S65 detects each parameter of the exhaust gas flowed out from air outlet and uploads to display terminal；

Pure air at S7, air outlet is discharged into atmosphere through tapping equipment.

Preferably, in step S15: combustible gas detector to real-time detection in the exhaust gas flowed in air inlet port whether Containing flammable explosive gas and flammable explosive gas concentration, and it will test result and be transferred to display terminal；

Flow detector detect to the flow velocity flowed in air inlet port in exhaust gas and flow speed value is transferred to display terminal, with The flow velocity of exhaust gas can be controlled according to the flow speed value of exhaust gas convenient for staff；The i.e. described staff can be according to exhaust gas Flow speed value controls the flow velocity of exhaust gas, can use step S0, can be by inserting on the top of air inlet port or front and back side Fishplate bar is plugged, to be inserted into the depth of air inlet port by plugboard to there is grade to control the flow velocity that exhaust gas enters air inlet port；Also Drip-proof fan can be fixedly installed with using on the top of sparge pipe group, the flabellum of drip-proof fan downward, to be washed to entering The exhaust gas to float in tower is blowed, to reduce flow velocity of the exhaust gas in scrubbing tower.

Dust detector detect and transmit dust concentration value to the dust concentration flowed in air inlet port in exhaust gas To display terminal, in order to which staff can control the amount of water sprayed of scrubbing tower according to the dust concentration value in exhaust gas；I.e. Staff remotely controls the output power of drawing liquid pump according to the dust content in exhaust gas, when content of the dust quantity beyond setting When, the output power of drawing liquid pump is remotely tuned up, the amount of water sprayed of sparge pipe is processed, thus effectively processing powder dust particle and paint Grain；When content of the dust quantity lower than setting, the output power of drawing liquid pump is remotely turned down, to reduce the amount of water sprayed of sparge pipe, To save the additional output of electric energy, the energy saving cost of electric energy on the basis of powder dust particle and paint particle is effectively treated.

Temperature monitor and humidity measurement instrument the temperature and humidity flowed in exhaust gas in air inlet port is detected and incite somebody to action The epidemic disaster value of exhaust gas is transferred to display terminal, in order to which staff can be according to the epidemic disaster value in exhaust gas to the temperature of exhaust gas Humidity is reasonably adjusted；I.e. when the height for showing exhaust gas on display terminal is higher than setting value, by the clear of reservoir Cooling rod is installed inside sink, the clear-water high-pressure after then sparge pipe group freezes cooling rod is sprayed to reduce the temperature of exhaust gas, To indirectly facilitate the mixing of vapor Yu powder dust particle and paint particle；When humidity value height set, by adding Big blowing of the blowback cleaning plant to dust removal filter element, keeps the drying of dust removal filter element, to play the work for reducing humidity in exhaust gas With；The quantity of increase activated charcoal strainer, absorbed portion moisture, thus the humidity value of exhaust gas can also be passed through.

In step S15, show in exhaust gas whether there is flammable explosive gas on display terminal, if so, first issuing Warning message is shown in display terminal with prompting staff to handle in time: " flammable explosive gas concentration value "；If Nothing then shows " no flammable explosive gas " on display terminal；When showing that flammable explosive gas is on display terminal, work people Member will search the generation source of flammable explosive gas in time, to avoid flammable explosive gas i.e. dynamic barrier during processing The physics interception of device is touched generation explosion or is found not in time, and certain adverse effect can also be generated by being discharged into atmosphere.

Detection system two includes: non-methane total hydrocarbons monitor, dust monitor and temperature and humidity tester and passes through channel radio Letter module is connect with display terminal wireless signal；Non-methane total hydrocarbons monitor is total to the non-methane in the pure air of air outlet Hydrocarbon concentration value, to judge whether pure air meets the standard of safety dumping；Dust monitor is empty to the cleaning in air outlet Dust concentration is detected in gas；Temperature and humidity tester detects the temperature and humidity content of the pure air of air outlet.

Preferably, in step s3, further include step S35, prevent particle in exhaust gas intercepted by whipping to cabinet On wall；Blocking portion is installed on the top of filtering table frame body, filter disc 35 is rotated through for prevention and interceptor is thrown to overhead gage On without being convenient to clean, upper blocking portion be concave surface hemisphere directed downwardly.

Preferably, in step S65, to judge whether pure air meets the standard of safety dumping, such as non-methane total hydrocarbons Concentration has been more than the standard of safety dumping, first by display terminal alert, in order to which staff searches entirely in time The treatment and purification of which link is ineffective in waste gas treatment equipment, to make timely adjustment；Dust monitor is to air outlet Dust concentration is detected in interior pure air, and the result that will test is transferred to display terminal, does not meet safety dumping such as Standard, then need to increase the processing capacity of scrubbing tower, dust removal filter；Pure air of the temperature and humidity tester to air outlet Temperature and humidity content detected, and the temperature and humidity value that will test is transferred to display terminal, in order to which staff looks into time The reason of temperature and humidity exception in pure air is looked for, and is handled in time.

It further, in step s 5, further include step S55, particle of two filter diameter of runner less than 5 microns；Flowing Two inner inclination of road installs box type filter, so that the particle to diameter in exhaust gas less than 5 microns is filtered, the wherein boxlike Filter glass filter paper is made of the folding of microcreping pleat technology, and the filter area of super large extends online service life filtering material Precision controlling is accurate, it is ensured that and 99% removes in removing exhaust gas 5 microns of impurity below and capture simultaneously is largely less than 5 micron particles, from And make runner two not only and can change the wind direction of exhaust gas, 5 microns of impurity below remaining in exhaust gas can also be captured Or filtering.

Spray exhaust-gas treatment principle: organic mixed waste gas to be processed in spray booth is introduced into exhaust-gas treatment and set by exhaust fan In standby, air inlet port is first passed through, so that exhaust gas flow velocity is reduced, to extend the dust grain of the water and exhaust gas in scrubbing tower accordingly Son and paint particle incorporation time, keep its purification more thorough, and the physics interception by dynamic barrier device is floated on exhaust gas, makes to block Paint, vapor particle, fibre object, goo etc. after cutting form floccule after mixing with vapor and are fallen by gravity in runner One top, in lautertuns body, then passing through dynamic barrier device treated, exhaust gas is moved down again sliding along runner one It is dusted by dust removal filter, is then passed through runner two and enters activated carbon adsorption room, effectively inhaled by activated charcoal strainer Organic substance and peculiar smell in attached exhaust gas, so that gas be made to be purified, gas up to standard is arranged by tapping equipment after purification To atmosphere, i.e., the multi-stage processing equipment is effectively mixed, intercepted and is inhaled to organic substances such as gas, particles in exhaust gas It is attached, improve clean-up effect and rate.

It should be noted that above-mentioned each technical characteristic continues to be combined with each other, the various embodiments not being enumerated above are formed, It is accordingly to be regarded as the range of description of the invention record；Also, for those of ordinary skills, it can add according to the above description To improve or convert, and all these modifications and variations should all belong to the protection domain of appended claims of the present invention.

Claims (8)

1. a kind of exhaust gas automatic processing process suitable for spray booth, including waste gas treatment equipment, wherein waste gas treatment equipment The outlet side of spray booth is accepted and be connected to inlet end, and exhaust gas is blown at exhaust gas by the exhaust fan of the outlet side installation of spray booth It manages in equipment, which is characterized in that waste gas treatment equipment includes cabinet and the air inlet port and outlet that are fixed at left and right sides of cabinet Port, box house installation connect with air inlet port pipe scrubbing tower, dynamic barrier device, dust removal filter and with air outlet pipe It the activated carbon adsorption room of connection and is successively connected to end；It is further comprising the steps of:

S1, exhaust fan will spray indoor exhaust gas and be blown into air inlet port；

S2, scrubbing tower carry out treatment and purification to powder dust particle in exhaust gas and paint particle；

S3, dynamic barrier device carry out physics interception to the floccule in exhaust gas；

S4, dust removal filter carry out adsorption treatment to the dust in exhaust gas；

Runner two on the downside of S5, dust removal filter changes the wind direction of exhaust gas；

S6, activated carbon adsorption room in exhaust gas organic substance and peculiar smell adsorb；

Pure air at S7, air outlet is discharged into atmosphere through tapping equipment.

2. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 1, which is characterized in that step It further include step S0 before S1, control exhaust gas enters the flow velocity of air inlet port；Exhaust fan is speed-regulating fan, can be artificial or remote The output power of journey remote control exhaust fan, and then it is adjusted into the exhaust gas flow velocity of air inlet port according to the actual situation.

3. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 1, which is characterized in that step Further include step S15 after S1 and before step S2, each parameter of exhaust gas for entering air inlet port is detected and uploaded to aobvious Show terminal；Wherein, installation detecting system one on air inlet port, detection system uniformly include combustible gas detector, flow detector, Dust detector, temperature monitor and humidity measurement instrument and by wireless communication module are connect with display terminal wireless signal；It is aobvious Show that terminal is the electronic equipment that smart phone, tablet computer, smartwatch, background monitoring display etc. can show each parameter.

4. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 3, which is characterized in that in step In rapid S15: combustible gas detector to real-time detection in the exhaust gas flowed in air inlet port whether contain flammable explosive gas with And flammable explosive gas concentration, and will test result and be transferred to display terminal；

Flow detector detect to the flow velocity flowed in air inlet port in exhaust gas and flow speed value is transferred to display terminal, with The flow velocity of exhaust gas can be controlled according to the flow speed value of exhaust gas convenient for staff；

Dust detector carries out detection to the dust concentration flowed in exhaust gas in air inlet port and is transferred to dust concentration value aobvious Show terminal, in order to which staff can control the amount of water sprayed of scrubbing tower according to the dust concentration value in exhaust gas；

Temperature monitor and humidity measurement instrument carry out detection to the temperature and humidity flowed in exhaust gas in air inlet port and by exhaust gas Epidemic disaster value be transferred to display terminal, in order to which staff can be according to the epidemic disaster value in exhaust gas to the temperature and humidity of exhaust gas It is reasonably adjusted.

5. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 4, which is characterized in that in step In rapid S15, show in exhaust gas whether there is flammable explosive gas on display terminal, if so, first alert is to mention Show that staff is handled in time, and shown in display terminal: " flammable explosive gas concentration value "；It is whole in display if nothing " no flammable explosive gas " is shown on end.

6. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 1, which is characterized in that described Scrubbing tower includes sparge pipe group, primary filter component and liquid storage pool and is arranged successively from top to bottom, the primary filter component packet Multiple filtering groove bodies arranged along the y axis are included, the lower part for filtering groove body is removably mounted at the branch of box house by truss On support part one, the multiple PP hollow spheres of placed inside of groove body are filtered；Liquid storage pool includes sump, Rinsing Area and sewage purification portion, The sewage mouth that the lower end of sump opens up is connected to by sewage purification portion with the circulation inlet of Rinsing Area side；Sump is in The underface of primary filter component, the outside of Rinsing Area install drawing liquid pump, the liquid feeding end of drawing liquid pump and deeply to Rinsing Area into Liquid pipe connection, the outlet end of drawing liquid pump are connect by vertical collecting pipe with the water inlet end pipe of sparge pipe group,

A kind of exhaust gas automatic processing process suitable for spray booth according to claim 6, which is characterized in that in step In S2, scrubbing tower carries out treatment and purification to powder dust particle in exhaust gas and paint particle: specifically include step S21, sparge pipe group to Surrounding sprays water with high pressure, and is respectively formed upper vapor and lower vapor with the lower part on sparge pipe groups periphery and filtering groove body；

Step S22, the powder dust particle in exhaust gas and paint particle float after air inlet port entrance is mixed to form with lower vapor Macromolecular is affected by gravity falls in sump in turn；

Step S23, the part powder dust particle and paint not mixed from the exhaust gas that air inlet port enters with lower vapor after floating Particle floats after passing through from the PP hollow sphere of filtering groove body, is mixed into macromolecular with upper vapor and is trapped in PP sky by gravity decline It is fallen in sump after in bulbus cordis or vertically passing through PP hollow sphere, to complete to powder dust particle in exhaust gas and paint particle Preliminary purification process.

7. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 1, which is characterized in that dynamic Shielding device includes bracket, rotation wheel support, overhead gage, driving motor, driving wheel and rotates through filter disc, and overhead gage detachably tilts It is mounted on the inside top of cabinet and is located at the top of bracket, the fixing end of driving motor is mounted on the lower one end of overhead gage Portion, the working end of driving motor are fixedly connected after running through overhead gage downward with the center of driving wheel, and the top of bracket offers more The installation position of a array arrangement, rotates through filter disc and is removably mounted on installation position by filtering table frame body, along X-axis arrangement Driven wheel is respectively mounted in the middle part of multiple filtering table frame bodies, driving wheel is connect with driven wheel by rotating belt；Scrubbing tower and dynamic Inclination installation runner one between device is shielded, and runner one is higher than close to one end height of dynamic barrier device close to scrubbing tower one end Highly；Driving motor work drives driving wheel rotation, and then by rotating belt and multiple driven wheels, drives a row along X-axis The multiple of arrangement rotate through filter disc high speed rotation, and then realize and carry out physics interception to exhaust gas；

In step S3, exhaust gas floating encounter it is high-speed rotating rotate through filter disc, paint, vapor particle, fibre object in exhaust gas, Floccule is formed after being mixed after goo etc. is intercepted with upper vapor because gravity is fallen on runner one and along runner One slides to scrubbing tower.

8. a kind of exhaust gas automatic processing process suitable for spray booth according to claim 3, which is characterized in that in step After rapid S6 and before S7, further includes step S65, each parameter of the exhaust gas flowed out from air outlet is detected and uploaded to aobvious Show terminal；Installation detecting system two i.e. at air outlet, detection system two include: non-methane total hydrocarbons monitor, dust detection Device and temperature and humidity tester and by wireless communication module are connect with display terminal wireless signal；Non-methane total hydrocarbons monitor is to out Non-methane total hydrocarbons concentration value in the pure air of gas port, to judge whether pure air meets the standard of safety dumping；Powder Dirt detector detects dust concentration in the pure air in air outlet；Cleaning of the temperature and humidity tester to air outlet The temperature and humidity content of air is detected.