CN104587778A - Multifunctional tail gas airborne dust treatment system - Google Patents

Multifunctional tail gas airborne dust treatment system Download PDF

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Publication number
CN104587778A
CN104587778A CN201410620727.XA CN201410620727A CN104587778A CN 104587778 A CN104587778 A CN 104587778A CN 201410620727 A CN201410620727 A CN 201410620727A CN 104587778 A CN104587778 A CN 104587778A
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China
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airborne dust
tail gas
wind energy
mud guard
screen pack
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CN201410620727.XA
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Chinese (zh)
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CN104587778B (en
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杨吉全
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Shenzhen Yizhongle New Energy Technology Co ltd
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Individual
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Abstract

The invention discloses a multifunctional tail gas airborne dust treatment system. The system comprises an airborne dust adsorption and filtration device, a tail gas differentiation and treatment device, a tail gas discharge booster device, a wind energy driving device, a wind energy active carbon filtration device, a wind energy water circulation filtration device, a tail gas airborne dust discharge device, a box and a box fixing connection member. The tail gas differentiation and treatment device is connected to the box by the tail gas discharge booster device. The airborne dust adsorption and filtration device is connected to the box. The wind energy driving device, the wind energy active carbon filtration device, the wind energy water circulation filtration device and the tail gas airborne dust discharge device are respectively fixedly connected to the upper part of the box. Through change of the original wheel hub mudguard shape, use of a wind energy driving fan, construction of airborne dust pipes connected to the box and arrangement of a filter screen for water circulation filtration of automobile airborne dust, airborne dust of the road is effectively absorbed and controlled. The multifunctional tail gas airborne dust treatment system has a demisting function so that the automobile is not a pollution source but a mobile cleaning source.

Description

A kind of multi-functional tail gas airborne dust treatment system
Technical field
The present invention relates to tail gas disposal technique field, specifically a kind of multi-functional tail gas airborne dust treatment system.
Background technology
Along with the development of society, atmosphere pollution is more and more serious, and various indoor air cleaners are on the market also multifarious to arise at the historic moment, and does not only have outdoor air clarifier.Vehicle exhaust and airborne dust are the one of the main reasons that haze is formed, but Global Auto industry does not but solve this automobile self-defect.
Summary of the invention
The object of the present invention is to provide a kind of multi-functional tail gas airborne dust treatment system, produce wind energy by running car inertia, carry out the mode of water circulating filter, charcoal absorption, differentiation, dedusting, solve tail gas pollution and automobile raising-dust pollution problem.
For achieving the above object, the invention provides following technical scheme:
A kind of multi-functional tail gas airborne dust treatment system, comprise airborne dust adsorption filtration device, tail gas differentiation treating apparatus, exhaust emissions power assisting device, wind energy driving device, wind energy active carbon filtering device, wind energy water-circulation filtering device, tail gas airborne dust tapping equipment, casing and casing fixed connecting piece, described tail gas differentiation treating apparatus is connected with casing by exhaust emissions power assisting device, described airborne dust adsorption filtration device is connected with casing, described wind energy driving device, wind energy active carbon filtering device, wind energy water-circulation filtering device and tail gas airborne dust tapping equipment are fixedly connected on casing top respectively.
As the further scheme of the present invention: described airborne dust adsorption filtration device comprises mud guard, airborne dust pipeline, screen pack, suction fan, airborne dust filter, airborne dust screen pack and activated charcoal strainer, described mud guard comprises left front mud guard, left back mud guard, right front mud guard and right back mud guard, described airborne dust pipeline comprises left front airborne dust pipeline, left back airborne dust pipeline, right front airborne dust pipeline and right back airborne dust pipeline, described screen pack comprises left front screen pack, left back screen pack, right front screen pack and right back screen pack, described suction fan comprises left front suction fan, left back suction fan, right front suction fan and right back suction fan, described airborne dust filter comprises left airborne dust filter and right airborne dust filter, described airborne dust screen pack comprises left airborne dust screen pack and right airborne dust screen pack, described activated charcoal strainer comprises left activated charcoal strainer and right activated charcoal strainer, described left front mud guard, left back mud guard, right front mud guard and right back mud guard lay respectively at the near front wheel, left rear wheel, off-front wheel, the rear of off hind wheel, described left front airborne dust pipeline, left back airborne dust pipeline, right front airborne dust pipeline, right back airborne dust pipeline respectively with corresponding left front mud guard, left back mud guard, right front mud guard, right back mud guard connects, described left front airborne dust pipeline, left back airborne dust pipeline, right front airborne dust pipeline, near corresponding left front mud guard in right back airborne dust pipeline, left back mud guard, right front mud guard, one end of right back mud guard is respectively arranged with left front screen pack and left front suction fan, left back screen pack and left back suction fan, right front screen pack and right front suction fan, right back screen pack and right back suction fan, described left front airborne dust pipeline is connected with the bottom of left back airborne dust pipeline and is connected with left airborne dust filter, described left airborne dust screen pack and left activated charcoal strainer are arranged in left airborne dust filter, described right front airborne dust pipeline is connected with the bottom of right back airborne dust pipeline and is connected with right airborne dust filter, and described right airborne dust screen pack and right activated charcoal strainer are arranged in right airborne dust filter.
As the further scheme of the present invention: described tail gas divides gasifying device to comprise blast pipe A and tail gas differentiation device, and described tail gas differentiation device is arranged in blast pipe A.
As the further scheme of the present invention: described exhaust emissions power assisting device comprises exhaust emissions booster, throttle, muffler and the bend pipe that blocks water, described exhaust emissions booster comprises controller, acceleration cable and exhausting waste gas fan B, controls exhaust emissions amount according to throttle size.
As the further scheme of the present invention: described wind energy driving device comprises wind energy drive system and noise reduction interlayer, described noise reduction interlayer is arranged on the casing water surface, and described wind energy drive system comprises fan, power transmission shaft and water circulating pump.
As the further scheme of the present invention: described wind energy active carbon filtering device comprises active carbon at the bottom of case and tail gas active carbon filtering device.
As the further scheme of the present invention: described wind energy water-circulation filtering device comprises filler, tail gas water-circulation filtering device, left airborne dust water-supply-pipe, right airborne dust water-supply-pipe, described filler is arranged on casing side, described tail gas water-circulation filtering device is connected with tail gas active carbon filtering device, described left airborne dust water-supply-pipe is connected with left airborne dust filter, and described right airborne dust water-supply-pipe is connected with right airborne dust filter.
As the further scheme of the present invention: described tail gas airborne dust tapping equipment comprises blast pipe B, tail gas Autonomous test induction installation, outlet port, blowdown apparatus, exhausting waste gas fan A, described outlet port is positioned at blast pipe B end, described tail gas Autonomous test induction installation and exhausting waste gas fan A are arranged on blast pipe B end, and described blowdown apparatus is positioned at the bottom of casing opposite side.
Compared with prior art, the invention has the beneficial effects as follows:
The principle that the present invention moves according to ant, carry out with mobile resources, administer mobile pollution source, transform the principle of new forms of energy, administer tail gas, airborne dust, harmful substance in the air of absorption place of arrival, allow automobile become the compulsory serviceman of clean air and mobile cleaning source, supporting vehicle mounted tail gas solves for the purpose of tail gas, dust pollution and automobile self-defect from monitoring system.
The present invention is by changing original wheel hub mud guard shape, increase wind energy drive fan, build airborne dust pipeline, be connected with casing, and screen pack is set, water circulating filter is carried out to automobile raising-dust, highway airborne dust is made effectively to be absorbed and control, also have defrosting function, automobile is no longer pollution sources but mobile cleaning source, and place of arrival can absorb a part of pernicious gas simultaneously; Neither affect China Automobile Industry, do not affect national income again, be not detrimental to health, also help ecological environment, simultaneously all right reserve part heavy industry enterprise, automobile is forged into the soldier at the head of a formation and compulsory serviceman that administer haze.Especially in foggy weather situation, have defrosting function, ice snow covered pavement has to be tested, thus makes up automobile self-defect.
Accompanying drawing explanation
Fig. 1 is the structural representation of multi-functional tail gas airborne dust treatment system;
In figure: the left front mud guard of 1-, the left front airborne dust pipeline of 2-, the left front screen pack of 3-, the left front suction fan of 4-, the left back mud guard of 5-, the left back airborne dust pipeline of 6-, the left back screen pack of 7-, the left back suction fan of 8-, the left airborne dust filter of 9-, the left airborne dust screen pack of 10-, the left activated charcoal strainer of 11-, the right front mud guard of 12-, the right front airborne dust pipeline of 13-, the right front screen pack of 14-, the right front suction fan of 15-, the right back mud guard of 16-, the right back airborne dust pipeline of 17-, the right back screen pack of 18-, the right back suction fan of 19-, the right airborne dust filter of 20-, the right airborne dust screen pack of 21-, the right activated charcoal strainer of 22-, 23-blast pipe A, 24-tail gas differentiation device, 25-exhaust emissions booster, 26-muffler, 27-blocks water bend pipe, 28-wind energy drive system, 29-noise reduction interlayer, active carbon at the bottom of 30-case, 31-tail gas active carbon filtering device, 32-filler, 33-tail gas water-circulation filtering device, the left airborne dust water-supply-pipe of 34-, the right airborne dust water-supply-pipe of 35-, 36-blast pipe B, 37-tail gas Autonomous test induction installation, 38-outlet port, 39-blowdown apparatus, 40-exhausting waste gas fan A, 41-throttle.
Detailed description of the invention
Below in conjunction with the embodiment of the present invention and accompanying drawing, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.
Refer to Fig. 1, in the embodiment of the present invention, a kind of multi-functional tail gas airborne dust treatment system, comprise airborne dust adsorption filtration device, tail gas differentiation treating apparatus, exhaust emissions power assisting device, wind energy driving device, wind energy active carbon filtering device, wind energy water-circulation filtering device, tail gas airborne dust tapping equipment, casing and casing fixed connecting piece, described tail gas differentiation treating apparatus, be connected with casing by exhaust emissions power assisting device, described airborne dust adsorption filtration device is connected with casing, described wind energy driving device, wind energy active carbon filtering device, wind energy water-circulation filtering device and tail gas airborne dust tapping equipment are fixedly connected on casing top respectively by casing fixed connecting piece.
Described airborne dust adsorption filtration device comprises mud guard, airborne dust pipeline, screen pack, suction fan, airborne dust filter, airborne dust screen pack and activated charcoal strainer, wherein mud guard comprises left front mud guard 1, left back mud guard 5, right front mud guard 12 and right back mud guard 16, airborne dust pipeline comprises left front airborne dust pipeline 2, left back airborne dust pipeline 6, right front airborne dust pipeline 13 and right back airborne dust pipeline 17, screen pack comprises left front screen pack 3, left back screen pack 7, right front screen pack 14 and right back screen pack 18, suction fan comprises left front suction fan 4, left back suction fan 8, right front suction fan 15 and right back suction fan 19, airborne dust filter comprises left airborne dust filter 9 and right airborne dust filter 20, airborne dust screen pack comprises left airborne dust screen pack 10 and right airborne dust screen pack 21, activated charcoal strainer comprises left activated charcoal strainer 11 and right activated charcoal strainer 22, described left front mud guard 1, left back mud guard 5, right front mud guard 12 and right back mud guard 16 lay respectively at the near front wheel, left rear wheel, off-front wheel, the rear of off hind wheel, described left front airborne dust pipeline 2, left back airborne dust pipeline 6, right front airborne dust pipeline 13, right back airborne dust pipeline 17 respectively with corresponding left front mud guard 1, left back mud guard 5, right front mud guard 12, right back mud guard 16 connects, described left front airborne dust pipeline 2, left back airborne dust pipeline 6, right front airborne dust pipeline 13, near corresponding left front mud guard 1 in right back airborne dust pipeline 17, left back mud guard 5, right front mud guard 12, one end of right back mud guard 16 is respectively arranged with left front screen pack 3 and left front suction fan 4, left back screen pack 7 and left back suction fan 8, right front screen pack 14 and right front suction fan 15, right back screen pack 18 and right back suction fan 19, described left front airborne dust pipeline 2 is connected with the bottom of left back airborne dust pipeline 6 and is connected with left airborne dust filter 9, described left airborne dust screen pack 10 and left activated charcoal strainer 11 are arranged in left airborne dust filter 9, described right front airborne dust pipeline 13 is connected with the bottom of right back airborne dust pipeline 17 and is connected with right airborne dust filter 20, and described right airborne dust screen pack 21 and right activated charcoal strainer 22 are arranged in right airborne dust filter 20, described tail gas divides gasifying device to comprise blast pipe A23 and tail gas differentiation device 24, and described tail gas differentiation device 24 is arranged in blast pipe A23, described exhaust emissions power assisting device comprises exhaust emissions booster 25, throttle 41, muffler 26 and the bend pipe 27 that blocks water, and described exhaust emissions booster 25 comprises controller, acceleration cable and exhausting waste gas fan B, described wind energy driving device comprises wind energy drive system 28 and noise reduction interlayer 29, and described noise reduction interlayer 29 is arranged on the casing water surface, and described wind energy drive system 28 comprises fan, power transmission shaft and water circulating pump, described wind energy active carbon filtering device comprises active carbon 30 at the bottom of case and tail gas active carbon filtering device 31, described wind energy water-circulation filtering device comprises filler 32, tail gas water-circulation filtering device 33, left airborne dust water-supply-pipe 34, right airborne dust water-supply-pipe 35, described filler 32 is arranged on casing side, described tail gas water-circulation filtering device 33 is connected with tail gas active carbon filtering device 31, described left airborne dust water-supply-pipe 34 is connected with left airborne dust filter 9, and described right airborne dust water-supply-pipe 35 is connected with right airborne dust filter 20, described tail gas airborne dust tapping equipment comprises blast pipe B36, tail gas Autonomous test induction installation 37, outlet port 38, blowdown apparatus 39, exhausting waste gas fan A40, described outlet port 38 is positioned at blast pipe B36 end, described tail gas Autonomous test induction installation 37 and exhausting waste gas fan A40 are arranged on blast pipe B36 end, and described blowdown apparatus 39 is positioned at the bottom of casing opposite side.
Described airborne dust adsorption filtration device passes through airborne dust pipeline by mud guard, screen pack, the airborne dust of suction fan absorption delivers to airborne dust filter, after airborne dust screen pack and activated carbon filtration net filtration, airborne dust is transported in wind energy active carbon filtering device and wind energy water-circulation filtering device again and carries out secondary filter, blowdown apparatus 39 again via tail gas airborne dust tapping equipment is discharged, described tail gas divides gasifying device to carry out secondary filter by tail gas differentiation device 24 by being transported in wind energy active carbon filtering device and wind energy water-circulation filtering device by exhaust emissions power assisting device after tail gas differentiation process again, outlet port 38 again via tail gas airborne dust tapping equipment is discharged.
Wind energy water-circulation filtering device produces dynamic absorption airborne dust by wind energy driving device and filters tail gas.Wind energy water-circulation filtering device is by wind energy power transmission shaft, drives water pump connecting water pipe, carries out water circulation flushing to filter plant.Bottom half is provided with a sealing sewage draining exit, is convenient in good time blowdown and changes water.
Airborne dust adsorption filtration device is connected to airborne dust filter is carried out water circulating filter and activated carbon filtration by screen pack, suction fan, airborne dust pipeline.In order to eliminate water Voice of Waves in running car, water surface site is provided with noise reduction interlayer 29.Tail gas differentiation treating apparatus is mounted in the tapered, porous iron ball of blast pipe A23 leading portion, plays the effect of second-time burning differentiation.Exhaust emissions power assisting device is arranged exhaust emissions force aid system 25 by blast pipe A23 stage casing and be connected to controller, according to throttle size, solve exhaust resistance, be connected in casing by the bend pipe 27 that blocks water and carry out water filtration, activated carbon filtration adsorbs, discharge through tail gas booster 2, end arranges tail gas induction self-test device 37 again.
The present invention is arranged on automobile tail, and after automobile starting, tail gas is through tail gas differentiation device 24 second-time burning differentiation, the discharge capacity of Throttle Opening Control exhaust emissions booster 25, tail gas after differentiation enters casing through silencer 26, carries out water filtration, charcoal absorption by wind energy driving device.
The principle that the present invention moves according to ant, carry out with mobile resources, administer mobile pollution source, transform the principle of new forms of energy, administer tail gas, airborne dust, harmful substance in the air of absorption place of arrival, allow automobile become the compulsory serviceman of clean air and mobile cleaning source, supporting vehicle mounted tail gas solves for the purpose of tail gas, dust pollution and automobile self-defect from monitoring system.
The present invention is by changing original wheel hub mud guard shape, increase wind energy drive fan, build airborne dust pipeline, be connected with casing, and screen pack is set, water circulating filter is carried out to automobile raising-dust, highway airborne dust is made effectively to be absorbed and control, also have defrosting function, automobile is no longer pollution sources but mobile cleaning source, and place of arrival can absorb a part of pernicious gas simultaneously; Neither affect China Automobile Industry, do not affect national income again, be not detrimental to health, also help ecological environment, simultaneously all right reserve part heavy industry enterprise, automobile is forged into the soldier at the head of a formation and compulsory serviceman that administer haze.Especially in foggy weather situation, have defrosting function, ice snow covered pavement has to be tested, thus makes up automobile self-defect.
To those skilled in the art, obviously the invention is not restricted to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present invention or essential characteristic, the present invention can be realized in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present invention is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the present invention.
In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (8)

1. a multi-functional tail gas airborne dust treatment system, it is characterized in that, comprise airborne dust adsorption filtration device, tail gas differentiation treating apparatus, exhaust emissions power assisting device, wind energy driving device, wind energy active carbon filtering device, wind energy water-circulation filtering device, tail gas airborne dust tapping equipment, casing and casing fixed connecting piece, described tail gas differentiation treating apparatus is connected with casing by exhaust emissions power assisting device, described airborne dust adsorption filtration device is connected with casing, described wind energy driving device, wind energy active carbon filtering device, wind energy water-circulation filtering device and tail gas airborne dust tapping equipment are fixedly connected on casing top respectively.
2. multi-functional tail gas airborne dust treatment system according to claim 1, it is characterized in that, described airborne dust adsorption filtration device comprises mud guard, airborne dust pipeline, screen pack, suction fan, airborne dust filter, airborne dust screen pack and activated charcoal strainer, described mud guard comprises left front mud guard (1), left back mud guard (5), right front mud guard (12) and right back mud guard (16), described airborne dust pipeline comprises left front airborne dust pipeline (2), left back airborne dust pipeline (6), right front airborne dust pipeline (13) and right back airborne dust pipeline (17), described screen pack comprises left front screen pack (3), left back screen pack (7), right front screen pack (14) and right back screen pack (18), described suction fan comprises left front suction fan (4), left back suction fan (8), right front suction fan (15) and right back suction fan (19), described airborne dust filter comprises left airborne dust filter (9) and right airborne dust filter (20), described airborne dust screen pack comprises left airborne dust screen pack (10) and right airborne dust screen pack (21), and described activated charcoal strainer comprises left activated charcoal strainer (11) and right activated charcoal strainer (22), described left front mud guard (1), left back mud guard (5), right front mud guard (12) and right back mud guard (16) lay respectively at the near front wheel, left rear wheel, off-front wheel, the rear of off hind wheel, described left front airborne dust pipeline (2), left back airborne dust pipeline (6), right front airborne dust pipeline (13), right back airborne dust pipeline (17) respectively with corresponding left front mud guard (1), left back mud guard (5), right front mud guard (12), right back mud guard (16) connects, described left front airborne dust pipeline (2), left back airborne dust pipeline (6), right front airborne dust pipeline (13), near corresponding left front mud guard (1) in right back airborne dust pipeline (17), left back mud guard (5), right front mud guard (12), one end of right back mud guard (16) is respectively arranged with left front screen pack (3) and left front suction fan (4), left back screen pack (7) and left back suction fan (8), right front screen pack (14) and right front suction fan (15), right back screen pack (18) and right back suction fan (19), described left front airborne dust pipeline (2) is connected with the bottom of left back airborne dust pipeline (6) and is connected with left airborne dust filter (9), described left airborne dust screen pack (10) and left activated charcoal strainer (11) are arranged in left airborne dust filter (9), described right front airborne dust pipeline (13) is connected with the bottom of right back airborne dust pipeline (17) and is connected with right airborne dust filter (20), and described right airborne dust screen pack (21) and right activated charcoal strainer (22) are arranged in right airborne dust filter (20).
3. multi-functional tail gas airborne dust treatment system according to claim 1, it is characterized in that, described tail gas divides gasifying device to comprise blast pipe A(23) and tail gas differentiation device (24), described tail gas differentiation device (24) is arranged on blast pipe A(23) in.
4. multi-functional tail gas airborne dust treatment system according to claim 1, it is characterized in that, described exhaust emissions power assisting device comprises exhaust emissions booster (25), throttle (41), muffler (26) and the bend pipe that blocks water (27), described exhaust emissions booster (25) comprises controller, acceleration cable and exhausting waste gas fan B, controls exhaust emissions amount according to throttle size.
5. multi-functional tail gas airborne dust treatment system according to claim 1, it is characterized in that, described wind energy driving device comprises wind energy drive system (28) and noise reduction interlayer (29), described noise reduction interlayer (29) is arranged on the casing water surface, and described wind energy drive system (28) comprises fan, power transmission shaft and water circulating pump.
6. multi-functional tail gas airborne dust treatment system according to claim 1, is characterized in that, described wind energy active carbon filtering device comprises active carbon at the bottom of case (30) and tail gas active carbon filtering device (31).
7. multi-functional tail gas airborne dust treatment system according to claim 1, it is characterized in that, described wind energy water-circulation filtering device comprises filler (32), tail gas water-circulation filtering device (33), left airborne dust water-supply-pipe (34), right airborne dust water-supply-pipe (35), described filler (32) is arranged on casing side, described tail gas water-circulation filtering device (33) is connected with tail gas active carbon filtering device (31), described left airborne dust water-supply-pipe (34) is connected with left airborne dust filter (9), described right airborne dust water-supply-pipe (35) is connected with right airborne dust filter (20).
8. multi-functional tail gas airborne dust treatment system according to claim 1, it is characterized in that, described tail gas airborne dust tapping equipment comprises blast pipe B(36), tail gas Autonomous test induction installation (37), outlet port (38), blowdown apparatus (39), exhausting waste gas fan A(40), described outlet port (38) is positioned at blast pipe B(36) end, described tail gas Autonomous test induction installation (37) and exhausting waste gas fan A(40) be arranged on blast pipe B(36) end, described blowdown apparatus (39) is positioned at the bottom of casing opposite side.
CN201410620727.XA 2014-11-07 2014-11-07 A kind of multi-functional tail gas airborne dust treatment system Expired - Fee Related CN104587778B (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105536403A (en) * 2015-12-25 2016-05-04 合肥工业大学 Raise dust treatment system for truck construction site
CN111545062A (en) * 2020-06-11 2020-08-18 深圳市亿众乐新能源科技有限公司 Automobile exhaust handles and carbon dioxide recovery system

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000135411A (en) * 1998-10-29 2000-05-16 Tanabe Kogyo Kk Exhaust gas treatment device and its manufacture
CN2558438Y (en) * 2002-07-05 2003-07-02 新疆塔里木管道防腐涂料有限公司 Coal tar fume purifying device
CN203489328U (en) * 2013-09-11 2014-03-19 南车青岛四方机车车辆股份有限公司 Oil smoke purifying device for railway vehicle
CN203518106U (en) * 2013-10-21 2014-04-02 王全龄 Haze pollutant removing device
CN204352711U (en) * 2014-11-07 2015-05-27 杨吉全 A kind of multi-functional tail gas airborne dust treatment system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000135411A (en) * 1998-10-29 2000-05-16 Tanabe Kogyo Kk Exhaust gas treatment device and its manufacture
CN2558438Y (en) * 2002-07-05 2003-07-02 新疆塔里木管道防腐涂料有限公司 Coal tar fume purifying device
CN203489328U (en) * 2013-09-11 2014-03-19 南车青岛四方机车车辆股份有限公司 Oil smoke purifying device for railway vehicle
CN203518106U (en) * 2013-10-21 2014-04-02 王全龄 Haze pollutant removing device
CN204352711U (en) * 2014-11-07 2015-05-27 杨吉全 A kind of multi-functional tail gas airborne dust treatment system

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105536403A (en) * 2015-12-25 2016-05-04 合肥工业大学 Raise dust treatment system for truck construction site
CN105536403B (en) * 2015-12-25 2017-05-17 合肥工业大学 Raise dust treatment system for truck construction site
CN111545062A (en) * 2020-06-11 2020-08-18 深圳市亿众乐新能源科技有限公司 Automobile exhaust handles and carbon dioxide recovery system

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Effective date of registration: 20160928

Address after: 518000, Guangdong, Baoan District province Xixiang Shenzhen street labor Village, labor two teams, Lane 16, 305

Patentee after: SHENZHEN YIZHONGLE NEW ENERGY TECHNOLOGY CO.,LTD.

Address before: 721600, No. four, No. 130, East Village, Taibai Town, Taibai County, Baoji, Shaanxi

Patentee before: Yang Jiquan

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Granted publication date: 20160406