CN205887180U - Gaseous dust collector of dust removal module and cylinder - Google Patents
Gaseous dust collector of dust removal module and cylinder Download PDFInfo
- Publication number
- CN205887180U CN205887180U CN201620467542.4U CN201620467542U CN205887180U CN 205887180 U CN205887180 U CN 205887180U CN 201620467542 U CN201620467542 U CN 201620467542U CN 205887180 U CN205887180 U CN 205887180U
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- China
- Prior art keywords
- cover body
- cleaner unit
- dust
- dedusting module
- gas
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model discloses a gaseous dust collector of dust removal module and cylinder, the cylinder gaseous dust collector include: having the barrel of air inlet and gas outlet, being equipped with dust removal module in the barrel, dust removal module includes the at least two -layer cover body, reaches a plurality of dust absorption units of filling between the adjacent cover body, and the cover body is equipped with the air vent, in air inlet and the gas outlet one with the space intercommunication of the internal side of inner hood, another and the space intercommunication of the external side of outer cover, at least one cover body is rotatable, produces static between messenger's dust absorption unit or between the dust absorption unit and the cover body, and the gas of air inlet department passes through during dust removal module, the dust in the gas is had the dust absorption unit absorption of static. Can not appear gaseously by ionized phenomenon between the dust absorption unit and between the dust absorption unit and the cover body, can not cause secondary pollution, rotate the cover body and can produce the electrostatic field, need not to change the dust absorption unit, purify with low costsly, there is the space between the dust absorption unit, it is less to the resistance that gas flow produced.
Description
Technical field
This utility model is related to gas cleaning equipment technical field, more particularly, to a kind of dedusting module and cartridge-type gas dedusting
Device.
Background technology
At present, produce a large amount of dust material in various industrial process, such as in factory floor, burning waste gas etc.;In life,
Haze that the discharge such as substantial amounts of tail gas, mineral oil combustion leads to etc..These particulate matters suspend in atmosphere, and the mankind are good for
Health, life and production cause serious impact.
At present, industrial dedusting method mainly has electrostatic precipitation, filter bag dedusting etc..Conventional electrostatic cleaner unit is to be produced by high pressure
Raw corona discharge, makes gas ionization relief dust granules powered, is then adsorbed to battery lead plate in electric field again, realizes dedusting mesh
's.In corona discharge process, gas is ionized as cation and electronics, and electronics marches on towards in anode process and runs into grit, makes grit
The negatively charged positive pole that is adsorbed onto is collected, and electronics also can be combined with oxygen in gas simultaneously, produces ozone, this will necessarily cause secondary
Pollution;And in filter bag dedusting, efficient filter-bag itself can produce larger resistance to gas, it is unfavorable for that gas flows, also not simultaneously
Beneficial to reusing, need to regularly replace.
Utility model content
Have that filtration resistance is high in use, consumptive material need to be changed to solve existing gas cleaning equipment, easily
Produce the problem that ozone causes secondary pollution.
For solving the above problems, this utility model provides a kind of dedusting module, including at least two-layer from inside to outside successively
Sheathed cover body and be filled in some cleaner unit between adjacent cover body, described cover body all offers passage;At least one
Individual described cover body is connected with the driver driving it to rotate;
Described cover body and presence at least two different electronegativity between cleaner unit or cleaner unit;
Cover body rotates to be made to produce friction, collision between cleaner unit or between cleaner unit and cover body, and then makes dust suction list
Electrostatic charge in first surface band, when the gas at air inlet is by described dedusting module, the dust in gas is by the suction with electrostatic
Dirt unit adsorbs.
Alternatively, the serial number in some cover bodies being distributed from inside to outside be odd number or even number cover body be connected with drive its
The driver rotating.
Alternatively, described cover body is respectively connected with the driver driving it to rotate.
Alternatively, the rotation direction of adjacent described cover body is contrary.
Alternatively, the angular velocity that adjacent described cover body rotates is different.
Alternatively, described dedusting module has inner cover, two cover bodies of outer housing, and outer housing is set in outside inner cover.
Alternatively, described dedusting module has three cover bodies.
Alternatively, described driver includes motor and drive disk assembly, and described drive disk assembly is belt and belt wheel, chain and chain
Wheel or gear structure.
Alternatively, described passage is: circular hole, square hole, slotted hole or gap structure.
Alternatively, the particle size range of described cleaner unit is 0.5mm 10mm, the aperture of described passage or gap width
Particle diameter less than described cleaner unit.
Alternatively, between adjacent cover body, the quantitative proportion scope with the cleaner unit of two kinds of different electronegativity is 0:
1—1:1.
Alternatively, described cover body is all coaxially disposed.
This utility model also disclosed a kind of cartridge-type gas dust arrester, comprising: has the cylinder of air inlet and gas outlet,
It is provided with dedusting module as above, inside one of described air inlet and gas outlet and innermost layer cover body in described cylinder
Space connects, and another is connected with the space outside outermost layer cover body.
Alternatively, described air inlet or gas outlet are connected with blower fan.
Alternatively, described air inlet is arranged on the bottom of described cylinder, and described gas outlet is arranged on the top of described cylinder.
Alternatively, described cover body is the cylindrical structure of bottom-open, and the bottom of cover body is relative with the bottom of described cylinder, institute
State the side of cover body and top surface is equipped with described passage.
Alternatively, described gas outlet is made up of the passage being opened in described cylinder top.
Alternatively, described passage is: circular hole, square hole, slotted hole or gap structure.
This utility model has the beneficial effect that:
Dedusting module described in the utility model, using cover body sheathed successively from inside to outside, is filled with dust suction between cover body
Unit, by the several or multiple cover body of driver drives rotate, drive cleaner unit between or cleaner unit and cover body between phase
Mutual friction, collision, due to the difference of electronegativity, electrons between the cleaner unit of unlike material or cleaner unit and cover body it
Between shift, make positive charge or negative charge in cleaner unit surface band;When gas passes through, the dust in gas is by the suction with electrostatic
Dirt unit adsorbs, and realizes the purification to gas;It is not in gas quilt between cleaner unit and between cleaner unit and cover body
, therefore just there is not the ozoniferous phenomenon of product yet, do not result in secondary pollution in the phenomenon of ionization;Exist empty between cleaner unit
Gap, the resistance that gas flowing is produced is very little.
Brief description
Fig. 1 is the structural representation of cartridge-type gas dust arrester described in this utility model embodiment.
Reference is:
1 cylinder
11 gas outlets
12 air inlets
2 blower fans
3 motors
4 inner covers
5 cleaner unit
6 outer housings.
Specific embodiment
Specific embodiment is only to explanation of the present utility model, and does not constitute the restriction to this utility model content,
Below in conjunction with accompanying drawing and specific embodiment, this utility model is further described and describes.
Embodiment one:
As shown in figure 1, this utility model discloses a kind of dedusting module, sheathed successively from inside to outside including at least two-layer
Cover body and be filled in some cleaner unit between adjacent cover body, described cover body all offers passage;Described at least one
Cover body is connected with the driver driving it to rotate;At least two are had between described cover body and cleaner unit or cleaner unit
Different electronegativity;Cover body rotates to be made to produce friction, collision between cleaner unit or between cleaner unit and cover body, and then makes
Electrostatic charge in cleaner unit surface band, when the gas at air inlet is by described dedusting module, the dust in gas is by with quiet
The cleaner unit absorption of electricity.
Gas, is discharged through outermost layer cover body, certainly from the inner side of innermost layer cover body after whole dedusting module purifies
Can be in turn.Cleaning principle is as follows: the corresponding cover body of driver drives rotates, and the cleaner unit 5 contacting with cover body is in friction
Setting in motion in the presence of power and gravity, makes between some cleaner unit 5, produces friction and touch between cleaner unit 5 and cover body
Hit, because electronegativity is different, the ability of different materials bound electron is different, in friction and collision process, electronics starts inhaling
Shift so that cleaner unit 5 becomes positively charged or negative electricity between dirt unit 5 or between cleaner unit 5 and cover body, form high pressure quiet
Electric field, thus the dust granules in adsorbed gas, realizes the purpose of purification gas.Due between cleaner unit 5 and dust suction list
Between unit 5 and cover body, distance is very short, and there is not point discharge phenomenon, thus without the phenomenon that gas is ionized, therefore
Just there is not the ozoniferous phenomenon of product, do not result in secondary pollution yet;Only need to rotate cover body, you can produce electrostatic field, therefore
Cleaner unit need not be changed, purify low cost;Gap between cleaner unit 5 is very big, and gas can be easily from dust suction
Gap location between unit 5 passes through, and the resistance that cleaner unit 5 produces to gas flowing is very little.
Alternatively, the serial number in some cover bodies being distributed from inside to outside be odd number or even number cover body be connected with drive its
The driver rotating.As a example ensure that all cleaner unit 5 can be powered, cover body is followed successively by from inside to outside: fixing-to rotate-fixing-
The state rotating ..., it is also possible to realize producing with the hood pedestal being fixedly installed when cleaner unit 5 movement degree is larger
The purpose of raw friction, it is ensured that all cleaner unit 5 can participate in adsorption process, improves absorbability.Only part is covered
Body rotates, and can save part electric energy.
Alternatively, described cover body is respectively connected with the driver driving it to rotate.In order to further enhance rubbing of cleaner unit 5
Wiping, impact severity, all cover bodies are both configured to rotatable structure, so can ensure that all cleaner unit 5 all reach participation,
Be not in the phenomenon leading to because cover body fixes part cleaner unit 5 motionless, improve the utilization rate of cleaner unit 5.
Alternatively, the rotation direction of adjacent described cover body is contrary.On the basis of all cover bodies all rotate, in order to avoid going out
The existing equidirectional rotation of adjacent cover body leads to cleaner unit 5 entirety between cover body to be moved together with cover body it is impossible to realize dust suction list
Unit 5 produces the purpose of friction with cover body, adjacent cover body is arranged to rotate in the opposite direction, thus avoiding above-mentioned unfavorable existing
The generation of elephant, it is ensured that each cleaner unit 5 can participate in the process of adsorption cleaning, improves the absorbability of whole dedusting module.
Alternatively, the angular velocity that adjacent described cover body rotates is different.Similar, on the basis of all cover bodies all rotate,
When the angular velocity that adjacent cover body rotates is identical, the cleaner unit 5 between two cover bodies will integrally with two cover bodies together
Motion, cleaner unit 5 will not produce friction and cover body between, in order to avoid this phenomenon, by the angle of adjacent cover body rotation
Speed is arranged to different value, has speed difference between the two, so that cleaner unit 5 between the two can move, makes dust suction
Between unit 5, between cleaner unit 5 and cover body, produce friction, participate in adsorption cleaning process.
Alternatively, described dedusting module has inner cover 4,6 two cover bodies of outer housing, and outer housing 6 is set in outside inner cover 4.As Fig. 1
Shown, this be one kind preferred embodiment, only inside and outside two-layer cover body, middle setting cleaner unit 5;Wherein one can be selected
Individual rotation, another is fixed;Or two rotate simultaneously, preferably rotation direction is contrary, such best results.
Cover body can intermittently rotate, and velocity of rotation can be very slow.
The rotating speed of cover body otherwise can easily rub and produce amount of heat without too high;Certainly, rotating speed is lower, consumes electricity
Can be also lower.The rotation of cover body is also not necessarily intended to continuously rotate, because cleaner unit 5 collision rift, its surface charge is permissible
Keep longer period of time, during this period of time have adsorption effect to the dust in gas;Electricity therefore can be opened off and on
Machine 3, rotates cover body, rotates once within such as three days, once rotates 30 minutes it is possible to meet the purification demand of three days, electricity disappears
Consumption is considerably less.
Alternatively, described dedusting module has three cover bodies.This is another preferred embodiment, is divided into from inside to outside
Three layers of cover body, arrange two-layer cleaner unit 5 between three layers of cover body altogether;The cover body that centre can be arranged to rotates, and inside and outside two solid
Fixed;Or any two rotates, and one motionless;Also or three cover bodies all rotate;When two neighboring cover body all rotates, permissible
Ensure that the cleaner unit 5 between this two cover bodies can occur by way of angular velocity both controlling are different or steering is different
Friction, collision, make the powered participation adsorption process of cleaner unit 5.
Alternatively, described outer housing 6 is isolation material, and the cleaner unit 5 between the adjacent cover body of any two all includes two kinds,
The electronegativity of cleaner unit 5 described in one of which is more than or less than the electronegativity of another kind of cleaner unit 5.Outer housing 6 insulate, and does not join
With electronic transfer process, so the material of cover body can be nylon, politef, acrylic, engineering plastics etc..Cleaner unit
Electron transfer can occur between 5 and cleaner unit 5 and then produce electrostatic, be because tool between the cleaner unit 5 of unlike material
There are different electronegativity, that is, the ability of bound electron is different, there occurs friction between cleaner unit 5 or collide, arise that
The phenomenon of electron transfer, makes cleaner unit 5 surface with different electronegativity become positively charged respectively and negative electricity;Electronegativity difference is got over
Greatly, electron transfer phenomenon more easily occurs.The height of cleaner unit 5 electronegativity depends on the material of composition cleaner unit 5, high electricity
The material of negativity can be macromolecule (polymer) such as ptfe, fep etc., the material such as quartz, glass, silicate material of low electronegativity
Material etc..
Alternatively, the electronegativity of described outer housing 6 is more than or less than the electronegativity of cleaner unit 5 in contact.Similar
, when cleaner unit 5 material is identical, cleaner unit 5 is respectively adopted from cover body to be had the material of different electronegativity and makes, then may be used
There is electron transfer between cleaner unit 5 and cover body, make electrostatic in cleaner unit 5 surface band, realize the powder in adsorbed gas
The purpose of dirt granule, with regard to using which kind of material, may refer to the description of the last period, here is omitted.
In addition, cleaner unit 5 can be the solid or hollow bead being made up of a kind of material or surface scribbles tool
There is the solid or hollow bead of the material of certain electronegativity, as long as ensureing in friction process, the surface of cleaner unit 5 can carry
Upper positive electricity or negative electricity.Cover body can also be made of all over by the material with certain electronegativity, or surface scribbles
There is the material layer of certain electronegativity, purchase cost flexible design that can according to actual needs with material.
Alternatively, described driver includes motor 3 and drive disk assembly, described drive disk assembly is belt and belt wheel, chain with
Sprocket wheel or gear structure.Drive disk assembly can flexibly select, as long as cover body can be driven to rotate;Such as outermost layer
Cover body, can be respectively provided with belt wheel outside motor 3 axle and cover body, then be connected by belt, realize transmission;Can certainly change
Become chain or gear drive, flexibly can be selected according to size of installing space etc..
Alternatively, the described passage being arranged on cover body is preferably: circular hole, square hole, slotted hole or gap structure, here
Simply enumerate several preferred ground structures, the structure that other are capable of ventilating can also adopt.
Alternatively, the particle size range of described cleaner unit 5 is 0.5mm 10mm, the aperture of described passage or slit width
Degree is less than the particle diameter of described cleaner unit 5.Passage should ensure that gas can pass through, and prevents cleaner unit 5 from leaking out again
Go, so the aperture of passage or gap width are less than the particle diameter of described cleaner unit 5.
Alternatively, when having two kinds of different electronegativity between the cleaner unit 5 between adjacent cover body, described in two kinds
The quantitative proportion scope of cleaner unit 5 is 0:1 1:1.Or the i.e. electronegativity all same of all cleaner unit 5;Dust suction
Unit 5 has two kinds of electronegativity, the quantity of two kinds of cleaner unit 5 can equal it is also possible to unequal, as long as can turn in cover body
High voltage electric field is produced in dynamic process.
Alternatively, described cover body is all coaxially disposed.It is coaxially disposed and can ensure that the distance between adjacent cover body is equal everywhere,
Stable to the comparison of resistance of motor 3 in cover body rotation process, stress is also more stable everywhere for cover body, is conducive to extending motor 3 He
The service life of cover body.
Embodiment two:
As shown in figure 1, this utility model also disclosed a kind of cartridge-type gas dust arrester, comprising: have air inlet 12 He
The cylinder 1 of gas outlet 11, is provided with the dedusting module as described in embodiment one, described air inlet 12 and gas outlet in described cylinder 1
One of 11 are connected with the space inside innermost layer cover body, and another is connected with the space outside outermost layer cover body;
Cover body rotates to be made to produce friction, collision between cleaner unit 5 or between cleaner unit 5 and cover body, and then makes dust suction
Electrostatic charge in unit 5 surface band, when the gas at air inlet 12 is by described dedusting module, the dust in gas is by with electrostatic
Cleaner unit 5 adsorb.
The corresponding cover body of driver drives rotates, and the cleaner unit 5 contacting with cover body is in the presence of frictional force and gravity
Setting in motion, makes between cleaner unit 5, produces friction and collide, due to different materials latent electricity between cleaner unit 5 and cover body
The ability of son is different, in friction and collision process, electronics start between cleaner unit 5 or cleaner unit 5 and cover body it
Between transfer so that cleaner unit 5 becomes positively charged or negative electricity, thus the dust granules in adsorbed gas, realize the mesh of purification gas
's.Because distance is very short between cleaner unit 5 and between cleaner unit 5 and cover body, and there is not point discharge phenomenon, therefore
Be not in the phenomenon that gas is ionized, therefore also just there is not the ozoniferous phenomenon of product, do not result in secondary pollution;Only need to
Rotate cover body, you can produce electrostatic field, therefore need not change cleaner unit, purify low cost;Between between cleaner unit 5
Gap is very big, and gas can pass through the gap location between cleaner unit 5 easily, the resistance that cleaner unit 5 produces to gas flowing
Power is very little.
Alternatively, described air inlet 12 or gas outlet 11 are connected with blower fan 2.The setting of blower fan 2 can ensure that holding of gas
Afterflow is moved, and increases the volume of purification gas in the unit interval.
Alternatively, described air inlet 12 is arranged on the bottom of described cylinder 1, and described gas outlet 11 is arranged on described cylinder 1
Top.Giving vent to anger and be conducive to the large area of live gass to spread in top, improves gas diffusion velocity.
Alternatively, described cover body is the cylindrical structure of bottom-open, and the bottom of cover body is relative with the bottom of described cylinder 1,
The side of described cover body and top surface are equipped with described passage.On the basis of gas bottom in and top out, in conjunction with the structure of cover body, gas
After body enters the space inside innermost layer cover body, dedusting module can be simultaneously entered from the side of innermost layer cover body and top, so
Discharge so that gas can be evenly distributed to whole dedusting from the side of outermost layer cover body and top discharge and from gas outlet 11 afterwards
In module, it is to avoid certain part gas concentration through dedusting module is it is ensured that all cleaner unit 5 can participate in and adsorbed
Journey.
Alternatively, described gas outlet 11 is made up of some passages being opened in described cylinder 1 top.The setting of passage
Do not interfere with the aesthetic property of whole cartridge-type gas dust arrester;Similar to humidifier, purified gas need not be drawn, can be direct
The places such as interior are discharged into by passage so that whole cartridge-type gas dust arrester structure is simple, can directly put indoors
Use.
The described passage being arranged on cylinder is preferably: circular hole, square hole, slotted hole or gap structure, merely just arranges
Lift several preferred ground structures, the structure that other are capable of ventilating can also adopt.
Below, explain cartridge-type gas dust arrester described in the utility model in detail taking double-deck cover body as a example
Work process: as shown in figure 1, outer housing 6 is connected with driver, inner cover 4 is fixed on the diapire of cylinder 1, outer housing after motor 3 startup
6 rotations, drive outermost cleaner unit 5 to move in the presence of frictional force, and then friction is progressively delivered to innermost layer
At cleaner unit 5, all cleaner unit 5 are made to can participate in motion, between cleaner unit 5, cleaner unit 5 and inner cover 4, dust suction list
Phase mutual friction, collision between unit 5 and outer housing 6, realize electron transfer, and cleaner unit 5 becomes positively charged lotus or negative charge;Blower fan 2 will
Ambient atmos deliver to air inlet 12, and gradually the side wall through inner cover 4, top enter dedusting module, the dust in gas to gas
Granule is realized purifying after being adsorbed by the cleaner unit 5 with electric charge;Purified gas is discharged from the side wall of outer housing 6, top, and
Passage at gas outlet 11 is discharged respectively, for users to use.
Different embodiments can be combined into according to claim of the present utility model, but according to enforcement of the present utility model
Example is only used for this utility model is illustrated and this utility model can't be caused limit.
Obviously, those skilled in the art can carry out various changes and modification without deviating from this practicality to this utility model
New spirit and scope.So, if of the present utility model these modification and modification belong to this utility model claim and
Within the scope of its equivalent technologies, then this utility model is also intended to comprise these changes and modification.
Claims (18)
1. a kind of dedusting module is it is characterised in that include at least two-layer cover body sheathed successively from inside to outside and be filled in adjacent
Some cleaner unit between cover body, described cover body all offers passage;At least one described cover body is connected with and drives it
The driver rotating;
Described cover body and presence at least two different electronegativity between cleaner unit or cleaner unit;
Cover body rotates to be made to produce friction, collision between cleaner unit or between cleaner unit and cover body, and then makes cleaner unit table
Electrostatic charge on the band of face, when the gas at air inlet is by described dedusting module, the dust in gas is by the dust suction list with electrostatic
Unit's absorption.
2. dedusting module as claimed in claim 1 is it is characterised in that the serial number in some cover bodies of being distributed from inside to outside is
The cover body of odd number or even number is connected with the driver driving it to rotate.
3. dedusting module as claimed in claim 1 is it is characterised in that described cover body is respectively connected with the driving driving it to rotate
Device.
4. dedusting module as claimed in claim 3 is it is characterised in that the rotation direction of adjacent described cover body is contrary.
5. the dedusting module as described in any one of claim 2 to 4 is it is characterised in that the angular velocity that rotates of adjacent described cover body
Different.
6. dedusting module as claimed in claim 5 is it is characterised in that described dedusting module has inner cover, two cover bodies of outer housing,
Outer housing is set in outside inner cover.
7. dedusting module as claimed in claim 5 is it is characterised in that described dedusting module has three cover bodies.
8. dedusting module as claimed in claim 1 or 2 is it is characterised in that described driver includes motor and drive disk assembly, institute
Stating drive disk assembly is belt and belt wheel, chain and sprocket wheel or gear structure.
9. dedusting module as claimed in claim 1 is it is characterised in that described passage is: circular hole, square hole, slotted hole or seam
Gap structure.
10. dedusting module as claimed in claim 1 is it is characterised in that the particle size range of described cleaner unit is 0.5mm
10mm, the aperture of described passage or gap width are less than the particle diameter of described cleaner unit.
11. dedusting modules as described in claim 1 or 10 are it is characterised in that between adjacent cover body, have two kinds of differences
The quantitative proportion scope of the cleaner unit of electronegativity is 0:1 1:1.
12. dedusting modules as claimed in claim 1 are it is characterised in that described cover body is all coaxially disposed.
A kind of 13. cartridge-type gas dust arresters are it is characterised in that include: have the cylinder of air inlet and gas outlet, described cylinder
Inside it is provided with the dedusting module as described in any one of claim 1-12, one of described air inlet and gas outlet and innermost layer cover
The space connection of internal side, another is connected with the space outside outermost layer cover body.
14. cartridge-type gas dust arresters as claimed in claim 13 are it is characterised in that described air inlet or gas outlet are connected with
Blower fan.
15. cartridge-type gas dust arresters as claimed in claim 13 are it is characterised in that described air inlet is arranged on described cylinder
Bottom, described gas outlet is arranged on the top of described cylinder.
16. cartridge-type gas dust arresters as claimed in claim 15 are it is characterised in that described cover body is the cylinder of bottom-open
Structure, the bottom of cover body is relative with the bottom of described cylinder, and the side of described cover body and top surface are equipped with described passage.
17. cartridge-type gas dust arresters as claimed in claim 15 are it is characterised in that described gas outlet is by being opened in described cylinder
The passage at body top is constituted.
18. cartridge-type gas dust arresters as claimed in claim 17 are it is characterised in that described passage is: circular hole, square hole,
Slotted hole or gap structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620467542.4U CN205887180U (en) | 2016-05-19 | 2016-05-19 | Gaseous dust collector of dust removal module and cylinder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620467542.4U CN205887180U (en) | 2016-05-19 | 2016-05-19 | Gaseous dust collector of dust removal module and cylinder |
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CN205887180U true CN205887180U (en) | 2017-01-18 |
Family
ID=57766181
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106560251A (en) * | 2016-05-19 | 2017-04-12 | 北京纳米能源与系统研究所 | Dedusting module and cartridge type gas dedusting device |
WO2017198216A1 (en) * | 2016-05-19 | 2017-11-23 | 北京中科纳清科技股份有限公司 | Dust removing module and gas dust-removing device |
CN107413530A (en) * | 2017-05-22 | 2017-12-01 | 潍坊学院 | The method of non-gaseous matter in charged particle filtering gas |
-
2016
- 2016-05-19 CN CN201620467542.4U patent/CN205887180U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106560251A (en) * | 2016-05-19 | 2017-04-12 | 北京纳米能源与系统研究所 | Dedusting module and cartridge type gas dedusting device |
WO2017198216A1 (en) * | 2016-05-19 | 2017-11-23 | 北京中科纳清科技股份有限公司 | Dust removing module and gas dust-removing device |
CN107413530A (en) * | 2017-05-22 | 2017-12-01 | 潍坊学院 | The method of non-gaseous matter in charged particle filtering gas |
CN107413530B (en) * | 2017-05-22 | 2019-01-25 | 潍坊学院 | The method that charged particle filters non-gaseous matter in gas |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20170525 Address after: Yang Yanlu 101407 Beijing city Huairou District Yanqi Economic Development Zone No. 88 Patentee after: Beijing Kona Qing Polytron Technologies Inc Address before: 100083 Beijing City, Haidian District Xueyuan Road No. 30, large industrial building C Patentee before: BEIJING INSTITUTE OF NANOENERGY AND NANOSYSTEMS |
|
TR01 | Transfer of patent right | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170118 Effective date of abandoning: 20180511 |
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AV01 | Patent right actively abandoned |