CN103537154B - Three-dimensional composite dust remover - Google Patents
Three-dimensional composite dust remover Download PDFInfo
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- CN103537154B CN103537154B CN201310465992.0A CN201310465992A CN103537154B CN 103537154 B CN103537154 B CN 103537154B CN 201310465992 A CN201310465992 A CN 201310465992A CN 103537154 B CN103537154 B CN 103537154B
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- 239000011165 3D composite Substances 0.000 title claims abstract description 45
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- NIXOWILDQLNWCW-UHFFFAOYSA-N 2-Propenoic acid Natural products OC(=O)C=C NIXOWILDQLNWCW-UHFFFAOYSA-N 0.000 claims description 6
- SMZOUWXMTYCWNB-UHFFFAOYSA-N 2-(2-methoxy-5-methylphenyl)ethanamine Chemical compound COC1=CC=C(C)C=C1CCN SMZOUWXMTYCWNB-UHFFFAOYSA-N 0.000 claims description 3
- 239000011248 coating agent Substances 0.000 claims description 3
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- 239000002245 particle Substances 0.000 abstract description 17
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- 238000010521 absorption reaction Methods 0.000 description 3
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- 238000012423 maintenance Methods 0.000 description 2
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- 229910052493 LiFePO4 Inorganic materials 0.000 description 1
- 239000002216 antistatic agent Substances 0.000 description 1
- 230000004888 barrier function Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000001914 filtration Methods 0.000 description 1
- 238000000227 grinding Methods 0.000 description 1
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Abstract
The invention provides a kind of three-dimensional composite dust remover, belong to technical field of operation.It solve the particle of existing deduster volume and the trapping of two kinds of dedusters and dust not in the problem that same place is deposited.This three-dimensional composite dust remover comprises cyclone dust collectors as primary dust removing and secondary ash collector; Upward, described secondary ash collector is positioned at the top of cyclone dust collectors to the air outlet of cyclone dust collectors; The entering-dust mouth of described secondary ash collector down and be oppositely arranged with the air outlet of cyclone dust collectors; The dirt structure of leading that the entering-dust mouth of described secondary ash collector is imported in the air outlet of cyclone dust collectors by the dust that secondary ash collector can be trapped with the air outlet of cyclone dust collectors is connected.This three-dimensional composite dust remover cyclone dust collectors trapping particle and sack cleaner trapping dust all concentrate in the dust collection drawer of cyclone dust collectors, thus process particle and dust more convenient; When being product for the particle trapped and dust, effectively ensure product Homogeneous phase mixing simultaneously.
Description
Technical field
The invention belongs to technical field of operation, relate to a kind of dust arrester, particularly a kind of three-dimensional composite dust remover.
Background technology
In the industrial production, all dust can be produced, as wheel grinding, abrasive band polishing etc. in vertical multiple operation; Need thus to utilize deduster to be separated from gas by dust.
Pertinent literature about deduster is more, as a kind of cyclone-bag composite dust collector (application number: 200920222671.7 that Chinese patent literature is recorded; Notification number: CN201519537U), comprise the cyclone dust collectors as primary dust removing device and the sack cleaner as secondary ash collector.Cyclone dust collectors are the equipment utilizing gas High Rotation Speed to carry out inertial separation dust.It is applicable to the removal of non-stickiness and non-fiber dust, and mostly with the particle removing more than 5 μm, multicyclone device in parallel also has the efficiency of dust collection of 80 ~ 85% to the particle of 3 μm.Sack cleaner is the equipment adopting grit in textile bags filtering gas.It is applicable to trap tiny, dry, non-fiber dust.Although this complex dust collector has the high advantage of efficiency of dust collection, but there is shortcomings: 1, sack cleaner is positioned at the side of cyclone dust collectors, and is connected by pipeline between the two; There is bulky problem thus.2, because both dust of trapping vary in size, and the dust of trapping is separately deposited respectively, therefore needs to process respectively, there is process loaded down with trivial details, inefficient problem; Moreover, because the dust of cloth bag trapping is tiny, there is intractability large, very easily cause the problem that dust spreads again.3, product mix (as LiFePO4) is needed for some, need again to carry out mix and blend and the Product mix degree obtained is even not.
Summary of the invention
The object of the invention is to there are the problems referred to above for existing technology, propose a kind of three-dimensional composite dust remover, the technical problem to be solved in the present invention is how reduced volume and how to make the particle of two kinds of dedusters trappings and dust deposit at same place.
Object of the present invention realizes by following technical proposal: a kind of three-dimensional composite dust remover, is characterized in that, comprises the cyclone dust collectors as primary dust removing and secondary ash collector; Upward, described secondary ash collector is positioned at the top of cyclone dust collectors to the air outlet of described cyclone dust collectors; The entering-dust mouth of described secondary ash collector down and be oppositely arranged with the air outlet of cyclone dust collectors; The dirt structure of leading that the entering-dust mouth of described secondary ash collector is imported in the air outlet of cyclone dust collectors by the dust that secondary ash collector can be trapped with the air outlet of cyclone dust collectors is connected.
Air containing particle and dust inputs in cyclone dust collectors by blower fan by this three-dimensional composite dust remover, particle is deposited in dust collection drawer through cyclone dust collectors dust removal process, air containing dust enters secondary ash collector, dust is trapped by secondary ash collector, naturally falls under gravity after dust gathers; Specifically, first fall into and lead dirt structure, then fall into the air outlet of cyclone dust collectors, finally drop down onto in the dust collection drawer of cyclone dust collectors.
In above-mentioned three-dimensional composite dust remover, described secondary ash collector is sack cleaner or tornadotron deduster.
In above-mentioned three-dimensional composite dust remover, described cyclone dust collectors are single tube cyclone dust collectors, described in lead dirt structure comprise funnelform lead dirt cone, lead dirt cone portlet be connected with the air outlet of single tube cyclone dust collectors.Sack cleaner comprises cloth bag, and described cloth bag is set in leads dirt cone large port place.Tornadotron deduster comprises whirlwind supervisor and penetrates the exhaust duct in whirlwind supervisor from upper end; Whirlwind supervisor with lead dirt and bore large port and be fixedly connected with.Lead dirt cone and also there is the effect solving cloth bag mouth or whirlwind supervisor and the air outlet radius size of single tube cyclone dust collectors differently problem.
In above-mentioned three-dimensional composite dust remover, described in lead dirt cone be fixedly connected with cyclone dust collectors, cloth bag and lead dirt bore between removably connect.
In above-mentioned three-dimensional composite dust remover, described cyclone dust collectors are multitube parallel cyclone dust collectors; Sack cleaner comprises the quantity cloth bag identical with the cyclone dust removal element number of multitube parallel cyclone dust collectors, and described cloth bag is connected correspondingly with the air outlet of cyclone dust removal unit.
In above-mentioned three-dimensional composite dust remover, described cyclone dust collectors are multitube parallel cyclone dust collectors; Described dirt structure of leading comprises quantity first lead dirt bore identical with the cyclone dust removal element number of multitube parallel cyclone dust collectors, and the first portlet leading dirt cone is connected correspondingly with the air outlet of cyclone dust removal unit; First lead dirt cone the rectangular shape of large port, adjacent two first lead dirt cone large port edges lean.Sack cleaner comprises a cloth bag and a tube connector, and the described first large port of leading dirt cone is all connected with tube connector, and described cloth bag is set in tube connector upper port place.Tornadotron deduster comprises whirlwind supervisor and penetrates the exhaust duct in whirlwind supervisor from upper end; Described first large port of leading dirt cone is all responsible for whirlwind and is connected.Namely this structure improves the efficiency of dust collection of cyclone dust collectors, solves again a cloth bag or a whirlwind is responsible for the problem be connected with multiple cyclone dust removal unit, and the problem avoiding dust to pile up in both junctions.
In above-mentioned three-dimensional composite dust remover, described first leads dirt cone is fixedly connected with tube connector.
Can adopt any one structure following according to actual conditions tube connector: in above-mentioned three-dimensional composite dust remover, described tube connector is square tube, and the described first large port edge of leading dirt cone relies on mutually with tube connector medial surface.
In above-mentioned three-dimensional composite dust remover, described tube connector is pipe, described tube connector internal fixtion have an energy by dust import first lead dirt cone in second lead dirt cone; First large port of leading dirt cone is all positioned at tube connector.
In above-mentioned three-dimensional composite dust remover, described tube connector is conical pipe, and its lower port is square, and upper port is circular, and the described first large port edge of leading dirt cone relies on mutually with tube connector medial surface.
In order to make this complex dust collector energy independent operating, in above-mentioned three-dimensional composite dust remover, described cyclone dust collectors air inlet is provided with blower fan, and described Blower Housing is fixedly connected with cyclone dust collectors.
Owing to flowing through air-flow in blower fan without dust removal process, containing a large amount of particles and dust, common draught fan impeller very easily adheres to dust, and then cause load to increase, affect kinetic stability of air quantity and rotating shaft etc., in order to solve the problems of the technologies described above, in above-mentioned three-dimensional composite dust remover, the impeller of described blower fan comprises chassis and some around the equally distributed blade of axle center, chassis circumference, described blade and chassis be vertical to be arranged and blade is fixedly connected with chassis, every sheet blade includes the air draft portion of flat wind suction part and circular arc tabular, the setting biased relative to axle center, chassis of described wind suction part.This draught fan impeller is compared with common draught fan impeller does not have front shroud, significantly reduces the possibility of dust adhesion on impeller thus.
In above-mentioned three-dimensional composite dust remover, described chassis and blade surface are coated with F-C paint layer or acrylic acid enamelled coating.F-C paint and acrylic paint all can be attached to the blade surface of metal material securely, play and provide protective barrier effect.F-C paint and acrylic paint all have the low characteristic of surface tension, and F-C paint has fabulous hydrophobicity and scolds oil, minimum coefficient of friction, and therefore impeller can not non-dust absorption and non-fouling, and soil resistance is good; If impeller surface adhering dust, also formed self-cleaning by input steam, avoid disassembly, cleaning.Impeller can reduce the frictional resistance between air, improves fan efficiency.According to actual conditions, also can add anti-static material in F-C paint and acrylic paint, reduce the charged possibility be adsorbed on impeller of dust.
Compared with prior art, the particle of the cyclone dust collectors of this three-dimensional composite dust remover trapping and the dust of sack cleaner trapping all concentrate in the dust collection drawer of cyclone dust collectors, process particle thus and dust more convenient; When being product for the particle trapped and dust, effectively ensure product Homogeneous phase mixing simultaneously.
Sack cleaner in this three-dimensional composite dust remover is positioned on the upside of cyclone dust collectors, takes up room little thus and maintains easily.Cloth bag swings with the wind under airflow function, is shaken off by the dust being attached to cloth bag inwall, namely without the need to blowback system, makes its structure simpler, uses more convenient.
This three-dimensional composite dust remover both can adopt single tube cyclone dust collectors, can adopt multitube parallel cyclone dust collectors again, sack cleaner and cyclone dust collectors connected mode multiple, therefore different dedusting operating mode all can be selected to obtain suitable whirlwind cloth bag composite dedusting.
This three-dimensional composite dust remover comprises blower fan, thus can independent operating.Blower fan is positioned at cyclone dust collectors air inlet, and namely the air-flow containing particle and dust inputs in three-dimensional composite dust remover by blower fan.The impeller that this blower fan adopts, can not non-dust absorption and non-fouling through optimal design; Ensure that blower fan is stablized and moves for a long time in the air-flow containing particle and dust.
Accompanying drawing explanation
Fig. 1 is the structural representation of this three-dimensional composite dust remover.
Fig. 2 is the structural representation of leading dirt structure in this three-dimensional composite dust remover embodiment two.
Fig. 3 is the structural representation of leading dirt structure in this three-dimensional composite dust remover embodiment three.
Fig. 4 is the perspective view of draught fan impeller.
Fig. 5 is the plan structure schematic diagram of draught fan impeller.
Fig. 6 is the structural representation of this three-dimensional composite dust remover embodiment seven.
In figure, 1, cyclone dust collectors; 1a, cyclone dust removal unit; 1b, dust collection drawer; 2, sack cleaner; 2a, cloth bag; 2b, tube connector; 3, first dirt cone is led; 4, second dirt cone is led; 5, blower fan; 5a, housing; 5b, impeller; 5c, chassis; 5d, blade; 5e, wind suction part; 5f, air draft portion; 5g, motor; R1, chassis radius; R2, air draft portion radius; 6, tornadotron deduster; 6a, whirlwind are responsible for; 6b, exhaust duct; 6c, maintenance door; 7, the 3rd dirt cone is led; 8, valve.
Detailed description of the invention
Be below specific embodiments of the invention and by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiments.
As shown in Figure 1, this three-dimensional composite dust remover comprises cyclone dust collectors 1 as primary dust removing and secondary ash collector.
Specifically, cyclone dust collectors 1 are multitube parallel cyclone dust collectors; The cyclone dust collectors 1 that the present embodiment provides have four cyclone dust removal unit 1a, about pertinent literature cyclone dust collector [application number: 201220539098.4 disclosed in Chinese patent literature of multitube parallel cyclone dust collectors; Notification number: CN202909839U], so in this no longer burden description.
Secondary ash collector is sack cleaner 2.The air outlet of the cyclone dust removal unit 1a of cyclone dust collectors 1 all upward; Sack cleaner 2 is positioned at the top of cyclone dust collectors 1; The entering-dust mouth of sack cleaner 2 down and be oppositely arranged with the air outlet of cyclone dust collectors 1; The dust that sack cleaner 2 traps thus can directly fall in the air outlet of cyclone dust collectors 1, reduces dust and piles up in both junctions.In order to reduce dust accumulation further, even stop dust accumulation, the dirt structure of leading that the entering-dust mouth of sack cleaner 2 is imported in the air outlet of cyclone dust collectors 1 by the dust that sack cleaner 2 can be trapped with the air outlet of cyclone dust collectors 1 is connected.
Sack cleaner 2 comprises a cloth bag 2a and a tube connector 2b, tube connector 2b are pipe, and cloth bag 2a to be enclosed within tube connector 2b and to be connected by demountable structure.Demountable structure comprises a rope, and cloth bag 2a ties up on tube connector 2b by rope; Or demountable structure comprises a metal binding belt, metal binding belt two ends are connected by bolt and nut, and cloth bag 2a, between metal binding belt and tube connector 2b, realizes tightening cloth bag 2a or unclamping cloth bag 2a by screwing bolt and nut.
Lead dirt structure and comprise quantity first lead dirt bore 3, the first lead portlet that dirt bore 3 with the air outlet of cyclone dust removal unit 1a be correspondingly connected identical with the cyclone dust removal unit 1a quantity of multitube parallel cyclone dust collectors; First leads the rectangular shape of large port that dirt bores 3, and adjacent two first large port edges of leading dirt cone 3 lean.In other words, all first leads dirt cone 3 is arranged in a rectangular parallelepiped space, and the first large port of leading dirt cone 3 is all positioned at tube connector 2b, and the first large port of leading dirt cone 3 is all connected with tube connector 2b.First leads dirt cone 3 and first leads dirt and bore 3, first and lead the junction that dirt bores between 3 and tube connector 2b and be sealing, the sealing of guarantee passage.First leads dirt cone 3 is fixedly connected with tube connector 2b, sack cleaner 2 is fixedly connected with cyclone dust collectors 1 by leading dirt structure thus, fixed connection structure between sack cleaner 2 and ground or other fixed buildings can be omitted, ensure three-dimensional composite dust remover structure simple character.
Tube connector 2b and first lead dirt bore 3 between junction can form a platform, in order to avoid dust is piled up at above-mentioned platform place, tube connector 2b internal fixtion have an energy by dust import first lead dirt cone 3 in second lead dirt cone 4.
Cyclone dust collectors 1 efficiency of dust collection is higher; The cloth bag 2a radius of sack cleaner 2 is comparatively large, effectively ensure efficiency of dust collection, and then this three-dimensional composite dust remover has the high advantage of efficiency of dust collection.
In order to make this three-dimensional composite dust remover independent operating, as being preferably provided with blower fan 5 in cyclone dust collectors 1 air inlet, blower fan 5 comprises housing 5a, motor 5g and impeller 5b.Blower fan 5 housing 5a is fixedly connected with cyclone dust collectors 1.Blower fan 5 is preferably centrifugal fan 5; Blower fan 5 runs to be sent into air in cyclone dust collectors 1.
As shown in Figure 4 and Figure 5, the impeller 5b of blower fan 5 comprises chassis 5c and some around the equally distributed blade 5d of 5c axle center, chassis circumference.Blade 5d and chassis 5c be vertical to be arranged and blade 5d is fixedly connected with chassis 5c, and every sheet blade 5d includes the air draft portion 5f of flat wind suction part 5e and circular arc tabular, wind suction part 5e setting biased relative to 5c axle center, chassis.Air-flow relative to wind suction part 5e PARALLEL FLOW, and then reduces the possibility of dust adhesion at wind suction part 5e place.Air draft portion radius R 2 is 0.6 ~ 0.7 times of chassis radius R 1, and namely air draft portion 5f is relatively mild, and this structure also can reduce the possibility at 5f place of dust adhesion air draft portion.
Chassis 5c and blade 5d is all made by metal, all sprays F-C paint make its surface form F-C paint layer at chassis 5c and blade 5d surface.F-C paint layer can shield, and can improve again impeller 5b surface flatness; Impeller 5b non-dust absorption and non-fouling can also be avoided simultaneously.According to actual conditions, F-C paint layer can adopt acrylic acid enamelled coating to replace.
Air containing particle and dust inputs in cyclone dust collectors 1 by blower fan 5 by this three-dimensional composite dust remover, particle is deposited in dust collection drawer 1b through cyclone dust collectors 1 dust removal process, air containing dust enters sack cleaner 2, dust is trapped by sack cleaner 2, naturally falls under gravity after dust gathers.Specifically, lead through second the air outlet that dirt cone 4, first leads dirt cone 3, cyclone dust removal unit 1a successively, finally drop down onto in the dust collection drawer 1b of cyclone dust collectors 1.
Embodiment two
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: as shown in Figure 2, and tube connector 2b is square tube, and the first large port edge of leading dirt cone 3 relies on mutually with tube connector 2b medial surface.
Embodiment three
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: as shown in Figure 3, and tube connector 2b is conical pipe, and its lower port is square, and upper port is circular, and the first large port edge of leading dirt cone 3 relies on mutually with tube connector 2b medial surface.
Embodiment four
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: cyclone dust collectors 1 are multitube parallel cyclone dust collectors; Sack cleaner 2 comprises the quantity cloth bag 2a identical with the cyclone dust removal unit 1a quantity of multitube parallel cyclone dust collectors, and the air outlet of cloth bag 2a and cyclone dust removal unit 1a is correspondingly by boring be connected in funnelform dirt of leading.The portlet leading dirt cone is connected with the air outlet of cyclone dust removal unit 1a and leads dirt and bores and be fixedly connected with cyclone dust collectors 1.Cloth bag 2a is set in and leads dirt cone large port place and removably connect between the two.
Embodiment five
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: cyclone dust collectors 1 are single tube cyclone dust collectors 1, lead dirt structure comprise funnelform lead dirt cone, the portlet leading dirt cone is connected with the air outlet of single tube cyclone dust collectors 1, sack cleaner 2 comprises cloth bag 2a, and cloth bag 2a is set in and leads dirt cone large port place.Lead dirt cone be fixedly connected with cyclone dust collectors 1, cloth bag 2a and lead dirt bore between removably connect.
Embodiment six
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: cyclone dust collectors are single tube cyclone dust collectors, and lead dirt structure and comprise and funnelformly lead dirt cone, the portlet leading dirt cone is connected with the air outlet of single tube cyclone dust collectors.
Secondary ash collector is tornadotron deduster 6, as shown in Figure 6.Tornadotron deduster 6 comprises whirlwind supervisor 6a and penetrates the exhaust duct 6b in whirlwind supervisor 6a from upper end; Whirlwind supervisor 6a with lead dirt and bore large port and be fixedly connected with.
Embodiment seven
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: as shown in Figure 6, and cyclone dust collectors 1 are multitube parallel cyclone dust collectors; Lead dirt structure and comprise quantity first lead dirt bore identical with the cyclone dust removal element number of multitube parallel cyclone dust collectors, the first portlet leading dirt cone is connected correspondingly with the air outlet of cyclone dust removal unit; First lead dirt cone the rectangular shape of large port, adjacent two first lead dirt cone large port edges lean.
Secondary ash collector is tornadotron deduster 6.Tornadotron deduster 6 comprises whirlwind supervisor 6a and penetrates the exhaust duct 6b in whirlwind supervisor 6a from upper end; First large port of leading dirt cone is all responsible for 6a with whirlwind and is connected.Whirlwind supervisor 6a and first lead dirt bore between be provided with an energy dust is imported first lead dirt bore in the 3rd lead dirt and bore 7; First large port the equal 3rd of leading dirt cone is led dirt and is bored 7 lower port and be fixedly connected with, and whirlwind supervisor 6a and the 3rd leads dirt and bores 7 upper port and be fixedly connected with.
Whirlwind supervisor 6a sidewall has the maintenance door 6c of service port and closed above-mentioned service port.Exhaust duct 6b is provided with and controls the valve 8 that exhaust duct 6b is in connected state or cut-off state.When the exhaust duct 6b of some groups of three-dimensional composite dust remover is connected with an air draft house steward, valve 8 makes exhaust duct 6b be connected with air draft house steward, or is in cut-off state, avoids wind-fall to fill with.
Claims (9)
1. a three-dimensional composite dust remover, is characterized in that, comprises the cyclone dust collectors (1) as primary dust removing and secondary ash collector; Upward, described secondary ash collector is positioned at the top of cyclone dust collectors (1) to the air outlet of described cyclone dust collectors (1); The entering-dust mouth of described secondary ash collector down and be oppositely arranged with the air outlet of cyclone dust collectors (1); The dirt structure of leading that the entering-dust mouth of described secondary ash collector is imported in the air outlet of cyclone dust collectors (1) by the dust that secondary ash collector can be trapped with the air outlet of cyclone dust collectors (1) is connected; Described cyclone dust collectors (1) air inlet is provided with blower fan (5), and described blower fan (5) housing (5a) is fixedly connected with cyclone dust collectors (1); The impeller (5b) of described blower fan (5) comprises chassis (5c) and some around chassis (5c) the axle center equally distributed blade of circumference (5d), described blade (5d) and chassis (5c) be vertical to be arranged and blade (5d) is fixedly connected with chassis (5c), every sheet blade (5d) includes the air draft portion (5f) of tabular wind suction part (5e) and circular arc tabular, the setting biased relative to chassis (5c) axle center of described tabular wind suction part (5e).
2. three-dimensional composite dust remover according to claim 1, is characterized in that, described secondary ash collector is sack cleaner (2) or tornadotron deduster (6).
3. three-dimensional composite dust remover according to claim 2, it is characterized in that, described cyclone dust collectors (1) are single tube cyclone dust collectors (1), described lead dirt structure comprise funnelform lead dirt cone, lead dirt cone portlet be connected with the air outlet of single tube cyclone dust collectors (1); Sack cleaner (2) comprises cloth bag (2a), and described cloth bag (2a) is set in leads dirt cone large port place; Described lead dirt cone be fixedly connected with cyclone dust collectors (1), cloth bag (2a) and lead dirt bore between removably connect; Or described cyclone dust collectors (1) are single tube cyclone dust collectors (1), described in lead dirt structure comprise funnelform lead dirt cone, lead dirt cone portlet be connected with the air outlet of single tube cyclone dust collectors (1); Tornadotron deduster (6) comprises whirlwind supervisor (6a) and penetrates the exhaust duct (6b) in whirlwind supervisor (6a) from upper end; Whirlwind supervisor (6a) with lead dirt and bore large port and be fixedly connected with.
4. three-dimensional composite dust remover according to claim 2, is characterized in that, described cyclone dust collectors (1) are multitube parallel cyclone dust collectors; Sack cleaner (2) comprises the quantity cloth bag (2a) identical with cyclone dust removal unit (1a) quantity of multitube parallel cyclone dust collectors, and described cloth bag (2a) is connected correspondingly with the air outlet of cyclone dust removal unit (1a).
5. three-dimensional composite dust remover according to claim 2, is characterized in that, described cyclone dust collectors (1) are multitube parallel cyclone dust collectors; Described dirt structure of leading comprises quantity first lead dirt bore (3) identical with cyclone dust removal unit (1a) quantity of multitube parallel cyclone dust collectors, and the first portlet leading dirt cone (3) is connected correspondingly with the air outlet of cyclone dust removal unit (1a); First leads the rectangular shape of large port that dirt bores (3), and adjacent two first large port edges of leading dirt cone (3) lean; Sack cleaner (2) comprises a cloth bag (2a) and a tube connector (2b), described first large port of leading dirt cone (3) is all connected with tube connector (2b), and described cloth bag (2a) is set in tube connector (2b) upper port place; Described first leads dirt cone (3) is fixedly connected with tube connector (2b).
6. three-dimensional composite dust remover according to claim 5, is characterized in that, described tube connector (2b) is square tube, and the described first large port edge of leading dirt cone (3) relies on mutually with tube connector (2b) medial surface; Or described tube connector (2b) is pipe, described tube connector (2b) internal fixtion have an energy by dust import first lead dirt cone (3) in second lead dirt cone (4); First large port of leading dirt cone (3) is all positioned at tube connector (2b); Or described tube connector (2b) is conical pipe, its lower port is square, and upper port is circular, and the described first large port edge of leading dirt cone (3) relies on mutually with tube connector (2b) medial surface.
7. three-dimensional composite dust remover according to claim 2, is characterized in that, described cyclone dust collectors (1) are multitube parallel cyclone dust collectors; Described dirt structure of leading comprises quantity first lead dirt bore (3) identical with cyclone dust removal unit (1a) quantity of multitube parallel cyclone dust collectors, and the first portlet leading dirt cone (3) is connected correspondingly with the air outlet of cyclone dust removal unit (1a); First leads the rectangular shape of large port that dirt bores (3), and adjacent two first large port edges of leading dirt cone (3) lean; Tornadotron deduster (6) comprises whirlwind supervisor (6a) and penetrates the exhaust duct (6b) in whirlwind supervisor (6a) from upper end; First large port of leading dirt cone (3) is all responsible for (6a) with whirlwind and is connected.
8. three-dimensional composite dust remover according to claim 7, is characterized in that, described first leads dirt cone (3) is fixedly connected with the air outlet of cyclone dust removal unit (1a); Described whirlwind supervisor (6a) and first is led dirt and is bored and to be provided with an energy between (3) and dust to be imported first and lead dirt and bore the 3rd in (3) and lead dirt and bore (7); First large port the equal 3rd of leading dirt cone (3) is led dirt cone (7) lower port and is fixedly connected with, and whirlwind supervisor (6a) and the 3rd is led dirt and bored (7) upper port and be fixedly connected with.
9. three-dimensional composite dust remover according to claim 1, is characterized in that, described chassis (5c) and blade (5d) surface are coated with F-C paint layer or acrylic acid enamelled coating.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201310465992.0A CN103537154B (en) | 2013-09-30 | 2013-09-30 | Three-dimensional composite dust remover |
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| CN201310465992.0A CN103537154B (en) | 2013-09-30 | 2013-09-30 | Three-dimensional composite dust remover |
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| CN103537154B true CN103537154B (en) | 2016-01-06 |
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| CN110302627A (en) * | 2019-07-30 | 2019-10-08 | 正阳县创鑫机械有限公司 | A kind of harvesting peanut dust removal device |
| CN110871504A (en) * | 2019-12-02 | 2020-03-10 | 安徽芜湖海螺建筑安装工程有限责任公司 | Cutting and dust-collecting device for refractory bricks and cutting and dust-collecting method for refractory bricks |
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| CN102758042B (en) * | 2012-08-14 | 2013-09-25 | 唐忠库 | System for rotational flow dust removal and recovery of blast furnace roof raw gas and recovering method of blast furnace roof raw gas |
| CN203525511U (en) * | 2013-09-30 | 2014-04-09 | 陈美青 | Three-dimensional type composite dust remover |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN2055738U (en) * | 1989-05-04 | 1990-04-11 | 福州大学 | Dual-chamber intercommunicated densely arranged flat filtering bag dust remover |
| CN2146298Y (en) * | 1992-12-17 | 1993-11-17 | 唐甦 | High-efficient dust remover |
| CN2219155Y (en) * | 1995-04-10 | 1996-02-07 | 唐苏 | Comprehensive high-efficiency duster |
| CN1800652A (en) * | 2006-01-17 | 2006-07-12 | 陈美青 | Centrifugal fan for purification treatment |
| CN201143405Y (en) * | 2007-11-23 | 2008-11-05 | 张志良 | Cloth bag dust remover |
| CN201572589U (en) * | 2009-12-03 | 2010-09-08 | 东华大学 | Integral-type cyclone filter collector |
| CN102758042B (en) * | 2012-08-14 | 2013-09-25 | 唐忠库 | System for rotational flow dust removal and recovery of blast furnace roof raw gas and recovering method of blast furnace roof raw gas |
| CN203525511U (en) * | 2013-09-30 | 2014-04-09 | 陈美青 | Three-dimensional type composite dust remover |
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| CN103537154A (en) | 2014-01-29 |
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Effective date of registration: 20180111 Address after: 317610 village in Ganjiang Town, Yuhuan City, Taizhou City, Zhejiang Province Patentee after: Yuhuan Pacific Machinery Co., Ltd. Address before: 317610 Yuhuan County Province, Taizhou City, the town of the village under the reef door Patentee before: Chen Meiqing |
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