CN205311933U - Regenerated carbon encapsulation dust collecting equipment - Google Patents
Regenerated carbon encapsulation dust collecting equipment Download PDFInfo
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- CN205311933U CN205311933U CN201620028715.2U CN201620028715U CN205311933U CN 205311933 U CN205311933 U CN 205311933U CN 201620028715 U CN201620028715 U CN 201620028715U CN 205311933 U CN205311933 U CN 205311933U
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- dust
- mouth
- feed bin
- manually
- feed opening
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Abstract
The utility model provides a regenerated carbon encapsulation dust collecting equipment, is including screening potting part, the outside dirt ware that stores up, screening potting part includes regenerated carbon inlet pipe, one -level whirl feed bin, the multistage sieve that shakes soon, second grade whirl feed bin, wrapper, wrapper includes the screw propulsion ware, offers first artifical encapsulant inlet, the artifical encapsulant inlet of second, third owner encapsulant inlet in proper order at the other end of screw propulsion ware, first artifical encapsulant inlet includes the extension material pipe that extends out from the lateral wall of screw propulsion ware, offers the feed opening at the tip that extends the material pipe, and the dust cage is established to the cover around the feed opening, the dust absorption mouth is seted up to contactless between the inner wall of dust cage and the outer wall of feed opening on the lateral wall of dust cage, the dust absorption mouth is connected with burden compressedair line, follows the feed opening when the active carbon material and falls down, and powder or dust that the whereabouts in -process produced rise from inside suspension of wrapping bag, gather the appearance intracavity between feed opening and the dust cage, and then are siphoned away from the dust absorption mouth.
Description
Technical field
This utility model relates to Regenevating Waste Activated Carbon processing technology field, particularly relates to a kind of regenerated carbon encapsulation cleaner.
Background technology
Activated carbon is the adsorbent that a kind of energy-efficient dust suction being applied to every field is removed the evil, it is normally used for adsorbing various pigment, harmful gas, impurity dust etc., and the activated carbon that these be utilized is because adsorbing the saturated waste active carbon that becomes, these waste active carbons are through Regeneration Treatment, its absorbability can return to the 97% of new activated carbon, still has significantly high use value.
Regenevating Waste Activated Carbon screens after dedusting through multi-level hierarchical after processing, pack, packaging unit of the prior art is when packaging, directly feed opening is inserted in packaging bag and feed, seal after filling material, owing to material still can hike up powder or dust in dropping process, thus cause that dust is floating, operating environment of pollution, the healthy defect constituting harm to operator.
Summary of the invention
It is necessary that proposition is a kind of and can encapsulate cleaner at the regenerated carbon of feed opening place dust suction again.
A kind of regenerated carbon encapsulation cleaner, including screening encapsulation part, outside dust collector, described screening encapsulation part is connected with described outside dust collector, with pass through outside dust collector to screening encapsulation part to be internally formed negative pressure distinguished and admirable, described screening encapsulation part includes regenerated carbon feed pipe, one-level eddy flow feed bin, multistage spin vibration sieve, secondary rotary stream feed bin, wrapper, the feeding mouth of the connection one-level eddy flow feed bin of described regenerated carbon feed pipe, dust mouth is offered at the top of one-level eddy flow feed bin, the discharging opening of the bottom of one-level eddy flow feed bin connects the feeding mouth of multistage spin vibration sieve, the discharging opening of described multistage spin vibration sieve connects the feeding mouth of secondary rotary stream feed bin by conveying pipeline, dust mouth is offered at the top of secondary rotary stream feed bin, the discharging opening of the bottom of secondary rotary stream feed bin connects the feeding mouth of wrapper, described wrapper includes spiral propeller, the feeding mouth that the discharging opening with described secondary rotary stream feed bin is connected is offered in one end of described spiral propeller, the other end at spiral propeller is offered first successively and is manually encapsulated mouth, second manually encapsulates mouth, 3rd primary seal dress mouth, described first manually encapsulates mouth includes the extension material pipe that the sidewall from spiral propeller extends out, the described material pipe that extends connects with spiral propeller, at the end opens feed opening extending material pipe, sheathed dust gathering arrester around feed opening, described dust gathering arrester seals near one end of spiral propeller and is fixed on the sidewall extending material pipe, dust gathering arrester is away from the one end open of spiral propeller, do not contact between inwall and the outer wall of feed opening of described dust gathering arrester, so that forming dust cavity volume between feed opening and dust gathering arrester, the sidewall of dust gathering arrester is offered suction port, described suction port is connected with negative-pressure air duct, described outside dust collector includes dust storage tank, the negative-pressure air duct at dust storage tank top, dust absorption fan bottom dust storage tank, described negative-pressure air duct is sequentially connected with the dust mouth of one-level eddy flow feed bin, the dust mouth of secondary rotary stream feed bin, so that the negative pressure wind of dust absorption fan flows into one-level eddy flow feed bin, secondary rotary stream feed bin.
Preferably, the edge of the oral area of described dust gathering arrester is lower than the edge of the oral area of feed opening, and described suction port is positioned above on the sidewall of the dust gathering arrester at the edge of the oral area of feed opening.
Preferably, described first manually encapsulate mouth, second manually encapsulate mouth, the 3rd primary seal dress mouthpiece have identical structure, first manually encapsulate mouth, second manually encapsulate mouth, the 3rd primary seal dress mouth be respectively provided with a suction port.
Preferably, described screening encapsulation part also includes a thin footpath sweep-up pipe, one end of described thin footpath sweep-up pipe connects outside dust collector by negative-pressure air duct, and the other end of thin footpath sweep-up pipe connects first respectively and manually encapsulates mouth, the second suction port manually encapsulating mouth, the 3rd primary seal dress mouth.
Above-mentioned regenerated carbon encapsulation cleaner, spiral propeller is offered first and manually encapsulates mouth, second manually encapsulates mouth, 3rd primary seal dress mouth, first manually encapsulates mouth includes extending the end opens feed opening of material pipe and dust gathering arrester sheathed around feed opening, do not contact between inwall and the outer wall of feed opening of dust gathering arrester, so that forming dust cavity volume between feed opening and dust gathering arrester, the sidewall of dust gathering arrester is offered suction port, suction port is connected with negative-pressure air duct, when activated carbon material falls from feed opening, the powder produced in dropping process or dust suspend from the inside of packaging bag and rise, gather in the cavity volume between feed opening and dust gathering arrester, and then be sucked away from suction port.
Accompanying drawing explanation
Fig. 1 is the structural representation of regenerated carbon encapsulation cleaner.
Fig. 2 is the structural representation of another angle of regenerated carbon encapsulation cleaner.
Fig. 3 is the partial enlarged drawing of described wrapper.
Fig. 4 is the described first partial enlarged drawing manually encapsulating mouth.
In figure: screening encapsulation part 1, regenerated carbon feed pipe 11, one-level eddy flow feed bin 12, multistage spin vibration sieve 13, secondary rotary stream feed bin 14, wrapper 15, spiral propeller 151, first manually encapsulation mouth 152, extension material pipe 1521, feed opening 1522, dust gathering arrester 1523, suction port 1524, second manually encapsulation mouth the 153, the 3rd primary seal dress mouth 154, thin footpath sweep-up pipe 16, outside dust collector 2, dust storage tank 21, negative-pressure air duct 22, dust absorption fan 23.
Detailed description of the invention
Hereinafter the technical solution of the utility model is described further by comparison accompanying drawing.
Referring to Fig. 1 to Fig. 4, regenerated carbon encapsulation cleaner, including screening encapsulation part 1, outside dust collector 2, screening encapsulation part 1 is connected with outside dust collector 2, with pass through outside dust collector 2 to screen encapsulation part 1 to be internally formed negative pressure distinguished and admirable.
Screening encapsulation part 1 includes regenerated carbon feed pipe 11, one-level eddy flow feed bin 12, multistage spin vibration sieve 13, secondary rotary stream feed bin 14, wrapper 15, the feeding mouth of the connection one-level eddy flow feed bin 12 of regenerated carbon feed pipe 11, dust mouth is offered at the top of one-level eddy flow feed bin 12, the discharging opening of the bottom of one-level eddy flow feed bin 12 connects the feeding mouth of multistage spin vibration sieve 13, the discharging opening of multistage spin vibration sieve 13 connects the feeding mouth of secondary rotary stream feed bin 14 by conveying pipeline, dust mouth is offered at the top of secondary rotary stream feed bin 14, the discharging opening of the bottom of secondary rotary stream feed bin 14 connects the feeding mouth of wrapper 15, wrapper 15 includes spiral propeller 151, the feeding mouth that the discharging opening with secondary rotary stream feed bin 14 is connected is offered in one end of spiral propeller 151, the other end at spiral propeller 151 is offered first successively and is manually encapsulated mouth 152, second manually encapsulates mouth 153, 3rd primary seal dress mouth 154.
First manually encapsulates the extension material pipe 1521 that mouth 152 includes extending out from the sidewall of spiral propeller 151, extend material pipe 1521 to connect with spiral propeller 151, at the end opens feed opening 1522 extending material pipe 1521, sheathed dust gathering arrester 1523 around feed opening 1522, dust gathering arrester 1523 seals near one end of spiral propeller 151 and is fixed on the sidewall extending material pipe 1521, dust gathering arrester 1523 is away from the one end open of spiral propeller 151, do not contact between the inwall of dust gathering arrester 1523 and the outer wall of feed opening 1522, so that forming dust cavity volume between feed opening 1522 and dust gathering arrester 1523, the sidewall of dust gathering arrester 1523 is offered suction port 1524, suction port 1524 is connected with negative-pressure air duct 22.
Outside dust collector includes the dust absorption fan 23 bottom dust storage tank 21, the negative-pressure air duct 22 at dust storage tank 21 top, dust storage tank 21, negative-pressure air duct 22 is sequentially connected with the dust mouth of the dust mouth of one-level eddy flow feed bin 12, secondary rotary stream feed bin 14, so that the negative pressure wind of dust absorption fan 23 flows into one-level eddy flow feed bin 12, secondary rotary stream feed bin 14.
Further, the edge of the oral area of dust gathering arrester 1523 is lower than the edge of the oral area of feed opening 1522, and suction port 1524 is positioned above on the sidewall of dust gathering arrester 1523 at the edge of the oral area of feed opening 1522.
During packaging, the oral area of packaging bag is wrapped in the outside of dust gathering arrester 1523, activated carbon material falls from feed opening 1522, in entrance packaging bag, dropping process still can hike up powder or dust, powder or dust that proportion is lighter can suspend from the inside of packaging bag and rise, and gathers in the cavity volume between feed opening 1522 and dust gathering arrester 1523, and then is sucked away from suction port 1524. Additionally, the activated carbon thinner in order to avoid granule is siphoned away by suction port 1524, this suction port 1524 is positioned above on the sidewall of the dust gathering arrester 1523 at the edge of the oral area of feed opening 1522, thus avoiding the negative-pressure sucking in suction port 1524 to be drawn onto in suction port 1524 by the activated carbon granule fallen.
Further, first manually encapsulates mouth 152, second manually encapsulation mouth the 153, the 3rd primary seal dress mouth 154 has identical structure, first manually encapsulates mouth 152, second manually encapsulation mouth the 153, the 3rd primary seal dress mouth 154 is respectively provided with a suction port 1524, it is achieved pack for many mouthfuls simultaneously. Wherein first manually encapsulation mouth 152 and second manually encapsulate the bore that the bore of the feed opening of mouth 153 fills the feed opening of mouth 154 less than the 3rd primary seal, pick and place conveniently during to facilitate hand-filling.
Further, screening encapsulation part 1 also includes a thin footpath sweep-up pipe 16, one end of thin footpath sweep-up pipe 16 connects outside dust collector 2 by negative-pressure air duct 22, one end of thin footpath sweep-up pipe 16 can also direct outside dust collector 2, connect the other end of thin footpath sweep-up pipe 16 and connect the suction port 1524 of the first artificial encapsulation mouth 152, second manually encapsulation mouth the 153, the 3rd primary seal dress mouth 154 respectively.
When using the said equipment, the regenerated carbon activated through activation furnace is sent into regenerated carbon feed pipe 11, under the big suction of the dust absorption fan 23 of outside cleaner unit, enter the regenerated carbon of regenerated carbon feed pipe 11 by negative pressure distinguished and admirable inspiration one-level eddy flow feed bin 12, regenerated carbon through the shunting of one-level eddy flow feed bin 12 falls into multistage spin vibration sieve 13, the thinnest activated carbon obtained after the classification of multistage spin vibration sieve 13 is inhaled into secondary rotary stream feed bin 14 along conveying pipeline, activated carbon through the shunting of secondary rotary stream feed bin 14 falls into spiral propeller 151, mouth 152 is manually encapsulated through first, second manually encapsulates mouth 153, 3rd primary seal dress mouth 154 is packed.
Claims (4)
1. a regenerated carbon encapsulation cleaner, it is characterized in that: include screening encapsulation part, outside dust collector, described screening encapsulation part is connected with described outside dust collector, with pass through outside dust collector to screening encapsulation part to be internally formed negative pressure distinguished and admirable, described screening encapsulation part includes regenerated carbon feed pipe, one-level eddy flow feed bin, multistage spin vibration sieve, secondary rotary stream feed bin, wrapper, the feeding mouth of the connection one-level eddy flow feed bin of described regenerated carbon feed pipe, dust mouth is offered at the top of one-level eddy flow feed bin, the discharging opening of the bottom of one-level eddy flow feed bin connects the feeding mouth of multistage spin vibration sieve, the discharging opening of described multistage spin vibration sieve connects the feeding mouth of secondary rotary stream feed bin by conveying pipeline, dust mouth is offered at the top of secondary rotary stream feed bin, the discharging opening of the bottom of secondary rotary stream feed bin connects the feeding mouth of wrapper, described wrapper includes spiral propeller, the feeding mouth that the discharging opening with described secondary rotary stream feed bin is connected is offered in one end of described spiral propeller, the other end at spiral propeller is offered first successively and is manually encapsulated mouth, second manually encapsulates mouth, 3rd primary seal dress mouth, described first manually encapsulates mouth includes the extension material pipe that the sidewall from spiral propeller extends out, the described material pipe that extends connects with spiral propeller, at the end opens feed opening extending material pipe, sheathed dust gathering arrester around feed opening, described dust gathering arrester seals near one end of spiral propeller and is fixed on the sidewall extending material pipe, dust gathering arrester is away from the one end open of spiral propeller, do not contact between inwall and the outer wall of feed opening of described dust gathering arrester, so that forming dust cavity volume between feed opening and dust gathering arrester, the sidewall of dust gathering arrester is offered suction port, described suction port is connected with negative-pressure air duct, described outside dust collector includes dust storage tank, the negative-pressure air duct at dust storage tank top, dust absorption fan bottom dust storage tank, described negative-pressure air duct is sequentially connected with the dust mouth of one-level eddy flow feed bin, the dust mouth of secondary rotary stream feed bin, so that the negative pressure wind of dust absorption fan flows into one-level eddy flow feed bin, secondary rotary stream feed bin.
2. regenerated carbon encapsulation cleaner as claimed in claim 1, it is characterised in that: the edge of the oral area of described dust gathering arrester is lower than the edge of the oral area of feed opening, and described suction port is positioned above on the sidewall of the dust gathering arrester at the edge of the oral area of feed opening.
3. regenerated carbon encapsulation cleaner as claimed in claim 2, it is characterized in that: described first manually encapsulate mouth, second manually encapsulate mouth, the 3rd primary seal dress mouthpiece have identical structure, first manually encapsulate mouth, second manually encapsulate mouth, the 3rd primary seal dress mouth be respectively provided with a suction port.
4. regenerated carbon encapsulation cleaner as claimed in claim 3, it is characterized in that: described screening encapsulation part also includes a thin footpath sweep-up pipe, one end of described thin footpath sweep-up pipe connects outside dust collector by negative-pressure air duct, and the other end of thin footpath sweep-up pipe connects first respectively and manually encapsulates mouth, the second suction port manually encapsulating mouth, the 3rd primary seal dress mouth.
Priority Applications (1)
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CN201620028715.2U CN205311933U (en) | 2016-01-13 | 2016-01-13 | Regenerated carbon encapsulation dust collecting equipment |
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CN201620028715.2U CN205311933U (en) | 2016-01-13 | 2016-01-13 | Regenerated carbon encapsulation dust collecting equipment |
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CN205311933U true CN205311933U (en) | 2016-06-15 |
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CN201620028715.2U Expired - Fee Related CN205311933U (en) | 2016-01-13 | 2016-01-13 | Regenerated carbon encapsulation dust collecting equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112139192A (en) * | 2020-08-19 | 2020-12-29 | 福州盛世凌云环保科技有限公司 | Unloader is used in engineering plastics granulation |
-
2016
- 2016-01-13 CN CN201620028715.2U patent/CN205311933U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112139192A (en) * | 2020-08-19 | 2020-12-29 | 福州盛世凌云环保科技有限公司 | Unloader is used in engineering plastics granulation |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160615 Termination date: 20200113 |
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CF01 | Termination of patent right due to non-payment of annual fee |