CN101935083B - Dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment - Google Patents
Dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment Download PDFInfo
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- CN101935083B CN101935083B CN 200910182306 CN200910182306A CN101935083B CN 101935083 B CN101935083 B CN 101935083B CN 200910182306 CN200910182306 CN 200910182306 CN 200910182306 A CN200910182306 A CN 200910182306A CN 101935083 B CN101935083 B CN 101935083B
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- activated carbon
- absorption cell
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- absorbing device
- powdery activated
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Abstract
The invention discloses a dust absorbing device of a mixing barrel in an automatic wet powdery activated carbon adding equipment. The dust absorbing device of the mixing barrel in the automatic wet powdery activated carbon adding equipment sucks dust into a respiratory tube from a respiratory port along with air through the exhalation action of the respiratory port, then the dust enters an absorbing tank from the respiratory tube and is absorbed by water in the absorbing tank, clean air is discharged out of a respiratory tank, the dust absorbed by the water and the water form a mixed solution of powdery activated carbon and the water, and when the concentration of the powdery activated carbon in the mixed solution reaches the addition requirement, an air release valve can be opened, and the mixed solution is discharged out of the air release valve and can be added to a process addition point to be added with the activated carbon. When reserving the respiratory function of the respiratory port, the device solves the problem of dust pollution generated during feeding by the mixing barrel so that the collected dust is recycled, and the powdery activated carbon is saved; and the dust absorbing device has the advantages of low investment and running cost, reliable running as well as simple and convenient operation.
Description
Technical field
The present invention relates to a kind of dust absorbing device, this device is used for absorbing the dust that mixing barrel in automatic wet powdery activated carbon adding equipment produces when feed.
Background technology
The drinking water source of China pollutes and is on the rise, and the organism kinds in the water source is many, in water treatment procedure, usually adds charcoal absorption and removes impurity such as organic matter in the former water.Because the specific area of Powdered Activated Carbon is large, therefore have very strong adsorptivity, can effectively remove colourity, turbidity and the peculiar smell of former water, effectively reduce the pollutant load in the former water.
The dosing method of Powdered Activated Carbon adopts the wet type dosing method usually, after being about to Powdered Activated Carbon and water mixing, drops in the former water by the mixed liquor of measuring pump with Powdered Activated Carbon and water again.
The powdered activated carbon wet type adding equipment has some mixing drums, and mixing drum, drops into mixed liquor in the former water by measuring pump after Powdered Activated Carbon and water mix in mixing drum more generally with agitating device.In Powdered Activated Carbon automatic wet-type adding equipment, some mixing drum series connection, Powdered Activated Carbon and water all are automatically to add in the mixing drum, mixing drum is closed, in order to make the pressure in the mixing drum keep constant, to guarantee that Powdered Activated Carbon and water can successfully add in the mixing drum and mixed liquor can successfully provide, the mixing drum upper end needs to offer the pneumostome that communicates with ambient atmosphere, but Powdered Activated Carbon can produce airborne dust in the process that adds mixing drum, pneumostome just because of the mixing drum upper end, easily make airborne dust run out of mixing drum, surrounding environment is caused serious dust pollution, not only endanger the healthy of operating personnel, also caused the waste of Powdered Activated Carbon.So have the dealer to install sack cleaner at this pneumostome place, to reduce dust pollution, increased complexity, input cost and the operating cost of equipment but effect is not good enough.
Summary of the invention
In order to overcome defects, the invention provides a kind of dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment, this device can solve the dust pollution that mixing drum produces when feed, and device drops into and operating cost is low, reliable, easy and simple to handle.
The present invention for the technical scheme that solves its technical problem and adopt is:
A kind of dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment, comprise some enclosed mixing drums with agitating device, be connected by the compensated with air pipe between the top of adjacent mixing drum, be connected by tube connector between the bottom of adjacent mixing drum, the upper end of at least one mixing drum is provided with pneumostome, absorption cell is inner to communicate with ambient atmosphere, absorption cell top is communicated with feed pipe, described feed pipe is provided with water-supply valve, current in described water-supply valve its place pipeline capable of blocking are logical, respiratory siphon one end is connected with described pneumostome, the respiratory siphon other end stretches in the interior liquid of absorption cell, described absorption cell bottom is communicated with blow-down pipe, and described blow-down pipe is provided with atmospheric valve, the liquid communication in described atmospheric valve its place pipeline capable of blocking.
Further technical scheme of the present invention is:
On elevation, there is qualified relation in the relative altitude between at the bottom of described absorption cell bottom land and the described mixing drum cylinder, and this qualified relation is enough to prevent that described mixing drum from producing siphonage when air-breathing.
Have fore-and-aft distance between the peak of described respiratory siphon and the liquid level of absorption cell, this fore-and-aft distance is enough to guarantee in the not sucked back mixing drum of liquid in the absorption cell.
Described absorption cell is divided into horizontal segment and first and second vertical section, the two ends of described horizontal segment communicate with first and second vertical section one respectively, described first vertical section upper end closed, described second vertically opens wide on the section, described horizontal segment and first and second vertically section make described absorption cell be the class U-shaped, the described respiratory siphon other end from first vertically the section upper end stretch into the liquid in the absorption cell.
Described first and second vertically is provided with overfall in the position of the upper a little higher than described horizontal segment of one of section, and described overfall is communicated with overflow pipe, and described overflow pipe is provided with overflow valve, the liquid communication in described overflow valve its place pipeline capable of blocking.
Preferably described pneumostome is provided with one, and is located on the mixing drum that is positioned at downstream in the mixing drum.
Position near pneumostome on the described respiratory siphon is communicated with air entry, and the pipeline between described air entry and the respiratory siphon is provided with check-valves, and described check-valves is blocked the expiration of its place pipeline.Like this check-valves so that air entry can only air-breathingly can not exhale, can be from the air entry air inlet when pneumostome is in suction condition; Owing to the existence of check-valves, air entry is not exhaled when pneumostome is in the expiration state, and dust is entered in the absorption cell by respiratory siphon with air.
The invention has the beneficial effects as follows: the expiration effect of the dust absorbing device of this mixing barrel in automatic wet powdery activated carbon adding equipment by pneumostome with dust with air by in the pneumostome incoming call respiratory siphon, entered in the absorption cell by respiratory siphon again, the water that dust is absorbed in the groove absorbs, pure air is discharged from respiratory slot, this part dust that is absorbed by water and water form the mixed liquor of Powdered Activated Carbon and water, when reaching, the concentration of Powdered Activated Carbon in the mixed liquor adds when requiring, can open atmospheric valve, mixed liquor is emitted from blow-down pipe, and can add the technique that adds active carbon to needs and add a little, this device is in the respiratory function that keeps pneumostome, solved the dust pollution that mixing drum produces when feed, and the dust of collection is reused, saved Powdered Activated Carbon, again and device drops into and operating cost is low, reliable, easy and simple to handle.
Description of drawings
Fig. 1 is structural representation of the present invention.
The specific embodiment
Embodiment: a kind of dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment, comprise some enclosed mixing drums 1 with agitating device, be connected by compensated with air pipe 2 between the top of adjacent mixing drum, be connected by tube connector 3 between the bottom of adjacent mixing drum, the upper end of at least one mixing drum is provided with pneumostome 4, absorption cell 5 inside communicate with ambient atmosphere, absorption cell top is communicated with feed pipe 6, described feed pipe is provided with water-supply valve 7, current in described water-supply valve its place pipeline capable of blocking are logical, respiratory siphon 8 one ends are connected with described pneumostome, the respiratory siphon other end stretches in the interior liquid of absorption cell, described absorption cell bottom is communicated with blow-down pipe 9, and described blow-down pipe is provided with atmospheric valve 10, the liquid communication in described atmospheric valve its place pipeline capable of blocking.
On elevation, there is qualified relation in the relative altitude between at the bottom of 1 of described absorption cell 5 bottom lands and the described mixing drum, and this qualified relation is enough to prevent that described mixing drum from producing siphonage when air-breathing.
Have fore-and-aft distance between the liquid level of the peak of described respiratory siphon 8 and absorption cell 5, this fore-and-aft distance is enough to guarantee in the not sucked back mixing drum of liquid in the absorption cell.
Described absorption cell is divided into horizontal segment 51 and first and second vertical section 52,53, the two ends of described horizontal segment communicate with first and second vertical section one respectively, described first vertical section upper end closed, described second vertically opens wide on the section, described horizontal segment and first and second vertically section make described absorption cell be the class U-shaped, the described respiratory siphon other end from first vertically the section upper end stretch into the liquid in the absorption cell.
Described first and second vertically is provided with overfall 11 in the position of the upper a little higher than described horizontal segment of one of section, and described overfall is communicated with overflow pipe 12, and described overflow pipe is provided with overflow valve 13, the liquid communication in described overflow valve its place pipeline capable of blocking.
Preferably described pneumostome is provided with one, and is located on the mixing drum that is positioned at downstream in the mixing drum.
Position near pneumostome 4 on the described respiratory siphon 8 is communicated with air entry 14, and the pipeline between described air entry and the respiratory siphon is provided with check-valves 15, and described check-valves is blocked the expiration of its place pipeline.Like this check-valves so that air entry can only air-breathingly can not exhale, can be from the air entry air inlet when pneumostome is in suction condition; Owing to the existence of check-valves, air entry is not exhaled when pneumostome is in the expiration state, and dust is entered in the absorption cell by respiratory siphon with air.
Operating process of the present invention is as follows:
Closing outflow valve 13 after absorption cell 5 water fillings are finished, described atmospheric valve 10 cuts out, during to mixing drum 1 feed of upstream, pneumostome 4 is in the expiration state, dust is entered in the absorption cell 5 by pneumostome 4 and respiratory siphon 8 with air, dust is absorbed by water, pure air is discharged from absorption cell, this part dust that is absorbed by water and water form the mixed liquor of Powdered Activated Carbon and water, when reaching, the concentration of Powdered Activated Carbon in the mixed liquor adds when requiring, can open atmospheric valve 10, mixed liquor is emitted from blow-down pipe 9, and can add the technique that adds active carbon to needs and add a little.After Powdered Activated Carbon in the mixing drum and water mix, by the mixing drum in downstream mixed liquor is discharged, this moment, pneumostome was in suction condition, and the gas that is inhaled in the mixing drum enters from air-breathing 14 mouthfuls.
Claims (7)
1. the dust absorbing device of a mixing barrel in automatic wet powdery activated carbon adding equipment, comprise some enclosed mixing drums with agitating device (1), be connected by compensated with air pipe (2) between the top of adjacent mixing drum, be connected by tube connector (3) between the bottom of adjacent mixing drum, it is characterized in that: the upper end of at least one mixing drum is provided with pneumostome (4), absorption cell (5) is inner to communicate with ambient atmosphere, absorption cell top is communicated with feed pipe (6), described feed pipe is provided with water-supply valve (7), current in described water-supply valve its place pipeline capable of blocking are logical, respiratory siphon (8) one ends are connected with described pneumostome, the respiratory siphon other end stretches in the interior liquid of absorption cell, described absorption cell bottom is communicated with blow-down pipe (9), described blow-down pipe is provided with atmospheric valve (10), the liquid communication in described atmospheric valve its place pipeline capable of blocking.
2. the dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment as claimed in claim 1, it is characterized in that: on elevation, there are qualified relation in described absorption cell (5) bottom land and the relative altitude of described mixing drum (1) cylinder between the end, and this qualified relation is enough to prevent that described mixing drum from producing siphonage when air-breathing.
3. the dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment as claimed in claim 2, it is characterized in that: have fore-and-aft distance between the liquid level of the peak of described respiratory siphon (8) and absorption cell (5), this fore-and-aft distance is enough to guarantee in the not sucked back mixing drum of liquid in the absorption cell.
4. the dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment as claimed in claim 3, it is characterized in that: described absorption cell is divided into horizontal segment (51) and first and second vertical section (52,53), the two ends of described horizontal segment communicate with first and second vertical section one respectively, described first vertical section upper end closed, described second vertically opens wide on the section, described horizontal segment and first and second vertically section make described absorption cell be the class U-shaped, the described respiratory siphon other end from first vertically the section upper end stretch into the liquid in the absorption cell.
5. the dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment as claimed in claim 4, it is characterized in that: the position that is higher than described horizontal segment on one of described first and second vertical section is provided with overfall (11), described overfall is communicated with overflow pipe (12), described overflow pipe is provided with overflow valve (13), the liquid communication in described overflow valve its place pipeline capable of blocking.
6. the dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment as claimed in claim 1, it is characterized in that: described pneumostome is provided with one, and is located on the mixing drum that is positioned at downstream in the mixing drum.
7. such as the dust absorbing device of each described mixing barrel in automatic wet powdery activated carbon adding equipment of claim 1 to 6, it is characterized in that: the upper position near pneumostome (4) of described respiratory siphon (8) is communicated with air entry (14), pipeline between described air entry and the respiratory siphon is provided with check-valves (15), and described check-valves is blocked the expiration of its place pipeline.
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CN 200910182306 CN101935083B (en) | 2009-06-30 | 2009-06-30 | Dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment |
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CN 200910182306 CN101935083B (en) | 2009-06-30 | 2009-06-30 | Dust absorbing device of mixing barrel in automatic wet powdery activated carbon adding equipment |
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CN101935083A CN101935083A (en) | 2011-01-05 |
CN101935083B true CN101935083B (en) | 2013-02-13 |
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CN211035387U (en) * | 2019-08-08 | 2020-07-17 | 北京恩菲环保股份有限公司 | Powdered activated carbon adding system |
Citations (6)
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CN2428476Y (en) * | 2000-06-01 | 2001-05-02 | 李继震 | Powderlike active-carbon negative-pressure feeding device |
CN2784763Y (en) * | 2005-04-08 | 2006-05-31 | 李怀军 | Device for smoke elimination, dust removal, desulfurization and purification of flue gas |
JP2008119600A (en) * | 2006-11-13 | 2008-05-29 | Suido Kiko Kaisha Ltd | Method for mixing powder and powder mixer |
CN201240876Y (en) * | 2008-05-22 | 2009-05-20 | 南京融达水处理设计制造有限公司 | Full-automatic powdered activated charcoal adding apparatus |
CN201245465Y (en) * | 2008-05-05 | 2009-05-27 | 上海同瑞环保工程有限公司 | Powdered activated charcoal adding apparatus |
CN201458787U (en) * | 2009-06-30 | 2010-05-12 | 江苏瀚深水业科技发展有限公司 | Mixing cylinder powder absorption device for automatic powder active carbon wet-type feeder |
-
2009
- 2009-06-30 CN CN 200910182306 patent/CN101935083B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2428476Y (en) * | 2000-06-01 | 2001-05-02 | 李继震 | Powderlike active-carbon negative-pressure feeding device |
CN2784763Y (en) * | 2005-04-08 | 2006-05-31 | 李怀军 | Device for smoke elimination, dust removal, desulfurization and purification of flue gas |
JP2008119600A (en) * | 2006-11-13 | 2008-05-29 | Suido Kiko Kaisha Ltd | Method for mixing powder and powder mixer |
CN201245465Y (en) * | 2008-05-05 | 2009-05-27 | 上海同瑞环保工程有限公司 | Powdered activated charcoal adding apparatus |
CN201240876Y (en) * | 2008-05-22 | 2009-05-20 | 南京融达水处理设计制造有限公司 | Full-automatic powdered activated charcoal adding apparatus |
CN201458787U (en) * | 2009-06-30 | 2010-05-12 | 江苏瀚深水业科技发展有限公司 | Mixing cylinder powder absorption device for automatic powder active carbon wet-type feeder |
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