CN103521152B - Continuous arc process nanometer powder preparation equipment - Google Patents
Continuous arc process nanometer powder preparation equipment Download PDFInfo
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- CN103521152B CN103521152B CN201310497620.6A CN201310497620A CN103521152B CN 103521152 B CN103521152 B CN 103521152B CN 201310497620 A CN201310497620 A CN 201310497620A CN 103521152 B CN103521152 B CN 103521152B
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- chamber
- nano powder
- nanometer powder
- passivation
- dust trapping
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Abstract
The invention discloses continuous arc process nanometer powder preparation equipment. The continuous arc process nanometer powder preparation equipment comprises a nanometer powder generating chamber, a nanometer powder gathering chamber, a nanometer powder subpackaging treatment chamber, a nanometer powder passivating chamber as well as an operating platform, wherein the nanometer powder generating chamber is placed on the operating platform, the discharging port of the nanometer powder generating chamber is connected to the feeding port of the nanometer powder gathering chamber through a pipeline, and a first discharge valve is arranged between the pipeline and the discharging port of the nanometer powder generating chamber in a sealing manner; a second discharge valve is arranged at the discharging port of the nanometer powder gathering chamber in a sealing manner, and a quartz glass tube with scales is connected between the second discharge valve and the feeding port of the nanometer powder subpackaging treatment chamber; the nanometer powder subpackaging treatment chamber is connected to the nanometer powder passivating chamber through an adapter module I, and the nanometer powder passivating chamber is connected to an adapter module II; the nanometer powder gathering chamber is connected to a vacuum pump, and an air circulation pipeline is connected between the nanometer powder generating chamber and the nanometer powder gathering chamber through a circulating fan. The continuous arc process nanometer powder preparation equipment has the advantages that the continuous production from nanometer powder generation, to gathering, quantitative subpackaging and passivation is realized, the production efficiency is improved, and the land occupation is saved.
Description
Technical field
The present invention relates to a kind of arc process and prepare nano powder equipment, specifically relate to a kind of continous way arc process and prepare nano powder equipment.
Background technology
The equipment of preparing nano powder mainly comprises that nano powder generates chamber, nano powder dust trapping chamber, nano powder packing process chamber and nano powder passivation chamber, enterprise's majority of preparing at present nano powder is to use the said equipment division system standby, make to regather after nano powder and forward next equipment to and carry out packing, afterwards by paralysis facility passivation, use the standby problem existing of the said equipment division system to be: 1, production efficiency is low, be prepared into from nano powder that point to install to passivation be all to carry out separately; 2, equipment investment is relatively large, and for example nano powder generates chamber need to be in operation under vacuum condition, and nano powder dust trapping chamber and packing process chamber also need to be in operations under vacuum condition, wasted vaccum-pumping equipment; It is large that 3 equipment occupy space.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of simple in structure, compact, takes up room little while installing and using, and cost of investment is relatively low, and can quantity-produced continous way arc process prepare nano powder equipment.
For solving the problems of the technologies described above, continous way arc process of the present invention is prepared nano powder equipment, comprise that nano powder generates chamber, nano powder dust trapping chamber, nano powder packing process chamber and nano powder passivation chamber, also comprise operating platform, described nano powder generates chamber and is placed on this operating platform; The discharging opening that nano powder generates chamber is connected by pipeline with the charging aperture of described nano powder dust trapping chamber, and pipeline and nano powder generate between the discharging opening of chamber and seal the first outlet valve is housed; Described nano powder packing process chamber be arranged on described nano powder dust trapping chamber under, the second outlet valve is equipped with in the discharging opening sealing of nano powder dust trapping chamber, between the second outlet valve and the charging aperture of described nano powder packing process chamber, is connected with the graduated quartz glass tube of tool; The discharge door of described nano powder packing process chamber is connected with the feeding gate of described nano powder passivation chamber by transfer chamber I, the discharge door of nano powder passivation chamber is connected with transfer chamber II, the both sides of described transfer chamber I are connected with the described discharge door of nano powder packing process chamber and the sealing of the feeding gate of nano powder passivation chamber by charging and discharging valve, a side of described transfer chamber II is connected with the discharge door sealing of nano powder passivation chamber by inlet valve, and the opposite side sealing of transfer chamber II is connected with outlet valve; Described nano powder dust trapping chamber is connected with vavuum pump by pipeline, and described nano powder generates between chamber and nano powder dust trapping chamber and is connected with wind circulating line by circulating fan.
The continous way arc process of said structure is prepared nano powder equipment, by pipeline, valve each component devices rational deployment, form a set of complete from nano powder be generated to trapping, to quantitative separating, again to the nano powder Preparation equipment of passivation, improved production efficiency, saved occupation of land space; Nano powder of the present invention generates chamber and nano powder dust trapping chamber shares a vaccum-pumping equipment, has saved equipment investment; Described nano powder generates between chamber and nano powder dust trapping chamber and is connected with wind circulating line by circulating fan, has ensured that the nano powder that nano powder generation chamber generates continuously blows into nano powder dust trapping chamber; The structure that adopts the graduated quartz glass tube of tool and outlet valve to match between nano powder dust trapping chamber and nano powder packing process chamber in addition, can make the nano powder packing process chamber according to point reload request quantitative separating of actual nano powder, avoid nano powder quantitative separating and affect the quality of nano powder again after the indoor passivation of passivation.
Brief description of the drawings
Below in conjunction with accompanying drawing, the present invention is described in further detail.
Fig. 1 is the overall structure schematic diagram that continous way arc process of the present invention is prepared nano powder equipment.
Fig. 2 is that the A of Fig. 1 is to structural representation.
Fig. 3 is that Fig. 1 removes B after vavuum pump to structural representation.
Fig. 4 is that Fig. 1 removes C after vavuum pump to structural representation.
Detailed description of the invention
Referring to Fig. 1-Fig. 4, continous way arc process of the present invention is prepared nano powder equipment, comprise that nano powder generates chamber 1, nano powder dust trapping chamber 2, nano powder packing process chamber 3 and nano powder passivation chamber 4, also comprise operating platform 5, described nano powder generates chamber 1 and is placed on this operating platform 5; The discharging opening that nano powder generates chamber 1 is connected by pipeline with the charging aperture of described nano powder dust trapping chamber 2, and pipeline and nano powder generate between the discharging opening of chamber 1 and seal the first outlet valve 6 is housed; Described nano powder packing process chamber 3 be arranged on described nano powder dust trapping chamber 2 under, the discharging opening sealing of nano powder dust trapping chamber 2 is equipped with between the second outlet valve 7, the second outlet valves 7 and the charging aperture of described nano powder packing process chamber 3 and is connected with the graduated quartz glass tube 8 of tool; The discharge door of described nano powder packing process chamber 3 is connected with the feeding gate of described nano powder passivation chamber 4 by transfer chamber I, the discharge door of nano powder passivation chamber 4 is connected with transfer chamber II, the both sides of described transfer chamber I are connected with the described discharge door of nano powder packing process chamber and the sealing of the feeding gate of nano powder passivation chamber by charging and discharging valve, a side of described transfer chamber II is connected with the discharge door sealing of nano powder passivation chamber by inlet valve, and the opposite side sealing of transfer chamber II is connected with outlet valve; Described nano powder dust trapping chamber 2 is connected with vavuum pump 9 by pipeline, and described nano powder generates between chamber 1 and nano powder dust trapping chamber 2 and is connected with wind circulating line 11 by circulating fan 10.
Claims (1)
1. a continous way arc process is prepared nano powder equipment, comprise that nano powder generates chamber (1), nano powder dust trapping chamber (2), nano powder packing process chamber (3) and nano powder passivation chamber (4), it is characterized in that: also comprise operating platform (5), described nano powder generates chamber (1) and is placed on this operating platform (5); The discharging opening that nano powder generates chamber (1) is connected by pipeline with the charging aperture of described nano powder dust trapping chamber (2), and between pipeline and the discharging opening of nano powder generation chamber (1), the first outlet valve (6) is equipped with in sealing; Described nano powder packing process chamber (3) be arranged on described nano powder dust trapping chamber (2) under, the second outlet valve (7) is equipped with in the discharging opening sealing of nano powder dust trapping chamber (2), between the second outlet valve (7) and the charging aperture of described nano powder packing process chamber (3), is connected with the graduated quartz glass tube of tool (8); The discharge door of described nano powder packing process chamber (3) is connected with the feeding gate of described nano powder passivation chamber (4) by transfer chamber I, the discharge door of nano powder passivation chamber (4) is connected with transfer chamber II, the both sides of described transfer chamber I are connected with the described discharge door of nano powder packing process chamber and the sealing of the feeding gate of nano powder passivation chamber by charging and discharging valve, a side of described transfer chamber II is connected with the discharge door sealing of nano powder passivation chamber by inlet valve, and the opposite side sealing of transfer chamber II is connected with outlet valve; Described nano powder dust trapping chamber (2) is connected with vavuum pump (9) by pipeline, and described nano powder generates between chamber (1) and nano powder dust trapping chamber (2) and is connected with wind circulating line (11) by circulating fan (10).
Priority Applications (1)
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CN201310497620.6A CN103521152B (en) | 2013-10-22 | 2013-10-22 | Continuous arc process nanometer powder preparation equipment |
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CN201310497620.6A CN103521152B (en) | 2013-10-22 | 2013-10-22 | Continuous arc process nanometer powder preparation equipment |
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CN103521152A CN103521152A (en) | 2014-01-22 |
CN103521152B true CN103521152B (en) | 2014-10-08 |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101015861A (en) * | 2006-11-09 | 2007-08-15 | 昆山密友实业有限公司 | Continuous production apparatus for nano metal powder |
CN101927352A (en) * | 2010-09-21 | 2010-12-29 | 李立明 | Novel technology for continuously producing nano powder by using ultra-high temperature plasma and preparation process thereof |
CN203494508U (en) * | 2013-10-22 | 2014-03-26 | 辽宁北宇真空科技有限公司 | Device for preparing nano powder by continuous electric arc method |
Family Cites Families (1)
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US20030106488A1 (en) * | 2001-12-10 | 2003-06-12 | Wen-Chiang Huang | Manufacturing method for semiconductor quantum particles |
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101015861A (en) * | 2006-11-09 | 2007-08-15 | 昆山密友实业有限公司 | Continuous production apparatus for nano metal powder |
CN101927352A (en) * | 2010-09-21 | 2010-12-29 | 李立明 | Novel technology for continuously producing nano powder by using ultra-high temperature plasma and preparation process thereof |
CN203494508U (en) * | 2013-10-22 | 2014-03-26 | 辽宁北宇真空科技有限公司 | Device for preparing nano powder by continuous electric arc method |
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