CN202497852U - Mixing device for ultrafine particles - Google Patents
Mixing device for ultrafine particles Download PDFInfo
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- CN202497852U CN202497852U CN2012200945089U CN201220094508U CN202497852U CN 202497852 U CN202497852 U CN 202497852U CN 2012200945089 U CN2012200945089 U CN 2012200945089U CN 201220094508 U CN201220094508 U CN 201220094508U CN 202497852 U CN202497852 U CN 202497852U
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Abstract
The utility model discloses a mixing device for ultrafine particles. The system of the mixing device for ultrafine particles is composed of a hopper, a screw feeder, a Roots fan, a wind chamber, a circulating fluidized bed, a cyclone dust remover, a vertical tube, a returning device, a bag-type dust remover and a material collector; the circulating fluidized bed is composed of a low-speed bed, a transition section and a high-speed bed; a porous plate is arranged at the upper part of the wind chamber and is used as a wind distribution plate; and the bag-type dust remover is connected with the cyclone dust remover. The ultrafine particles and auxiliary fluidized particles are filled in the low-speed bed. The auxiliary fluidized particles are added in the low-speed bed via an auxiliary fluidized particle bin. Two or more types of the ultrafine particles are provided. The particle sizes of the ultrafine particles are less than 100 mu m. The Roots fan is used for providing an inert fluidizing gas which is not reacted with the ultrafine particles. The particle sizes of the auxiliary fluidized particles are greater than 100 mu m and less than 100 mm. A screw feeder is used as a feeding device.
Description
Technical field
The utility model relates to a kind of mixing arrangement of superfine particulate matter, relates in particular to a kind of mixing arrangement of variety classes ultra-fine grain.
Background technology
Gu superfine particulate matter has bigger specific area, good chemical reactivity and solid-surface reaction characteristic, be widely used in the reactant of synthetic reaction.The general efficient of technical process of producing at present the ultra-fine grain mixture is low, low productivity, production is discontinuous and it is inhomogeneous to mix, so the output of ultra-fine grain mixture all receives significantly with quality and limiting.
The mixture of superfine particulate matter descends owing to mixing inhomogeneous quality decline, the qualification rate of product of will causing in the preparation process as the raw material of Chemical Manufacture.Therefore seek a kind of mixture homogeneity height, can bring enormous benefits to production by quantity-produced superfine particulate matter mixing arrangement.Fluid bed has unique advantages in fields such as particle mixing, reactions, still, and for the superfine particulate matter of particle diameter less than 100 μ m; Intergranular adhesion is very strong; Superfine particulate matter is difficult for fluidisation usually, in fluid bed, is difficult for mixing, and traditional fluidization technology is prone to form channel; Be difficult to realize stable fluidization, mix inhomogeneous.Only strengthen the mixing of ultra-fine grain, perhaps make ultra-fine grain be divided into the multiply thread and flow through the slit between the fixed bed that forms by big auxiliary particle, thereby realize the even mixing of superfine particulate matter by the auxiliary particle fluidisation of greater particle size.
Summary of the invention
Goal of the invention:Backward to the superfine particulate matter hybrid technique, production efficiency is low, production is discontinuous and mix uneven present situation; The purpose of the utility model provides the superfine particulate matter that a kind of automaticity is higher, mixing efficiency is high, mixture homogeneity is high, output is big, energy-conservation, have continuous production capacity and mixes complete set of technical device.
Technical scheme:For realizing the foregoing invention purpose, the technical scheme that the utility model adopts is:
The mixing arrangement of the superfine particulate matter of the utility model comprises hopper, screw(-type) feeder, roots blower, air compartment, recirculating fluidized bed, one-level cyclone dust collectors, standpipe, material returning device, secondary cyclone, sack cleaner and material collector; Wherein, recirculating fluidized bed by low speed bed, changeover portion, and at a high speed bed form, be provided with porous plate as air distribution plate in low speed bed bottom; In the bottom of air distribution plate is air compartment; Top low speed bed is connected with changeover portion, and the top of changeover portion is connected with bed at a high speed, and the top of bed is communicated with the one-level cyclone dust collectors at a high speed; The bottom of one-level cyclone dust collectors connects standpipe, and the bottom of standpipe is communicated with low speed bed Lower Half through material returning device; The top of one-level cyclone dust collectors is communicated with secondary cyclone, and sack cleaner is arranged in secondary cyclone, and the bottom of secondary cyclone is communicated with material collector; Ultra-fine grain and auxiliary fluidized particles are arranged in low speed bed, auxiliary fluidized particles through auxiliary fluidisation particulate material storehouse add low speed bed in.
The kind of ultra-fine grain is more than or equal to two kinds.
The particle diameter of ultra-fine grain is less than 100 μ m.
Roots blower provides not the inertia fluidized gas with ultra-fine grain generation chemical reaction.
Auxiliary fluidisation particle grain size is between 100 μ m ~ 100 mm.
Beneficial effect:The utlity model has following advantage:
The utility model is realized the stabilization fluid of ultra-fine grain in fluid bed, mixes continuously and is produced by the auxiliary fluidized particles of greater particle size.Two kinds of technology paths are arranged: (1) after recirculating fluidized bed infeeds certain fluidized gas, the auxiliary fluidized particles of big particle diameter even fluidisation low speed bed in, but can not be entrained with bed at a high speed, realization ultra-fine grain stabilization fluid in fluid bed under its drive; (2) after recirculating fluidized bed infeeds certain fluidized gas; The auxiliary fluidized particles of big particle diameter is fluidisation not; But form the stationary bed of certain altitude; Send into the low speed bed interior ultra-fine grain in recirculating fluidized bed bottom by screw(-type) feeder, can only between the slit of auxiliary fluidized particles, walking under the effect of fluidizing gas, because this slit is that multichannel is multidirectional; In the height of bed process of passing auxiliary fluidized particles, there is certain time of staying, makes ultra-fine grain in the process of walking, realize the even mixing of two or more superfine particulate matters.More than two kinds of mixed process all be to realize the well-mixed of ultra-fine grain in recirculating fluidized bed low speed bed by means of auxiliary fluidized particles.Fluidized gas can be carried the high speed bed that superfine particulate matter rises to recirculating fluidized bed simultaneously, in flowing fast, realizes the mixing once more of superfine particulate matter, and the ultra-fine grain that mixes is carried out a body fast.Primary cyclone separates most of ultra-fine grain, returns low speed bed again through standpipe and material returning device.Outlet gets into secondary cyclone to the ultra-fine grain finished product that all the other mix through primary cyclone, gets into the finished product materials gatherer through sack cleaner again, promptly becomes and mixes qualified ultra-fine grain mix product, waits to be transported dispatching from the factory.The utility model has prolonged the incorporation time of superfine particulate matter greatly, realizes the even mixing of superfine particulate matter and production continuously, is convenient to large-scale production.
In sum; The mixing arrangement of a kind of superfine particulate matter in the utility model; Make the fluidization of superfine particulate matter be mixed into possibility, have stronger continuous production capacity, easily be automated continuous production; The superfine particulate matter mixture homogeneity is high, mixing uniformity is good, automaticity is high, possess advantages such as energy-efficient, can be used for large-scale production.
Description of drawings
Fig. 1 is the sketch map of a kind of superfine particulate matter mixing arrangement of the utility model.
The specific embodiment
The mixing arrangement of the superfine particulate matter of the utility model comprises hopper 1, screw(-type) feeder 2, roots blower 3, air compartment 4, recirculating fluidized bed 5, one-level cyclone dust collectors 6, standpipe 7, material returning device 8, secondary cyclone 9, sack cleaner 10 and material collector 11; Wherein, recirculating fluidized bed 5 by low speed bed 12, changeover portion 13, and at a high speed bed 14 form, be provided with porous plate as air distribution plate 17 in low speed bed 12 bottom; In the bottom of air distribution plate 17 is air compartment 4; Be connected with changeover portion 13 on low speed bed 12 top, the top of changeover portion 13 is connected with bed 14 at a high speed, and the top of bed 14 is communicated with one-level cyclone dust collectors 6 at a high speed; The bottom of one-level cyclone dust collectors 6 connects standpipe 7, and the bottom of standpipe 7 is communicated with low speed bed 12 Lower Half through material returning device 8; The top of one-level cyclone dust collectors 6 is communicated with secondary cyclone 9, and sack cleaner 10 is arranged in secondary cyclone 9, and the bottom of secondary cyclone 9 is communicated with material collector 11; Ultra-fine grain 15 and auxiliary fluidized particles 16 are arranged in low speed bed 12, and auxiliary fluidized particles 16 adds in low speed bed 12 through auxiliary fluidisation particulate material storehouse 18.
Auxiliary fluidized particles 16 adds in low speed bed 12 through auxiliary fluidisation particulate material storehouse 18.The kind of superfine particulate matter greater than, equal two kinds.The particle diameter of ultra-fine grain 15 is less than 100 μ m.Roots blower 3 provides not the inertia fluidized gas that reacts with ultra-fine grain 15.The particle diameter of the auxiliary fluidized particles 16 of auxiliary fluidisation is 100 μ m to 100mm.Charging gear is a screw(-type) feeder 2.The ultra-fine grain mixture finished product that has mixed is collected in the material collector 11 through cyclone dust collectors 9 and sack cleaner 10, waits to dispatch from the factory.
A kind of mixing arrangement of different superfine particulate matters; Shown in accompanying drawing 1, embodiment 1, elder generation is that the auxiliary fluidized particles 16 (like hollow alumina) of 100 μ m-100mm joins in low speed bed 12 through auxiliary fluidisation particulate material storehouse 18 (valve is arranged on it) with a certain amount of particle diameter.Again material manganese dioxide and the lithium carbonate of particle diameter less than the preparation LiMn2O4 of 100 μ m is delivered in low speed bed 12 through screw(-type) feeder 2.Infeed fluidisation nitrogen to recirculating fluidized bed 5 bottoms low speed bed 12 simultaneously; The manganese dioxide of entering recirculating fluidized bed 5 and lithium carbonate are under auxiliary fluidized particles 16 (hollow alumina) effect; In low speed bed 12, carry out the stable state fluidisation under the low gas velocity and mix the mixed once of realization manganese dioxide and lithium carbonate.Under the carrying of fluidisation air-flow; Manganese dioxide and lithium carbonate mixture rise in the high speed bed 14; Carry entering one-level cyclone dust collectors 6 by high-speed gas; Partial oxidation manganese and lithium carbonate mixture are captured by one-level cyclone dust collectors 6 and return low speed bedly 12 through standpipe 7 and material returning device 8 again, realize the secondary mixing of manganese dioxide and lithium carbonate.The gas speed of control fluidized gas is greater than the critical fludization velocity of auxiliary fluidized particles 16, simultaneously less than the elutriation speed of carrying secretly of auxiliary fluidized particles 16, makes auxiliary fluidized particles 16 to be in fluidized state and can not be fluidized gas and be entrained with recirculating fluidized bed 5.Material repeatedly circulates and makes two kinds of ultra-fine grain mixture good mixings; Reaching the manganese dioxide and the lithium carbonate mixture that mix requirement then flows out from cyclone dust collectors 6; Carried into second cyclone dust extractor 9 by air-flow, get into sack cleaner 10 again, weary air-flow goes out system; Qualified granulate mixture manganese dioxide and lithium carbonate finished product are stored in material collector 11, wait to dispatch from the factory.
A kind of mixing arrangement of different superfine particulate matters; Shown in accompanying drawing 1, embodiment 1, elder generation is that the auxiliary fluidized particles 16 (like solid aluminium oxide) of 100 μ m-100mm joins in low speed bed 12 through auxiliary fluidisation particulate material storehouse 18 (valve is arranged on it) with a certain amount of particle diameter.The static height of bed 500-1000mm that keeps supplies.Again material manganese dioxide and the lithium carbonate of particle diameter less than the preparation LiMn2O4 of 100 μ m is delivered in low speed bed 12 through screw(-type) feeder 2.Infeed fluidisation nitrogen to recirculating fluidized bed 5 bottoms low speed bed 12, the manganese dioxide and the lithium carbonate that get into recirculating fluidized bed 5 bottoms pass between the slit of auxiliary fluidized particles 16 (solid aluminium oxide).The gas speed of control fluidized gas is greater than the terminal velocity of superfine particulate matter 15, and simultaneously less than the critical fludization velocity of auxiliary fluidized particles 16, feasible auxiliary fluidized particles 16 can only be in the fixed bed inactive state and can not be fluidized.Because auxiliary fluidisation bulky grain can not be fluidized and can only staticly be deposited in low speed bed 12; Manganese dioxide and lithium carbonate ultra-fine grain can only pass between auxiliary oarse-grained slit, in passing the process in many slits, realize the mixed once of manganese dioxide and lithium carbonate ultra-fine grain.Under the carrying of fluidisation air-flow; Manganese dioxide and lithium carbonate mixture rise in the high speed bed 14; Carry entering one-level cyclone dust collectors 6 by high-speed gas; Partial oxidation manganese and lithium carbonate mixture are captured by one-level cyclone dust collectors 6 and return low speed bedly 12 through standpipe 7 and material returning device 8 again, realize the secondary mixing of manganese dioxide and lithium carbonate.Material repeatedly circulates and makes two kinds of mixture good mixings; Reaching the manganese dioxide and the lithium carbonate mixture that mix requirement then flows out from cyclone dust collectors 6; Carried into second cyclone dust extractor 9 by air-flow, get into sack cleaner 10 again, weary air-flow goes out system; Qualified granulate mixture manganese dioxide and lithium carbonate finished product are stored in material collector 11, wait to dispatch from the factory.
Claims (5)
1. the mixing arrangement of a superfine particulate matter is characterized in that this mixing arrangement comprises hopper (1), screw(-type) feeder (2), roots blower (3), air compartment (4), recirculating fluidized bed (5), one-level cyclone dust collectors (6), standpipe (7), material returning device (8), secondary cyclone (9), sack cleaner (10) and material collector (11); Wherein, Recirculating fluidized bed (5) by low speed bed (12), changeover portion (13), and at a high speed bed (14) form; Being provided with porous plate in the bottom of low speed bed (12) as air distribution plate (17), is air compartment (4) in the bottom of air distribution plate (17), is connected with changeover portion (13) on the top of low speed bed (12); The top of changeover portion (13) is connected with bed (14) at a high speed; The top of bed (14) is communicated with one-level cyclone dust collectors (6) at a high speed, and the bottom of one-level cyclone dust collectors (6) connects standpipe (7), and the bottom of standpipe (7) is communicated with the Lower Half of low speed bed (12) through material returning device (8); The top of one-level cyclone dust collectors (6) is communicated with secondary cyclone (9), and sack cleaner (10) is arranged in secondary cyclone (9), and the bottom of secondary cyclone (9) is communicated with material collector (11); Ultra-fine grain (15) and auxiliary fluidized particles (16) are arranged in low speed bed (12), and auxiliary fluidized particles (16) adds in low speed bed (12) through auxiliary fluidisation particulate material storehouse (18).
2. according to the mixing arrangement of a kind of superfine particulate matter described in the claim 1, the kind that it is characterized in that ultra-fine grain (15) is more than or equal to two kinds.
3. according to the mixing arrangement of a kind of superfine particulate matter described in the claim 1, the particle diameter that it is characterized in that ultra-fine grain (15) is less than 100 μ m.
4. according to the mixing arrangement of a kind of superfine particulate matter described in the claim 1, it is characterized in that roots blower (3) provides the inertia fluidized gas that chemical reaction does not take place with ultra-fine grain (15).
5. according to the mixing arrangement of a kind of superfine particulate matter described in the claim 1, it is characterized in that the particle diameter of auxiliary fluidized particles (16) is between 100 μ m ~ 100 mm.
Priority Applications (1)
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CN2012200945089U CN202497852U (en) | 2012-03-14 | 2012-03-14 | Mixing device for ultrafine particles |
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CN2012200945089U CN202497852U (en) | 2012-03-14 | 2012-03-14 | Mixing device for ultrafine particles |
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CN2012200945089U Withdrawn - After Issue CN202497852U (en) | 2012-03-14 | 2012-03-14 | Mixing device for ultrafine particles |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102614801A (en) * | 2012-03-14 | 2012-08-01 | 东南大学 | Ultrafine particle mixing device |
CN107182400A (en) * | 2017-05-16 | 2017-09-22 | 林华 | Gardens impingement fertilizer apparatus |
CN108858796A (en) * | 2018-06-29 | 2018-11-23 | 安庆市凯瑞建材有限公司 | A kind of mortar production fluidized bed mixing arrangement |
-
2012
- 2012-03-14 CN CN2012200945089U patent/CN202497852U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102614801A (en) * | 2012-03-14 | 2012-08-01 | 东南大学 | Ultrafine particle mixing device |
CN107182400A (en) * | 2017-05-16 | 2017-09-22 | 林华 | Gardens impingement fertilizer apparatus |
CN108858796A (en) * | 2018-06-29 | 2018-11-23 | 安庆市凯瑞建材有限公司 | A kind of mortar production fluidized bed mixing arrangement |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20121024 Effective date of abandoning: 20140108 |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20121024 Effective date of abandoning: 20140108 |
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RGAV | Abandon patent right to avoid regrant |