CN102671748A - Air-stream milling device for realizing secondary grinding of coarse powder - Google Patents

Air-stream milling device for realizing secondary grinding of coarse powder Download PDF

Info

Publication number
CN102671748A
CN102671748A CN201210155995XA CN201210155995A CN102671748A CN 102671748 A CN102671748 A CN 102671748A CN 201210155995X A CN201210155995X A CN 201210155995XA CN 201210155995 A CN201210155995 A CN 201210155995A CN 102671748 A CN102671748 A CN 102671748A
Authority
CN
China
Prior art keywords
feed
pipe
sieve
feeder
kuppe
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201210155995XA
Other languages
Chinese (zh)
Other versions
CN102671748B (en
Inventor
易鹏鹏
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NINGBO SONGKE MAGNETIC MATERIAL CO Ltd
Original Assignee
NINGBO SONGKE MAGNETIC MATERIAL CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NINGBO SONGKE MAGNETIC MATERIAL CO Ltd filed Critical NINGBO SONGKE MAGNETIC MATERIAL CO Ltd
Priority to CN201210155995.XA priority Critical patent/CN102671748B/en
Publication of CN102671748A publication Critical patent/CN102671748A/en
Application granted granted Critical
Publication of CN102671748B publication Critical patent/CN102671748B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The invention discloses an air-stream milling device for realizing secondary grinding of coarse powder. The air-stream milling device comprises a grinding chamber and a cyclone separator which are mutually communicated with each other, and further comprises a powder screening device and a material returning pipe, wherein the powder screening device consists of a powder screening box, a vibration motor, a stream guidance cover, a switch type fan blade separator and a vibration screen; the vibration motor is arranged at the bottom of the powder screening box; the stream guidance cover is located above the vibration motor; a discharging opening and a first air path adapter, which are in a symmetrical structure, are arranged on the side wall of the stream guidance cover; the vibration screen is located at the opening of the stream guidance cover; the switch type fan blade separator is located in the stream guidance cover and is located right below the vibration screen; the motor shaft of the vibration motor passes through the bottom of the stream guidance cover; the front end of the motor shaft is respectively matched with the switch type fan blade separator and the vibration screen; a feedback pipe port and a second air path adapter are arranged on the side wall of the powder screening box; and the feedback pipe port and the second air path adapter are located above the vibration screen and are oppositely arranged. The air-stream milling device provided by the invention can ensure that the granularity of the grinded powder is less than 20 mu m; the powder consistency is improved; and the discharging rate can reach to be more than 95%. The air-stream milling device provided by the invention is mainly used for the field of powder metallurgy.

Description

Realize the airflow milling device of meal regrind
Technical field
The present invention relates to a kind of power metallurgy equipment, particularly realize the airflow milling device of meal regrind.
Background technology
Airflow milling is that a kind of to utilize high pressure draught that granular material is carried out fine powder broken, is processed into the milling apparatus of attritive powder.Its operation principle is that gases at high pressure (being mostly nitrogen) are quickened through nozzle, and speed reaches as high as the supersonic speed magnitude, make to grind indoor meal particle reaches pulverizing in the high speed knock-on process purpose,
But in work was used, people usually can find still can have a part of big particle from the powder that comes out in the mill chamber.To this problem; At known (application number is 03116485.4) patent name is in a kind of public technology of airflow milling, and it goes here and there a mill separator between grinding chamber and cyclone separator, fails to reduce effectively the ratio of big particle but find it through the practice back; And it is dispersed relatively poor; Still have the coarse granule greater than 25 microns in the powder that processes, especially 20~25 microns particle is more, influences the distribution and the uniformity of powder; In addition in its design since mill separator directly be connected with the mill chamber, big particle not with newly advance powder and fully mix and just carry out regrind, cause superfine powder to increase, powder uniformity variation, the mass output rate reduction is merely 90%, causes serious waste.
Summary of the invention
The objective of the invention is provides a kind of can effectively the reduction to grind the back powder particles for the deficiency that solves above-mentioned prior art, improves the powder uniformity, thereby promotes the airflow milling device of the realization meal regrind of mass output rate.
To achieve these goals, the airflow milling device of the realization meal regrind that the present invention designed comprises the grinding chamber and the cyclone separator of mutual perforation; Also comprise sieve powder device and feed back pipe, vibrating motor, kuppe, switching regulator flabellum separator and vibratory sieve that said sieve powder device comprises sieve powder case and is positioned at sieve powder case, vibrating motor place sieve powder case bottom; Kuppe is positioned at the top of vibrating motor, and the sidewall of kuppe is provided with discharging opening and first gas circuit is taken over, and the discharging opening and first gas circuit are taken over to being symmetrical set; And the sidewall that all runs through sieve powder case; Vibratory sieve is positioned at the opening part of kuppe, switching regulator flabellum separator be positioned at kuppe and be in vibratory sieve under, the motor drive shaft of vibrating motor runs through kuppe bottom; The motor drive shaft front end cooperates with switching regulator flabellum separator, vibratory sieve respectively; The sidewall of said sieve powder case is provided with feed back interface tube and second gas circuit and takes over, and the feed back interface tube and second gas circuit are taken over the top that all is positioned at vibratory sieve, and for each other towards setting; Feed back Guan Yiduan is socketed on the feed back interface tube, and the other end of feed back pipe is communicated with grinding chamber; The feed opening of said cyclone separator is communicated with sieve powder case, and its junction is positioned at the top of sieve powder case.
In the said structure, after grinding first, can not got into grinding chamber again through the feed back pipe, and mix and carry out regrind with new powder in the grinding chamber by the broken material powder particles of complete fine powder.
For ability realize the Push And Release that second gas circuit is taken over according to the meal amount of staying the vibratory sieve upper end, thereby promote the feed back reasonability, second gas circuit adapter in this creativity and innovation is provided with time control valve.
In order to promote the blanking reasonability of cyclone separator, avoid occurring backflow phenomenon simultaneously, the feed opening of the cyclone separator in this creativity and innovation is provided with time control check valve.
In order to promote discharging speed, the discharging opening in the invention is provided with nozzle.
In order to promote feed back speed, be equipped with nozzle on the feed back interface tube in the invention.
In order to protect the vibrating motor in this creativity and innovation, prolong its service life, be matched in clearance between sieve powder case and the kuppe described in this creativity and innovation, the shape of kuppe changes along with the shape variation of sieve powder case; Be between said motor drive shaft front end and switching regulator flabellum separator, the vibratory sieve and be flexible coupling.
In order to improve blanking velocity, the bottom of kuppe described in this creativity and innovation is an incline structure, and it is lower than away from the discharging opening place near the discharging opening place, and the angle of inclination is 15 ~ 60 °.
Produce in the use concrete; In order to promote the reinforced reasonability of grinding chamber; Between sieve powder device and grinding chamber, also be provided with feeder in this creativity and innovation, be communicated with through the feed back pipe between sieve powder case and the feeder, an end of feed back pipe is connected with nozzle on the feed back interface tube; The other end of feed back pipe is connected with feeder, and the lower end of feeder is communicated with grinding chamber through feed pipe.
In order to produce in the use concrete, conveniently collect the attritive powder that discharging opening comes out, the nozzle described in this creativity and innovation on the discharging opening is connected with aggregate pipe, and the other end of aggregate pipe is communicated with loading head.
In order to expand the scope of application of this creativity and innovation, the order number of vibratory sieve described in this creativity and innovation is adjustable from 2 ~ 10000.
The airflow milling device of the realization meal regrind that the present invention obtains; Its feed opening at cyclone separator connects a sieve powder device; Said sieve powder device is that grinding chamber is communicated with, and makes through can not got into grinding chamber again through the feed back pipe by the broken material powder particles of complete fine powder after the grinding first, and mixes and carry out regrind with new powder in the grinding chamber; Grind the back powder particles thereby can effectively reduce; Powder particles can be controlled in below the 20 μ m, improves the powder uniformity, and mass output rate can reach more than 95%; The production efficiency of this creativity and innovation is high simultaneously, and operation has controllability, and reasonable integral structure, long with the life-span.
Description of drawings
Fig. 1 is the overall structure sketch map of embodiment 1;
Fig. 2 is the cutaway view of sieve powder device among the embodiment 1;
Fig. 3 is the sieve powder device that is connected among the embodiment 1 and the cutaway view of cyclone separator;
Fig. 4 is the sketch map of the A side of switching regulator flabellum separator among the embodiment 1;
Fig. 5 is the overall structure sketch map of embodiment 2;
Fig. 6 is the sieve powder device that is connected among the embodiment 2 and the cutaway view of cyclone separator;
Fig. 7 is the overall structure sketch map of embodiment 3;
Fig. 8 is the cutaway view of sieve powder device among the embodiment 3;
Fig. 9 is the overall structure sketch map of embodiment 4.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the present invention is further specified.
Embodiment 1:
Like the airflow milling device of Fig. 1, Fig. 2, Fig. 3 and realization meal regrind shown in Figure 4, it comprises the grinding chamber 1 and cyclone separator 2 of mutual perforation, also comprises sieve powder device 3 and feed back pipe 4; Said sieve powder device 3 comprises sieve powder case 31 and the vibrating motor 32, kuppe 33, switching regulator flabellum separator 34 and the vibratory sieve 35 that are positioned at sieve powder case 31; The order number of above-mentioned vibratory sieve 35 is 500, and vibrating motor 32 places sieve powder case 31 bottoms, and kuppe 33 is positioned at the top of vibrating motor 32; The sidewall of kuppe 33 is provided with discharging opening 331 and first gas circuit takes over 332; Discharging opening 331 and first gas circuit take over 332 for being symmetrical set, and all run through the sidewall that sieves powder case 31, and vibratory sieve 35 is positioned at the opening part of kuppe 33; Switching regulator flabellum separator 34 be positioned at kuppe 33 and be in vibratory sieve 35 under; The motor drive shaft 321 of vibrating motor 32 runs through kuppe bottom 333, and motor drive shaft 321 front ends cooperate with switching regulator flabellum separator 34, vibratory sieve 35 respectively, and the sidewall of said sieve powder case 31 is provided with feed back interface tube 311 and second gas circuit takes over 312; Feed back pipe 4 feed back interface tubes 311 and second gas circuit adapter 312 all are positioned at the top of vibratory sieve 35; And towards setting, feed back Guan Yiduan is socketed on the interface 311 for each other, and the other end of feed back pipe 4 is communicated with grinding chamber 1; The feed opening 21 of said cyclone separator 2 is communicated with sieve powder case 31, and its junction is positioned at the top of sieve powder case 31.
" the order number " that occurs in the above-mentioned literal is meant the hole count of screen cloth in 1 inch line segment for the common technology word in the industry field.
Be matched in clearance between sieve powder case 31 and the kuppe 33 described in the present embodiment; The shape of kuppe 33 changes along with the shape variation of sieve powder case 31; Make to be enclosed within the kuppe 33 on the motor drive shaft 321 and to sieve between powder case 31 inwalls and have certain free gap; Thereby play the effect of protection vibrating motor 32; Prolong its service life, be between said motor drive shaft 321 front ends and switching regulator flabellum separator 34, the vibratory sieve 35 simultaneously and be flexible coupling, also can play the effect of protecting vibrating motor 32; In order to improve blanking velocity, the bottom of kuppe described in the present embodiment 333 is an incline structure, and it is lower than away from discharging opening 331 places near discharging opening 331 places, and the angle of inclination is 15 °, and above-mentioned as the case may be certainly angle of inclination can be adjusted between 15 ~ 60 °.
The matched in clearance that occurs in the foregoing is the common technology word in the industry field with being flexible coupling, and in the prior art clear and definite definition and explanation has also been carried out in above-mentioned two technological words, so seldom be described in detail at this; Described vibrating motor 32 is the existing product that can directly buy also simultaneously, and its operation principle is not described in detail at this yet.
In the said structure, after grinding first, can not got into grinding chamber 1 again through feed back pipe 4, and mix and carry out regrind with new powder in the grinding chamber 1 by the broken material powder particles of complete fine powder.
Embodiment 2:
Like Fig. 5 and shown in Figure 6; The airflow milling device of the realization meal regrind that present embodiment provides; Its general configuration is consistent with embodiment 1, but in order to realize the Push And Release of second gas circuit adapter 312 according to the meal amount of staying vibratory sieve 35 upper ends, makes its operation have controllability; Thereby promote the feed back reasonability, second gas circuit in the present embodiment is taken over 312 and is provided with time control valve 6; In order to promote the blanking reasonability of cyclone separator 2, make its operation have controllability, avoid occurring backflow phenomenon simultaneously, the feed opening 21 of the cyclone separator 2 in the present embodiment is provided with time control check valve 7.
In concrete the use; When the time control valve 6 in second gas circuit adapter 312 is open mode; The switching regulator flabellum separator 34 of vibratory sieve 35 belows is closed automatically, avoids the attritive powder of kuppe bottom 333 under the effect of air pressure, to pass vibratory sieve 35, refluxes thereby form; When the time control valve 6 in second gas circuit adapter 312 was closed condition, the switching regulator flabellum separator 34 of vibratory sieve 35 belows was opened automatically, and the powder that thickness is mixed on the vibratory sieve 35 advanced the screening of vibratory sieve 35 and successfully falls kuppe bottom 333.Embodiment 3:
Like Fig. 7 and shown in Figure 8, the airflow milling device of the realization meal regrind that present embodiment provides, its general configuration is consistent with embodiment 1, but in order to promote discharging speed, the discharging opening 331 in the present embodiment is provided with nozzle 5; In order to promote feed back speed, the feed back interface tube 311 in the present embodiment is provided with nozzle 5.
Embodiment 4:
As shown in Figure 9; The airflow milling device of the realization meal regrind that present embodiment provides, its general configuration is consistent with embodiment 1, but produces in the use concrete; In order to promote the reinforced reasonability of grinding chamber 1; Between sieve powder device 3 and grinding chamber 1, also be provided with feeder 9 in the present embodiment, sieve between powder case 31 and the feeder 9 and be communicated with through feed back pipe 4, an end of feed back pipe 4 is connected with nozzle 5 on the feed back interface tube 311; The other end of feed back pipe 4 is connected with feeder 9, and the lower end of feeder 9 is communicated with grinding chamber 1 through feed pipe 11.
In order to produce in the use concrete, conveniently collect the attritive powder that discharging opening 331 comes out, the nozzle 5 on the said discharging opening 331 is connected with aggregate pipe 10, and the other end of aggregate pipe 10 is communicated with loading head 8, and said aggregate pipe mostly 8 is a flexible pipe, preferred bellows.

Claims (10)

1. airflow milling device of realizing the meal regrind; The grinding chamber (1) and the cyclone separator (2) that comprise mutual perforation; It is characterized in that: also comprise sieve powder device (3) and feed back pipe (4); Said sieve powder device (3) comprises sieve powder case (31) and the vibrating motor (32), kuppe (33), switching regulator flabellum separator (34) and the vibratory sieve (35) that are positioned at sieve powder case (31), and vibrating motor (32) places the bottom of sieve powder case (31), and kuppe (33) is positioned at the top of vibrating motor (32); The sidewall of kuppe (33) is provided with discharging opening (331) and first gas circuit is taken over (332); Discharging opening (331) and first gas circuit are taken over (332) for being symmetrical set, and all run through the sidewall that sieves powder case (31), and vibratory sieve (35) is positioned at the opening part of kuppe (33); Switching regulator flabellum separator (34) be positioned at kuppe (33) and be in vibratory sieve (35) under; The motor drive shaft (321) of vibrating motor (32) runs through kuppe bottom (333), and motor drive shaft (321) front end cooperates with switching regulator flabellum separator (34), vibratory sieve (35) respectively, and the sidewall of said sieve powder case (31) is provided with the feed back pipe and connects (311) and second gas circuit adapter (312); The feed back pipe connects (311) and second gas circuit is taken over the top that (312) all are positioned at vibratory sieve (35); And towards setting, feed back pipe (4) one ends are socketed in the feed back pipe and connect on (311) for each other, and the other end of feed back pipe (4) is communicated with grinding chamber (1); The feed opening (21) of said cyclone separator (2) is communicated with sieve powder case (31), and its junction is positioned at the top of sieve powder case (31).
2. the airflow milling device of realization meal according to claim 1 regrind is characterized in that: take on (312) in second gas circuit and be provided with time control valve (6); On the feed opening (21) of cyclone separator (2), be provided with time control check valve (7).
3. the airflow milling device of realization meal according to claim 1 and 2 regrind is characterized in that: connect at discharging (331) and feed back pipe and be equipped with nozzle (5) on (311).
4. the airflow milling device of realization meal according to claim 1 and 2 regrind; It is characterized in that: be matched in clearance between said sieve powder case (31) and the kuppe (33), the shape of kuppe (33) changes along with the shape variation of sieve powder case (31); Be between said motor drive shaft (321) front end and switching regulator flabellum separator (34), the vibratory sieve (35) and be flexible coupling.
5. the airflow milling device of realization meal according to claim 3 regrind is characterized in that: be matched in clearance between said sieve powder case (31) and the kuppe (33); Be between said motor drive shaft (321) front end and switching regulator flabellum separator (34), the vibratory sieve (35) and be flexible coupling.
6. the airflow milling device of realization meal according to claim 3 regrind; It is characterized in that: between sieve powder device (3) and grinding chamber (1), also be provided with feeder (9); The sieve powder case (31) with feeder (9) between be communicated with through feed back pipe (4); One end of feed back pipe (4) is connected with the nozzle (5) that the feed back pipe connects on (311); The other end of feed back pipe (4) is connected with feeder (9), and the lower end of feeder (9) is communicated with grinding chamber (1) through feed pipe (11); Nozzle (5) in the said discharging (331) is connected with aggregate pipe (10), and the other end of aggregate pipe (10) is communicated with loading head (8).
7. the airflow milling device of realization meal according to claim 4 regrind; It is characterized in that: between sieve powder device (3) and grinding chamber (1), also be provided with feeder (9); The sieve powder case (31) with feeder (9) between be communicated with through feed back pipe (4); One end of feed back pipe (4) is connected with the nozzle (5) that the feed back pipe connects on (311); The other end of feed back pipe (4) is connected with feeder (9), and the lower end of feeder (9) is communicated with grinding chamber (1) through feed pipe (11); Nozzle (5) in the said discharging (331) is connected with aggregate pipe (10), and the other end of aggregate pipe (10) is communicated with loading head (8).
8. the airflow milling device of realization meal according to claim 5 regrind; It is characterized in that: between sieve powder device (3) and grinding chamber (1), also be provided with feeder (9); The sieve powder case (31) with feeder (9) between be communicated with through feed back pipe (4); One end of feed back pipe (4) is connected with the nozzle (5) that the feed back pipe connects on (311); The other end of feed back pipe (4) is connected with feeder (9), and the lower end of feeder (9) is communicated with grinding chamber (1) through feed pipe (11); Nozzle (5) in the said discharging (331) is connected with aggregate pipe (10), and the other end of aggregate pipe (10) is communicated with loading head (8).
9. the airflow milling device of realization meal according to claim 8 regrind is characterized in that: said kuppe bottom (333) is an incline structure, and it locates to be lower than away from discharging near discharging (331)
(331) locate, the angle of inclination is 15 ~ 60 °.
10. the airflow milling device of realization meal according to claim 9 regrind is characterized in that: the order number of said vibratory sieve (35) is adjustable from 2 ~ 10000.
CN201210155995.XA 2012-05-18 2012-05-18 Air-stream milling device for realizing secondary grinding of coarse powder Active CN102671748B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201210155995.XA CN102671748B (en) 2012-05-18 2012-05-18 Air-stream milling device for realizing secondary grinding of coarse powder

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201210155995.XA CN102671748B (en) 2012-05-18 2012-05-18 Air-stream milling device for realizing secondary grinding of coarse powder

Publications (2)

Publication Number Publication Date
CN102671748A true CN102671748A (en) 2012-09-19
CN102671748B CN102671748B (en) 2014-04-16

Family

ID=46804684

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201210155995.XA Active CN102671748B (en) 2012-05-18 2012-05-18 Air-stream milling device for realizing secondary grinding of coarse powder

Country Status (1)

Country Link
CN (1) CN102671748B (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105021044A (en) * 2015-07-29 2015-11-04 诸葛明 Automatic material preparation device with screening function
CN105396672A (en) * 2015-12-01 2016-03-16 中磁科技股份有限公司 Air-flow mill
CN108554604A (en) * 2018-04-27 2018-09-21 道真自治县玄阳药业有限公司 Device for processing Lip river Radix Codonopsis
CN110898967A (en) * 2019-12-13 2020-03-24 泰州明锋资源再生科技有限公司 Inclined crushing device in stainless steel pickling sludge treatment process
CN111450970A (en) * 2020-04-13 2020-07-28 青岛理工大学 Same-cavity integrated vertical type high-speed multistage superfine grinding device and method for walnut shells

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2310621Y (en) * 1997-10-18 1999-03-17 杨富茂 Double-suction and -mill superfine mill
JP2002177809A (en) * 2000-12-13 2002-06-25 Sugino Mach Ltd Jet collision device
JP2003012377A (en) * 2001-06-28 2003-01-15 Matsushita Electric Ind Co Ltd Method of manufacturing fine particles and manufacturing device for the same
CN1443606A (en) * 2003-04-18 2003-09-24 宁波韵升(集团)股份有限公司 Preumatic mill
CN201505569U (en) * 2009-10-15 2010-06-16 宝钢集团上海梅山有限公司 Recyclable blast-furnace coal injection device
CN202555363U (en) * 2012-05-18 2012-11-28 宁波松科磁材有限公司 Airflow grinding device for realizing secondary grinding of coarse powder

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2310621Y (en) * 1997-10-18 1999-03-17 杨富茂 Double-suction and -mill superfine mill
JP2002177809A (en) * 2000-12-13 2002-06-25 Sugino Mach Ltd Jet collision device
JP2003012377A (en) * 2001-06-28 2003-01-15 Matsushita Electric Ind Co Ltd Method of manufacturing fine particles and manufacturing device for the same
CN1443606A (en) * 2003-04-18 2003-09-24 宁波韵升(集团)股份有限公司 Preumatic mill
CN201505569U (en) * 2009-10-15 2010-06-16 宝钢集团上海梅山有限公司 Recyclable blast-furnace coal injection device
CN202555363U (en) * 2012-05-18 2012-11-28 宁波松科磁材有限公司 Airflow grinding device for realizing secondary grinding of coarse powder

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105021044A (en) * 2015-07-29 2015-11-04 诸葛明 Automatic material preparation device with screening function
CN105396672A (en) * 2015-12-01 2016-03-16 中磁科技股份有限公司 Air-flow mill
CN108554604A (en) * 2018-04-27 2018-09-21 道真自治县玄阳药业有限公司 Device for processing Lip river Radix Codonopsis
CN108554604B (en) * 2018-04-27 2019-09-17 道真自治县玄阳药业有限公司 For processing the device of Lip river Radix Codonopsis
CN110898967A (en) * 2019-12-13 2020-03-24 泰州明锋资源再生科技有限公司 Inclined crushing device in stainless steel pickling sludge treatment process
CN111450970A (en) * 2020-04-13 2020-07-28 青岛理工大学 Same-cavity integrated vertical type high-speed multistage superfine grinding device and method for walnut shells
CN111450970B (en) * 2020-04-13 2021-03-09 青岛理工大学 Same-cavity integrated vertical type high-speed multistage superfine grinding device and method for walnut shells

Also Published As

Publication number Publication date
CN102671748B (en) 2014-04-16

Similar Documents

Publication Publication Date Title
CN102671748B (en) Air-stream milling device for realizing secondary grinding of coarse powder
JP2015501720A (en) Crushing method, crushing equipment and related hydraulic binder manufacturing method
JP2004188368A (en) Grinding method
CN102580928A (en) Method for classifying silicon carbide micro powder and classifying equipment of method
CN202555363U (en) Airflow grinding device for realizing secondary grinding of coarse powder
KR20150141878A (en) Ultrafine air classifying mill
WO2003066220A1 (en) Milling method
JP2004141713A (en) Crushing system for manufacturing aggregate
US7028847B2 (en) High efficiency two-stage dynamic classifier
CN204841874U (en) Energy -efficient fluid energy mill
CN204583426U (en) Silicon carbide micro-powder grinding hierarchy system
CN203253480U (en) Silicon dioxide crusher
JP2007136299A (en) Cement clinker grinding facility
CN103028473A (en) Uniform-granularity micro-powder preparation system
CN204710715U (en) A kind of ultra micro rice gas flow sizing machine being applied to dust removing
KR101941797B1 (en) Vertical roller mill
CN102764686A (en) Impact crusher capable of adjusting aggregate fineness modulus
CN206810472U (en) Air classifier and reducing mechanism with external air channel structure
JP3570265B2 (en) Crusher
CN202336372U (en) Uniform-granularity micro-powder preparation system
CN205146399U (en) Joint air current in sintered ferrite magnetic production technology grinds device
JP2626820B2 (en) Manufacturing method of high fine powder blast furnace cement
CN205887113U (en) Quartz sand production facility
CN102489377B (en) Superfine powder sieve linkage system
JP3216677B2 (en) Crushing equipment

Legal Events

Date Code Title Description
PB01 Publication
C06 Publication
SE01 Entry into force of request for substantive examination
C10 Entry into substantive examination
GR01 Patent grant
C14 Grant of patent or utility model