CN202410808U - Powder sifter linkage system of rod mill - Google Patents
Powder sifter linkage system of rod mill Download PDFInfo
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- CN202410808U CN202410808U CN 201120479535 CN201120479535U CN202410808U CN 202410808 U CN202410808 U CN 202410808U CN 201120479535 CN201120479535 CN 201120479535 CN 201120479535 U CN201120479535 U CN 201120479535U CN 202410808 U CN202410808 U CN 202410808U
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Abstract
The utility model discloses a powder sifter linkage system of a rod mill. The powder sifter linkage system comprises an air blower, a rod mill, a micro powder screening machine and a material collection device, wherein the material collection device comprises a cyclone material collector and a double-helix vertical type powder mixer; a material inlet of the material collector is communicated with a fine powder outlet of the micro powder screening machine through a material inlet pipe; a material outlet at the bottom of the material collector is communicated with the double-helix vertical type powder mixer through a closed material unloading machine; the top of the material collector is communicated with a pulse dust remover through a hose; an air outlet of the pulse dust remover is communicated with a draught fan; an outlet of an ash bucket is communicated with the double-helix vertical type powder mixer; a material inlet of the rod mill is communicated with a blower nozzle of the air blower; a material outlet at the bottom of the micro powder screening machine is communicated with a material inlet of the rod mill and the blower nozzle of the air blower; and the material outlet of the rod mill is communicated with a screening cavity of the micro powder screening machine. The sifter linkage system has the advantages that ultramicro powder of various traditional Chinese medicines can be continuously produced in a large scale at normal temperature. The whole production system is positioned in a negative pressure environment, so that extra drying equipment is not required, and energy can be saved.
Description
Technical field
The utility model relates to superfine communication technique, especially relates to the rod mill dressing sieve linked system that various Chinese medicines are pulverized usefulness.
Background technology
Superfine communication technique is on the micromeritis basis, is accompanied by the updating of disintegrating process, shattering and the breakthrough of related discipline, occurring in succession of novel disintegrating apparatus and a new technology growing up.Compare with the processing mode of traditional Chinese medicine, superfine communication technique has the cost of saving, is convenient to use, increases advantages such as drug absorption rate, raising bioavilability.At present commonly used aspect preparing at Chinese herbal ultra-fine powder is the gentle sieve classification method that flows through of mechanical crushing method.It is a kind of of mechanical crushing method that rod mill is pulverized, though the very high powder that reaches quality requirement that can't make of crush efficiency obtains separating effectively in time, can not satisfy continuous needs of scale production and can not reduce the energy consumption in the production process again.The air-flow commonly used stage division that sieves is a kind of novel stage division; The sharpest edges of airflow shifting machine are to utilize the gas shock of carrying powder to see through screen cloth effectively to separate; Forming lumps causes screen cloth to stop up but can on screen cloth, pile up when micron order material in light weight for some, that particle diameter is little carries out classification; Cause screening work to carry out, greatly influenced screening efficiency, can not satisfy the demand that large-scale industrial is produced.
Summary of the invention
The utility model purpose is to provide that a kind of energy consumption is low, technology simple, be applicable to the rod mill dressing sieve linked system that various Chinese medicine ultra micro powder are produced.
For realizing above-mentioned purpose, the utility model can be taked following technical proposals:
The described rod mill dressing sieve of the utility model linked system comprises the air blast, rod mill, micro mist screening machine and the material-gathering device that are communicated with successively; Said material-gathering device comprises tornado feeder set and the vertical powder mixer of double helix; The charging aperture of loading head is connected with the fine powder discharging opening of said micro mist screening machine through feed pipe, and its bottom discharge mouth closes the wind blanking device through second and is connected with the vertical powder mixer of double helix; The open top of loading head is connected with the air inlet of pulse dust collector through flexible pipe; The air outlet of pulse dust collector is connected with air-introduced machine; The ash bucket outlet of pulse dust collector is closed the wind blanking device through the 3rd and is connected with the vertical powder mixer of double helix; Be provided with the 4th at the vertical powder mixer bottom discharge of double helix mouth and close the wind blanking device; The charging aperture of said rod mill is communicated with the blast orifice of air blast; The discharging opening of micro mist screening machine bottom closes the wind blanking device through first and is communicated with the charging aperture of rod mill and the blast orifice of air blast; The discharging opening of rod mill is communicated with the screening chamber of micro mist screening machine.
Said micro mist screening machine comprises casing and is arranged on the downward screen drum of chassis cavity split shed that the nozzle of said screen drum is connected with the cylinder upper shed that is arranged on the casing middle part mutually; Said cylinder under shed is connected with the funnel upper shed that is arranged on bottom of shell mutually; Be provided with the meal charging aperture in said hopper side walls; Be provided with the fine powder discharging opening at the casing top; In the zone between screen drum and casing, be provided with the door font rotating spraying tracheae that constitutes by transverse tube and standpipe, the middle part of said transverse tube and drive motors driving coupling; Be provided with blast pipe in the screen drum centre position, the air outlet of said blast pipe passes screen drum and is connected with the transverse tube middle part of door font rotating spraying tracheae, and is connected through the transverse tube rolling of rolling bearing with door font rotating spraying tracheae; The air inlet of blast pipe extends outside the said cylinder side wall and is connected with the blast orifice or the compressed air source of peripheral hardware air blast; In screen drum, be provided with the mixed powder feed pipe, above the discharging opening of said mixed powder feed pipe, be provided with the buffering umbrella, the charging aperture of mixed powder feed pipe extends outside the hopper side walls and is connected with the rod mill discharging opening.
The puff prot of said door font rotating spraying tracheae is for axially being opened in the groove on its tube wall along said transverse tube, standpipe, and the notch of said groove is offered towards said screen drum direction.
The puff prot of said door font rotating spraying tracheae is opened in the bar hole on its tube wall for arranging along said transverse tube, standpipe axially spaced-apart, and the aperture of said bar hole is offered towards said screen drum direction.
The door font rotating spraying tracheae that is arranged on zone between said screen drum and the casing is two, the mutual square crossing setting of transverse tube of said two door font rotating spraying tracheaes.
The utility model advantage is can realize at normal temperatures the lasting large-scale production of various Chinese medicine ultra micro powder.Rod mill links to each other with the micro mist screening machine, has improved screening efficiency, has effectively controlled the maximum particle diameter of finished product; Tornado feeder set links to each other with pulse dust collector, prevents dust polluting environment, has reduced the loss of Chinese medicine fine powder; Pulse dust collector links to each other with air-introduced machine, makes whole production system be in subnormal ambient, adopts the fan airflow directing material to sieve during work, can produce air-dry effect to material, need not to add drying plant, energy savings.
Description of drawings
Fig. 1 is the structural representation of the utility model.
Fig. 2 is the structural representation of micro mist screening machine among Fig. 1.
The specific embodiment
Like Fig. 1, shown in 2; The described rod mill dressing sieve of the utility model linked system; Comprise the air blast 1, rod mill 3, micro mist screening machine 2 and the material-gathering device that are communicated with successively; Material-gathering device comprises tornado feeder set 8 and the vertical powder mixer 4 of double helix, and the charging aperture of loading head 8 is connected with the fine powder discharging opening of micro mist screening machine 2 through feed pipe 5, and its outlet at bottom is connected with the vertical powder mixer 4 of double helix; The open top of loading head 8 is connected through the air inlet of flexible pipe 6 with pulse dust collector 7, and the air outlet of pulse dust collector 7 is connected with air-introduced machine 9; The ash bucket outlet of pulse dust collector 7 is connected with the vertical powder mixer 4 of double helix; Bottom at the vertical powder mixer 4 of double helix is provided with discharging opening; At the bottom discharge mouth place of micro mist screen(ing) machine 2, the discharging opening place of the ash bucket exit of the bottom discharge mouth place of loading head 8, pulse dust collector 7 and the vertical powder mixer 4 of double helix is provided with respectively and closes wind blanking device 21.1,21.2,21.3,21.4.The Chinese medicine meal is brought rod mill 3 from meal charging aperture 19 into through the air-flow that closes wind blanking device 21.1 and blown out by air blast 1 and is directly pulverized; Through the discharging opening of rod mill 3 mixed powder is sent into and to be carried out particle classifying in the micro mist screening machine 2; The fine powder that reaches the powder granularity requirement through screen drum 18 is sent in the tornado feeder set 8 through fine powder discharging opening and feed pipe 5; The wind blanking device 21.2 that closes through loading head 8 bottoms gets in the vertical powder mixer 4 of double helix; Treat that the powder back that stirs discharged by the wind blanking device 21.4 of closing of its bottom, the meal through screen drum 18 does not get into again in the rod mill 3 and pulverizes through the wind blanking device 21.1 that closes at micro mist screening machine 2 bottom discharge mouth places; Wind blanking device 21.3 enters into the vertical powder mixer 4 of double helix and the direct fine powder of coming of collecting is mixed together through closing after the flexible pipe 6 of tornado feeder set 8 upper ends is reclaimed by pulse dust collector 7 by the fine powder of air-introduced machine 9 carried away by air movement through screen drum 18, has avoided the waste of powder; It is in running order always that whole medicinal material ultra micro powder prepares in the process air-introduced machine 9, to keep the subnormal ambient of whole production system, can produce air-dry effect to logistics simultaneously, need not add drying plant, energy-saving and cost-reducing.
For improving screening efficiency; Prevent that screen drum from stopping up, and can accurately control the maximum particle diameter of finished product simultaneously, to adapt to industrial scale production; Used micro mist screening machine 2 is two air-flow micro mist screen(ing) machines; Its structure is as shown in Figure 2, and it comprises casing 10 and be arranged on the screen drum 18 that Open Side Down in the chassis cavity that the nozzle of screen drum 18 is connected with the upper shed of the cylinder 20 that is arranged on casing 10 middle parts mutually; The under shed of said cylinder 20 is connected with the funnel 11 of casing 10 bottoms mutually; Funnel 11 sidewalls are provided with meal charging aperture 19; Casing 10 tops offer the fine powder discharging opening; Square crossing is provided with two door font rotating spraying tracheaes that are made up of transverse tube 12 and standpipe 13, the middle part of transverse tube 12 and drive motors 14 driving coupling each other in the zone between screen drum 18 and casing 10; Be provided with blast pipe 15 in screen drum 18 midway, the air outlet of blast pipe 15 passes screen drum 18 and is connected with transverse tube 12 middle parts of door font rotating spraying tracheae, and is connected through transverse tube 12 rollings of rolling bearing with door font rotating spraying tracheae; The air inlet of blast pipe 15 extends outside cylinder 20 sidewalls and is connected with the air blast or the compressed air source of peripheral hardware; In screen drum 18, be provided with mixed powder feed pipe 16, above the discharging opening of mixed powder feed pipe 16, be provided with buffering umbrella 17, the charging aperture of mixed powder feed pipe 16 extends outside cylinder 20 sidewalls and is connected with rod mill 3 discharging openings.
The puff prot of door font rotating spraying tracheae can be set to axially be opened in the groove on its tube wall along transverse tube 12 and standpipe 13, and the notch of groove is offered towards screen drum 18 directions; The puff prot of door font rotating spraying tracheae also can be set to be opened in the bar hole on its tube wall along transverse tube 12, the arrangement of standpipe 13 axially spaced-aparts, and the aperture of bar hole is offered towards screen drum 18 directions equally.
The described micro mist screening machine of the utility model operation principle is following:
As shown in Figure 2, powder to be fractionated blows under the power effect through mixed powder feed pipe 16 at the powder conveying fan and is brought into the inside of screen drum 18 by high velocity air, reduces impulsive forces through buffering umbrella 17, and powder to be fractionated is disperseed in screen drum 18; Screen drum 18 is 500 order mesh screens;
The powder that disperses in the screen drum 18 carries out classification through screen drum 18 under system's air inducing effect; The fine powder that passes screen drum 18 offers the fine powder discharging opening through casing 10 tops and collects under suction function, the meal through screen drum 18 does not sink to collecting through funnel 11 discharging openings;
The rotation under drive motors 14 drives of door font rotating spraying tracheae; Peripheral hardware air blast or compressed air get in said transverse tube 12 and the standpipe 13 through blast pipe 15; And form even blowback air-flow in screen drum in screen drum 18 end faces and side through being opened in the puff prot that has groove 14 structures on transverse tube 12 and standpipe 13 tube walls; Powder in the screen drum 18 is further atomized; Stop powder on screen drum 18, to lump simultaneously and stop up sieve aperture, make not discharge in the funnel 11 along with the air-flow whirlpool that forms sinks to getting into and collect through the meal of screen drum 18.Distance is respectively 25 millimeters between transverse tube 12 and standpipe 13 and corresponding screen drum 18 roofs and the sidewall.
Claims (5)
1. a rod mill dressing sieve linked system is characterized in that: comprise the air blast (1), rod mill (3), micro mist screening machine (2) and the material-gathering device that are communicated with successively; Said material-gathering device comprises tornado feeder set (8) and the vertical powder mixer of double helix (4); The charging aperture of loading head (8) is connected through the fine powder discharging opening of feed pipe (5) with said micro mist screening machine (2), and its bottom discharge mouth closes wind blanking device (21.2) through second and is connected with the vertical powder mixer of double helix (4); The open top of loading head (8) is connected through the air inlet of flexible pipe (6) with pulse dust collector (7); The air outlet of pulse dust collector (7) is connected with air-introduced machine (9); The ash bucket outlet of pulse dust collector (7) is closed wind blanking device (21.3) through the 3rd and is connected with the vertical powder mixer of double helix (4); Be provided with the 4th at the vertical powder mixer of double helix (4) bottom discharge mouth and close wind blanking device (21.4); The charging aperture of said rod mill (3) is communicated with the blast orifice of air blast (1); The discharging opening of micro mist screening machine (2) bottom closes wind blanking device (21.1) through first and is communicated with the charging aperture of rod mill (3) and the blast orifice of air blast (1); The discharging opening of rod mill (3) is communicated with the screening chamber of micro mist screening machine (2).
2. rod mill dressing sieve linked system according to claim 1; It is characterized in that: said micro mist screening machine (2) comprises casing (10) and is arranged on the downward screen drum (18) of casing (10) inner chamber split shed that the nozzle of said screen drum (18) is connected with cylinder (20) upper shed that is arranged on casing (10) middle part mutually; Said cylinder (20) under shed is connected with funnel (11) upper shed that is arranged on casing (10) bottom mutually; Be provided with meal charging aperture (19) at said funnel (11) sidewall; Be provided with the fine powder discharging opening at casing (10) top; Zone being positioned between screen drum (18) and the casing (10) is provided with the door font rotating spraying tracheae that is made up of transverse tube (12) and standpipe (13), the middle part of said transverse tube (12) and drive motors (14) driving coupling; Be provided with blast pipe (15) in screen drum (18) centre position; The air outlet of said blast pipe (15) passes screen drum (18) and is connected with transverse tube (12) middle part of door font rotating spraying tracheae, and is connected through transverse tube (12) rolling of rolling bearing with door font rotating spraying tracheae; The air inlet of blast pipe (15) extends outside said cylinder (20) sidewall and is connected with the blast orifice or the compressed air source of peripheral hardware air blast; In screen drum (18), be provided with mixed powder feed pipe (16); Be provided with buffering umbrella (17) in the discharging opening of said mixed powder feed pipe (16) top, the charging aperture of mixed powder feed pipe (16) extends outside funnel (11) sidewall and is connected with rod mill (3) discharging opening.
3. rod mill dressing sieve linked system according to claim 2; It is characterized in that: the puff prot of said door font rotating spraying tracheae is for axially being opened in the groove on its tube wall along said transverse tube (12), standpipe (13), and the notch of said groove is offered towards said screen drum (18) direction.
4. rod mill dressing sieve linked system according to claim 2; It is characterized in that: the puff prot of said door font rotating spraying tracheae is opened in the bar hole on its tube wall for arranging along said transverse tube (12), standpipe (13) axially spaced-apart, and the aperture of said bar hole is offered towards said screen drum (18) direction.
5. rod mill dressing sieve linked system according to claim 1; It is characterized in that: the door font rotating spraying tracheae that is arranged on zone between said screen drum (18) and the casing (10) is two, the square crossing setting each other of the transverse tube (12) of said two door font rotating spraying tracheaes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201120479535 CN202410808U (en) | 2011-11-28 | 2011-11-28 | Powder sifter linkage system of rod mill |
Applications Claiming Priority (1)
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CN 201120479535 CN202410808U (en) | 2011-11-28 | 2011-11-28 | Powder sifter linkage system of rod mill |
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CN202410808U true CN202410808U (en) | 2012-09-05 |
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CN 201120479535 Withdrawn - After Issue CN202410808U (en) | 2011-11-28 | 2011-11-28 | Powder sifter linkage system of rod mill |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102489376A (en) * | 2011-11-28 | 2012-06-13 | 河南省康星药业有限公司 | Rod mill powder-sieve linkage system |
CN108421610A (en) * | 2018-02-27 | 2018-08-21 | 朱小建 | A kind of medical treatment and nursing hemostasis medicinal herbs mincing machine |
CN108435292A (en) * | 2018-02-26 | 2018-08-24 | 陈鸿基 | A kind of broken retracting device of cement block for building |
-
2011
- 2011-11-28 CN CN 201120479535 patent/CN202410808U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102489376A (en) * | 2011-11-28 | 2012-06-13 | 河南省康星药业有限公司 | Rod mill powder-sieve linkage system |
CN108435292A (en) * | 2018-02-26 | 2018-08-24 | 陈鸿基 | A kind of broken retracting device of cement block for building |
CN108421610A (en) * | 2018-02-27 | 2018-08-21 | 朱小建 | A kind of medical treatment and nursing hemostasis medicinal herbs mincing machine |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C56 | Change in the name or address of the patentee | ||
CP01 | Change in the name or title of a patent holder |
Address after: 451464, No. 2, Hing Road, Baisha Industrial Park, Zhongmu County, Henan, Zhengzhou Patentee after: Henan Health Star Pharmaceutical Co., Ltd. Address before: 451464, No. 2, Hing Road, Baisha Industrial Park, Zhongmu County, Henan, Zhengzhou Patentee before: Henan Kangxing Pharmaceutical Co., Ltd. |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20120905 Effective date of abandoning: 20131204 |
|
RGAV | Abandon patent right to avoid regrant |