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Ball-milling production workshop

A production workshop and ball milling technology, applied in the field of ball mill production workshop, can solve the problems affecting the quality of the working environment, reducing the utilization rate of raw materials, and a large amount of dust in the air, saving time and labor in ball milling and screening operations, improving the utilization rate, and ensuring hygiene. Effect

Active Publication Date: 2021-03-05
浙江国光生物制药股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In order to solve the problems that the existing ball mill operation is time-consuming and labor-intensive, a large amount of dust is likely to appear in the air, affect the quality of the working environment and reduce the utilization rate of raw materials, the purpose of this application is to provide a ball mill production workshop

Method used

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  • Ball-milling production workshop

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] refer to figure 2 , is a ball mill production workshop disclosed in the present application, including a production room 16, a ball mill mechanism 1 is arranged in the production room 16, and a screening mechanism 2 is connected to the ball mill mechanism 1. The screening mechanism 2 is connected with a vacuum pump 3, and the vacuum pump 3 is preferably a screw-type vacuum pump. In order to ensure the sanitation of the working environment, the ball mill mechanism 1 is provided with a dust collection assembly 5 . In order to recover the materials spilled into the air, the dust collection assembly 5 is connected with a backup filter mechanism 6 connected with the vacuum pump 3 . The standby filter mechanism 6 is connected with the screening mechanism 2. When the screening mechanism 2 needs to be overhauled, the standby filter mechanism 6 can screen the materials, which can ensure continuous production.

[0040] refer to figure 2 , in order to create a production envi...

Embodiment 2

[0051] The difference between the second embodiment and the first embodiment is: refer to Figure 7 and Figure 8 The closing mechanism 1200 includes an orifice plate 122, a first sealing plate 1231 that can slide axially along the ball milling tank body 12 and a second sealing plate 1232 that can slide axially along the ball milling tank body 12, the first sealing plate 1231 and the second sealing plate The plate 1232 can cooperate to form a sealing plate covering the upper part of the orifice plate 122, so as to ensure that the material is always in the ball milling tank 12 during the ball milling operation.

[0052] refer to Figure 7 and Figure 8 , the specific implementation structure is: the side wall of the feeding port 121 is provided with a first chute 1233 along the axial direction of the ball milling tank body 12 , and the first sealing plate 1231 can slide in the first chute 1233 along the axial direction of the ball milling tank body 12 . The side wall of the ...

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Abstract

The invention relates to the technical field of calculus bovis factitius production, in particular to a ball-milling production workshop. The ball-milling production workshop comprises a ball-millingmechanism, a screening mechanism and a vacuum pump; the ball-milling mechanism communicates with the screening mechanism; the vacuum pump communicates with the screening mechanism; the ball milling mechanism comprises supporting seats, a ball milling tank body, a driving component and a collecting shell; the collecting shell is fixedly connected between the supporting seats; the ball-milling tankbody is rotationally connected between the supporting seats and is positioned in the collecting shell; a filler opening is formed in the collecting shell; the driving component is fixedly connected tothe ball-milling tank body and used for driving the ball-milling tank body to rotate around the axial direction of the ball-milling tank body; a dust collecting mechanism is fixedly connected to thesupporting seats; a feeding hole is formed in the ball-milling tank body; a pore plate is detachably connected to the feeding hole; a cover plate is detachably connected to the feeding hole; and the cover plate covers the upper part of the pore plate. The ball-milling production workshop has the effects that more time and labor are saved during ball milling operation, the air quality of a workshopis improved, and the utilization rate of raw materials is increased.

Description

technical field [0001] The present application relates to the technical field of artificial bezoar production, in particular to a ball mill production workshop. Background technique [0002] The ingredients involved in the production and preparation of artificial bezoar are composed of taurine, cholesterol, zinc sulfate, calcium gluconate, ox gall powder, corn starch and the like. The particle size of artificial bezoar ingredients affects the quality of the final prepared artificial bezoar, so it needs to be ball milled and sieved. [0003] refer to figure 1 , an existing ball mill production workshop, including two mounting seats 9 spaced apart from each other, on which a ball milling tank 91 is rotatably connected, and the ball milling tank 91 is loaded with a plurality of grinding balls 910 . The ball milling tank body 91 is connected with a driving device 92 for driving the ball milling tank body 91 to rotate around its own axis. A rotating shaft 93 is welded at the c...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B02C17/10B02C23/14B08B15/04B01D46/00B01D46/10B01D46/24
CPCB02C17/10B02C23/14B08B15/04B01D46/10B01D46/24B01D46/001Y02A50/2351
Inventor 颜志仁陆丹萍
Owner 浙江国光生物制药股份有限公司