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Multistage graphite powder grinding device capable of continuously producing

A grinding device and graphite powder technology, applied in chemical instruments and methods, solid separation, filtration and screening, etc., can solve the problems of complicated operation process and unfavorable continuous production, and achieve the effects of improving processing efficiency, sufficient grinding, and avoiding waste

Pending Publication Date: 2019-09-03
成都海成远创科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is: in order to solve the problem that the existing graphite powder grinding device generally adds the graphite powder in the grinding container, and then carries out the grinding process through the grinding mechanism, after the treatment, the graphite powder is taken out from the grinding container, and then added to the next Grinding batches of graphite powder, the operation process is more complicated, unfavorable for the technical problems of continuous production, the invention provides a multi-stage graphite powder grinding device capable of continuous production

Method used

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  • Multistage graphite powder grinding device capable of continuously producing

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Effect test

Embodiment 1

[0025] Such as figure 1 As shown, the present embodiment provides a multi-stage graphite powder grinding device capable of continuous production, including a grinding box 1, the top of the grinding box 1 is provided with an inclined fixed plate A2, and the bottom of the fixed plate A2 is provided with a guide rail A3, An upper grinding plate A4 is slidably arranged under the guide rail A3, and one end of the upper grinding plate A4 is connected with a telescopic cylinder A5 arranged on the grinding box 1, and a lower grinding plate A6 matched with it is arranged under the upper grinding plate A4, and the lower grinding plate A4 is The plate A6 is fixed on the inner wall of the grinding box 1 and is parallel to the upper grinding plate A4. The upwardly inclined end of the lower grinding plate A6 is connected with the feed pipe 7 protruding from the grinding box 1. The downwardly inclined end of the lower grinding plate A6 is connected to the grinding plate A6. The inner wall of...

Embodiment 2

[0028] Such as figure 1 As shown, the present embodiment is further optimized on the basis of Embodiment 1, specifically, a screen cloth A9 located below the lower grinding plate A6 is arranged in the grinding box 1, and the screen cloth A9 is arranged obliquely and connected to the lower grinding plate A6. The direction of inclination is opposite, the grinding box 1 is provided with a partition 10 below the screen A9, the partition 10 is provided with a receiving box A11 directly below the screen A9, and one end of the screen A9 inclined downward is connected to a The feed pipe 12 below the dividing plate 10.

[0029]In this embodiment, the graphite powder coming out of the opening A falls on the screen A below, and the graphite powder with a part particle size meeting the requirements falls in the receiving box A below through the screen A, while the unground graphite powder with a larger particle size Sufficient graphite powder slides down to the material guide pipe along ...

Embodiment 3

[0031] Such as figure 1 As shown, the present embodiment is further optimized on the basis of Embodiment 2. Specifically, the grinding box 1 is provided with a fixed plate B13 located below the partition 10, and the bottom of the fixed plate B13 is provided with a guide rail B14. An upper grinding plate B15 is slidably arranged under the slide rail B14, and one end of the upper grinding plate B15 is connected with a telescopic cylinder B16 arranged on the grinding box 1, and a lower grinding plate B17 matched with it is arranged under the upper grinding plate B15, and the lower grinding plate B15 B17 is fixed on the inner wall of the grinding box 1, the lower grinding plate B17 and the upper grinding plate B15 are all parallel to the lower grinding plate A6, the material guide pipe 12 is located above the upwardly inclined end of the lower grinding plate B17, and the downwardly inclined end of the lower grinding plate B17 is in line with the The inner wall of the grinding box ...

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Abstract

The invention discloses a multistage graphite powder grinding device capable of continuously producing, and relates to the technical field of graphite powder machining devices. The graphite powder grinding device comprises a grinding box, wherein an inclined fixing plate A is arranged at the inner top of the grinding box, a guide sliding rail A is arranged at the bottom of the fixing plate A, an upper grinding plate A is arranged below the guide sliding rail A in a sliding mode, one end of the upper grinding plate A is connected with a telescopic cylinder A arranged on the grinding box, a lower grinding plate A matched with the upper grinding plate A is arranged below the upper grinding plate A, the lower grinding plate A is fixed on the inner wall of the grinding box and is parallel to the upper grinding plate A, the end, which is inclined upwards, of the lower grinding plate A is connected with a feeding pipe extending out of the grinding box, and openings A are formed in one end, which is downwards inclined, of the lower grinding plate A and the inner wall of the grinding box correspondingly. The device has the advantages that the structure is simple, continuous production is realized, and multi-stage screening can be realized.

Description

technical field [0001] The invention relates to the technical field of graphite powder processing devices, in particular to a multi-stage graphite powder grinding device capable of continuous production. Background technique [0002] Graphite powder is soft, black-gray, greasy, and can contaminate paper. Its melting point is above 3000°C under oxygen-isolated conditions, and it is one of the most temperature-resistant minerals. The chemical properties of graphite powder are relatively stable at room temperature, insoluble in water, dilute acid, dilute alkali and organic solvents. The material has high temperature resistance and electrical conductivity, and can be used as refractory material, conductive material and wear-resistant lubricating material. As an auxiliary raw material for the production of new high-efficiency energy devices such as fuel cells, lithium-ion batteries, and supercapacitors, graphite has broad market prospects. At the end of the last century, natural ...

Claims

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Application Information

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IPC IPC(8): B02C1/00B02C23/00B02C23/14B07B1/28B07B1/42
CPCB02C1/00B02C23/00B02C23/14B07B1/28B07B1/42
Inventor 宁忠平李平
Owner 成都海成远创科技有限公司