Flour mill for collecting and preparing samples

Abstract

The invention discloses a flour mill for collecting and preparing samples. The flour mill comprises a flour milling cavity, wherein a feeding opening is formed in the flour milling cavity; a rotary flour-milling rotating blade assembly is arranged inside the flour milling cavity; an annular crushing area used for crushing samples and an annular sieve net area used for filtering samples are formed in the inner annular surface of the rotating circumference of the flour-milling rotating blade assembly in the flour milling cavity; the flour-milling rotating blade assembly rotates at high speed in the flour milling cavity and cooperates with the annular crushing area to collide and crush the samples and then discharge the samples through the annular sieve net. The flour mill has the advantages that the structure is simple and compact, the crushing and sample-preparing accuracy can be further improved, and the service life of the flour mill is prolonged.

Description

technical field [0001] The invention mainly relates to the field of sample collection and processing equipment, in particular to a powder making machine for sample collection and processing. Background technique [0002] For the sampling, sample preparation, and testing of material (such as ore, coal) samples, each country has mandatory standards, and the sampling and processing of samples must be carried out in accordance with the standards. The principle of sample sampling, sample preparation, and testing work process is to gradually reduce the particle size and quality of the collected samples without destroying the representativeness of the sample, until it meets the particle size and quality of the sample in the laboratory test ( Weight) accuracy requirements, and then carry out relevant laboratory analysis on the samples that meet the requirements. [0003] For example, taking coal sampling as an example, it is actually a sampling and analysis process. The purpose of ...

AI Technical Summary

Problems solved by technology

If the distance between the sieve and the rotary knife is small, no shearing force can be formed between the screen and the rotary knife, and the crushing and milling cannot be completed.

This makes the friction between the screen and the rotary knife larger, wears faster, and has a shorter service life

If the screen or rotary knife is not replaced in time, it will affect the milling effect and the final test accuracy of the sample, and if it is replaced frequently, the cost of use will increase and the work efficiency will be low

At the same time, this method of grinding and making powder may cause risks such as the jamming of the rotary knife and the burning of the motor when encountering large-grained samples.

[0006] 2. For samples with large internal water (such as coal samples), it is easy to block the screen during pulverization

However, the existing pulverizing device mainly relies on centrifugal force to throw the pulverized sample out of the sieve. Since the centrifugal force of the sample with a small internal particle size will also be very small, some coal samples will adhere to the vicinity of the sieve hole, and as time passes It will block the screen, so that the pulverized coal that has been crushed to the required particle size will continue to be crushed in the pulverizing chamber even if it is not screened out from the screen. The crushed coal sample will affect the final test accuracy of the sample; at the same time, when the screen If the net is blocked to a certain extent, it will make it impossible to complete the milling action

[0007] 3. Low sample collection rate

The existing pulverizing device mainly sucks the pulverized coal into the collection chamber for deposition through the high negative pressure syst

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