SU1047519A1 - Apparatus for preparing analytical samples - Google Patents

Abstract

A DEVICE FOR PREPARING ANALYTICAL SAMPLES containing a bunker, feeder, hammer mill, divider, filters and sample collectors, characterized in that, in order to increase the efficiency of the sample preparation process, the reliability of the device and safety, the device is equipped with a truncated cone that connects the mill to the sampling collectors, the divider being located inside the nozzle and the filters installed in the sampling collectors. listened with

Description

The invention relates to the means of controlling the quality of minerals, is intended for the preparation of analytical samples from laboratories by grinding and dividing into several equivalent specimens in a single device and can be used, for example, in the coal, metallurgical industries to determine the quality of anthracite, brown coal, stone shale and their enrichment products. A device for the preparation of analytical samples is known, which includes a bunker, a screw feeder, a high-speed hammer mill, a fabric filter and a collection of ground sample 1. The disadvantage of this device is that it performs the grinding of samples of only O-0.2 mm in size, and the selection the sample required for analysis must be carried out either in another special apparatus or manually. Performing the division operations of a sample manually or with the aid of an essential apparatus requires its transfer, causes dust emission in rooms, and most importantly, does not eliminate the subjective influence on the results of sample processing. The closest technical solution to the present invention is a device for the preparation of analytical samples containing a hopper, a feeder, a hammer mill, a divider, filters and sample collections 2. The preparation of an analytical sample in this machine is as follows. A laboratory test with a screw feeder attached to the mill lid, is fed through an opening in this lid into the internal cavity of the mill. The entire sample material is swiftly dropped onto the cylindrical lined surface of the mill and exhausted to the required size and blown into the filter above the cone divider through the mesh opening in the lower part of the mill. Through the filter, air escapes into the atmosphere, and fine particles of an analytical sample are poured from the filter onto the cone of the divider, and then flow into rotating t -... - ....... banks. At the same time, the sample banks are open only from above. The machine provides mechanized preparation of analytical samples from laboratory samples, the size of which does not exceed 3 mm, but at the same time it has a number of disadvantages. First, placing the filter to remove air on the pulverized coal mixture coming out of the mill between the mill and the divider leads to sticking of fine particles of the sample on the filter, as well as to uneven division of the sample and necessitates the systematic cleaning of the filter. Secondly, a portion of the air that enters along with the sample material into the analytical sample banks, which are open only from above, blows the thinnest particles from the cans, which settle in the cans only after the sample preparation is completed and the filter is shaken, which causes uneven distribution the size and weight of the grains in the cans and, consequently, to the need for additional careful movement of the sample. In addition, in this device the drive of the mill feeder and the divider is made from different electric motors, which is a great disadvantage from a safety point of view. These drawbacks reduce the efficiency of the sample preparation process, the reliability of the device and the safety of its operation. The purpose of the invention is to increase the efficiency of the sample preparation process, device reliability and safety. The goal is achieved by the fact that the device for the preparation of analytical samples, which contains a bunker, a feeder, a hammer mill, a divider, filters and sample collections, is equipped with a nozzle made in the form of a truncated cone connecting the mill with the sample collections, and the divider is located inside the nozzle, and filters are installed in sample collections. The drawing schematically shows the proposed device, a General view. The device contains a hopper 1, a feeder 2, a hammer mill 3 with a pre-grinding chamber 4, a stator 5 in which a loading opening b is made, a rotor with an eraser mi 7, a grate 8, a conical nipple Y with a conical divider 10, collections 11, fitted with elastic filters 12. The device works as follows. The laboratory sample from the hopper 1 is fed by the feeder 2 through the loading opening 6 into the pre-grinding chamber 4 formed by the stator 5 and the rotor 7 of the mill. After pre-grinding, the material enters the zone of action of the rotor erasers, where it is ground to the required size (O-0.2 mm). The crushed material through the slots of the grate 8 enters the conical tube 9 connecting the mill with the divider. Further, the material through the concentric gap formed by the inner surface of the pipe 9 and the divider 10 is evenly distributed through collections of 11 analytical samples of the divider. The elastic filters 12 are used to remove air from the divider.

The connection of the mill and the sample divider by a comic pipe with a smooth inner surface rather than a filter made of cloth, as in the prototype, eliminates the sample material settling on it and promotes the even distribution of the samples across the divider banks due to the equal area of the slit section between the inner surface conical nozzle. Elastic filters are installed in collections

Samples that ensure the removal of air leaving the mill eliminates the layer-by-layer sedimentation of variously sized particles of sample material, and also ensures that filters are self-cleaning when pressure is removed from them when the device is operating.

The proposed device can be used in all fields of industry where quality control of bulk materials is necessary.

Claims (1)

DEVICE FOR PREPARING ANALYTICAL SAMPLES containing a hopper, feeder, hammer mill, divider, filters and sample collectors, characterized in that, in order to improve the efficiency of the sample preparation process, the reliability of the device and safety, the device is equipped with a nozzle made in the form of a truncated cone connecting the mill with sample collectors, the divider being located inside the nozzle, and the filters are installed in the sample collectors. P