SU379891A1 - DEVICE FOR DETERMINATION OF CONTRAST OF MINERAL RAW MATERIALS - Google Patents

Description

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The invention relates to a technique for picking a mineral raw material on induced or natural radioactivity and can be used to determine radiometric contrast.

By knowing the radiometric contrast of the raw materials, you can choose rational systems for the development of deposits and methods for extracting raw materials, as well as evaluate the indicators of radiometric sorting of the extracted raw materials.

Radiometric contrast is primarily determined by the nature of the distribution in the raw material of elements producing induced or natural radioactivity, and is characterized by the degree of uneven distribution of these elements in the raw material, determined by elementary volumes, thus demonstrating the feasibility of radiometric sorting of raw materials for its separation into enriched and lean products. The radiometric contrast depends on the size of the elementary volumes (portions), but which determine the degree of uneven distribution of the useful component in the raw material.

In determining the contrast of the raw material, mainly manual labor is used: each piece of the sample is weighed and analyzed in a specially equipped house for the content of a radioactive element in it. The content of the radioactive element in it is determined from the previously removed calibration curve KVOL1, taking into account the weight of the piece and the natural background. Further, according to the generally accepted method, the contrast curve is calculated and plotted.

A device for determining the contrast with mechanized feed is known.

piece in the unit of measurement. It contains a conveyor that feeds a piece into the measurement unit, and a receiving cell, made in the form of a triangular truncated pyramid, one face of which is located at the detector. After measurement

the contents of the cell are tilted by a special drive device, and the piece falls on the discharge conveyor, where it is discharged into the prepared container with an electromagnetic gate. Picking a piece out

Samples, weighing it and loading the conveyor are manual. In addition, the bulkiness and availability of a special room, structural complexity, low productivity and reliability of operation limit the application of the known device in the industry.

The purpose of the invention is to increase productivity by fully mechanizing the process of determining contrast.

The goal is achieved by the fact that a lumpy feeder, made in the form of a rotating disk, over which the stationary spiral is installed, is provided at the exit of the spiral with a reciprocating gate, and the valve in the extended position will fold the conventional continuation of the spiral and will not reach the edge of the disk piece of the investigated material, the slip of which occurs on the convex side of the spiral.

This embodiment of the nodding feeder allows portion-wise loading of the sample under investigation, with the pieces lining up on the convex side of the helix in one row, and the retractable flap separates the piece from the batch at the required moment, then sending it to the measurement unit.

FIG. 1 schematically shows the proposed device in longitudinal section; in fig. 2 is a plan view of the device (screen and bunker are not shown).

The device contains a stopper /, bracket 2, photodiode 3, illuminator 4, hub 5, shaft 6, gear motor 7, frame 8, gear 9, scales 10, detector 11, frame 12, platform 13, cup 14, hopper 15, disk 16, valve 17, plate 18, helix 19, pneumatic cylinder 20.

The disk, rigidly connected to the shaft, is installed in the frame hub and connected to the gearmotor gear. The helix, made on a logarithmic curve with a rectilinear output, is attached to a glass mounted on rolling bearings on the protruding end of the shaft above the disk. The linear peripheral end of the helix, which does not reach the edge of the disc at least twice the size of the largest piece of the investigated material, is connected to the frame by a U-shaped bracket. The end of the spiral is provided with a damper connected to the pneumatic cylinder stem fixed on the spiral. The bracket is fitted with a latch retainer from the flap, consisting of an illuminator and a photodiode, at the signal of which a command is issued to the pneumatic cylinder to return the flap.

The plate serves to guide the piece to the measurement assembly, which consists of a tilting (e.g., pneumatic) platform hinged to a frame associated with the scales.

Under the platform is installed in the protective screen detector. Over the detector is installed

U-shaped screen to protect it from external background. The investigated rock is loaded into the bunker, which provides batch loading, for example, with a sliding device at the center of the disk.

The device works as follows. The disk is rotated through a gear by a gearmotor. The flap is in the extended position (shown in dotted lines in Fig. 2). A portion of the pieces of radioactive material from the hopper enters the rotating disk. The disk is loaded with raw materials at its center. Pieces, falling onto the helix, sliding along it,

5 simultaneously moving along the disk to its periphery, lining up in one row in a spiral. A piece coming off the extended flap is recorded by a latch that issues a command to return the flap (the flap goes off the helix). Thus, the selected piece of raw material is located on a disk tangentially to the circumference bounded by the flap pushed in, and the remaining pieces tangentially to the circumference bounded by the end of the helix. The selected piece enters the plate, slides over it, going to the measurement unit, where the automatic weighing is performed and the content of the radioactive substance is determined. After

0 this command is issued to roll over.

platform scales and on the nomination of the valve.

This process is repeated until

all pieces of the sample are not analyzed.

The results of the analyzes are recorded in the memory cells of the radiometer and processed by its electronic device.

Subject invention

A device for determining the contrast of a mineral raw material, comprising a fixed-point spiral disk splitter and a measuring unit with radiometric

equipment, characterized in that, in order to increase labor productivity and automate the process, the end of the helix is equipped with a gate with a reciprocating drive

the signal of the radiometer, with the flap in the extended position being the conditional continuation of the helix and not reaching the edge of the disk on the size of the largest piece of the studied raw material.

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