DD268998A1 - RADIOMETRIC FOERDERBAND SCALE - Google Patents

Abstract

The invention relates to a radiometric conveyor belt scale for determining the quantity of bulk goods by the irradiation method with a plurality of collimated radiation sources and detectors. It should be by an adapted to the geometry of the radioactive structure arrangement of the source and detector part, the absorption of radiation through the Schuettgut regardless of Schuettgutprofil and the position of the conveyor belt between source and detector part. This is achieved when the radiation sources and detectors are mutually arranged with respect to the conveyor belt. figure

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a radiometric belt scale for bulk quality, preferably crude lignite, which works by the transmission method.

The application of the device may be in the energy, mining, agriculture and other industries where belt conveyors are used.

Characteristic of the known technical solutions

It is known to use the principle of absorption of radioactive radiation to determine the amount of bulk goods transported on belt conveyors. Me allows formation of a measuring signal proportional occupancy of the band, whose value with a corresponding Ban ^ velocity value is multiplied by integration and decoding for determining the quantity of bulk material conveyed.

In a known solution, the core radiation source part consists of a plurality of individual nuclear radiation sources, which are mounted above the conveyor belt, and the detector part of several Kernstrahlungsaetektoren, which are located below the conveyor belt (DD 101757). Another known device provides a building block-like structure of the source and detector part, wherein each unit of the source part at least two radiation sources are arranged and hidden so that connect their beams in the Gurtebene directly to each other and each detector unit is equipped with one or more detectors, of which by incorporating Absorberuiöcken only constantly sensitive middle sections are used (DD 130963). In all known solutions, the radioactive sources and the radiation detectors are each in one plane.

Significant disadvantages of the previously known embodiments are that a small weighing error can only be achieved with extensive adherence to certain conditions that the cross-sectional profile of the conveyed material must be almost invariable, that the conveyor belt plane must maintain a precisely defined position in the radiometric measuring device and that the beam geometry with the amount of bulk material changed on the conveyor belt; so over the width of the conveyor belt, the measuring device is divided into several Einzelmeßstrecken

 In the practice of the transmission method, stray radiation usually occurs as a disturbance due to insufficient collimation.

Object of the invention

The object of the invention is to realize a suitable for the practice radiometric conveyor belt scale with high accuracy in a variety of conditions.

Explanation of the essence of the invention

The invention has for its object to provide a radiometric conveyor belt scale for quantity determination of bulk materials by the transmission method, in which by a matched to the geometry of the radioactive structure arrangement of the source and detector part, the absorption of the radiation by the bulk material independently vcm bulk material profile and the position of the conveyor belt between source and detector part is.

According to the invention, this object is achieved in that the arrangement of several radioactive sources and radiation detectors with respect to the conveyor belt alternately takes place and by collimation of the radioactive radiation sources and detector, the effect of scattered radiation is greatly reduced. By this arrangement, the deviations from the ideal conditions occurring in practice cancel each other out on the beam geometry adapts to each other. Thus, the absorption of the radioactive radiation by the conveyed on the conveyor belt regardless of the bulk material profile and the position of the conveyor belt between Quello and detector. This is an important condition for an accurate determination of the material to be measured. The arrangement can also be adapted as a modular system to different belt widths.

It is expedient to keep the number of mutually attached sources and detectors as low as possible and distribute them over the Gurtbrandbreite that takes place by measuring at nodes and Polynomapproximation the accurate determination of the actual good profile on the conveyor belt. As a result, the radiometric measuring arrangement can be designed radiation protection technology and economically very low.

The detailed explanation is based on the schematic diagram shown in the figure. The figure clearly shows the mutual arrangement of the radiation detectors 1 and radioactive radiation source 2

on the conveyor belt 3.

Scintillation probes are provided as radiation detectors. They are inserted into the indicated frame 4, that their

Radiation-sensitive surface towards the source shows. This surface itself is externally collimated by a lead coat.

The radioactive sources are also inserted into a collimator so that the radiation vectors only in the direction of D.

is hidden and aligned.

The collimator must also shield against the side-mounted detectors. According to the known law on the absorption of radioactive rays by a material to be measured is obtained after taring

(Determination of the pulse rate without Maßgut) in time-clocked measuring the measured in the individual beam paths

Pulse rates, with a constant absorption coefficient of the basis weight and thus at a constant density of the height of the Match good. By connecting each detector output to a microcomputer, the polynomial approximation can be particularly favorable

design and determine the course (the distribution) of the measured material on the conveyor belt with high accuracy. The detection of the conveyed bulk quantity is then carried out in a known manner.

Claims (2)

1. A radiometric conveyor belt scale for determining the quantity of bulk materials by the transmission method with a plurality of collimated radiation sources and detectors, characterized in that the radiation sources (1) and detectors (2) with respect to the conveyor belt (3) are mutually arranged. 2. Radiometric belt weigher according to item 1, characterized in that the mutually mounted radiation sources and detectors are distributed at such intervals over the belt width that the complete actual bulk material profile can be determined by measuring at nodes and polynomial approximation.