DD268840A3 - METHOD FOR OPERATING PREPARATION OF RADIOMETRIC SUPPORT STRAP SCALES - Google Patents

Abstract

Method for preparing the operation of radiometric conveyor belt scales with narrowly collimated measuring channels, evaluation via polynomial approximation when entering the material properties and the geometry of the belt webbing in an electronic evaluation device. In order to enable error-free operation of radiometric conveyor belt scales without a comparison movement at the measuring location, a method for operating preparation is to be provided in which calibration standards are provided at the measuring location. For this purpose, after entering the values for mass calibration coefficient and surface mass known for the calibration standards, the radiometric measuring channels are individually calibrated with these calibration standards. The next procedure is given. figure

Description

is determined in the

MRt is ~ ¹ '= pulse measurement rate with calibration standard

MR ₀ (s ~ ¹ ) = target pulse rate

Pk l ^cm / gl = mass attenuation coefficient of the calibration standard sk P / cm ² ] = basis weight of the calibration standard

mean,

and that then with this Rochenwert (MR ₀ ) in the normal load test by means of different surface masses calibration standards several load levels and good profiles are simulated and replaced before commissioning the mode weighing the mass attenuation coefficient of the calibration standard by the mass attenuation coefficient of the sample.

For this 1 page drawing

Field of application of the invention

The invention relates to a method for preparing the operation of radiometric conveyor belt scales with narrowly collimated measuring channels, in particular with a plurality of measuring channels distributed over the belt width, which operate on the principle of polynomial approximation.

Characteristic of the known technical solutions

Radiometric belt weighers according to the transmission principle are known. It has been tricked to provide distributed by means of less collimated radiation sources and detectors on the Gurtbandbreite Meßstützstellen and to determine from the measurement results of these nodes with the help of Polynomapproximation the complete bulk material profile. The linking of these values with belt speed values takes place in a computing unit into which also the material properties of the bulk material and the geometry of the belt webbing upper are entered as arithmetic variables. The calibration of all known belt weighers is carried out until now directly on site with the help of a sufficiently accurately determined test quantity. The necessary test bunkers and comparison scales are very complex and not feasible in every case.

It is known to calibrate radiometric thickness gauges with normal pieces of known thickness of the measured material. For the thickness measurement of alloys of a base material, the calibration of the measuring devices via a respective absorption curve of the base material and the alloy is known. Both functions are then taken into account in the actual measurement (DE-OS 2804454). This calibration method is not suitable for radiometric belt scale ·), since the reproducibility of bulk materials can only be satisfactorily fulfilled.

Object of the invention

The aim of the invention is to allow the error-free operation of radiometric FörderbamJwaagen without a comparative weighing at the measuring location.

-2- 268 840 Presentation of the Essence of the Invention

The invention has for its object to provide a method for preparing the operation of radiometric conveyor belt scales, which allows their testing outside the measuring location. The use of calibration standards is provided, which can be introduced into the measuring channels.

The object is achieved by calibrating the radiometric measuring channels individually with these calibration standards after entering the values known for the calibration standards and the mass attenuation coefficient in the electronic evaluation unit and in the electronic evaluation unit for each measuring channel a calculated value according to the reference

MR _k - MR ₀ · r / ι »*

MR, =; ; is determined

1 -e "| ik-sk"

in the

MR _k = pulse measurement rate with calibration standard

MR ₀ = Taraimpulsmeßrate

| ik = mass attenuation coefficient of the calibration standard

sk = areal of calibrarials

mean.

The calculated value (MR,) will be used in the following normal load test using different surface meters! The calibration standard simulates several load levels and good profiles.

Before the "Weighing" operating mode is started, the entered mass weakening coefficient of the calibration standard is then replaced by that of the weighing sample, and the balance is then ready for operation.

The operation preparation and the operation of the belt weigher are significantly simplified and improved by this method.

Due to the independence of the weighing result of changes in the position and the surface profile of the conveyor belt, the conveyor belt scale is calibrated after entering the parameters of the measurement site in the electronic processing unit alone by Absorbernormalen. A comparison weighing with a defined Prüfgutmenge at the measuring location is not required. The decrease in activity of the radiation sources is eliminated during calibration. The scales are adaptable with an examination outside the measuring location for use on different conveyors and on different bulk materials.

embodiment

The detailed explanation of the method is based on the drawing, which shows schematically the section of a radiometric conveyor belt scale with the means for implementing the method.

The conveyed 1 on the conveyor belt upper section 2 is located between the detector part 3 and the radiator part 4 of the radiometric conveyor belt scale. Within the radiator part 4 is the calibration device 5 with calibration elements 6. At the detector part 3, a microcomputer 7 is connected as an electronic evaluation unit. There are three measuring channels A; B, C provided. When commissioning the radiometric belt conveyor at the measuring point, the parameters of mass weakening coefficient and density, the coordinates of the geometry of the loaded Gurtbandobertrums 2 and the parameters mass attenuation coefficient and basis weight of the calibration 6 are entered into the microcomputer 7. After taring the individual measuring channels A; B, C v / earth the calibration elements 6 in the measuring channels A; B, C inserted. For each measuring channel, the pulse rate change caused by the value (known for the Kal'brier elements 6) of the mass mass χ mass attenuation coefficient is converted into a mathematical value MR, with which, in the case of known mass attenuation coefficients, each mass per unit area of any desired material 1 can be measured. Equivalent quantities of bulk material can then be determined using the geometry of the conveyor belt upper section entered into the computer.

Claims (1)

Method for the operational preparation of radiometric belt weighers with tightly collimated radiometric measuring channels, evaluation via polynomial approximation when entering the material properties and the geometry of Gurtbandobertrums in an electronic evaluation, using calibration standards, characterized in that after entering the values known for the calibration standards mass attenuation coefficient and basis weight the radiometric measuring channels are individually calibrated with these calibration standards and in the electronic evaluation unit for each measuring channel a calculated value according to the relationship MR, - MRp -e = τ _ _e -iisk