CS215860B1 - Apparatus for automatically gauging radiometric control stations - Google Patents

Abstract

The invention addresses an automatic device calibration radiometric control mine stations, especially in spatially limited applications. Perpendicular to the axis of the directional detection unit there is a support frame in which it is on input of the detector unit zero standard and tubular ore standard. It is on the back of the detection unit in the carrier frame slidingly stored combined auxiliary shielding. Zero standard and combined auxiliary shielding is interconnected by manipulation element of the powerplant.

Description

The present invention provides a device for automatically calibrating a mining radiometric control station, particularly in a limited space application.

At present, a zero wagon standard is used for calibrating mining radiometric stations, that is a mine wagon filled with non-radioactive rock and an ore wagon standard of known metality, or its equivalent with the same exposure power. Calibration is carried out at least at the beginning and end of the work shift and requires time and physically demanding manipulation of calibration standards in the space between the radiometric station itself and the secondary parking area, where the calibration standards are permanently stored. The mentioned existence of vehicle standards and especially the necessity of their storage in the defined space make it impossible to further technical rationalization of horizontal mining transport.

These drawbacks are overcome by the device for automatic calibration of the mining radiometric inspection station according to the invention. Its essence is that a support frame is placed perpendicular to the axis of the directional detection unit, in which a zero standard and a tubular ore standard are slidably mounted on the entrance side of the detection unit. A combined auxiliary shield is slidably mounted on the back of the detection unit. The zero standard and the combined auxiliary shield are interconnected by a manipulation element of the drive unit arranged on the supporting frame. In the zero standard, a vertical opening is provided in which a tubular ore standard is slidably mounted, which is connected to the supporting frame by a magnetic element in the basic rest position. A first position indicating element is disposed on a support frame below the axis of the directional detection unit at a distance not exceeding half of the length dimension of the zero standard and at a distance not exceeding two thirds of the length dimension of the zero standard. The length of the tubular ore standard is selected such that, in the rest position, the lower edge thereof is located between the first and second position indicating elements.

The third position indicator element is located at the lower edge of the support frame in the extreme position of the auxiliary shield. The zero standard may be composed of absorbent elements. On the pipe ore standard it is advisable to adjust the elastic element on the side above the zero standard.

The device for automatically calibrating a mining radiometric monitoring station according to the invention makes it possible to substantially reduce the costs associated with calibrating a mining radiometric station, with increased measurement accuracy, and thus a reduction of metal losses due to the constant zero standard properties. The equipment for automatic calibration of mining radiometric stations can be operated remotely or automatically according to a predetermined program. In comparison with the methods used up to now, the device according to the invention substantially facilitates calibration, increases labor productivity and makes it possible to carry out technical rationalization of horizontal mining transport.

The drawing shows schematically an exemplary arrangement of an automatic calibration device according to the invention. Fig. 1 is a side view with partial cross-sectional views; and Fig. 2 is a plan view of the location shown in Fig. 1.

The device for automatic calibration of a mining radiometric control station is formed by a support frame 20 positioned perpendicular to the axis of the directional detection unit 10, in which a zero standard 30 is slidably mounted on the inlet side of the directional detection unit 10. The combined auxiliary shield 50 is slidably mounted in the supporting frame 20 at the rear of the detection unit 10. The zero standard 30 and the combined auxiliary shield 50 are interconnected by a manipulation element. 61 of the drive unit 60 provided at the top of the support frame 20. Three position indicators 22 are located on the support frame 20. Below the axis of the direction detection unit 10, a first position indicator 22a is positioned at a distance not exceeding half the length dimension of the zero standard 30. second position indicator element 22b. The length of the tubular ore standard 40 is selected such that, in the rest position, the lower edge thereof is located between the first and second position indicating elements 22a, 22b. The third position indicator element 22c is located at the lower edge of the support frame 20 in the extreme position of the auxiliary shield 50. The zero standard 30 is made of absorbent elements.

On the tubular ore standard 40, a resilient member 41 cooperates with the zero standard 30.

In the basic rest position, the zero standard 30 is the tubular ore standard 40 and the combined auxiliary shield 50 in the position shown in FIG. 1. After a remote command to calibrate, the drive unit 60 brings the zero standard 30 and the combined auxiliary shield 50 a movement that is automatically stopped when the level of the first position indicator element 22a has reached the lower part of the zero standard 10. During this movement the tubular ore standard 40 remains in the rest basic position due to the action of the magnetic element 21. At this stage of calibration, a radiometric measurement of the natural gamma background value occurs. The zero standard 30, constructed from the absorption elements 32 into the experimentally verified assembly, shall exhibit the same shading effect as the zero mine 70 for a given geometry of the measured zero mine 20, the directional detection unit 10 and the spatially distributed gamma field. it moves the zero standard 22 to the position given by the location of the second position indicator element 22b. In doing so, the zero standard 30 tears off the tubular ore standard 40 connected to the support frame 20 by the magnetic element 21.

The tubular ore standard 40 under gravity forces is inserted into the zero standard 30. In this position, the measurement of the next point of the calibration curve is performed, which serves to convert the measured number of impulses to the uranium content in the mined raw material. Upon completion of the measurement, the entire movable assembly, the zero standard 10, the tubular ore standard 40, and the combined auxiliary shield 50 by the drive unit 60 are raised to their original rest position such that after reaching the position of the third position indicator 22c. stopped. On the tubular ore standard 40, on the side above the zero standard 30, a resilient element 41 is inserted to damp the impact of the ore standard 40 when it is detached from the rest half and at the same time damping the stop.

Claims (5)

SUBJECT OF THE INVENTION An apparatus for automatically calibrating a radiometric control station, characterized in that a support frame (20) is arranged perpendicularly to the axis of the directional detection unit (10), in which a zero standard (30) is slidably mounted on the input side of the detection unit (10); a tubular ore standard (40), while a combined auxiliary shield (50) is slidably mounted in the support frame (20) at the rear of the detection unit (10), wherein the zero standard (40) and the combined auxiliary shield (50) are interconnected by a manipulation element ( 61) a drive unit (60) provided on the support frame (20). An automatic calibration device according to claim 1, characterized in that a zero orifice (30) is provided with a vertical opening (31) in which a tubular ore standard (40) is mounted slidably connected to the supporting frame (40). 20) a magnetic element (21). 3. The automatic calibration device according to claims 1 and 2, characterized in that a first position indicator element (30) is placed on the support frame (20) below the axis of the directional detection unit (10) at a distance not exceeding half the length dimension of the zero standard (30). 22a) and at a distance not exceeding two-thirds of the length dimension of the zero standard (30), a second position indicator element (22b), wherein the length of the tubular ore ethanol (40) is selected such that at rest its lower edge is positioned between the first and second position indicators element (22a, 22b), while the third position indicator element (22c) is located at the lower edge of the support frame (20), in the extreme position of the auxiliary shield (50). An automatic calibration device according to claim 1, characterized in that the zero standard (30) is composed of absorbent elements (32). 5. A device for automatic calibration of a mining radiometric inspection station according to claim 1, characterized in that a spring element (41) is provided on the pipe ore standard (40) on the side above the zero standard (50).