SU753300A1 - Device for checking-up radiometers and dosimeters - Google Patents

Abstract

A DEVICE FOR TESTING RADIOMETERS AND DOSIMETERS, comprising a housing with biological protection, a radiation source, a weakening filter located in the biological protection channel, transfer mechanisms and fixing the position of the source and the working platform, characterized in that vehicles, the attenuating filter is made in the form of a solid absorbing medium composed of individual elements interconnected and with a radiation source, for example, with a cable, The S channel, in which Liltre is located, is bent near the working platform.

Description

This invention relates to devices for calibrating radiometric and dosimetric apparatus using the comparator method.

Verification of radiometers and gamma and neutron radiation dosimeters consists in determining the compliance of instrument readings with the reference fields generated by the verification devices. The main requirement for these devices is the possibility of creating radiation fields in the entire working range of the device. This range should vary by 3-5 orders of magnitude. I

Known devices for checking

Radiometers and dosimeters of the type UGD and UKTSh S 1.

These devices create reference radiation fields, which vary depending on the distance from the source. However, these devices are complex, require a specially equipped room, several interchangeable sources of varying intensity, and do not provide high performance when performing verification work. On these devices, it is impractical to perform the calibration of a fleet of working dosimetric instruments with a relatively high measurement error (10-40%).

It is also known a device for calibrating radiometers and dosimeters containing metal plates of various thicknesses, assembled in C2 packages, as a filter weakening. Changing the reference field — Radiation is performed by a combination of these plates.

This device is characterized by insufficiently effective use of the radiation source and biological protection, since the distance between the source and the instrument to be measured remains constant. In addition to this, the design of the os-paplating filter in the form of a set of disks of different TOTALS significantly complicates the device and does not provide for the possibility of continuous change of the reference field, which cyifiecTBEHHO reduces the performance of the device.

Closest to the proposed device is a device for checking radiometers, which contains a source of radioactive radiation, a housing with a collimation channel.

A biological protection dp, a weakening filter located in the biological protection channel, mechanisms, movements and fixations of the source position and a working platform 3. Mercury was used as a weakening filter. The latter directly houses a source of radioactive radiation that can be moved. The main disadvantage of this device is the use of liquid metallic mercury as a weakening filter, which in this device is almost impossible to seal and therefore the possibility of its loss during operation of the device on vehicles is not excluded.

Therefore, such a device can

0 use only in laboratory conditions with the necessary periodic control for the absence of air contamination with mercury and its vapors. The disadvantage caused by the use of liquid materials as weakening filters, which excludes the possibility of using such a device in transport, becomes crucial when improving

verification systems for a wide fleet of dosimetric and radiometric devices by organizing mobile metrology stations. This is very important, since such mobile metrology centers, equipped with a full range of calibration tools, allow to achieve significant savings in material costs compared to the existing system - a system of stationary metrological centers.

The aim of the invention is to provide the possibility of using the device for calibration of radiometers and dosimeters on vehicles.

This goal is achieved by the fact that in a device for checking radiometers and dosimeters, comprising a housing with biological protection, a radiation source, a weakening filter located in the biological protection channel, mechanisms for moving and fixing the source position and 5 working area, according to the invention, the weakening filter is made in the form of a solid absorbing medium composed of individual elements. between themselves and the radiation source, for example, with a cable, the channel in which the filter is located is bent near the working platform. . Such a filter structure made up of solid elements eliminates all the disadvantages associated with the use of mercury and retains all the advantages of the prototype. The filter elements associated with each other and with the radiation source using a cable create a solid flexible environment that can be removed from the biological protection channel while the source approaches the sensor of the instrument being turned, which allows the radiation intensity to vary smoothly over a wide range. The channel in which the filter is moving is bent directly at the working platform, which makes it possible to bring the radiation source very close to the sensor of the instrument being scanned installed on the working platform and, therefore, to effectively use the radiation of the source with significantly lower radiation intensity while maintaining the range from -field changes This leads to a decrease in the size and weight of the biological protection, which is very important for the device used on vehicles. The drawing shows a structural diagram of the proposed device. The device for calibration of radiometers and dosimeters includes a housing 1, in which the biological protection units 2 are fixed, fixed to each other with pins 3. The device housing is provided with a lid 4. The working platform 5 with a removable instrument holder 6 is located at the top of the device. In blocks 2, an axial hollow channel 7 is made in which the radiation source 8 is located and the filter 9 which attenuates this radiation. Channel 7 is bent near the working platform and has an exit from the biological protection. The radiation-attenuating filter 9 is made of separate solid elements connected to each other and to the radiation source by means of a cable 10, which 1 is connected to the drum 13 via the sleeve P and the toggle unit 12 to the drum 13. The source position indicator 14 is fixed on the axis 04. The position of the source is determined by the gauge 15. The drum 13 has a serrated surface, the grooves of which include a position-fixing roller fixed on the lever 16 pivotally connected to the housing 1. The lever 16 is attracted to the axis of the drum 13 by means of the npyTwiH. A counterweight 17 is fixed in the lower part of the filter 9. In the off position, the radiation source 8 is located in the central part of the channel 7, and the filter 9 and the biological protection provided reliable protection against radiation, i.e. The radiation dose rate in the area of the working platform of the device is minimal. Before calibrating the devices, the devices are calibrated. For this purpose, a device 18, calibrated on one of the certified devices, for example, type UKPN or FPRD, is installed on the platform 5 and is fixed to it with the help of the holder 6. Rotate the indicator 4 to the right to alternately set the source B to all posterior. fixed on a scale of 15. In each fixed polsecea of the cn i there are noKasaHiiH of the device 18, then, according to the measurement results, a table is compiled. Such tables are compiled for all types of calibrated instruments when the device is certified once every two years. When calibrating the radiometer or dosimeter, it is placed on the platform 5 and fixed with the help of holder 6. Depending on the type of device and the required radiation dose rate, select the source position from the table and set it to the desired position by rotating the pointer 14 on a scale of 15. Time 14 , thereby rotating the drum 13, on which the cable 10 is wound. With the help of the latter, the source 8 is set to the desired height, by changing the thickness of the filter 9. The non-working part of this filter is output to the horizontal part of the channel 7. By setting From source B to the desired position for operation, the instrument is calibrated. At the end of the instrument calibration, the pointer 14 is set to the extreme left position, at which the radiation source 8 will be located at the center of biological protection. The proposed device provides compared with the known-1mi after

Claims (1)

DEVICE FOR VERIFICATION OF RADIOMETERS AND DOSIMETERS, containing a housing with biological protection, a radiation source, attenuating filter located in the biological protection channel, mechanisms for moving and fixing the position of the source, and a working platform, characterized in that, in order to enable its use on vehicles, the attenuation filter is made in the form of a solid absorbing medium composed of individual elements connected to each other and to a radiation source, for example, using a cable, and l, in which Liltre is located, is bent near the working area -