JPH0426073B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a background subtraction method for a contamination radiation dose measuring device, particularly a method for subtracting the background radiation dose from the total radiation dose counted by a contamination radiation dose counter. The present invention relates to a background subtraction method for a contamination radiation dose measurement device that measures the net contamination radiation dose of a subject.

[Background technology]

A contamination radiation dose measurement device that measures the contamination radiation dose of a subject due to radioactive materials is well-known. It is widely used for measuring radiation dose and also for measuring contaminating radiation dose on the surface of other objects.

Radioactive contamination is detected by radiation detectors such as plastic scintillators, GM pipes, and gas flow counters, and the detected radiation dose is counted by a contamination radiation dose counter to measure the contamination radiation dose. be exposed.

However, in addition to contaminating radiation, there is background radiation such as cosmic rays around the measuring device, and therefore, in order to measure the net contaminating radiation dose of the subject, it is necessary to count the amount using a contaminating radiation dose counter. It is necessary to subtract the background radiation dose from the total radiation dose obtained.

As such a background subtraction method,
Conventionally, the background radiation dose is counted in advance using a contamination radiation dose counter before measuring the contamination radiation dose, and the background radiation obtained before measurement is calculated from the total radiation dose counted by the contamination radiation dose counter at the time of measurement. A method of subtracting quantities was used.

In the above method, since it is possible to take a long time to measure the background radiation dose, it has the advantage that there is little statistical variation due to subtraction of the background radiation dose.

However, the above method assumes that the background radiation dose does not change before and during the measurement, so if the background radiation dose changes for some reason before and after the measurement starts, the measurement error will be large. Especially when performing multiple measurements after counting the background radiation dose once, the background radiation dose at a point far away from the time of measurement is subtracted, which may lead to measurement errors. The problem was that the number of occurrences increased.

Traditionally, other background subtraction methods include
In addition to the radiation detector, a background detector dedicated to detecting background radiation is installed, and the background radiation counted by the background radiation dose counter at the time of measurement is calculated from the total radiation dose counted by the contamination radiation dose counter. The radiation dose was subtracted.

However, in the above method, even if both detectors are placed close to each other, if a movable radiation detector is used, for example, when measuring the contamination radiation dose on clothing, the distance between both detectors This has the disadvantage that accurate measurements cannot always be made because the distance between the

In addition, in the above method, a detector of the same type as the radiation detector is generally used as the background detector due to cost etc. Therefore, the background detector detects contaminating radiation from the subject. However, there are also cases where the measurement error is increased, which is a drawback.

[Purpose of the invention]

The present invention was made in view of the above-mentioned conventional problems, and its purpose is to provide a contamination radiation system that can accurately measure the contamination radiation dose even if the background radiation dose fluctuates before and after the start of measurement. An object of the present invention is to provide a background subtraction method for a quantity measuring device.

[Structure of the invention]

In order to achieve the above object, the present invention provides a background subtraction method for a contamination radiation dose measurement device that measures the net contamination radiation dose by subtracting the background radiation dose from the total radiation dose counted by a contamination radiation dose counter. In the method, the contamination radiation dose counter counts the pre-measurement background radiation dose before measuring the contamination radiation dose, and also counts the total radiation dose at the time of measurement, and a separately provided background radiation dose counter, The contamination radiation dose counter counts the pre-measurement reference background radiation dose before starting the total radiation dose measurement, and also counts the measurement reference background radiation dose at the time of measurement, and the arithmetic circuit calculates the pre-measurement reference background radiation dose. The rate of variation between the radiation dose and the reference background radiation dose at the time of measurement is calculated, and if this rate of variation is within a preset tolerance range, the self-background radiation dose before measurement is calculated from the total radiation dose at the time of measurement. If the rate of variation exceeds the allowable range, the corrected radiation dose obtained by multiplying the self-background radiation dose before measurement by the rate of variation is subtracted from the total radiation dose at the time of measurement. shall be.

〔Example〕

Preferred embodiments of the present invention will be described below based on the drawings.

The figure shows a circuit configuration of a contamination radiation dose measuring device suitable for the background subtraction method according to the present invention.

The apparatus of this embodiment includes radiation detectors 10a to 10e that respectively detect self-background radiation before measurement and total radiation during measurement before measuring the amount of contaminating radiation.
have. In this embodiment, plastic scintillators, which are easy to maintain, are used as the radiation detectors 10, and are used for the hands, feet, and hands, respectively.
They are arranged according to the clothes.

In addition, the reference background radiation before and at the time of measurement (this radiation does not necessarily consist only of background radiation,
(including leaked contaminating radiation from the subject), each of the radiation detectors 10a to 10e
In addition to this, one background detector 12 is arranged, and in this embodiment, a plastic scintillator similar to the radiation detector 10 is used as this background detector 12.

Each of the detectors 10 and 12 generates light according to the radiation dose, and each of these lights is converted by a photomultiplier tube (not shown) into an electric pulse signal proportional to the light quantity, and these pulses are converted into electric pulse signals proportional to the light quantity. The signals are supplied to contamination radiation dose counters 16a to 16e and background radiation dose counter 18 via amplifier circuits 14a to 14f, respectively. Each of the contamination radiation dose counters 16a to 16e counts the pre-measurement background radiation dose before measuring the contamination radiation dose and the total radiation dose at the time of measurement, and the background radiation dose counter 18 counts the pre-measurement self-background radiation dose before the measurement starts. Then, the pre-measurement reference background radiation dose and the measurement reference background radiation dose are counted respectively.

The radiation doses counted by each of the counters 16 and 18 are supplied to an arithmetic circuit 20, and this arithmetic circuit 20 calculates the fluctuation rate of the reference background radiation dose before the start of the measurement and at the time of the measurement,
Background subtraction is performed according to the fluctuation rate, and the net contamination radiation dose of the subject, which is the subtraction result, is displayed on the display device 22.

A contamination radiation dose measuring device suitable for the background subtraction method of the present invention has the above-mentioned configuration, and the background subtraction method will be explained below.

First, the contamination radiation dose counter 16 counts the pre-measurement background radiation dose and the total radiation dose at the time of measurement, respectively, before measuring the contamination radiation dose.
Further, the background radiation dose counter 18 counts the reference background radiation dose before starting the measurement and at the time of the measurement.

Based on the reference background radiation dose before the start of measurement and at the time of measurement counted by the background radiation dose counter 18, the arithmetic circuit 20 determines the rate of variation of the reference background radiation dose before the start of measurement and at the time of measurement. Calculate.
Various methods can be considered for determining the presence or absence of the fluctuation, but in this embodiment, when the fluctuation rate is within a preset tolerance range, that is, when the following formula is satisfied, the reference back is determined. If it is determined that the ground radiation dose is not changing, but the rate of change exceeds the allowable range, that is,
If the following formula is not satisfied, it is determined that the standard background radiation dose is fluctuating.

(Formula for determining whether there is a change in standard background radiation dose) |Nb-Bb×T/600|≦2√ However, Nb is the standard background radiation dose measured by the background radiation counter 18 at the time of measurement, and Bb is the start of measurement. The reference background radiation dose measured by the background radiation counter 18 during the previous 10 minutes, T is the contamination radiation dose measurement time (seconds). Note that the standard background radiation dose is the count value for 10 minutes, so T/600 is
By multiplying by , time alignment with Nb is achieved. Also, the allowable amount is set to 2√ because
The variation range of a general measurement value is often expressed as the square root of that value, and in this case, add 2 as a margin.
This is because it was determined that the range multiplied by is more preferable than the experimental results.

If it is determined that the reference background radiation dose has not changed, the net background radiation dose is also considered to have not changed, and in this case, the total radiation dose at the time of measurement is The net contaminating radiation dose of the subject is measured by directly subtracting the pre-measurement self-background radiation dose before starting the measurement.

In other words, the net contaminating radiation dose of the subject is No.
Then, it is expressed as No=N-B×T/600.

However, N is the total radiation dose during measurement in the contamination radiation counter 16, B is the background radiation dose for 10 minutes before measurement in the contamination radiation counter 16, and T is the contamination radiation dose measurement time (seconds).

On the other hand, if it is determined that the standard background radiation dose is changing, the net background radiation dose is also considered to be changing, and in this case, the total radiation dose at the time of measurement is The net contaminating radiation dose of the subject is measured by subtracting the equivalent background radiation dose obtained by multiplying the background radiation dose obtained by the radiation detector 10 before the start by the rate of variation.

In other words, the net contamination radiation dose No. of the subject is No=N-B×T/600×Nb/Bb×T/600=N-B×Nb/
Represented by Bb.

In this way, in this example, the presence or absence of a change in the net background radiation dose is determined based on the calculation of the rate of change in the reference background radiation dose, and the background radiation dose is subtracted according to the presence or absence of this change. With this configuration, even if the background radiation dose fluctuates before and during measurement, the contamination radiation dose can be accurately measured.

[Modified example]

In the embodiment described above, the present invention is applied to a device for measuring the radiation dose of surface contamination of hands, feet, and clothes, but it is also possible to apply the device to a device for measuring the radiation dose of surface contamination of the whole body.

〔Effect of the invention〕

As explained above, according to the present invention, the reference background radiation dose before and after the start of the measurement of the contamination radiation dose is calculated by the arithmetic circuit, and the background radiation dose is subtracted according to the presence or absence of variation and the rate of variation. Therefore, even if the background radiation dose fluctuates before and during measurement, the contamination radiation dose can be accurately measured.

[Brief explanation of drawings]

The figure is a circuit diagram of a contamination radiation dose measuring device suitable for the background subtraction method according to the present invention. 10a to 10e...Radiation detector, 12...Background detector, 16a to 16e...Contamination radiation dose counter, 18...Background radiation dose counter, 20...Arithmetic circuit.

Claims (1)

[Scope of Claims] 1. A background subtraction method for a contamination radiation dose measurement device that measures a net contamination radiation dose by subtracting the background radiation dose from the total radiation dose counted by a contamination radiation dose counter, comprising: A contamination radiation dose counter counts the own background radiation dose before measuring the contamination radiation dose, and also counts the total radiation dose at the time of measurement.A separate background radiation dose counter measures the contamination radiation dose. Count the pre-measurement reference background radiation dose before starting the total radiation dose measurement by the counter, and also count the measurement reference background radiation dose at the time of measurement, and use the arithmetic circuit to calculate the pre-measurement reference background radiation dose and measurement. Calculate the fluctuation rate of the reference background radiation dose at the time, and if this fluctuation rate is within a preset tolerance range, directly subtract the pre-measurement self-background radiation dose from the total radiation dose at the time of the measurement, If the fluctuation rate exceeds the allowable range,
1. A background subtraction method for a contamination radiation dose measuring device, characterized in that a corrected radiation dose obtained by multiplying the self-background radiation dose before measurement by the rate of variation is subtracted from the total radiation dose at the time of measurement.