RU2638023C1 - Search dosimeter - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: dosimeter comprises an operating unit consisting of gamma and neutron radiation detectors and an information processing unit, an indicating unit consisting of a light and sound alarm and display unit, a remote vibration signalling unit, wherein the vibration signalling unit can interface with the display unit via a plug-in connector, while operating unit and the indicating unit are individual impact-resistant housings that, when the dosimeter is operated without an extension rod, are joined to each other with an additional contact detachable connection, and when the dosimeter is operated with an extension telescopic rod with a wire communication line inside, the operational unit is connected to it in the upper part by means of a contact detachable connection, and the indicating unit by means of a detachable connection is joined to it in the lower part of it near the handle, thus forming a wired electrical connection between the output of the information processing unit and the input of the indicating unit.

EFFECT: increasing the radiation safety in the search and registration of ionizing radiation, increasing information about the level of ionizing radiation, simplifying when working with a dosimeter.

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Description

The invention relates to the field of radiation safety and is intended for the search, registration and measurement of levels of ionizing radiation (II) with a visual representation of operational information.

Known devices for searching and evaluating the level of gamma radiation [1, 2]. A common drawback of these analogues is the registration of only one type of AI - gamma radiation.

Known devices related to radiometers, in particular MKS-PM1402M [3] and MKS-AT1117M [4], which have removable detection units, each of which registers a specific AI (alpha, beta, gamma, x-ray or neutron radiation) . When measuring these blocks with a detachable contact joint are connected directly to the device. The disadvantage of these analogues is that to measure the appropriate type of AI, a number of preparatory operations are required: turning off the device, connecting a specific detector, turning on the device, self-testing and calibration, which is not always convenient.

Known multichannel devices, which in their composition have built-in (non-removable) detector blocks, allowing to measure simultaneously more than two types of AI, for example [5, 6]. These devices have a complex technical solution and high cost.

Practice has shown that in most cases it is necessary to measure only two types of AI: gamma and neutron radiation. An example of such devices is a detector gamma and neutron radiation detector ISP-RM1401K-01 [7], which is the closest in technical solution to the claimed dosimeter and selected as a prototype. It is a highly sensitive search instrument made in a one-piece shockproof case and equipped with two built-in detectors: a scintillator for detecting gamma radiation and a gas discharge counter for detecting neutron radiation. The measurement results are displayed. In addition to the display, it has a built-in sound and light, as well as an external vibration alarm. The advantage of the prototype is not only high sensitivity, but also that this meter can be connected to a telescopic extension rod (up to 2.5 meters long), which allows searching and measuring AI in places that are difficult to access and remote from the operator.

The block diagram of the prototype is shown in FIG. 1, where a) is a meter-detector without an extension bar, b) is a meter-detector assembly with an extension bar. On the diagrams, numbers and letters indicate: 1 - one-piece shockproof housing; 2 - vibration alarm unit (remote); 3 - operating unit; 4 - display unit; 5, 8 and 9 - contact detachable connections; 6 - extension telescopic rod; 7 - wire communication line (inside the bar); D1 and D2 - detectors of gamma and neutron radiation, respectively; BOI - information processing unit.

When working without a rod, the vibration alarm unit 2 (the simplest vibrator) is connected to the BOI output through a contact detachable connection 5 located directly on the housing 1.

When working with the rod, the vibration alarm unit 2 connects to the BOI output through the circuit: BOI - hard contact connection 9 of the meter body with the rod - communication line 7 - contact connection 8 located on the handle of the extension rod - vibrator.

The disadvantage of the prototype is the following. In some cases, when using an extension telescopic rod, the operator cannot see the light indication, cannot hear the sound indication and record numerical values of gamma and (or) neutron radiation levels on the display. The remote vibrator, which is in a certain way in direct contact with the operator, is just an indicator of the presence of some kind of radiation.

When using the meter on the bar, the operator receives signals only from light, sound or vibration alarms (according to the principle "there is radiation - there is no radiation"), i.e. he has practically no information about the specific value of the AI level. Naturally, with this use of the prototype, the radiation safety of the operator is significantly reduced (in the case of a high level of AI at a distance of up to 2.5 meters from the operator). Finally, the remoteness of the meter-signaling device from the operator at 2.5 m creates great inconvenience for him to work (in particular, when taking digital readings from the display).

The aim of the invention is to increase the operator's information content about the level of ionizing radiation; increasing the radiation safety of the operator when searching and registering AI at locations remote from it; simplification when working with a search dosimeter.

This goal is achieved by the fact that in a search dosimeter containing an operating unit, consisting of gamma and neutron radiation detectors and an information processing unit, an indication unit, consisting of a light and sound alarm and display unit, a remote vibration alarm unit, an extension telescopic rod with a wire a communication line inside and two contact detachable connections, and the vibration alarm unit can dock with the display unit using one of the three contact detachable connections, operating and display locks are individual shockproof housings that, when the dosimeter is operated without an extension rod, are joined together using an additional third contact detachable connection, and when the dosimeter is operating with an extension rod, the operating unit is connected to it in its upper part, and the display unit is connected to it in the lower part near the handle, forming a wired electrical connection between the output of the information processing unit and the input of the display unit.

The principle of operation of the search dosimeter is illustrated in FIG. 2, which shows its structural diagrams when operating without an extension bar (Fig. 2a) and with an extension bar (Fig. 2b).

The search dosimeter includes an operating unit 1, an indication unit 2, a vibration alarm unit 3 and an extension telescopic rod 4. The operating unit consists of detectors 5 and 6, respectively, for detecting gamma (D1) and neutron (D2) radiation, as well as from the unit information processing (BOI) 7. The display unit consists of a light and sound alarm unit 8 and a display 9. The electrical connection of these units is carried out by means of a contact detachable connection 10 with a rigid fixation. Rigid fixation of the two blocks 1 and 2 is necessary so that when they are docked and when working with the dosimeter, they form a single whole.

The vibration alarm unit 3 is connected to the display unit 2 by a plug-in connector 11 mounted on its housing. The display unit 2 with a rigid fixation is connected to the extension rod 4 by a plug-in connector 12 mounted on the rod near the handle. Rigid fixation of these elements is necessary for reliable electrical contact and ease of use with the dosimeter. The operation unit 1 is connected to the extension rod by means of a detachable contact connection 13. A wireline 14 is laid inside the rod to transmit information from the BOI unit to the display unit when the latter is docked with the rod. The operator 15 when working with the dosimeter receives the corresponding light, sound and vibration signals, and also takes readings from the display.

Structural elements of blocks 1 and 2 are located in shockproof cases. The vibration alarm unit is a simple vibrator. The maximum bar length is about 2.5 meters.

We will consider working with a search dosimeter in two modes: without an extension rod and with an extension rod.

In the first case, the blocks 1 and 2 are rigidly joined to each other by means of a contact connection 10, the vibration alarm unit is docked to the display unit body by a contact connection 11. The vibrator can be positioned so that the operator senses vibration, for example, in his hand or in his pocket.

The operator turns on the dosimeter and starts searching for the above emissions. When they are detected, detectors are triggered (one or two at once) and their input signals enter the BOI, where they are processed accordingly. The operator receives information about the presence of AI through three channels: light, sound, and vibration. After that, the operator reads information from the display about the radiation level.

It should be noted that vibration alarm may not be used during operation. However, in some cases, on the contrary, it is advisable to use only an invisible and noiseless vibration alarm. This can happen during a covert inspection of objects, for example, by officials of the border or customs services. The operator himself determines which signaling channels to use.

When examining places and objects inaccessible and remote from the operator, the second mode is used. In this case, the operator:

- undocks the contact connection 10;

- disconnects the display unit 2 from the operating unit 1;

- the operating unit is rigidly joined with an extension rod 4 in its upper part by means of a contact connection 13;

- the display unit 2 joins with an extension rod in its lower part near the handle by means of a contact connection 12.

In this case, the display unit communicates with the unit BOI 7 through the circuit: the unit BOI - contact connection 13 - wire line 14 - contact connection 12 - side display. The operator turns on the dosimeter and similarly searches for and localizes the above radiation. In case of radiation detection, a light and sound alarm is triggered. Obviously, when examining objects at a certain distance from the operator, a noiseless and invisible (vibrational) alarm does not make sense.

Since the display unit with the display is located on the handle of the boom, the operator promptly reads information about the value of the radiation level, analyzes it and then acts on the situation.

Thus, the proposed search dosimeter is simple and easy to use, allows you to quickly obtain maximum information about the level of gamma and neutron radiation, and also has maximum radiation protection for the operator when examining distant objects.

Information sources

1. Small-sized device for visualization of gamma radiation sources. Patent of the Russian Federation for the invention No. 2426151, 2011.

2. Search gamma radiation signaling device-detector ISP-РМ1401МА. Access mode: www.doza.ru/catalog/handheld/152.

3. Search dosimeter-radiometer MKS-RM1402M. Access mode: www.doza.ru/catalog/handheld/151.

4. The dosimeter-radiometer MKS-AT1117M. Access mode: www.doza.ru/catalog/handheld/124.

5. The dosimeter. Patent of the Russian Federation for the invention No. 2111120, 1999.

6. Multifunctional innovative modular dosimeter. Patent of the Russian Federation for the invention No. 2593820, 2016.

7. Search gamma and neutron radiation signaling device-detector ISP-РМ1401К-01. Access mode: www.bm7.ru/view_pribor-temp2.php?id=228. (prototype).

Claims (1)

Search dosimeter, comprising an operating unit, consisting of gamma and neutron radiation detectors and an information processing unit, an indication unit, consisting of a light and sound alarm and display unit, a remote vibration alarm unit, the vibration alarm unit can be docked to the indication unit using a contact detachable connection, characterized in that the operational and display units are individual shockproof cases, which when the dosimeter is operated without extension bars are interconnected using an additional contact detachable connection, and when the dosimeter is operating with an extension telescopic rod with a wire communication line inside, the operating unit is connected to it in its upper part by means of a contact detachable connection, and the display unit by means of a contact detachable connection is connected to it in its lower part near the handle, forming a wired electrical connection between the output of the information processing unit and the input of the display unit.

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