JPH0735864A - Pocket dosimeter - Google Patents

Abstract

PURPOSE:To input work information quickly in safety to a dosimeter by linking a pocket dosimeter equipped with an alarm and a work information input means through radio communication function and disposing a dosimeter closely to the antenna of the work information input means. CONSTITUTION:A work information input means transmits transmission request signals periodically from an antenna at a constant time interval. A pocket dosimeter with alarm receives radio wave from the antenna 2 at a radio communication section and sends back an acknowledgement signal when a microcomputor ackowledges the transmission request signal. When the communication is established, a relevant work data is read out from a document by means of a bar code reader 9 and communicated. If an error occurs in the way, a message is presented on the display of the dosimeter and on the display 10 of the input means and an alarm is sounded. This constitution eliminates the need of taking out the dosimeter from the working jacket and allows noncontact input of work information to the dosimeter for the worker.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pocket dosimeter device for the purpose of managing the radiation exposure dose of a worker who works in a radiation-exposed work environment such as a nuclear power plant, including work information.

[0002]

2. Description of the Related Art A conventional pocket dosimeter device of this type is
It consisted of a pocket dosimeter and work information input means, and both were electrically contacted to send and receive information. That is, a pocket dosimeter is a radiation detector, an amplifier that amplifies the output signal of the radiation detector, a comparator that converts the output signal of the amplifier into a digital signal, and a microcomputer that counts and calculates the output signal of the comparator as a dose value. And a memory unit that stores a program for executing the functions of the microcomputer, a display unit that displays the exposure dose value, a wired communication unit or an optical communication unit that transmits and receives the exposure dose value and work information, and supplies current. It was composed of a power supply and a power supply. Further, the work information input means is a bar code reader for optically reading the bar coded work information, a display section for displaying work information, and the like.
It was composed of a wired communication unit for transmitting and receiving work information, a bar code reader, a display unit, and a microcomputer for controlling the wired communication unit (for example, Japanese Utility Model Publication 58-10338).
Disclosed in Japanese Patent No. 6). When inputting the work information or measuring the back dose, a pocket dosimeter with an alarm was inserted into the work information input means and the contacts were contacted to send and receive information.

[0003]

In recent years, in a nuclear power plant, a control standard for exposure dose is set for each work environment, and specific work information must be input to a pocket dosimeter within each control area. However, in the conventional configuration as described above, each worker wears a pocket dosimeter in his / her work clothes, and therefore, in order to input work information to the dosimeter, the dosimeter should be taken out from the work clothes. It had to be inserted into the information input means.

Therefore, the worker puts his contaminated hand in the work clothes and takes out the pocket dosimeter, which poses a problem that the work clothes are contaminated and exposed to radiation.

The present invention solves such a problem. It is possible to input work information without taking out the pocket dosimeter mounted in the work clothes from the work clothes, without contaminating the work clothes. It is an object of the present invention to provide a pocket dosimeter device that can safely and quickly send and receive information.

[0006]

In order to solve the above problems, a pocket dosimeter device of the present invention comprises a pocket dosimeter and work information input means, which are connected by a close-range wireless communication function to send and receive information. Is configured to do. The pocket dosimeter is a radiation detector, an amplifier that amplifies the output signal of the radiation detector, a comparator that converts the output signal of the amplifier into a digital signal, and a microcomputer that counts and calculates the output signal of the comparator as a dose value, Consists of a memory unit that stores a program for executing the functions of the microcomputer, a display unit that displays the exposure dose value, a wireless communication unit that transmits and receives the exposure dose value and work information, and a power supply unit that supplies current. Has been done. The work information input means includes a bar code reader for reading the bar coded work information, a display unit for displaying work information, a wireless communication unit for transmitting and receiving work information, and an antenna for transmitting and receiving information. , A bar code reader, a display unit, and a microcomputer for controlling the wireless communication unit. Enter work information,
When measuring the exposure dose, a pocket dosimeter with an alarm is brought close to the work information input means to wirelessly transmit and receive information.

[0007]

According to the above construction, the pocket dosimeter with alarm and the work information input means are connected by the close-range wireless communication function. Therefore, the worker who is working with the alarm pocket dosimeter inside the work clothes only needs to approach the antenna part of the work information input means without removing the pocket dosimeter from the work clothes with contaminated hands. Then, it becomes possible to input the work information into the pocket dosimeter without contact by wireless communication.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A pocket dosimeter device with an alarm according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of the pocket dosimeter with alarm of this embodiment, and FIG. 2 shows the configuration of the work information input means. The pocket dosimeter device with an alarm of the present embodiment comprises the pocket dosimeter shown in FIG. 1 and the work information input means shown in FIG. 2, and is configured to connect both by a short-distance wireless communication function to send and receive information. ing. The pocket dosimeter comprises a radiation detector 1 and an amplifier 2 for amplifying the output signal of the radiation detector 1.
A comparator 3 for converting the output signal of the amplifier 2 into a digital signal, a microcomputer 4 for counting and calculating the output signal of the comparator 3 as a dose value, and a memory for storing a program for executing the function of the microcomputer 4. It comprises a unit 5, a display unit 6 for displaying the exposure dose value, a wireless communication unit 7 for transmitting / receiving the exposure dose value and work information, and a power supply unit 8 for supplying current. Further, the work information input means transmits / receives information to / from a bar code reader 9 for reading bar coded work information, a display unit 10 for displaying work information and the like, a wireless communication unit 11 for transmitting / receiving work information. Antenna 12 to
It is composed of a barcode reader 9, a display unit 10, and a microcomputer 13 for controlling the wireless communication unit 11. When inputting work information or measuring the exposure dose, a pocket dosimeter with an alarm is brought close to the work information input means to wirelessly send and receive information.

Next, the operation of the pocket dosimeter device with an alarm constructed as described above will be described. The work information input means periodically sends a transmission request signal to the antenna 12 at regular time intervals.
Is originating from. The pocket dosimeter with alarm receives the radio wave from the work information input means in the wireless communication unit 7, and the microcomputer 4 determines whether the received signal is a transmission request signal. When it is determined that the signal is a transmission request signal, the wireless communication unit 7 returns a response signal.

After the communication is established as described above, the worker reads the corresponding work data from the attached form by the bar code reader 9 and transmits / receives the practical data including the work data. If an error occurs during communication between the two, a message is displayed on the display unit 6 of the pocket dosimeter with alarm and the display unit 10 of the work information input unit, and an alarm sound is emitted to notify the error. Report the occurrence to the worker.

In this way, the pocket dosimeter with an alarm worn by the worker integrates the exposure dose including the working environment condition in which the worker is currently working, and displays the exposure dose during the work. , When an amount of exposure specified in advance is reached, an alarm is issued to notify the operator of the danger.

In this embodiment, an example in which wireless communication using weak electric waves is used as the communication means has been described, but the present invention is not limited to this, and communication means such as ultrasonic waves or infrared rays can be used. Even if used, the same effect can be obtained.

[0014]

As is apparent from the above description of the embodiment, according to the present invention, the alarm pocket dosimeter and the work information inputting means are connected by the close range wireless communication function. for that reason,
An operator who is working with a pocket dosimeter with an alarm in his work clothes does not need to take the pocket dosimeter out of his work clothes with his contaminated hands, and only needs to approach the antenna section of the work information input means. It is possible to input work information to the pocket dosimeter without contact by wireless communication.

[Brief description of drawings]

FIG. 1 is a block diagram showing a circuit configuration of a pocket dosimeter with an alarm according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a circuit configuration of the work information input means.

[Explanation of symbols]

 1 radiation detector 2 amplifier 3 comparator 4 microcomputer 5 memory unit 6 display unit 7 wireless communication unit 8 power supply unit 9 bar code reader 10 display unit 11 wireless communication unit 12 antenna 13 microcomputer

Claims (2)

[Claims] 1. A radiation detector, an amplifier that amplifies the output signal of the radiation detector, a comparator that converts the output signal of the amplifier into a digital signal, and an output signal of the comparator that counts and operates as a dose value. A microcomputer, a memory unit that stores a program for executing the functions of the microcomputer, a display unit that displays an exposure dose value, a wireless communication unit that transmits and receives the exposure dose value and work information, and supplies current Portable pocket dosimeter having a power supply unit, a barcode reader for reading barcoded work information, a display unit for displaying the work information and the like, and wireless communication for transmitting and receiving the work information And antenna, work including a microcomputer for controlling the bar code reader, display unit, and wireless communication unit A pocket dosimeter device mainly including information input means. 2. A portable pocket dosimeter and work information input means are separated, and the pocket dosimeter is carried by an operator,
2. The pocket dosimeter device according to claim 1, wherein the work information input means is fixed away from an operator, and work information and the like are wirelessly transmitted and received between the pocket dosimeter and the work information input means.