JPS5954985A - Radiation television apparatus - Google Patents

Abstract

PURPOSE:To facilitate the identification of distribution of a radiation with a reduced risk of exposure to workers by a method wherein a radiation is automatically measured, corrected based on distance and indicated in varied color and density on the surface of a display. CONSTITUTION:The intensity of a radiation detected with a radiation detector section 2 is obtained with a measuring device 4 as intensity of radiation signal per unit time. An output from the measuring device 4 is recorded on a recorder 7. On the other hand, the distance to an object to be measured or the plane to be measured is measured with a distance meter 1 from the intensity of the radiation and inputted into a microcomputer 5, which corrects the measured value of the radiation provided through the measuring device 4 based on distance information.

Description

[Detailed description of the invention] LO'Qlight, radiation intensity measured at the radiation side (or radiation dose rate in units of time) m).

m'R (milliroentgen) / H (time)) Radiation television equipment with Hira-Toru or the maximum value of □, dividing the front screen into predetermined sections and displaying color, for example, 5.
, 1. ．． 111 , ′・ , 1:: Regarding the position.

Generally speaking, electron ==== etc.5 is used to detect the leakage direction, intensity, dose rate, etc. of radiation from equipment or other radiation (especially 7 rays), and to detect radiation, ′：： □
□・ １ ：、 ゛、・
＼Rational exposure to radiation by creating line maps etc. 1 line □□, 1, haze 1.

It is necessary to come out.

artificially measure the radioactive atmosphere within
□-□ has the disadvantage that it is complicated to display, and requires a lot of time.

This invention was made under the above circumstances, and aims to save labor by automating the work of measuring and displaying radiation intensity or dose rate, etc., and 1. .

Another characteristic of showing the distribution of radiation is that it can be calculated by performing a predetermined number of horizontal scans in the vertical direction of a plane to be measured that includes a predetermined object or region that emits radiation. radiation measurement means for measuring the radiation intensity within a certain target surface; non-range measuring means for determining the distance between the measurement object and the surface of the means; The radiometer III signal obtained by each horizontal scan is controlled by the radiometer III signal.

In addition to sampling the issue a predetermined number of times provisionally and at different times, the information obtained from each sampling □・″□′□
'Axis ft 1lJrJ E Calculation of correction based on distance information, ■, Hand: Dan, ? The radiation information for each subdivision obtained by the calculation means is displayed in different colors according to its intensity level or in light color. , Radiation intensity measurement 9 display:
, to make radiation management easier.

Below, I will explain ``A0 implementation plan'' page by page.

Figure 1 shows this invention and its implementation! Figure 2 is a cross-sectional view showing the structure of the radiation detection unit in the figure.
FIG. 3 is a perspective view showing the arrangement of the measuring section, an explanatory diagram illustrating the operation of the 41st cane detection section t height detection section scanning mechanism, and 5th
The figure is a waveform diagram for explaining the measurement data collection operation, and FIG. 6 is an explanatory diagram for explaining display mode 1.

′　□　、、、１． :.

In Fig. 1, 1 is a rangefinder, 2 is a radiation detector, 3 is a detector scanning mechanism, 4 is a radiation measuring device, 5 is a microcomputer, - a digital computer, and 6 is a CRT display. 7 is a recorder. As the rangefinder 1 used here, for example, an optical rangefinder used by Nakamachi Focus Camera Misaki I can be used, and as the measuring device 4, a count rate meter (Ratemeshita Yu) can be used. For example, as shown in the 21st QJ (A), the radiation detection unit keeper provides a cavity 12 in a container 10 made of lead or the like, and the inside of the cavity 12 is KWa.
I(Tz)'/7fVT'/'El/detector or 88
0 (cow conductor detection, output device), etc. 9 Spectral radiation detector 11. Establish and configure the structure.

The purpose of shielding the dyeing device 11 with a container 1.0 made of lead or the like is to effectively introduce dyeing radiation only in a predetermined direction. t is the line of force of the IS line of force.As part of this radiation plate F!1, as shown in Fig. By throwing multiple donut-shaped shielding plates!3, the directivity and detection sensitivity are further improved compared to those shown in (A). Ru・naze 1.15 This is the support ridge material for the funeral board 13.
.

These distance meter 1, radiation detection section 2. , detection unit scanning mechanism 3
, the radiation measuring device 4 and the recorder 7 form a measuring section, and the measuring section 20 is shown in FIG.
As shown in B), it is mounted on a trolley 21, and is movable in any direction or location by means of wheels 22.

The cypress, Chubu, 2 placed '1f on the trolley 21 is 90 degrees in the left and right direction of the drawing as shown in Fig. 4 (spring).
The vertical direction is 90 x 3/4 67 degrees (this is
The display device is configured to rotate by a predetermined amount by a screw on the Φ axis by a predetermined amount. Therefore, the measurement target plane OB containing the object to be measured is first scanned horizontally from left to right, as shown in 1st and 4th @, (C), and then vertically scanned in (,), After being rotated by a predetermined angle in the direction, it is horizontally scanned from left to right in the opposite direction to the above, and after scanning by a predetermined angle (9:0 degrees), the door is rotated to the vertical discord again to the W angle, and so on. A total of 39 times and horizontal scanning can be easily performed. Power,
The detection unit 2 is driven by the intermediate medium scanning mechanism 3. A detection unit for detecting the horizontal and vertical positions of the detection unit 2 is stored within the premises. Further, the above-mentioned trolley 21 is fixed at a position approximately 10 m from the measurement target plane OB, and radiation measurement is performed.

The overall operation will be explained below. .

In the 1st □□□, the radiation is detected, and the radiation intensity is measured in the shape of a palanquin.
:, tK, , 9, 2. The radiation intensity signal per unit time can be obtained. This signal is a 7 analog signal, so in order to read it with a computer, micro, core 7, -taro, it must be converted into a digital signal again. However, the output of radiation detection section 2 is in its original form!
The reason for this is that it is not possible to input the radiation to the electronic heater 5.The outputs of the measuring device 4 can be fed to the recorder 7 and recorded.◇On the other hand, the radiation intensity is It is known that the function of distance is inversely proportional to the square of the distance. Therefore, the distance of the object to be measured or the planar structure to be measured is measured by the distance meter 1 and inputted to the microcomputer 5. Based on the distance information from the distance meter 1, the radiation measurement amount given through the measuring device 4 is corrected. .μ
9. As for the radiation obtained by scanning (...), the microphone in the Measurement Chapter, the increase to 5, and the indentation operation: explain it with reference to the t8β diagram. , I don't like it.

For the same figure, \, 1, ←) Naka, falcon measurement time, , -1, (,,
30,, horizontal step time - t,, egg) is 1 horizontal step, time? 2% (c) is vertical running seven.

For example, the microcomputer 5 divides the radiation information outputted by the radiation detection unit within one horizontal scanning period (approximately one tray) into 0 areas and shows them in a table. 7
The radiation measurement signal (7 signals) given through the measuring device 4 is combined so that the IZ image contains, for example, 5 pieces of information in the IZ image. It is converted into a digital, digital, and digital signal using the Truana 4G2 digital converter and stored in a provisional 9-digit memory (not shown). Lutaga? 1.1 San/by scanning
The end of the ring data is 50X,, 苧, = ♀ 50, and 1 water and a half run medal! It takes about 1 tray, so 1. Collection cycle of each data t4 ket14 = 1/250
= 240ms. 24 hours after receiving the horizontal rotation start signal g of the detection unit (this is given by the detection unit scanning mechanism).
By sampling one piece of data every 0m5, receiving the end signal of the horizontal movement of the detection unit, and completing the sampling of radiation information in one suitei run-period 30 times, ■Measurement. Collect radiation information within the target life plane. 1. In the above example, the data to be sampled in one section is 5, for example, 5, but this is obtained through the radiation detection unit or measurement, and the 1 signal has fluctuations and Therefore, sampling only once is insufficient, but sampling multiple times is insufficient.

By doing this, the average value or maximum value is protected. Obtained from case 5. Radiation 1.

As described above, the line information is corrected by the distance i, and then provided to the CRT display device 6 and displayed. Note that although only the CB'I' display device [6 is shown in FIG.
Needless to say, a printing device can be used as needed.

Next, the display mode of radiation measurement information will be explained with reference to FIG. 6.

That is, the radiation measurement information obtained as described above is ranked according to its intensity level, and each rank is displayed in a different color, for example. Koyabajiku, the lowest level or rank is the blue number, and the lowest,
It is effective to display items in association with colors that are easily felt, such as red for expensive items. In addition, 'Figure 6 (A)
The display screen P is horizontally 5. In the case of dividing the O2 vertically into 30 small pictures DO, the same figure (B) shows this radiation measurement data. The display of Hfi D 2 and the correspondence between radiation measurement data and color - Indicator: By providing the color scale section D3, the display is further enhanced. It may be possible to display the level or mineral rank numerically. In short, it is possible to adopt five display modes such as a power grid that allows the state of distribution of radiation to be identified at a glance. d'
Automatically performs the first measurement of 1.m and then makes corrections based on the distance to reduce the risk of radiation exposure to workers, since the display screen h This has the advantage that the distribution of one radiation can be easily identified and its management becomes extremely simple. ' □The present invention can be applied not only to the above-mentioned radiation television equipment, but also to pigeon coops, etc., which display the temporal distribution (temporal variation) of counting signals by color.

[Brief explanation of drawings]

#! Fig. 1 is a block diagram showing an embodiment of the present invention, Fig. 2 is a cross-sectional view showing the structure of the radiation detection section, and Fig. 3 is a perspective view showing the arrangement and configuration number of the measurement section. Or an explanatory diagram explaining the operation of the detection unit scanning mechanism, Figure 6 is a waveform diagram explaining the collection or sampling operation of measurement information, Figure 6 is a diagram explaining the display mode. The final song is □
Will=--code theory 1'□1-' □ 5th □'
□ □1・・・-・Fleet marriage plan 9□2・・・-1・Inquiry□I
Aiho, 3...□・Oil output i scanning mechanism-4...
・'Radiation□A! Determined η□determined 1'5...wealth microphone divination □i
Every Tsusa, □6... Mutama T table system i hide, 7...
...1 recorder, 10... barge, if...
Radiation i detector □detector, 12...Cavity, 13...
□--Shielding plate, 14...--Transmission hole, 15=...
...Supporting member Mi 26...!・Measure, 2'1, 5, □・Dolly, □2shi...wheels; l...
Output line, 0'T3... Aligned initial object or plane to be measured ′ □I (embedded □′” Patent attorney Akio Namiki Agent Patent attorney Kiyoshi Matsuzaki, ′,′ 1st Continued on page 0 Inventor: Toyoshi Kusudo, 1-1 Tanabe Shinden, Kawasaki-ku, Kawasaki City, Fuji Electric Manufacturing Co., Ltd. 0 Inventor: Hisashi Morishima-□ Fuji Electric, 1-1 Tanabe-shinden, Kawasaki-ku, Kawasaki City 0 applicants within Fuji Electric Manufacturing Co., Ltd. 1-1 Tanabeshinden, Kawasaki-ku, Kawasaki City

Claims (1)

[Claims] 1) Radiation measuring means for measuring the radiation emitted from a predetermined object or area, and a measuring means for performing vertical scanning within a fixed object plane that includes the object or area. A driving means for measuring the radiation intensity within the plane; and a distance measuring means for measuring the distance from the surface to be measured to the measuring means; In order to separate the animals into compartments, generate the radiation meter side signal obtained by each water feeding on the 箭ki 畦浦扭dan. Based on the warehousing information obtained through the barge distance measuring means, the radiation information of each sub-ward, which is additionally written by the correction calculation means and the i calculation φ stage, is colored or shaded according to its intensity level. 1. A radiation≠relay device characterized by being equipped with an error display and a main display means. `` □ 2. Claim 1 specifies that the m1ic6 radiation merebi folds should be used multiple times per unit. If you are in the uniform garden, you will be proud of the fact that you will lose the highest price.
□ “□