KR101054812B1 - Repair apparatus of radioactivity detector - Google Patents

Abstract

PURPOSE: A gas inhalation and charging device of radioactivity detector is provided to be used semi-permanently. CONSTITUTION: A gas inhalation and charging device of radioactivity detector comprises a regulator(100), a suction solenoid valve(200), an intake pressure controller, a filter, a vacuum pump, and a charging pressure controller. The suction solenoid valve opens and closes a valve when inhaling gas from the radioactivity detector. The intake pressure controller controls the pressure of the intake gas when inhaling the gas from the radioactivity detector inside. When inhaling the gas from the radioactivity detector inside, the filter eliminates the impurities mixed in the gas. The charging pressure controller controls the pressure of the gas which flows in when charging the gas to the radioactivity detector inside.

Description

Gas suction and filling device in radioactivity detector

TECHNICAL FIELD The present invention relates to a gas intake and filling device in a radiation detector, and more particularly, to a gas intake and filling device in a radiation detector that can be recycled by making it possible to repair a damaged and unusable radiation detector. .

It is well known that alpha and beta particles and gamma rays emitted from radioactive materials are extremely dangerous for both patients and animals.

Therefore, various means for detecting the presence of radioactive materials are currently being developed, and one of the most common and well-known measuring devices will be referred to as a gas detector.

In particular, in the detector, a proportional counter is used which is a pulse having a wave proportional to the energy of the incident radiation by the gas amplification of the charge generated by the primary ionization of the gas. Pulse crests proportional to the number of pairs are obtained, and separate measurement of alpha and beta rays by applied voltage is possible, and can also be used for neutron measurement, and low energy beta and alpha rays can also be measured.

The gas used for the counter tube includes a high purity rare gas and a small amount of polyatomic mixed gas.

That is, the gas is Ar 0.9 + CH ₄ 0.1, which is called PR gas or P-10 gas and shows good characteristics in detection efficiency.

However, all of the above-described radiation detectors used in hydroelectric power plants are imported and used in foreign countries.

In addition, when detecting radioactivity using the above-described radiation detector, expensive equipment frequently occurs due to component damage such as a mylar paper attached thereto.

However, in the present situation where it is impossible to repair and reuse the broken radioactive detector, inventory of the broken equipment continues to accumulate, which is a problem that greatly wastes the national budget.

An object of the present invention for solving the above problems, by changing the mylar paper attached to the radioactivity detector, it is possible to replace the mylar paper and to suck the gas from the inside of the radioactivity detector and to fill the gas therein In addition, the present invention provides a gas suction and filling device in a radiation detector that can be used for semi-permanent use as well as avoid unnecessary radiation detector importation, and can greatly reduce the national budget waste.

According to an embodiment of the present invention for achieving the object as described above, the gas suction and filling device in the radioactivity detector to remove the damaged mylar paper in the radioactivity detector and to adhere another new mylar paper, the radioactivity A regulator that regulates pressure when inhaling and filling p-10 (Ar0.9 + CH0.1) gas into the detector; A suction solenoid valve which opens and closes the valve when inhaling the gas from inside the radiation detector; A suction pressure control system for adjusting a pressure of a gas sucked when the gas is sucked from the inside of the radiation detector; A filter for removing impurities mixed in the gas when the gas is sucked from the inside of the radiation detector; A vacuum pump for sucking the gas from inside the radiation detector; A filling pressure controller for indicating and controlling a pressure of a gas flowing in when the gas is filled into the radiation detector; And a charging solenoid valve which opens and closes the valve when the gas is introduced into the radioactive detector and charged.

According to an embodiment of the present invention, the vacuum pump is further provided with a noise filter for removing the noise of the gas is sucked and discharged.

According to an embodiment of the invention, the radiation detector and the regulator are connected by a manifold consisting of a plurality of tubes.

In the case of using the gas suction and filling device in the radiation detector according to the present invention as described above, the damaged radiation detector can be repaired and recycled, as well as avoiding import of expensive radiation detectors, and greatly reducing the budget waste of the country. To have a great synergy effect.

1 is a schematic view showing a gas intake and filling device in a radiation detector according to an embodiment of the present invention.
Figure 2 is a schematic view showing a gas flow state by the gas intake and filling device in the radiation detector according to an embodiment of the present invention.

Hereinafter, a radiation detector according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a gas intake and filling device in a radiation detector according to an embodiment of the present invention, Figure 2 is a schematic view showing a gas flow state by the gas intake and filling device in a radiation detector according to an embodiment of the present invention. .

The repairing apparatus according to the present invention, by inhaling and discharging the gas used for the measurement remaining in the radioactive detector 10 used for the radioactivity detection, and then refilling the new gas into the radioactivity It is a device for reusing the detector 10.

At this time, p-10 (Ar0.9 + CH0.1) is used as the gas.

As shown in the figure, the radioactive detector 10 repair apparatus for removing damaged mylar paper (not shown) in the radioactive detector 10 according to the embodiment of the present invention and for attaching another new mylar paper is a regulator. (100), suction solenoid valve 200, suction pressure control system 300, filter 400, vacuum pump 500, charging pressure control system 600, charging solenoid valve 700 and the noise filter 800 do.

The regulator 100 serves to adjust the pressure when inhaling gas from the inside of the radiation detector 10 or filling gas therein.

That is, the mylar paper is not damaged by controlling the pressure and the amount of gas sucked when the gas is sucked in the radiation detector 10 and by adjusting the pressure and the amount of gas charged when the gas is filled therein. Do not

The suction solenoid valve 200 serves to open and close the valve when the gas is sucked from inside the radiation detector 10 by operating the vacuum pump 500 to be described later.

The suction solenoid valve 200 is normally closed and is opened when the suction signal of the gas generated by the operation of the vacuum pump 500 is received to allow the gas inside the radiation detector 10 to be sucked.

At this time, the charging solenoid valve 700 to be described later is closed to enable vacuum suction.

The suction pressure control system 300 indicates the pressure of the gas sucked when the gas is sucked into the radioactive detector 10 by the vacuum pump 500 and allows the pressure of the suctioned gas to be adjusted so that the mylar paper is damaged. To prevent it.

That is, the suction pressure control system 300 allows the user to know whether the vacuum inside the radiation detector 10 and whether the mylar paper is damaged.

The filter 400 serves to remove impurities mixed in the gas when the gas is sucked from the inside of the radiation detector 10 by the operation of the vacuum pump 500.

Therefore, when the gas is sucked out and discharged, it is discharged in a state in which harmful impurities are removed by the filter 400.

The vacuum pump 500 operates to suck the gas from inside the radiation detector 10 as described above.

Therefore, when the vacuum pump 500 is operated, gas inside the radioactive detector 10 is sucked through the regulator 100 and the suction solenoid valve 200.

At this time, the operating strength of the vacuum pump 500 is controlled according to the pressure of the suction gas disclosed in the suction pressure control system (300).

Next to the vacuum pump 500, a noise filter 800 is installed to remove the noise of the gas being sucked.

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The gas sucked into the high tone through the noise filter 800 is converted into a low tone state and discharged.

The gas inside the radioactive detector 10, once used, is sucked and vacuumed using the above devices, and the gas is filled into the radioactive detector 10 so that it can be used again next time. The filling pressure regulator 600 and the filling solenoid valve 700 are used to charge.

The filling pressure controller 600 is capable of detecting radioactivity by indicating and adjusting the pressure and amount of gas introduced when the gas is charged into the radiation detector 10, and the mylar paper is damaged when the gas is filled. It prevents it.

That is, the pressure of the filling gas disclosed in the filling pressure regulator 600 is preferably 1.5 to 3 N / m 2. When the pressure of the gas disclosed therein is 1.5 N / m 2 or less, the amount of gas is insufficient so that the radiation detector 10 It becomes impossible to detect through and informs that the mylar paper may be damaged when the gas is charged when 3N / m 2 or more, so that the user can detect the radioactivity using the radiation detector 10 and the Make sure you know if it's compromised.

The filling solenoid valve 700 opens and closes the valve when gas is charged into the radiation detector 10.

The charging solenoid valve 700 is normally in a closed state and opens when receiving a gas charging signal to allow gas to be charged into the radiation detector 10.

At this time, the suction solenoid valve 200 described above is in a closed state to enable filling in a state in which gas is not sucked.

In addition, when the filling solenoid valve 700 is opened to charge gas, the regulator 100 is operated so that the pressure and amount of the gas charged into the radiation detector 10 are adjusted again so that the mylar paper is damaged. To be prevented.

In addition, the radiation detector 10 and the regulator 100 are connected to a manifold 900 consisting of a plurality of tubes for guiding suction and filling of gas.

Looking at the operating state of the repair apparatus of the radiation detector 10 according to the embodiment of the present invention made of the above configuration as follows.

First, the radioactivity detector 10 having completed radioactivity detection is connected to a manifold 900 consisting of a plurality of tubes.

When the radiation detector 10 is connected to the manifold 900, the vacuum pump 500 is operated and the suction solenoid valve 200 is opened to suck the gas inside the radiation detector 10 in a vacuum state.

In addition, the suction pressure and the amount of the gas are adjusted through the regulator 100 during the inhalation of the gas, and the pressure of the gas that the user inhales is within an appropriate range in which the mylar paper is not damaged through the intake pressure control system 300. Allows you to see if it is being inhaled.

The inhaled gas causes impurities to be removed through the filter 400, and then is discharged to the outside through the noise filter 800.

When the gas in the radioactivity detector 10 is completely sucked through the above process, the suction solenoid valve 200 is closed, and the filling solenoid valve 700 is opened so that the mylar paper through the filling pressure regulator 600 is not damaged. The gas is charged into the radiation detector 10 at an appropriate pressure and amount within the range.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the above, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention. Belongs to the scope of.

10: radiation detector
100: regulator 200: suction solenoid valve
300: suction pressure regulator 400: filter
500: vacuum pump 600: filling pressure controller
700: filling solenoid valve 800: noise filter
900: manifold

Claims (3)

A gas intake and filling device in a radiation detector, which enables to remove damaged mylar paper in a radiation detector and to adhere another new mylar paper.
A regulator (100) for regulating pressure when inhaling and charging p-10 (Ar0.9 + CH0.1) gas into the radiation detector (10);
A suction solenoid valve 200 which opens and closes a valve when inhaling the gas from inside the radiation detector 10;
A suction pressure control system 300 for adjusting a pressure of a gas to be sucked when the gas is sucked from the inside of the radiation detector 10;
A filter 400 for removing impurities mixed in the gas when the gas is sucked from the inside of the radiation detector 10;
A vacuum pump 500 for sucking the gas from the inside of the radiation detector 10;
A filling pressure controller 600 for indicating and controlling a pressure of a gas flowing in when the gas is filled into the radiation detector 10; And
And a charging solenoid valve (700) that opens and closes a valve when the gas is introduced into the radiation detector (10) to charge the gas.
The apparatus of claim 1, wherein a noise filter (800) is further provided after the vacuum pump (500) to remove noise of the inhaled and discharged gas.
The gas intake and filling device according to claim 1, wherein the radiation detector (10) and the regulator (100) are connected by a manifold (900) consisting of a plurality of tubes.

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