RU2356015C2 - Plant for automatic preparation and proportioning water concentrate of radon - Google Patents

Abstract

FIELD: physics, nuclear physics.

SUBSTANCE: invention relates to medical equipment and is intended for decreasing dosage load on personnel and radon less in pouring radon into portion vessels, thus adding to radiation safety. To this end, in compliance with the proposed invention, the plant comprises a mixing tank incorporating centrifugal pimp designed to dissolve radon in water, switching valves and electronic proportioner. Note here that aforesaid electronic proportioner consists of a solenoid valve incorporating AC choke, time counter to set the required solenoid valve opening time, when the valve allows the preset portion of proportioned radon volume to pass through, and power supply. The plant includes also the switching valve for the air-radon mix to pass through from the radon generator into aforesaid mixing tank, and the switching valve to pass the obtained radon concentrate solution to proportioner.

EFFECT: reduced dosage load on personnel, lower loss of radon in pouting in pouring it into portion vessels which adds to radiation safety.

2 dwg

Description

The invention relates to medicine, namely to medical equipment, and can be used for the preparation of radon procedures.

An analogue of the invention is the manual technology for preparing an aqueous radon concentrate using a radon generator, a glass bottle, a shaking apparatus (shuttle apparatus) and a burette, described in the work of E.S. Scheptotieva Artificial radon baths and methods for their preparation - M .: Medicine, 1949 .

The disadvantages of the analogue are a certain complexity, the radiation safety of personnel is not properly ensured, the possibility of an emergency is not excluded.

The closest in technical essence to the proposed device is a "Device for preparing an aqueous solution of radon", consisting of a bubbler with radon, a mixing tank, a mixing device in the form of a centrifugal pump, a dispenser of a solution of radon and a protective casing (Copyright certificate SU No. 1316977, dated 15.02 .1987, I.I. Gusarov, S.V. Andreev, V.I. Abramov, etc.).

The disadvantages of this device are the need for the presence of personnel for a sufficiently long time in close proximity to sources of ionizing radiation (bubbler and mixer tank of the unit), as well as the loss of radon when dosing an aqueous solution with a piston batcher.

The technical result of the invention is to eliminate the loss of radon when dosing an aqueous concentrate of radon and increase radiation safety in the preparation and bottling of radon concentrate in portion containers.

The specified technical result is achieved by the fact that the installation is equipped with an electronic dispenser of radon water concentrate of a new design, operating on the principle of free discharge of a fixed volume of liquid for a certain time at a certain flow area, and is equipped with automatic control systems and remote control of the process of transferring the air-radon mixture from the generator into the mixing tank and its dissolution in water.

Description of the device.

Figure 1 shows a diagram of an installation for the preparation of an aqueous concentrate of radon. The installation is connected to a radon 1 generator of any type (solid-state or based on an aqueous solution of radium-226 salts). The installation consists of a mixing tank 9 with a centrifugal pump 7 for dissolving radon in water, a water level meter (water meter tube) 11, equipped with “optocoupler” sensors 12, 13 and 14, a system of 5 switching valves 6, 8, 10, 15 and 16. The installation has a flow indicator 5 (control bubbler) installed between the radon generator and the mixing tank with a calibration valve 4 to control the rate of transfer of the air-radon mixture from the generator to the installation tank, the filling tank 17 with a water filter 18. The generator glad 2 and provided with valves (input) and 3 (yield). The apparatus for preparing an aqueous radon concentrate is connected to the radon generator as follows: the input of the radon generator 2 is connected by a tube to the output of the control bubbler 5. The output of the generator is connected to the input of the valve 6. The output of the valve 16 is connected to the input of the dispenser 19. The hose from valve 8 is lowered into the drain.

The operation of the installation is controlled directly from the panel mounted on the installation, or remotely from a remote control. Before starting work with distilled water, fill the filling tank 17 to the drain level (5.5 l).

Installation works as follows.

Air is sucked in through the inlet fitting by draining 500 ml of water, passes through a flow indicator 5 (control bubbler) filled with distilled water, valve 4, with which the air flow rate is regulated, and enters the radon generator 1, where it is saturated with radon, and from air-radon mixture through the valve 6 enters the mixing tank 9. Using a centrifugal pump 7 in the mixing tank, radon dissolves in water. The resulting aqueous concentrate of radon through an open valve 16 enters the dispenser bottling 19 in portioned containers.

The dispenser consists of (see FIG. 2) a solenoid valve 1, the structure of which includes a variable choke, a time counter 2, on which, when calibrating the dispenser, the required valve opening time is set for a given volume of the dosed solution to pass through it, and the power supply unit 3. The dispenser It works on the principle of free drainage of a liquid for a certain set time with a certain passage section of the line. Due to this, when the dispenser is operating, there are no radon losses characteristic of piston dispensers, in which a vacuum is created when the piston is raised. As a result, the concentration of radon in the dosed solution is maintained and the radiation safety of the personnel of the radon laboratory is increased. The installation operates until the sensor 14 is activated, after which the valves 16 and 10 are closed, the operation cycle is completed.

The installation allows to reduce the radiation load on the staff due to automatic control and remote control of the technological process of transferring the air-radon mixture from the generator to the mixing tank and dissolving it in water. The use of a new design of the doser installation reduces radon losses during the pouring of radon water concentrate into portion bottles, which increases the metering accuracy and contributes to radiation safety.

Claims (1)

Installation for the automatic preparation and dosing of radon water concentrate, connected to a radon generator and including a mixing tank with a centrifugal pump for dissolving radon in water, switching valves and an electronic dispenser, characterized in that the electronic dispenser consists of an electromagnetic valve, the design of which includes a variable throttle, time counter, at which, when calibrating the dispenser, the required opening time of the electromagnetic valve is set when a predetermined volume passes through it In addition, the installation includes a switching valve through which the air-radon mixture from the radon generator enters the mixer tank, as well as a switching valve through which the resulting radon water concentrate is supplied to the dispenser.

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