SU728867A1 - Apparatus for carrying-out radon ingalations - Google Patents

Description

(54) DEVICE FOR CARRYING OUT RADONAL INHALATIONS, spirit and uncomfortable working conditions that endanger the health of the staff. The purpose of the invention is to improve the accuracy of radon dosing and to ensure the safety of working conditions of medical staff. This goal is achieved by making the water tank sealed by introducing an intermediate water tank and two pumps interconnected and enclosed in sealed casings, one of which is connected to the mixer and mask, and the other to a sealed tank, which in turn connected by connecting tubes and valves with an intermediate tank connected to the mixer. The drawing shows the scheme of the proposed device for radon inhalation. The device consists of unit 1 for charging the device and dosing of HRV and unit 2 for breathing the patient. Node 1 contains an airtight container 3 with a transparent window 4, half filled with water 5. Through a pipe with a shut-off valve 6, a system of two (or more) capillaries 7 and 8 with cranes and a large section shunt tube with crane 9 communicates with the lower inlet of the container 10 into which water can flow through this channel. The upper outlet of the container 1O communicates through the valve 11 and the hose 12 with the mixer 13 of the mask 14. The upper terminal of the container 10 through the valve 15 communicates with the flexible hose with the valve 16 with a removable charge using a bubbling skim 17, containing the Shott filter 18 and the valve 19 at the bottom . The upper part of the tank 3, where the air is iodine 1S above water: a, is connected with the pump 20 to the pump 21 in a sealed enclosure, opposite the charging system ing. Vaporizer and air from Equity 3 to exhaust ventilation. The patient breathing unit 2 includes a sealed pump 2 which draws air through a system consisting of a rotameter 23, a jet control valve 24, a flexible hose 25 of the mask 14 with an inflatable welt 26 (or a box with laboratory animals), a mask mask 13, and through the electric heater 27 of the air. The exhaust of this system is carried out through the nozzle 28 into the exhaust ventilation of the room. 7 74 For free and unrestricted breathing of pain through mask 14 by means of a pump 22 operating in a pumping mode, during the new time of the inhalation procedure, a stream of fresh atmospheric air is flowed at a constant speed regulated by a valve 24 and measured by a rotameter 23 At the same time, the patient breathes through the mask with continuously intensively renewed air (up to 100 l / min) without any difficulty for breathing. All air is removed to the exhaust vent, preventing HRV from entering the atmosphere of the room, conditions are created for preheating the air using conventional flow heaters 27, as well as for mixing other gas components such as oxygen. During inhalation through the small section hose 12 into the mixer 13 from the tank 1O, entering the node 1, the HRV concentrated continuously and at a constant speed flows out of the vessel, which is uniformly fed there through the lower port I3 | tanks 3. The device is charged by using several replaceable bubble vials 17. A volume of concentrated radon aqueous solution (up to 4,05 ml) is injected in advance into each of them. A scraper with a solution is attached to the tap of a crane 15 with a tank 10 full of aodo. By closing the valve 15 and turning on the pump 21, an air vacuum is created in a sealed container 3. By opening valves 6, 9 and 15, air is rarefied and in a vessel Yu from which part of the water rises up into the tank 3. Through the open taps 16 and 19 of the flask 17, air from the atmosphere flows through the Schott filter 18, and a portion of the solution enters the vessel Yu. This air extracts all radon from the solution into the chamber 17. . The ratio of the volumes of the vessels Yu and 17 is chosen not less than 2 O: 1. At the moment when the solution leaves the vessel 1O through the lower nozzle, the valve 6 is closed, the pump 21 is turned off and, after the passage of air bubbles through the flask 17, all the other valves are closed. The device is ready for the next procedure. When charging, the air from the tank 3 along with possible traces of radon entering there by dissolving its insignificant amount in water during the charging process of the vessel 10 is pumped into the exhaust duct of the room through the fitting 28.

The procedure is started after switching on the pump 22, which ensures the necessary speed of the air through the mixer and the mask after adjusting this speed and selecting the required air temperature.

The supply of concentrated HRV from the dispenser tank 10 to the mixer 13 is carried out due to uniform

replacing this pre-prepared mixture with water coming from tank 3 through one of the capillaries (7 or 8) at the closed position of the valve 9 and the open valve 11 (the position of the valves at the inhalation mode is shown in Fig. 1).

The uniformity of filling the vessel 1O with water is ensured by the unchanged height of the water column above the capillaries, which regulate the pressure and the rate of water flow in the dosing system.

HRV from vessel 1O through valve 11 and hose 12 enters mixer 13, where, mixing with a constant stream of air entering the mask, ensures the constancy of radon concentration in the inhaled air during the entire inhalation session.

After displacing the HRV from the filter 18, the valve 6 is closed, then the valve 11, after which the mask is removed from the patient's head and the pump 22 is turned off. During the procedure, all the air with the radon pump 22 is discharged through exhaust valve 28 into the exhaust vent. After inhalation, the flask 17 is replaced by a new one, with the next portion of radon, and the device is recharged.

The calculation of the amount of radon needed for inhalation with a duration of T min at the concentration of radon in therapeutic HRV C nCi / L, with the air velocity passing through the mask during inhalation V l / min, recorded by a rotameter, is given by the equation

A CT-VHKH.

The invention provides high precision dosing of radon concentration in the inhaled air, safety of working conditions and comfortable working conditions of the staff.

Claims (2)

1. Basics of balneology, vol. 1, 1956, p. 12. 2. Medical Radiologists, 1962, No. 2, Medgiz, p. 83 sch