SU39346A1 - Portable Chlorine Inhalation Device - Google Patents

Description

The abortive effect of chlorine inhibitors in the treatment of influenza and the benign effect of chlorine in the treatment of a number of other diseases. can be considered proven both in foreign and our Soviet midnitsa practice.

The currently used methods of chlorine inhalation require the presence of a chlorine chamber, i.e., an enclosed space where a certain amount of chlorine is introduced in one way or another, thus achieving the required concentration. In the chamber, the treating people breathe for a certain time.

Thus, for chlorine inhalation, a special room, a source and chlorine dosing unit, fans, maintenance, etc., are required. In addition, the need to come to an outpatient clinic for treatment, often under poor mate- riological conditions, makes it difficult to widely apply this method. the same chlorine chamber at home in the patient’s room, although it is possible, but far from safe and, moreover, chlorine, strongly contributing to the corrosion of metals, can spoil household things.

The proposed miniature chlorine inhaler for individual use

is free from the above disadvantages and is a completely safe portable device that allows in any conditions to breathe air with an admixture of chlorine in a strictly defined proportion.

In the attached drawing, the proposed device is shown schematically in vertical section.

The device consists of a chlorine generator 1, a galvanic battery 2, a rheostat3, a chlorine mixer 4 with inhaled air, a half mask 5 and a bench 6.

The generator 1 is a glass vessel filled with sodium chloride solution divided by a porous diaphragm (porcelain, ebonite and other chlorine and alkali resistant porous materials) into an anolt and catholyte cells with graphite anodic and iron cathodic electrodes; an anolyte cell in which chlorine is released is in communication with a gas-mixing tubular chamber 4 communicated from one end with outside air, and from the other with an inhalation mask 5. With the help of a rheostat, it is possible to regulate the energy of the reaction and thereby dose chlorine .

The design of the chlorine source is based on the principle of electrolytic decomposition of the sodium chloride solution, i.e., the most common method of chlorine production in the art, as having the following advantages:

1) storage safety (it is not chlorine that is stored, but salt in solution),

2) ease of adjusting the amount of chlorine released by varying the strength of the rheostat; 3) reliability and trouble-free operation; 4) ease of handling; 5) safety during operation (very small amounts of chlorine are released), and finally, 6) simplicity of design, portability and non-deficiency of materials.

A person breathes an average of 8 cubic meters per minute. m of air, the necessary concentration of chlorine in it is 0.015 mg1m. {1: 200000); thus, in an hour, 7.2 mg of chlorine must be added to the inhaled air. To obtain it, a current of 12.0 mA is required.

With a large resistance of the aperture, a pocket lamp battery of 4.5 V can be used as a current source, with a capacitance of 0.6 Ah. Battery

without a noticeable reduction in voltage, the capacity will be 0.4 Ah, which is enough for 33 hours of work, i.e. for one hundred twenty-minute inhalations.

The subject matter of the invention.

A therapeutic device for inhaling chlorine for medical purposes, consisting of a body connected to an inhalation mask or ear cushion, comprising a gas generator, characterized in that inside the case equipped with a holder 6, there is a generator 1 to receive chlorine electrolytically from a solution of sodium chloride, separated by a porous, chlorine-and alkali-resistant partition 7 (porous porcelain, ebonite, etc.) into a co -olytic and anolyte cells, of which the latter is communicated with riding in an inhalation mask 5, communicating with the air naru waist tube 4 for admixing air to chlorine, for controlling the release of vigor which serves rheostat 3.