SU281163A1 - BREATHING EQUIPMENT - Google Patents

Description

This invention relates to devices that provide individual human breathing with specially prepared gas mixtures of various compositions.

The known breathing alloys contain compressed gas mixture cylinders, high pressure lines, gearboxes, intermediate pressure lines, distributors, dispensers and transducers, to the output of which the patient is connected. The transducers reduce the pressure s of the line. Nozzle pressure to pressure suitable for breathing, these are breathing bags with valves, pulmonary automatic devices, and so on.

The patient and the apparatus for breathing gas mixtures are functionally so interconnected that the placement of the patient outside his usual environment or under conditions other than normal (in climatic and other aspects) is associated with the need to be placed in the same conditions as the apparatus. . The difficulties of placing such a stationary device, such as anesthesia, are obvious. But, in addition, all known both stationary and portable gas breathing apparatus (respirators, scuba gears) have a short-term cycle of operation, determined by the capacity and the number of cylinders in the compressed gas mixtures, therefore these equipment is unsuitable for long-term residence of the patient. in conditions isolated from the external environment. And the need for such an apparatus is now becoming increasingly acute.

According to the present invention, the breathing of various gas mixtures of patients in a cabin long-isolated from the external environment is provided by dividing the apparatus with an intermediate-pressure pipe, stationary inside the cabin, into the intracabine and extracabile parts with interconnected control and signaling units. Outside the cabin

a part of the equipment includes sources of ready-made gas mixtures in the form of a battery of cylinders, so that for each gas mixture there are several parallel-connected cylinders, which ensures their alternate charging without interrupting the supply of any of the gas mixtures. The extra cabin control and alarm unit commutes highways of several different gas mixtures, which allows to bypass a single paved

Cabin with intermediate pressure trunk. The latter contains a cockpit sealing valve which automatically seals the cockpit if there is no pressure in the line leading to the cockpit, for example

The drawing shows a functional block diagram of the described hardware.

Each of the four batteries of cylinders 1, 2, 3, 4 contains 5 cylinders connected in parallel to the high-pressure high-pressure lines with pre-prepared compressed gas mixtures. High-pressure and high-pressure lines are equipped with gearboxes 6, 7, 8, 9, followed by intermediate pressure inlet lines 10 with shut-off valves 11, connected to the out-cabin control unit 12 and a control signal. The last 1 has one intermediate pressure outlet line 13, which is permanently laid through a pressure seal 14 (with a sealing valve) to a cabin 15 which is permanently insulated from the external environment. Inside: the instrumental part of the apparatus contains flow regulator 16, humidifier 17, breathing bag 18, valve box 19, the mouthpiece 20 and the entiricabine control and alarm unit 21, which is electrically connected to the unit 12. Through the electric pressure lead-in 22. Both of these units are powered by the power supply unit 23.

The equipment works as follows. Various gas mixtures prepared in advance are in a tank of cylinders under pressure of up to 150 MPa (individual cylinders connected in parallel are not shown in the drawing). When opening the valve of the cylinders of the mixture, high-pressure lines 5 are filled and flow into gearboxes 6, 7, 8, 9. Medium-mixed gas mixtures filled to 5 atm and fill the inlet lines of intermediate pressure 10 and through the gate valves 11 enter the block 12. The block is connected to the switching of gas mixtures, so that only one selected gas mixture can enter the output intermediate-pressure line. Through the pressure seal 14 with the valve of the valve, it enters the intracabine line of the intermediate pressure and then to the input of the flow regulator, which acts as a metering device. The flow controller reduces the pressure of the gas mixture from 5 amperes to a pressure suitable for breathing and, depending on the breathing mode, provides the required amount of gas mixture. Thus, a low pressure air line begins to turn on from the output of the flow regulator, including a humidifier, a breathing bag, a valve box, a mouthpiece and air lines connecting them. In the humidifier, the gas mixture is heated and humidified to the parameters that provide the Minimum of the energy expenditures of the human body for heating and moistening the inhaled air. The breathing bag is the reserve volume of breathing and at the same time serves as an indicator of the regulation of the flow rate of the gas mixture. Transducer Selection In the form of an elastic breathing bag and valve box, it is due to safety considerations. In addition, such a transducer allows return breathing and the introduction of a simple design of a humidifier (outside the intermediate pressure line). In the valve box 19 is the distribution of flow inhale and exhale. When you inhale, the exhalation valve closes, and the gas mixture from the breathing bag through the mouthpiece 20 enters the patient's mold, and when you exhale, the inhalation valve closes and the exhaled air enters the cabin atmosphere. If necessary, an intake tank of exhaled air can be connected to the valve box fitting.

The low pressure air duct has quick disconnect connectors, shown in the drawing with articulated joints, which makes it possible to quickly change the composition of the air duct in accordance with the experiment program (for example, when working with equipment that measures pneumotamagram and pulmonary ventilation between the valve box / R and the mouthpiece 20 installs the Fleisch breathing tube, in the case of return breathing, the valve box is excluded, and in the case of using a-Parameters to maintain the required the gas composition of the atmosphere in the cockpit eliminates the need for air in the water main in general, and so on).

During (Transition to breathing with another gas mixture from block 21, the corresponding command is carried out, which is carried out using block 12, so that both operators have complete information about the sequence of their

action.

Thus, at the same time, several, for example, four gas mixtures fed to the input of unit 12, can be alternately transported to the patient in a form suitable for breathing. At the same time, the equipment does two-way communication - coordination in the work of the internal and external operators, and makes it possible to replace the cylinders in the course of the experiment, providing a long Study without depressurization of the cabin isolated from the external environment.

Subject invention

A breathing apparatus containing balloons of gas mixtures, outflow and intermediate pressure lines, a distributor, a dispenser and a converter, characterized in that, in order to ensure the respiration of patients in a long-term isolated from the external environment

The cockpit And is supported by a certain gas composition in the room, it is divided by an intermediate pressure magistrate with cab sealing valves into the intracabin and extracabin parts with interconnected control and signaling units, outside of the BIN unit of which is designed as a switch of several input gas magnetles to one output one connected to sources of gas mixtures in the form of batteries with a shock

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