SU111213A1 - Oxygen-air apparatus for determining basic human metabolism - Google Patents

Description

The invention relates to oxygen-air apparatus for determining basic metabolism in humans, comprising a water spirometer or air styrometer, whose movable element is associated with a recording mechanism. The spirometer is connected by a pipeline with a respiratory mask and a carbon dioxide absorber. The control of the valves in the apparatus is dried, it is closed by the contacts that are closed or opened by the membrane when the patient is breathing.

The known open-type devices of this type measure the volumes of inhaled and exhaled air and analyze it with a particular gas analyzer with continuous recording. These devices provide accurate data describing the basal metabolic rate in humans, but their disadvantages are relative complexity, bulkiness, and high cost.

In addition, these devices do not allow the patient to monitor the patient’s breathing and oxygen consumption during the experience process, which is sometimes important.

The proposed device does not have the above disadvantages. It allows to obtain the results of the study in the form of an oblique spirogram, by the angle of inclination of which one can judge the rate of oxygen consumption.

The peculiarity of the apparatus is that the movable element of the spirometer is divided by a partition into two cavities, one of which serves as a reservoir for inhaled and another for exhaled air without carbon dioxide. Air is sucked into the inspiratory cavity through a valve when the movable element of the spirometer is raised during expiration, and the inspiratory cavity is emptied through the valve when the movable element of the spirometer is lowered during inspiration.

The drawing shows a diagram of the apparatus.

The device contains a water spirometer 1 (or a dry spirometer-fur), the movable element 2 of which is connected with the recording mechanism 3 on the kymograph tape 4 and is divided by a partition 5 into two cavities. The cavity 6 serves as a reservoir for inhaled air, and the cavity 7 is a reservoir for exhaled air without carbonic acid absorbed by the cartridge 8 with soda lime.

The spirometer is connected to the respiratory mask (or mouthpiece) by pipelines 9 to 10, to which a flexible membrane 12 is connected to tube 11, and when inhaling and exhaling, make or break contacts 13 and 14, 15 and 16 controlling the operation of spring-loaded valves 17, 18, 19, 20.

When the patient inhales, contacts 13 and 14 are closed, opening valves 17 and 18. At this time, the patient inhales air from cavity 6 of movable element 2, which in this case lowers in proportion to the volume of inhaled air and mechanism 3 records a line of corresponding length on tape 4. The air from the cavity 7 of the movable element of the spirometer at this time through the valve 18 is forced out of the way.

When the patient exhales air, contacts 13 and 14 open and valves 17 and 18 that are controlled by them close, and contacts 15 and 16 close and open valves 19 and 20.

The exhaled air passes through the cartridge 8, where carbon dioxide is contained in the cavity 7 and enters the cavity 7 of the mobile element 2 and lifts the postfoil. At the same time, a fresh portion of air is drawn into cavity 6 through the open valve 19. The rise of the movable element 2, proportional to the volume of exhaled air (without carbon dioxide) is also marked on the kymograph tape 4 with a corresponding line.

Since the inspiratory line graph is longer than the expiratory line, with repeated repetition of breath cycles on the kymograph tape, a sloping broken line 21 is obtained, the slope angle of which is proportional to the rate of oxygen consumption by the patient.

The apparatus allows research to be carried out not only with the help of air, but also with oxygen. In this case, an oxygen cylinder is connected to the breathing tube in front of the valve 19.

Subject invention

An oxygen-air apparatus for determining the basal metabolic rate in humans, containing a water spirometer or a dry spirometer-fur, the movable element of which is connected with a recording mechanism and which is connected by a pipeline with a breathing mask and carbon dioxide absorber to the valve, controlled by the contacts closed or openable by the membrane when the patient is breathing, about t and h and n and with the fact that, in order to obtain the results of the test in the form of an oblique spirogramma, by the angle of which you can judge the speed oxygen consumption, the movable element of the spirometer is divided by a partition into two cavities, one of which with the pressure reservoir for the inhaled and the other for the exhaled air without carbon dioxide, the air being drawn into the inspiratory cavity through the valve when the movable element of the spirometer is lifted during expiration, and emptying of the expiratory cavity occurs through the valve when the moving element of the spirometer is detected during inspiration.