SU799692A1 - Device for determining respiratory coefficient of biological objects - Google Patents

Description

(54) DEVICE TO DETERMINE THE RESPIRATORY RATIO OF BIOLOGICAL OBJECTS

The drawing shows a block diagram of a device for determining the coefficient of respiration of biological objects. The device consists of a sealed (chamber 1 for the test object placed in a thermostat 2, containing a system for automatically controlling the temperature of the medium, including IB se fan 3, a snake. A small heat exchanger 4 and an automatic self-recording bridge 5 with a resistance thermometer b; sealed chamber 1 for the object the research is connected with automatic gas analyzers for oxygen 7 and carbon dioxide 8 through the choke 9, the flow booster 10, the filter 11 and the meter 12 of the velocity of the introduced gas mixture (rotameter) which are included in The closed loop through the sealed chamber 1 and the tanks 13 and 14 for carbon dioxide absorbers, the container 13 contains the liquid absorber COj / and the container 14 is the solid absorber 002- The same circuit includes a pressure gauge 15, an oxygen container 16, connected by a trunk 17 to a sealed chamber 1 through the pressure regulator 18, the flow meter of the dosed portions of gas, made in the form of a tank 19 of a calibrated volume located in the thermostat 2, at the inlet and outlet of which are installed normally closed 20 and normally open 21 electromagnet e valves addition, the gas circuit comprises an overpressure generating unit 22 (the piston device) in a sealed chamber 1, fittings 23 and 24 for a purge gas system and kranypereklyuchateli 25-30.

The device works as follows.

The object of study, such as blocks, is placed in a sealed chamber 1 located in thermostat 2. Switch taps are installed in the following position: 25-1V, 27-IV 26-11, 28-111, 29-1, 30-1, as a result This creates an open circuit, to the input of which a two-component gas mixture of a given composition is fed through the fitting 23 to purge the entire device.

Purging is carried out before obtaining a steady state in terms of the composition of the gaseous medium controlled by gas analyzers 7 and 8. At the end of the purge, the valves are set to: 25-1, 26-1, 27-1, 28-1, 29-IV, 30-1, this stops the flow of the gas mixture into the device and forms a closed loop. Using an overpressure assembly 22 (a piston device) in the circuit, a predetermined pressure is created, controlled according to the readings of the pressure gauge 15, and then the object to be tested is maintained at a given regime

parameters until a steady state is obtained by gas composition, pressure and temperature. At the same time, carbon dioxide released in the process of breathing is absorbed by the lime in the tank 14. The path heating of the gas mixture is eliminated in the coil heat exchanger 4, which is in the thermostat 2. A uniform temperature field is provided by the fan 3. When the steady state is reached, the measured parameters switch taps 25 and 26 are set to position 1 (1. Due to oxygen absorption by the object being investigated, and carbon dioxide

5 gas absorber in the tank 13, the pressure in the system drops. When the pressure deviates from the pressure gauge 15 set by the signal, the normal-open solenoid valve 21 is closed and

0, the normally closed solenoid valve 20 is opened. Due to the pressure difference, the gas contained under pressure in the tank 19 of the calibrated volume passes into the sealed chamber 1, after which the solenoid valves 20 and 21 are switched to the initial positions. Moreover, the volume of the calibrated tank 19 is chosen equal to the volume of gas required to eliminate the deficit

0 pressure, determined by the sensitivity and threshold of the regulating manometer 15.

According to the number of doses of g of oxygen introduced into the system, the amount of oxygen absorbed by the object of study is judged, and the amount of carbon dioxide released during breathing is judged by the change in pH of the alkali solution absorbing COj. The desired respiration coefficient is determined by the ratio of the amount of carbon dioxide released during the test to the amount of oxygen consumed during the test.

Claims (1)

1. USSR author's certificate No. 501712, cl. A 01 G 7/00, 21.06.74. fcfO 22