SU567450A1 - Temperature regulator for a hyperbaric chamber - Google Patents

Description

Aaf4BX 4 is the tempo of the atura, and in the jacket is the sensor 5. The hyperbaric chamber 1 is connected about the block 6 of the thermal-moisture treatment of the respiratory gas mixture.

At LIVIA, the supply of toner to the block 6 is the organ 7, and on the line of the supply of the tenon carrier to the shirt 2 is an executive organ 8. The sensor 5 is connected to the input of the regulator 9, the output of which is connected to the full body 8. The sensor 4 is connected to the regulator 10 The output of which is connected to the input of the regulator 9. & the input of sensor 3 is connected to the regulator 11, the output of which is connected to the executor (fgvvom 7. The input of the reference is adjusted 11 connected to the output of the adder 12, the RDNN input of the adder 12 is connected to the sensor 4, and two other entrances - with a backstopping DZ. ny is connected to the input of the regulator Yu

The device works as follows.

The signal from sensor 5 enters regulator 9, where it is compared with the reference from regulator 1O. In regulation, but 9 was penetrated by the integrated differential (PS) 4, a regulating influence is formed, and with the help of the executive body 8, the consumption of head carrier in the head 2 is changed. The task 9 to the regulator 9 is formed in E10 by LDPE depending on from the difference between the signals coming to the controller 1O from the sensor 4 and the sensor 13. The signal from the sensor 3 goes to the controller 11 where it is compared with the signal from the adder 12, In the controller. 11, according to the PSH law, forms a regular impact and, with the help of an auxiliary qjraHa 7, the flow rate of the heat carrier in block 6 is changed. The task to the controller 11 is formed in summat 12 as a result of the algebraic addition of three signals in it, coming from sensor 4, and two signals - from setting device 13,

i.e., at the output of the adder 12, a signal is generated equal to twice the value of the given value of the atura rate in the chamber minus the current one.

 the invention

Temperature control device in the hyperbaric chamber, containing the sensor, sensor and temperature controller of the respiratory gas mixture in the chamber connected to the sensor and unit, temperature control unit in the chamber of the chamber, made in the form of a sensor and regulator connected to the actuator, unit thermoformation of the respiratory gas mixture with an executive body installed on the coolant supply line into it, which is characterized by the fact that, in order to accomplish objective medical-physical According to animal research by stabilizing the temperature of the respiratory gas mixture in the chamber, it has a series-connected sensor and temperature regulator of the respiratory gas mixture at the inlet to the chyrera, which is connected to the outlet body of the respiratory gas mixture by the outlet, and the second inlet to the output of the additional unit an adder, the inputs of which are connected to the sensor and the setpoint of the temperature of the respiratory gas mixture in the chamber, while the output of the temperature regulator is respiratory gas mixture in the chamber connected to the second input of the temperature controller of the torus in the chamber jacket. Sources of information received during the examination:

1. Halamaizer M. B. Automatic installations of artificial climate, M., 1969. p. 206-2О8 ..

Heat carrier

and, crkudli and DGS

Body carrier