SU940743A1 - Apparatus for registering temperature of expired air - Google Patents

Description

The invention relates to medical equipment, namely to pulmonological diagnostic devices, and can be used to record the dynamics of warming of respiratory air under 5 different disturbing influences, for example, with functional stress tests (step, orthostatic, bicycle ergometry, etc.).

A device for recording 10 temperature of exhaled air is known, which comprises a recorder and a restriction chamber connected in series with a temperature sensor, an amplifier and an averaging unit [1]. fifteen

However, the known device does not allow to directly record the degree of change in the temperature of the respiratory air during disturbing influences, and therefore these data are calculated subsequently manually, which increases the likelihood of errors, increases the complexity and makes it difficult to carry out functional load pneumothermetry.

The aim of the invention is to increase accuracy, reduce the complexity of pneumotermometric studies and expand the capabilities of functional stress tests. ^thirty

This goal is achieved by the fact that in the device for recording the temperature of the exhaled air, containing a recorder and connected in series with the restrictive chamber to the temperature sensor, the first amplifier, the averaging unit, the electronic key is connected in series, the input of which is connected to the output of the averaging unit, a memory element, differential an amplifier, the second input of which is connected to the output of the averaging unit, a zero level comparator, and a counter, the first input of which is through the shaper ene with output of the first amplifier and the output of the counter is connected to the control input of the electronic key. The output of the differential amplifier is connected in parallel to the input of the recorder.

The drawing shows a structural diagram of a device for recording the temperature of exhaled air ..

The device comprises a restriction chamber with a temperature sensor 1, a measuring amplifier 2, the output of which is connected to the averaging unit 3 and the pulse shaper 4, the output of which is connected to one of the inputs of the pulse counter 5. The output of the pulse counter is connected to the control input of the electronic key 6, the output of which is connected to the memory element 7 connected to one of the inputs of the differential amplifier 8. The output of the averaging unit 3 is connected to the input of the key 6, the output of which is connected to the memory element 7, which is connected to one of the inputs of the amplifier 8. The output unit 3 is connected to the input of the key 6 and the second input of the amplifier 8, whose output is connected to the registrar 9 and ¹⁰ house vho- zero level comparator 10, whose output is connected to the second input of the counter 5 momenta hs.

The device operates as follows. fifteen

After ten respiratory cycles. At the output of the averaging unit 3, a voltage is established proportional to the average temperature of the exhaled air, which through the key 6 enters the memory element 7. The air temperature at each exhalation is converted using the temperature sensor 1 located in the restriction chamber and the measuring amplifier 2 into voltage pulses that pass through the former 4 and enter the pulse counter 5. The tenth pulse resets the counter and closes the key 6. Subsequent breathing cycles are carried out under disturbing influences (functional load tests) and pulses, the magnitude of which is proportional to the temperature of the exhaled air, from the output of the averaging unit 3 are fed to the second input of amplifier 8, to the first input which receives voltage from the memory element 7. Thus, the amplifier 8 compares the voltage proportional to the temperature of the exhaled air at the functional load (disturbing influences) with its temperature in the initial state, which is recorded by the recorder 9. When the potential appears at the output of the amplifier 8, the comparator 10 gives a pulse to the second input of the counter 5, which, returning to the zero cycle, closes the key 6, and the measurement process is repeated ..

Thus, the device provides improved accuracy, reduced labor intensity of pneumothermetric studies and expanded capabilities in functional load tests.

Claims (1)

key 6, the output of which is connected to the memory element 7 connected to one of the inputs of the differential amplifier 8. The output of the averaging unit 3 is connected to the input of the key 6, the output of which is connected to the memory element 7 that is connected to one of the inputs of the amplifier 8. The output of the unit 3 is connected to the input of the key 6 and the second input of the amplifier 8, the output of which is connected to the recorder 9 and the input of the comparator 10 zero level, the output of which is connected to the second input of the counter 5 pulses. The device works as follows. After ten breathing cycles, a voltage proportional to the average temperature of exhaled air is set at the output of the averaging unit 3, which through the key 6 enters the memory element 7. The air temperature during each expiration is converted by a temperature sensor 1 located in the limiting chamber and a measuring amplifier 2 into voltage pulses that pass the imaging unit 4 and enter the counter of 5 imguls. The tenth pulse counter1K is reset to the initial state and closes key 6. Subsequent respiratory cycles are carried out with disturbing influences (function-load samples) and pulses, the magnitude of which is proportional to the temperature of exhaled air, from the output of averaging unit 3 are fed to the second input of the amplifier 8, at the first input of which the voltage comes from the element 7pam. Thus, amplifier 8 compares the voltage proportional to the temperature of exhaled air under functional load (disturbing effects) with its temperature in the initial state, which is recorded by the recorder 9. When zero potential appears at the output of amplifier 8, the comparator 10 emits a pulse to the second input of the counter 5, which, returning to the zero cycle, closes the key 6, and the measurement process repeats .. Thus, the device provides increased accuracy, reducing the labor intensity of the pneumothermometric research and capacity building with functional and stress testing. Apparatus of the Invention A device for recording the temperature of exhaled air, comprising a recorder and a limiting chamber connected in series with a temperature sensor, a first amplifier, averaging unit, characterized in that, in order to increase accuracy, reduce the labor intensity of pneumothermometric investigations and extend capabilities during functional load tests , a serially connected electronic key is entered into it, the input of which is connected to the output of the averaging unit, a memory element, a differential A second amplifier, the second input of which is connected to the output of the averaging unit, a zero level comparator and a counter, the first input of which through the driver is connected to the output of the first amplifier, and the output of the counter is connected to the control input of the electronic switch, and the output of the differential amplifier is connected in parallel to the input the registrar. The source of information taken into account in the examination: 1. USSR Author's Certificate DSO 542511, A 61 B 10/00, 1975 (prototype).