SU526349A1 - Reograf - Google Patents

Description

(54) REOGRAPH

The invention relates to medical technology, in particular to devices for studying the functional diagnosis of the cardiovascular system.

The known reograf containing an alternating current generator, a balanced bridge, a phase detector, an amplifier, a recording instrument, and a balance indicator.

However, the known device does not provide the necessary measurement accuracy.

The purpose of the invention is to improve the measurement accuracy by automatically compensating the active component of the impedance when balancing an instrument.

This is achieved by the fact that in the rheograph there is a feedback circuit including a differential amplifier and an optocoupler, the inputs of the differential amplifier being connected to the outputs of the phase detector, and the output with a balance indicator, a recording device and an optocoupler LED, the resistor of which is switched parallel to the balancing switch through the switch shoulder balanced bridge.

The drawing shows a block diagram of the reograf with the unfolded diagram of a balanced bridge.

The rheograph contains an alternating current generator 1, a balanced bridge 2, a phase detector 3, a feedback circuit including a differential amplifier 4 and an opto-switch 5,

the inputs of the differential amplifier 4 are connected to the outputs of the phase detector 3, and the output is connected to a balance indicator 6, a registering device 7 and an LED 8 of an optocoupler 5, whose resistor 9 is connected through a switch 10 parallel to the balancing arm 11 of the balanced bridge 2.

The device works as follows.

The bridge 2 is balanced by a potentiometer 12 and a variable capacitor 13, the switch 10 being connected to the resistor 14. The imbalance signal is removed from the resistor 15 and amplified by an amplifier (not shown) with the phase detector 3, which is supplied with a reference voltage from the generator one.

Phase detector 3 generates a signal proportional to the magnitude of the unbalance of the bridge and the phase shift relative to the ononic voltage.

The signal is further amplified by the differential amplifier 4 and supplied to the balance indicator 6, the recording device and the LED 8 of the optocoupler 5.

When the maximum balance is reached in the manual balancing mode and it is impossible to achieve a more accurate balance due to the patient's respiratory and muscle movements, an auto-tuning is performed. In this case, the transponder 10 connects the resistor 9 of the optocoupler 5. The optocoupler 5 is connected to the feedback circuit so that when the bridge is unbalanced, caused by an increase (or decrease) in the patient's impedance component, the current passing through the LED 8 changes causes an increase (or decrease) in the resistance of the resistor 9. The use of an optocoupler favorably distinguishes the proposed rheograph from the prototype, as it simplifies the setup of the device and eliminates measurement errors of the components of the impedance of living tissue caused by respiratory and muscular movements of the test. As a result, the dynamics of the blood flow, namely the stroke and minute volume of blood, can be more accurately determined from the eographical curves.

Claims (1)

The invention The Rheograph contains an alternator, a balanced bridge, a phase detector, an amplifier, a balance indicator, and a recording device, characterized in that, in order to improve measurement accuracy by automatically compensating for the active impedance component when balancing the device, connection, including a differential amplifier and an optocoupler, and the inputs of the differential amplifier are connected to the outputs of the phase detector, and the output with a balance indicator, a recording device and an optocoupler LED whose resistor is connected via a switch parallel to the balancing arm of the balanced bridge.