SU176366A1 - DEVICE FOR REGISTRATION OF THE CONDITION OF THE CIRCULATION OF PERIPHERAL VESSELS - Google Patents

Description

Instruments for recording the state of blood circulation in peripheral vessels, containing a pinch-sleeve sensor, compressor, pressure recorder, amplifier, and recording system, are known.

In the proposed device, in contrast to the known ones, a balancing potentiometer, an electric motor, an autotransformer, power amplifiers and controls are installed. Such a device allows the device to adjust the zero line to automatically record the state of blood circulation for a long time in the absence of the experimenter.

In order to more accurately record the nature of the pulse wave, air is injected into the pinch cuff by pulses according to a predetermined program from a semiconductor pulse generator.

FIG. 1 shows a block diagram of the described device; in fig. 2 - his electrical circuit.

The device contains a sensor / worn on an annular phalanx of the finger and strain gauge 2, which serves to convert the oscillations of the volume enclosed under the body portion sensor or air sensor into electrical oscillations. Changes in the volume of the current section under investigation occur under the action of air coming from the compressor.

3 V pinch 4. With an increase in pressure in the specified cuff containing an elastic cartridge, the latter presses the intracutaneous vessels underneath.

A compressor is a pulsed pressure pumping device that operates on a semiconductor pulse generator according to a setpoint program. In addition to creating a pressure in the pinch mapping system, the compressor gives a control pulse to turn on the output voltage snapping system to a predetermined (initial) level.

To send information on the pressure in the pinch cuff to the recording device 5.

Due to the deformation of the strain elements, a teisometric bridge unbalance signal appears in the sensor, which is amplified by an amplifier 6 containing a sinusoidal voltage generator, a narrow-band amplifier itself, and an automatic voltage-leveling system for a given level.

The device works as follows.

The compressor gradually with the set and adjustable speed feeds the cuffs with HALF. The increasing pressure of the latter squeezes the tissue of the covered area of the body and gradually compresses the vessels. The sensor, installed distal to the cuff, senses the change in the volume of this area of the body. Together with the output winding of the generator, the sensor / containing two resistances 7 and 8 forms a strain gauge bridge. Resistance 9 is a balancing potentiometer. When the bridge is unbalanced, caused by the mechanical deformation of the strain gauges, a variable voltage arises at its output, the amplitude of which is proportional to the strain value. This voltage is applied to the input of the narrowband amplifier. The latter consists of two parts, each of which is covered by a negative feedback stabilizing the gain factor and increasing amplitude linearity. The first part of the amplifier consists of three transistors 10, 11 and 12. The negative feedback circuit is a divider containing resistances 13 and 14. By varying the ratio of the resistances of the divider using the latter resistance, you can smoothly vary the gain of the first amplifier. The signal from the output of this amplifier through the separation capacitance 15 is fed to the input of the second amplifier, which is the output. It consists of a voltage amplification stage - a triode 16 and a push-pull power amplifier, which includes triodes 17 VI 18 vi output transformer 19. It is also covered by negative feedback due to the inclusion of one of the output windings in the triode emitter circuit 16. is a full-wave rectifier assembled on germanium diodes 20 and 21. The voltage from the output of the rectifier after the filter, consisting of capacitors 22 and 23 and resistance 24, goes to a recorder or other recording device. The magnitude of this voltage due to the linear operation of all parts of the amplifier is proportional to the strain gauge strain. The power part of the device is a generator assembled on triodes 25 and 26, and a transformer 27. The collector winding of the transformer with the tank 28 is tuned to a specific frequency (400 Hz. The generator provides power to the strain gauge bridge and through a rectifier on diodes 29 W. 30 - power supply to the amplifier. To stabilize the amplitude of oscillations in the generator, an automatic control mode was applied (the amplitude stability is necessary to obtain the constant sensitivity of the instrument regardless of the oscillations power supply voltage, temperature, triode aging, etc.). If the instrument is used for a long time, the initial balance of the bridge may be disturbed. This imbalance can be eliminated manually, which requires the presence of an experimenter during the whole measurement cycle. for a long time without the experimenter’s part, the device uses a system for coupling the output voltage to a given level, which operates as follows. Compressor 3 has an on / off switch 31. At the moment when there is no pressure in the pinch cuff, i.e., during the recording of the zero line, the contacts of the 31 switch are closed and the linking system to the specified level is put into operation. The system consists of a balancing potentiometer 5, mechanically connected to the electric motor 32, an autotransformer 33, a power amplifier for triodes 54 and 55, and a control amplifier for a triode 36. When the contacts are closed, the power amplifier is activated. The excitation winding of the electric motor 32 receives the voltage from the transformer 55, and the control winding from the triode collector 36. At the base of the latter, the alternating voltage passes from one of the output transformer 19 windings. rotation of the engine in the direction of balancing the bridge. The motor will rotate until the bridge is fully balanced, i.e., until the AC voltage on the output transformer of the amplifier disappears. The motor will stop and will be assigned to a given output voltage level. At the beginning of a new cycle of operation of the compressor (air entering the pinch cuff), the switching-on contacts of the anchoring system are broken, and the device starts recording. The subject matter of the invention 1. A device for recording blood circulation in peripheral vessels, consisting of a pinch cuff sensor, compressor, bar recorder, amplifier and recording system, characterized in that in order to adjust the zero line to automatically record the blood circulation status during a long period of time. time in the absence of the experimenter, the device has a balancing potentiometer, an electric motor, an autotransformer, power amplifiers and control. 2. An apparatus according to claim 1, characterized in that, in order to more accurately detect the nature of the pulse wave, air is pushed into the pinch cuff according to a predetermined program from a semiconductor pulse generator.

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