SU908316A1 - Device for measuring arterial blood pressure - Google Patents

Description

(54) DEVICE FOR MEASURING THE ARTERIAL

I

The invention relates to medical technology, namely, blood pressure measurement devices by an indirect method.

A device for measuring blood pressure of blood is known, which contains a cuff, a source of increased pressure, a pressure regulator on a cuff, a Korotkov tone sensor, an amplifier, a Korotkov tone analyzer, a cuff pressure gauge and regulator, a systolic pressure indicator, a diastolic pressure indicator, a transistor, a capacitor , voltage comparison circuit, pneumatic valve, pulse signal sensor, calibrated pulse shaper, calibrated pulse averager l.

However, the known device requires a preliminary determination of the oscillation of the patient's pulse and setting, depending on it, the level of the reference voltage manually, which is BLOOD PRESSURE

reduces accuracy and increases measurement error.

Closest to the present invention is a device for measuring arterial blood pressure, which contains a cuff, a cuff pressure blower with a speed regulator of pressure changes and an indicator, a pressure sensor mounted in the cuff and the first and second differential circuits, the first input of which is connected to the output pressure sensor z.

However, this device is due to

15 The influence of pulse tones on the selection of Korotkov’s tones has a high error. this reduces the accuracy of blood pressure measurement.

The purpose of the invention is to increase the point

Claims (2)

20 measurement by eliminating the error of pressure measurement due to the influence of pulse tones in the allocation of Korotkov tones. This goal is achieved in that a blood pressure device for measuring blood containing a cuff, a cuff pressure pump with a variable pressure rate regulator and an indicator, a pressure sensor and first and second differentiating circuits mounted in the cuff, the first of which is connected to to the output of the pressure sensor, a series-connected pulse selector of positive polarity, the input of which is connected to the output of the second differentiating circuit, is introduced, a threshold device with a pulse shaper, advanced Pulse emitter, signaling device and emitter follower with a second usi, differentiating circuits. In this case, the alarm device contains an audio frequency generator connected to the output of the pulse expander with an acoustic transformTeTieM and a light indicator. At the same time, the indicator contains a high and low blood pressure indicator, the input of which is connected to a pressure indicator through an analog-to-digital converter. The drawing shows a structural diagram of the proposed device. The device comprises a cuff 1, a blower 2 of pressure in the cuff 1 with a regulator 3 of the rate of change of pressure and an indicator, a pressure sensor 5 mounted in the cuff 1, the first and second differentiating circuits 6 and 7; the input of the first of which is connected to the output of the pressure sensor 5, connected in series by the selector 8 pulses of positive polarity, the input of which is connected to the output of the second differentiating circuit 7, the threshold device 9 with the pulse generator (not shown), the expander 10 pulses, the alarm device, which is connected with the output of the expander 10 pulses an audio frequency generator 11 with an acoustic sound transducer 12, a light indicator 13 a digital indicator 1 of the upper and lower blood pressure, the input of which is The indicator is connected to indicator A with an analogue-to-digital converter 15, an emitter repeater | 16 with an amplifier (not shown) connected between the first and second differentiating circuits 6 and 7, and the device is equipped with a pneumatic switch 17 connected to the supercharger 2 of pressure, a signaling device 18 bit yes battery power source 19. The device works as follows. The cuff 1 is put on the shoulder of the patient, while the pressure sensor 5 mounted in the cuff 1 is placed strictly on the artery. The supercharger 2 creates pressure in the cuff 1, when the pressure reaches 60-80 mm Hg, st. pneumocouple 17 automatically connects power supply 13 to the device, and pressurizer 2 increases pressure in cuff 1 above systolic pressure in arteries. The signal from the pressure sensor 5 is fed to the first differential circuit 6 with a constant time having a strictly specified value, at the output of which the signal during the pulse oscillation will be attenuated by about 10 dB relative to the oscillations of the Korotkov tones the differentiating circuit 6, the signal through the emitter follower 16 with an amplifier enters the second differentiating circuit 7, the time constant of which is similar to the time constant of the first differentiating circuit 6, and at the output of the differentiating center The pulse 7 pulse oscillations will be attenuated by another 10 dB relative to the oscillations of the Korotkov tones. The signal from the output of the differentiating circuit 7 through the selector 8 pulses of positive polarity is fed to the input of the threshold device 9 whose reference voltage is set higher than the maximum pulse oscillation value, and the threshold device 9 also performs the functions of a Korotkov tone generator that generates signals from the output of the threshold device 9 per beat of the Korotkov tones are sent to the expander of 10 pulses, from the output of which the signals are sent to the Korotkov tone detector, To the indicator light 13 and through the audio frequency generator P to the acoustic sound converter 12. If it is necessary to obtain upper and lower pressure values in digital form, the signal from the output of pressure indicator k is fed through analog-to-digital converter 15 to digital indicator 1. Cuff 1 pressure is reduced using the regulator 3 at a speed of 2–3 mm Hg per second, while pulse oscillations are observed at the input of the pressure sensor 5, which are present until the pressure of Korotkoff sounds, When the pressure in the cuffs is reached E t, equal to the pressure in the artery, oscillations of Korotkoff sounds appear, while balancing the pressure in the cuff Gu in the arteries, oscillations of Korotkoff sounds disappear, and again. The magnitude of the oscillation of the tones of the Korotoka in different patients has different values and can differ several times, while the initial values are commensurate with the oscillation of the pulse, and in comparison with the oscillation of the pulse of another patient has the equal and even smaller values, but the rise front of the Ston oscillation Korotkov tones are steeper than the rising edge of the r; n, e4, .a pulse oscillations and in Ttoio's various patients - 0.02-0.01 s, i.e. relationship Therefore, to ensure that the results of measuring blood pressure in the device are adequate, the frequency characteristics of the oscillations of the pulse and Korotkov tones are used, based on the transfer coefficient module K of the differentiating circuits 6 and 7, in which the transmission coefficient K is determined by the formula K, where the input voltage at the input of differentiating circuits 6 and 7, and IJgyn the magnitude of the output voltage of the same circuits. Thus, the gain of the device in the range of the rising edge of the oscillation of Korotkov tones is not less than 20 dB more than the gain of the rising edge of the oscillation of the pulse. The time constants of the differentiating circuits 6 and 7 are chosen in accordance with the frequency spectrum of Korotkov tones. When the pressure is reduced to 30–20 mm Hg. The pneumatic actuator 17 automatically shuts off the power supply 19 from the device. When battery power source 19 is discharged below a predetermined rate, the light indicator 18 is turned on. Systolic blood pressure (the upper value is determined by the indication of the indicator k or the digital indicator 1 (when the first sound and light signals of the device are detected. Distinctive blood pressure (lower value ) is also determined by the indication of the indicator C or the digital indicator k when the sound and light signals of the device are discontinued. The proposed device can improve the accuracy measuring blood pressure by eliminating the influence of the pulse on the extraction of Korotkoff tones and has a simple circuit solution, which increases its reliability and reduces the cost of the device, simple and convenient to use, claims 1. A device for measuring blood pressure, containing a cuff, cuff pressure supercharger with variable speed and variable pressure controller and indicator, pressure sensor installed in the cartridge and the first and second differential (the first input of which is connected to A pressure sensor, characterized in that, in order to improve measurement accuracy by eliminating pressure measurement errors due to the influence of pulse tones when allocating Korotkov tones, successively are entered into it: the positive selector pulses of the positive polarity are inputted to circuits, a threshold device with a pulse former, a pulse expander, a signaling device and an emitter follower with an amplifier connected between the first and second differentiating circuits. 2. The device according to claim 1, characterized in that the signaling device contains connected to the output of the pulse expander an audio frequency generator with an acoustic sound converter and a light indicator. 3. The device according to claims 1 and 2, characterized in that the signaling device contains a digital indicator of upper and lower blood pressure, the input of which is connected to the display 79083168 pressure kagora through analog-digital-1, USSR author's certificate Howl converter „Cl. A 61 B 5/02, 197. Sources of information, Vf, cl. A 61 B 5/02, 1975 taken into account in examination 5 (prototype) i 2. USSR author's certificate L / ft f3