RU169010U1 - DEVICE FOR MEASURING ARTERIAL PRESSURE UNDER CONDITIONS OF HUMAN MOTOR ACTIVITY - Google Patents

Abstract

The utility model relates to medical equipment and can be used for daily monitoring of blood pressure in a person with free motor activity. The device contains measuring and compensating pulse wave sensors. The measuring sensor is located under the pneumocuff at the passage of the brachial artery. The compensation sensor is identical to the measuring sensor and is located symmetrically on the diametrically opposite side of the arm. The outputs of the measuring and compensation pulse wave sensors are connected to the respective amplifiers, the amplification coefficients of which are selected from the condition of ensuring the equality of the amplitude of the output signals from the amplifiers with the same physical effect on both sensors. The outputs of the amplifiers are connected to a subtractor, the output of which is connected to the input of the bandpass filter. The device provides temporary compensation for spurious signals arising due to the displacement of the sensors, for this the output of the compensation sensor is connected through an in-line bandpass filter to the inverting input of the first comparator, and the output of the pressure meter to the inverting input of the second comparator, and the non-inverting inputs of the first and second comparators are fed negative threshold voltage, the outputs of the comparators through series-connected standby multivibrators are connected to the inputs of the logical electronic ment 2I whose output is connected to the signal generating apparatus of informing Inappropriate displacement sensors and via an inverter to the input of the multiplier, allowing passage of beneficial and prohibiting passage

Description

The utility model relates to medical equipment and can be used for daily monitoring of blood pressure in a person with free motor activity.

A device for measuring blood pressure in conditions of motor activity of a person is known (Patent RU No. 2432897 C1 IPC A61B 5/022, bull. No. 31 dated 10.11.2011), including a pulse wave measuring sensor located under the pneumocuff, in the place of passage of the brachial artery, and a pulse wave compensation sensor, identical to a pulse wave measurement sensor, located symmetrically on the diametrically opposite side of the hand, while the outputs of the pulse wave measurement and compensation sensors are connected to the corresponding vuyuschim amplifiers, gain coefficients which are chosen from the condition of equality of the amplitudes of the output signals from the amplifiers at the same physical impact on the measuring sensors and a compensation pulse wave, wherein the amplifier outputs are connected to a subtractor whose output is connected to the bandpass filter.

The disadvantage of this device is a violation of its performance when the sensors are displaced from the installation point.

The closest in technical essence to the proposed utility model is a device for measuring blood pressure in conditions of human motor activity (Patent RU No. 2534416 C2 IPC A61B 5/0225, bull. No. 33 of 11/27/2014), including a pulse wave measuring sensor located under the pneumatic cuff in the place of passage of the brachial artery, as well as a pulse wave compensation sensor, identical to the pulse wave measuring sensor, located symmetrically on the diametrically opposite side of the arm, while the meter outputs The pulse and compensation pulse wave sensors are connected to the corresponding amplifiers, the amplification coefficients of which are selected to ensure that the amplitudes of the output signals from the amplifiers are equal under the same physical effect on the measuring and compensation pulse wave sensors, while the outputs of the amplifiers are connected to a subtractor, the output of which is connected to a bandpass filter which is the output of the pressure meter, equipped with a second band-pass filter, the first and second comparators, the first and second sources negative threshold voltage, the first and second waiting multivibrators, logic element 2I, a device for generating an informative signal about an unacceptable sensor bias, while the output of the amplifier to which the compensation sensor is connected is connected through the second bandpass filter in series to the inverting input of the first comparator, the output of the meter pressure is connected to the inverting input of the second comparator, to the non-inverting inputs of the first and second comparators are connected, respectively the first and second sources of negative threshold voltage, the outputs of the comparators through series-connected waiting multivibrators are connected to the inputs of the logic element 2I, the output of which is connected to a device for generating an informative signal about an unacceptable sensor bias.

The disadvantage of this device is a violation of its performance when the sensors are displaced from the installation point.

The technical result of the utility model is the elimination of false alarms and the occurrence of blood pressure measurement errors in cases of unacceptable displacement of sensors from the installation point due to the introduction of temporary compensation of spurious signals.

The technical result is achieved by the fact that in the device for measuring blood pressure under conditions of motor activity of a person, including a pulse wave measuring sensor located under the pneumatic cuff at the location of the brachial artery, as well as a pulse wave compensation sensor, identical to the pulse wave measuring sensor, located symmetrically on the diametrical the opposite side of the hand, while the outputs of the measuring and compensation pulse wave sensors are connected to the corresponding to amplifiers whose amplitudes are selected from the condition that the amplitudes of the output signals from the amplifiers are equal for the same physical effect on the measuring and compensation pulse wave sensors, while the outputs of the amplifiers are connected to a subtractor, the output of which is connected to a band-pass filter, in addition, equipped with a second band-pass filter, the first and second comparators, the first and second sources of negative threshold voltage, the first and second waiting multivibrators, logic element 2I, the formation of an informative signal about an unacceptable displacement of the sensors, while the output of the amplifier to which the compensation sensor is connected is connected through a second-pass filter in series to the inverting input of the first comparator, the output of the pressure meter is connected to the inverting input of the second comparator, to the non-inverting inputs of the first and second comparators respectively connected the first and second sources of negative threshold voltage, the outputs of the comparators through sequentially on These waiting multivibrators are connected to the inputs of the 2I logic element, the output of which is connected to the device for generating an informative signal about an unacceptable sensor bias, in addition to the output of the first bandpass filter, a delay line and a multiplier are connected in series, the output of which is connected to the output of device a, and the second input of the multiplier through the inverter with the output of the logic element 2I.

In FIG. 1 shows a structural diagram of the proposed device.

The device contains a measuring pulse wave sensor 1, the output of which is connected to the amplifier 3, a compensation pulse wave sensor 2, the output of which is connected to the amplifier 4. The output of the amplifier 3 is connected to the positive input of the subtractor 5, and the output of the amplifier 4 is connected to the negative input of the subtractor 5 and the input of the bandpass filter 11. The output of the subtractor 5 is connected to the input of the bandpass filter 6 and the input of the delay line 16. The inverting input of the comparator 7 is connected to the output of the bandpass filter 6, a negative is applied to the non-inverting input of the comparator threshold voltage 9. The inverting input of the comparator 8 is connected to the output of the bandpass filter 11, a negative threshold voltage 10 is applied to the non-inverting input of the comparator 10. The outputs of the comparators 7, 8, respectively, through the series-connected waiting multivibrators 12, 13 are connected to the inputs of the logic element 2I, the output of which is connected with the input of the device generating the informing signal about the unacceptable bias of the sensors 15 and with the input of the inverter 18, the output of the inverter is connected to the second input of the multiplier 17, to the second the input of which is connected to the output of the delay line 16. The output of the device is the output of the multiplier 17.

A device for measuring blood pressure in conditions of motor activity of a person works as follows.

The measuring pulse wave sensor is located under the compression pneumatic cuff near its lower edge near the artery. The pulse wave compensation sensor must be placed symmetrically on the diametrically opposite side of the arm at the same distance from the lower edge of the compression pneumatic cuff as the pulse wave measurement sensor (see Fig. 2) to ensure simultaneous interference to the pulse and measurement and compensation wave sensors.

In the subtractor 5 subtracts the amplified signals is carried out with the measuring sensor and the compensation pulse wave U _O = U _{vyh.i vyh.k} -U wherein U _O - the output signal from the subtracter, U _vyh.i - measuring an output signal from the sensor amplifier, U _{O .k} - the output signal from the amplifier of the compensation sensor. After that, the signal is filtered, on a band-pass filter 6, with a passband corresponding to the useful signal.

The amplification factors of the amplifiers are selected in such a way as to ensure the same amplitude of the output signals U _o.i and U _o.s. from the outputs of the respective amplifiers.

In FIG. 3 shows the amplified signals U _output , U _output and from the compensation and measuring pulse wave sensors, respectively, as well as the result of subtracting U _output when the compensation and measuring pulse wave sensors are correctly located [1].

In this case, the waveform of the pulse wave consists of:

- interference 1 caused by human motor activity;

- echo of pulse wave 2 (secondary oscillation) in the pneumatic cuff from the passage of the pulse wave;

- useful signal 3 from the passage of the pulse wave;

- permissible interference level 4, which corresponds to the response threshold of the selection block (see GOST 28703-90 “Automatic and semi-automatic devices for indirect measurement of blood pressure”).

An analysis of the results shows:

- the amplitude of the interference 1 from motor activity and the echo of the pulse wave 2 on the graph of U _{output and} exceed the allowable level 4, therefore, the amplified output signal from the measuring pulse wave sensor U _output and cannot be considered reliable due to the addition of useful 3 and spurious signals 12;

- the amplitude of spurious signals 1, 2 after subtraction is significantly reduced (-10-15 dB) and is in tolerance (less than the permissible interference level 4).

In this case, the amplitude of the output interfering negative signal is less than the level of the negative threshold voltage at the input of the comparator 7, therefore, its output will have a low voltage level, the waiting multivibrator 12 will not start accordingly, therefore, the output of logic element 2I will have a low voltage level, which locks the device for generating the information signal about unacceptable displacement of the sensors.

In case of improper installation of sensors or their inappropriate location or displacement, violating the symmetry of the sensors, a warning signal is issued. This is explained by the following.

In [1], the option of shifting the compensation pulse wave sensor relative to the edge of the pneumatic cuff up is considered. In FIG. 4 shows the amplified signals U _output , U _output, and from the compensation and measuring pulse wave sensors, respectively, as well as the result of their subtraction of U _output .

The shift of the pulse wave compensation sensor relative to the edge of the pneumatic cuff up leads to a mismatch of the phases of the interference 1 caused by the patient's motor activity on the graphs of U _out and U _out . As a result, when subtracting the signals, the amplitude of the interference 1 on the U _output graph not only does not decrease, but also increases and exceeds not only the allowable noise level 4, but also the amplitude of the useful signal 3, which leads to false alarms and the occurrence of an error in measuring blood pressure.

Analysis of this waveform [1] shows that for successful interference compensation, the pulse wave compensation sensor must be placed symmetrically on the diametrically opposite side of the arm, at the same distance from the lower edge of the compression pneumatic cuff as the pulse wave measurement sensor.

In this case, according to the oscillogram [1], spurious signals 1 appear, therefore, spurious negative pulses are emitted at the outputs of the bandpass filters 6, 11, the amplitude of which will be greater than the level of negative threshold voltages 9, 10, as a result, rectangular negative pulses will appear at the outputs of the comparators 7, 8 , which will start the waiting multivibrators 12, 13, the output positive pulses of which will go to the inputs of the logic element 2I. The durations of the output pulses of the waiting multivibrators 12, 13 are set equal to the duration of the spurious signals 1 plus the maximum mismatch time of the start time of the waiting multivibrators 12, 13 due to the temporary shift of the spurious signals 1. Therefore, at the moment of coincidence of the pulses of the waiting multivibrators 12, 13, the output of logic element 2I appears rectangular positive impulse, which will start the device for generating an informative signal about unacceptable displacement of sensors, and will also be used for temporary compensation ation spurious signals.

The signal from the output of the bandpass filter 6 is delayed by the maximum mismatch time of the start time of the waiting multivibrators 12, 13 and is multiplied in the multiplier 17 by the inverted signal from the output of the logic element 2I. Since the inverted signal from the inverter output will be 0 during the operation of spurious signals, they will be suppressed, and the useful signal multiplied by 1 will remain unchanged.

Thus, in contrast to the prototype, the proposed device eliminates false alarms and errors in measuring blood pressure when the sensors are not allowed to move from the installation point.

Literature

1. A device for measuring blood pressure in conditions of motor activity of a person: Patent RU No. 2432897 C1 IPC A61B 5/022 / Tikhonenkov Vladimir Andreevich (RU), Vinokurov Lev Nikolaevich (RU): - decl. 04/20/2010; publ. 11/10/2011, bull. No. 31.

Claims (1)

A device for measuring blood pressure under conditions of human motor activity, including a pulse wave measuring sensor located under the pneumocuff at the location of the brachial artery, as well as a pulse wave compensation sensor, identical to the pulse wave measuring sensor, located symmetrically on the diametrically opposite side of the arm, the outputs of the measuring and compensation pulse wave sensors are connected to the corresponding amplifiers, the amplification factors of which selected from the condition of ensuring equal amplitudes of the output signals from the amplifiers with the same physical effect on the measuring and compensation pulse wave sensors, while the outputs of the amplifiers are connected to a subtractor, the output of which is connected to a bandpass filter, equipped with a second bandpass filter, the first and second comparators, the first and second sources of negative threshold voltage, the first and second waiting multivibrators, logic element 2I, a device for generating an informative signal about allowable displacement of the sensors, while the output of the amplifier to which the compensation sensor is connected through a series-connected second bandpass filter is connected to the inverting input of the first comparator, the output of the pressure meter is connected to the inverting input of the second comparator, the first and second are connected respectively to the non-inverting inputs of the first and second comparators sources of negative threshold voltage, the outputs of the comparators through series-connected standby multivibrators are connected to the inputs of a logical element 2I, the output of which is connected to a device for generating an informative signal about an unacceptable displacement of sensors, characterized in that a delay line and a multiplier are connected to the output of the first bandpass filter, the output of which is connected to the output of the device, while the second input of the multiplier is connected through the inverter to the output logical element 2I.

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