RU2359609C1 - Tonometre - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment and can be used for control and diagnostics of person state for medical or sport purposes or in order to warn about physical or emotional overload of person organism in free conditions of their vital activity. Tonometre contains sensors of heart beat and person body temperature, pulse generator, constant potential source, masters, threshold element, pulse formers, ring shift registers, delay and comparison elements, pulse counters, AND and OR elements, arithmetic unit, inverter, analogue-digit and digit-analogue converter, pulse formers, triggers, register of control result memory, control result indicator, indicator of controlled parametre escape beyond tolerance extent.

EFFECT: ensuring possibility of long registration of curves of person body temperature changes, heart beat frequency and heart arrhythmia, blood pressure, and in real time, insuring warning about cardiac abnormalities and output of representative reliable information about body temperature, person cardiac activity and their psychological and/or physiological state.

6 dwg

Description

The invention, a tonometer, relates to medical equipment and sports and can be used to monitor and diagnose a person’s condition for medical or sports purposes or to warn a person about physical or emotional overload of his body in arbitrary conditions of life.

The well-known "Method of measuring blood pressure and a device for its implementation" [1], in which the method of measuring blood pressure consists in creating an external compensating pressure on the artery and in generating a signal of pulse volumetric oscillations of the artery to control the value of the external compensating pressure, while the mismatch signals of the measured arterial and compensating external pressure are balanced by a constant signal with periodic adjustment of the balancing signal, and arterial e pressure is determined by the external compensating pressure. A device for measuring blood pressure contains a recording unit, a inverse transducer, a heart rate sensor with a measuring circuit, an amplifier, an adder connected to an amplifier connected through a inverse transducer to a heart pulse sensor, a correction time set-up dial, and a sampling and storage device, the input of which connected to the output of the amplifier and the input of the recording unit, and the output to the second input of the adder. (Italics - features in common with the subject invention).

The disadvantages of the known device (tonometer) are the lack of information on the frequency of contractions of the heart and its arrhythmias, as well as a signal about the output of the controlled parameter beyond the permissible limits.

It is known "Device for measuring blood pressure" (tonometer) [2], containing a heart rate sensor, a reverse transducer, including a magnetic circuit, a permanent magnet (solenoid core), a solenoid coil, a membrane, a rod, mechanically rigidly connected to the membrane and the coil, with installed on the rod with a heart rate sensor, an emphasis and a recording unit, as well as a clock pulse generator, a first AND element connected by a first input to an output of a pulse generator, a pulse counter connected by a counting input to an output of the first electronic ment And, the second element And, connected by the first input to the output of the heart rate sensor, the first trigger connected by a single input to the output of the heart rate sensor, and by a single output to the second input of the second element And, the second trigger connected by a single input to the output of the second element And, and a zero output - with the second input of the first element And, the first pulse shaper connected by the input to the unit output of the first trigger, the second pulse shaper connected by the input with the unit output of the second trigger, digital-to-analog an output converter connected bitwise with the outputs of the pulse counter, and the output with the input of the inverse converter, the first group of AND elements connected by the first inputs bitwise with the outputs of the pulse counter, second inputs with the output of the first pulse shaper, and bitwise outputs with the first group of information the inputs of the registration unit, the second group of AND elements connected by the first inputs to the outputs of the pulse counter, the second inputs - with the output of the second pulse shaper, and the outputs - with the second group of information inputs of the registration unit, the first delay element connected by the input to the output of the second pulse shaper, and the output with the zeroing inputs of the pulse counter and the first and second triggers, and the second delay element connected by the input to the output of the first delay element, and the output - with the input of zeroing the registration unit, and the heart rate sensor is made on a piezoelectric transducer (piezoelectric element), and the registration unit includes the first and second memory registers connected by information (setting inputs) bitwise, through the first and second groups of information inputs of the registration unit with the outputs of the first and second groups of AND elements, respectively, and zeroing inputs, through the zeroing input of the registration unit, with the output of the second delay element, and the first and second indicators connected by inputs to the bitwise outputs of the same memory registers. (Italics - features in common with the subject invention).

The disadvantages of the known device (tonometer) are the lack of information on the frequency of contractions of the heart and its arrhythmias, as well as a signal about the output of the controlled parameter beyond the permissible limits.

It is known "Device for express control of arrhythmias of the human heart" [3], containing a clock pulse generator, a constant potential source, a heart rate sensor, a constant potential generator connected to the output of the constant potential source, a threshold element connected to the output of the pulse sensor by an information input heart, and the input of the input of the threshold with the output of the constant potential generator, the first pulse shaper, the ring shift register connected to the shift input through the first form a pulse pulse with an output of a threshold element, second and third pulse shapers connected by inputs to the third and fourth outputs of the shift register, respectively, first and second elements And connected by first inputs to the output of the pulse generator, and second inputs - with the first and second outputs of the shift register, respectively , the first and second delay elements connected by inputs to the outputs of the second and third pulse shapers, respectively, the first and second pulse counters connected by counting inputs, respectively but with the outputs of the first and second elements And, and the inputs of zeroing - with the output of the second delay element, the first comparison element connected bitwise by the first and second inputs to the outputs of the first and second pulse counters, the first and second groups of elements I connected by the first inputs bitwise with the outputs of the first and second pulse counters, respectively, and the second inputs with the first output of the first element of comparison, the third and fourth groups of elements And connected by the first inputs bitwise with the outputs of the first of the second and second pulse counters, respectively, and the second inputs with the third output of the first comparison element, the arithmetic unit connected by the control input to the output of the first delay element, the fifth group of AND elements connected by the first inputs to the output of the third pulse shaper, and the second inputs - bitwise arithmetic block outputs, the third AND element connected by the first input to the output of the third pulse shaper, and the second input with the second output of the first comparison element, and the memory register tata, connected to the zeroing input with the output of the second pulse former, the first information inputs - bitwise with the outputs of the fifth group of AND elements, and the second information inputs - with the output of the third AND element, the first group of OR elements connected bitwise with the first and second inputs with outputs of the second and third groups of AND elements, and outputs - with the first information inputs of an arithmetic block, the second group of OR elements connected bitwise by the first and second inputs with outputs of the first and fourth groups of elements comrade And, and outputs - with the second information inputs of the arithmetic unit, the regulator of the permissible arrhythmia level, the second comparison element connected bitwise by the first and second inputs to the first output of the result memory register and the outputs of the regulator of the permissible arrhythmia level, respectively, the OR element and the fourth element And connected by inputs to the first output of the second comparison element and the OR element, the fifth group of AND elements supplemented by two AND elements, the first inputs of which are connected to the first input of the group, the second inputs dy - with the first and third outputs of the first comparison element, the result memory register is supplemented by three triggers, the zeroing inputs of which are connected to the register zeroing input, and the information inputs - with the outputs of the AND elements additionally installed in the first group of outputs, the outputs of the main group of triggers of the result memory register form it the first outputs are connected to the first outputs of the device, the outputs of the additionally entered triggers of the memory register form its second outputs and are connected to the inputs of the OR element and to the second output of the apparatus, and the first output of the second comparison element via the fourth AND gate connected to the third output device. The outputs of the device can be connected to the inputs of the first, second and third blocks of registration or indication, respectively. (Italics - features in common with the subject invention).

The disadvantages of the known device (tonometer) are the lack of information about the heart rate and blood pressure.

Known as being closer to the subject of the invention, a “Therapist's Tester” (tonometer) [4], comprising a heart pulse sensor, a clock pulse generator, a constant potential source, a constant potential adjuster connected to an input with an output of a constant potential source, a threshold element connected to the first the input with the output of the heart rate sensor, and the second input with the output of the setter, the first pulse shaper connected by the input to the output of the threshold element, the first ring shift register connected by the shift input (bus) with the output of the first driver, the first element And connected to the output of the pulse generator by the first input and the second input to the output of the first discharge of the first shift register, the second element And connected by the first input to the output of the pulse generator and the second input to the second output of the first shift register , a second pulse shaper connected by an input to the output of the third bit of the first shift register, a third pulse shaper connected by an input to the output of the fourth bit of the first shift register, the first element LCD, connected by the input to the output of the second pulse shaper, the second delay element connected by the input to the output of the third pulse shaper, the first pulse counter connected by the counting (information) input to the output of the first AND element, and the zeroing input to the output of the second delay element, the second counter pulses, connected by a counting (information) input with the output of the second AND element, and with a zeroing input - with the output of the second delay element, the first comparison element connected bitwise with the first inputs to the output Dams of the first pulse counter, and the second inputs - with the outputs of the second pulse counter, the first group of AND elements connected by the first inputs bitwise with the outputs of the first pulse counter, and the second inputs - with the first output of the first comparison element, the second group of AND elements connected by the first inputs bitwise with the outputs of the second pulse counter, and the second inputs with the first output of the first comparison element, the third group of AND elements connected by the first inputs bitwise with the outputs of the first pulse counter, and the second the input inputs - with the second output of the first comparison element, the fourth group of AND elements connected by the first inputs bitwise to the outputs of the second pulse counter, and the second inputs - with the second output of the first comparison element, the first group of OR elements connected bitwise by the first inputs with the outputs of the third group of elements And, and the second inputs - with the outputs of the second group of AND elements, the second group of OR elements, connected bitwise with the first inputs with the outputs of the fourth group of AND elements, and the second inputs - with the outputs of the first groups of AND elements, an arithmetic block connected by the first inputs bitwise with the outputs of the first group of OR elements, the second inputs bitwise with the outputs of the second group of OR elements, and the third input, synchronization input, with the output of the first delay element, the fifth group of AND elements connected by the first inputs bitwise with the outputs of the first arithmetic unit, the second input with the output of the third pulse shaper, and the third inputs with the first and third outputs of the first comparison element, the third element And connected by the first input with the output of the third pulse shaper, and the second input with the second output of the first comparison element, the first register of the result memory connected by the first inputs bitwise with the outputs of the fifth group of AND elements, the second input with the output of the second pulse shaper, and the third input with the output the third element And, the first indicator of the result of the control (an indicator of the current value of the arrhythmia of the heart of the control object), the fourth element And, connected by the first input to the output of the heart rate sensor, the second ring register the shift connected by the input (bus) of the shift to the output of the pulse generator, the first trigger connected by the first input to the output of the first (lowest) bit of the second shift register, the second input to the output of the highest bit of the second shift register, and the first output to the second input of the fourth element And, a fourth pulse shaper connected by an input to the second output of the first trigger, a second delay element connected by an input to the output of the fourth pulse shaper, a third pulse counter connected by a counting (information input) with the output of the fourth element And, and the input of zeroing (reset) with the output of the third delay element, the sixth group of elements And connected by the first inputs bitwise with the outputs of the third pulse counter, and the second inputs with the second output of the first trigger, the second memory register the control result (heart rate), connected by installation (information) inputs bitwise with the outputs of the sixth group of AND elements, and by the input of zeroing (reset) with the output of the discharge one unit previous to the senior discharge of the second a shift histogram, a second indicator of the control result (heart contractions) connected bitwise to the outputs of the second register of the control result memory, an inverter including a limit stop, a magnetic circuit, and a solenoid consisting of a permanent magnet (solenoid core), a solenoid coil, a membrane and a rod mechanically rigidly connected to the membrane and the coil, the fifth element And, connected by the first input to the output of the clock generator, the second trigger, connected by the first input to the output of the sensor heart pulse, the sixth element And, connected by the first input to the output of the heart rate sensor, and the second input - with the first output of the second trigger, the third trigger, connected by the first input to the output of the sixth element And, the fifth pulse shaper connected by the input to the first output of the second trigger, the sixth pulse shaper connected by the input to the first output of the third trigger, the fourth delay element connected by the input to the output of the sixth pulse shaper, and the output to the second inputs of the second and third triggers, the fourth pulse counter connected to the counting (information) input with the output of the fifth And element, and the zeroing (reset) input to the output of the fourth delay element, a digital-to-analog converter connected bitwise with inputs from the outputs of the fourth pulse counter, and the output with the input of the inverter solenoid, the seventh group of AND elements connected bitwise by the first inputs to the outputs of the fourth pulse counter, and the second input with the output of the fifth pulse shaper, the eighth group of AND elements connected the first inputs bitwise with the outputs of the fourth pulse counter, and the second inputs with the output of the sixth pulse shaper, the fifth delay element connected by the input to the output of the fourth delay element, the third control result memory register connected by the information (installation) inputs with the outputs of the seventh group of elements And, and the input of zeroing (reset) - with the output of the fifth delay element, the fourth memory register of the control result, connected by information (installation) inputs with the outputs of the eighth group elements And, and the input of zeroing (reset) - with the output of the fifth delay element, the third indicator of the control result (upper value of the monitored parameter), connected by the inputs bitwise with the outputs of the third register of the memory of the control result, and the fourth indicator of the control result (lower value of the monitored parameter), connected by inputs bitwise to the outputs of the fourth register of the memory of the control result, a second setter (permissible value of cardiac arrhythmia), the second comparison element connected by bit first the inputs with the outputs of the first register of the memory of the control result, and the second inputs with the outputs of the second master, the third master (the highest permissible value of the heart rate), the third comparison element connected bitwise with the first inputs with the outputs of the second register of the memory of the control result, and the second inputs with the outputs of the third master, the fourth master (the lowest permissible value of cardiac arrhythmia), the fourth comparison element connected bitwise by the first inputs to the outputs of the second register of the result memory Troll, and the second inputs - with the outputs of the fourth master, the fifth master (the highest permissible value of blood pressure), the fifth comparison element connected bitwise with the first inputs with the outputs of the third register of the memory of the control result, and the second inputs with the outputs of the fifth master, the sixth master ( lower permissible value of blood pressure), the sixth comparison element, connected bitwise with the first inputs with the outputs of the fourth register of the memory of the control result, and the second inputs with outputs of that switch, an OR element connected by inputs to the first and third outputs of the second comparison element, with the first output of the third comparison element, with the third output of the fourth comparison element, with the first output of the fifth comparison element and with the third output of the sixth comparison element, and an output signaling device of one of monitored parameters for the tolerance field connected by the input to the output of the OR element, and the heart rate sensor is made on a piezoelectric element and installed in the inverter on its stock. (Italics - features in common with the subject invention).

The objective of the invention is to expand the functionality of the device by displaying information about the temperature of the human body in addition to information about the frequency and arrhythmia of the human heart and blood pressure in the human body.

The technical result consists in expanding the functionality of the tonometer by displaying information on the heart rhythm, on the frequency of its contractions, on tachycardia and arrhythmia, on arterial, upper (systolic) and lower (diastolic), blood pressure in the human body and additionally on the human body temperature, as well as the ability to generate a warning signal when the analyzed or analyzed parameters go beyond acceptable limits in real time.

The technical result is ensured by the fact that a tonometer containing a heart rate sensor, a clock pulse generator, a constant potential source, a constant potential adjuster connected to the output of the constant potential source, a threshold element connected to the output of the heart rate sensor by the first input and the second input by the output of the setter, the first pulse shaper connected by the input to the output of the threshold element, the first annular shift register connected by the shift input (bus) to the output of the first shaper device, the first element And connected to the first input with the output of the pulse generator, and the second input with the output of the first discharge of the first shift register, the second element And connected to the first input with the output of the pulse generator, and the second input - with the second output of the first shift register, the second driver pulses connected by the input to the output of the third discharge of the first shift register, a third pulse shaper connected by the input to the output of the fourth discharge of the first shift register, the first delay element connected by the input to the output of the second pulse former, the second delay element connected by the input to the output of the third pulse former, the first pulse counter connected by the counting (information) input to the output of the first AND element, and the zeroing input with the output of the second delay element, the second pulse counter connected by the counting ( informational) with the output of the second AND element, and the zeroing input with the output of the second delay element, the first comparison element connected bitwise by the first inputs to the outputs of the first counter imp Ls, and the second inputs - with the outputs of the second pulse counter, the first group of AND elements connected by the first inputs bitwise to the outputs of the first pulse counter, and the second inputs - with the first output of the first comparison element, the second group of AND elements connected by the first inputs bitwise with the outputs of the second a pulse counter, and the second inputs with the first output of the first comparison element, the third group of AND elements connected by the first inputs bitwise with the outputs of the first pulse counter, and the second inputs with the second output by the first comparison element, the fourth group of AND elements connected by the first inputs bitwise to the outputs of the second pulse counter, and the second inputs by the second output of the first comparison element, the first group of OR elements connected bitwise by the first inputs with the outputs of the third group of AND elements, and the second inputs - with the outputs of the second group of AND elements, the second group of OR elements, connected bitwise by the first inputs with the outputs of the fourth group of AND elements, and the second inputs - with the outputs of the first group of AND elements, arithm a logic unit connected by the first inputs bitwise with the outputs of the first group of OR elements, the second inputs by bit with the outputs of the second group of OR elements, and the third input, synchronization input, with the output of the first delay element, the fifth group of AND elements connected by the first inputs bitwise with outputs the first arithmetic unit, the second input - with the output of the third pulse shaper, and the third inputs - with the first and third outputs of the first comparison element, the third element And, connected by the first input to the output of the tre of the second pulse shaper, and the second input with the second output of the first comparison element, the first register of the result memory connected by the first inputs bitwise with the outputs of the fifth group of AND elements, the second input with the output of the second pulse shaper, and the third input with the output of the third AND element, the first indicator of the control result (indicator of the current value of the arrhythmia of the heart of the control object), the fourth element And, connected by the first input to the output of the heart rate sensor, the second ring shift register, the connected input m (bus) of the shift with the output of the pulse generator, the first trigger connected by the first input to the output of the first (lowest) bit of the second shift register, the second input to the output of the highest bit of the second shift register, and the first output to the second input of the fourth element And, fourth a pulse shaper connected by an input to the second output of the first trigger, a second delay element connected by an input to the output of the fourth pulse shaper, a third pulse counter connected by a counting (information) input to the output even of the fourth AND element, and the input of zeroing (reset) - with the output of the third delay element, the sixth group of And elements connected by the first inputs in bits to the outputs of the third pulse counter, and by the second inputs - with the second output of the first trigger, the second memory register of the control result (reduction frequencies heart), connected by installation (information) inputs bitwise with the outputs of the sixth group of AND elements, and by the input of zeroing (reset) with the output of the discharge to the unit previous to the senior discharge of the second shift register, the second indie the motor of the control result (heart contractions) connected bitwise to the outputs of the second register of the memory of the control result, an inverse converter including a limit stop, a magnetic circuit, and a solenoid consisting of a permanent magnet (solenoid core), solenoid coil, membrane and rod, mechanically rigidly associated with the membrane and the coil, the fifth element And, connected by the first input to the output of the clock generator, the second trigger, connected by the first input to the output of the heart rate sensor, sixth ele ment And, connected by the first input to the output of the heart rate sensor, and the second input - with the first output of the second trigger, the third trigger, connected by the first input to the output of the sixth element And, the fifth pulse shaper connected by the input to the first output of the second trigger, the sixth pulse shaper, connected to the first output of the third trigger by an input, a fourth delay element connected by an input to the output of the sixth pulse shaper, and by an output - from the second inputs of the second and third triggers, the fourth pulse counter, connected by a counting (information) input with the output of the fifth element And, and the input of zeroing (reset) with the output of the fourth delay element, a digital-to-analog converter connected bitwise with inputs from the outputs of the fourth pulse counter, and the output with the input of the inverter solenoid, the seventh group of AND elements connected bitwise by the first inputs to the outputs of the fourth pulse counter, and the second input with the output of the fifth pulse shaper, the eighth group of elements And connected by the first inputs of the bit o with the outputs of the fourth pulse counter, and the second inputs with the output of the sixth pulse shaper, the fifth delay element connected by the input to the output of the fourth delay element, the third control result memory register connected by the information (installation) inputs with the outputs of the seventh group of elements And, by the input zeroing (reset) - with the output of the fifth delay element, the fourth register of the memory of the control result, connected by information (installation) inputs with the outputs of the eighth group of AND elements, and the input is reset (reset) - with the output of the fifth delay element, a third indicator of the control result (upper value of the monitored parameter) connected by inputs to the outputs of the third register of the memory of the control result, and a fourth indicator of the control result (lower value of the controlled parameter) connected by inputs of the bit outputs the fourth register of the memory of the control result, the second setter (permissible value of cardiac arrhythmia), the second comparison element connected bitwise by the first inputs to the outputs of the first about the memory register of the control result, and the second inputs with the outputs of the second master, the third master (the highest permissible value of the heart rate), the third comparison element connected bitwise with the first inputs with the outputs of the second register of the memory of the control result, and the second inputs with the outputs of the third master , the fourth setter (lower permissible value of cardiac arrhythmia), the fourth comparison element connected bitwise by the first inputs to the outputs of the second memory register of the control result, and the second inputs - the outputs of the fourth setter, the fifth setter (the highest permissible value of blood pressure), the fifth comparison element, connected bitwise with the first inputs to the outputs of the third register of the memory of the control result, and the second inputs with the outputs of the fifth setter, the sixth setter (lower allowable value of blood pressure) , the sixth element of comparison, connected bitwise by the first inputs with the outputs of the fourth register of the memory of the control result, and the second inputs with the outputs of the sixth setter, element And And, connected by the inputs with the first and third outputs of the second comparison element, with the first output of the third comparison element, with the third output of the fourth comparison element, with the first output of the fifth comparison element and with the third output of the sixth comparison element, and an indicator of the output of one of the monitored parameters outside the field tolerance connected by the input to the output of the OR element, and the heart rate sensor is made on a piezoelectric element and installed in the inverter on its stock, a human body temperature sensor, analog - a digital converter connected by an information input to the output of the human body temperature sensor, a clock input - with the output of a clock pulse generator, and outputs bitwise with the fourth group of inputs of the warning (light and / or sound) signaling unit, and the fifth indicator of the control result (temperature value indicator human body), the seventh and eighth adjusters (adjusters of the upper and lower permissible values of the human body temperature, respectively) and the seventh comparison element connected bitwise ppoy first input with the outputs of analog-to-digital converter, second and third groups of input - to the outputs of said seventh and eighth setting devices, and the first and third outputs from the OR gate inputs.

The functional diagram of the tonometer is shown in FIG. 1, here is shown a heart rate sensor 1, a human body temperature sensor 2, a clock pulse generator 3, a heart arrhythmia control unit 4, a heart rate control unit 5, a blood pressure control unit 6, a control unit 7 human body temperature, warning alarm unit 8 with an actuator 9 (generator of alarm, sound and / or light, signals) at the output.

Figure 2 shows a diagram of a block 4 for controlling cardiac arrhythmias, figure 3 shows a diagram of a block 5 for controlling the frequency of heart contractions, figure 4 shows a diagram of a block 6 for controlling blood pressure, figure 5 is a diagram of a block 7 for controlling body temperature , and Fig.6 is a diagram of its block 8 warning alarm.

The tonometer contains a heart rate sensor 1, a human body temperature sensor 2, a 3 clock pulse generator, a heart arrhythmia control unit 4, a heart rate control unit 5, a blood pressure control unit 6, a human body temperature control unit 7, a warning signal unit 8, and a generator 9 alarm, light and / or sound signals.

The heart arrhythmia control unit 4 (see FIG. 2) includes a constant potential source 10, a constant potential adjuster 11 connected by an input to an output of a constant potential source 10, a threshold element 12 connected by a first input ( a ) to the output of a heart rate sensor 1, and the second input ( b ) - with the output of the setter 11, the first pulse shaper 13 connected by the input to the output of the threshold element 12, the first, annular, shift register 14 connected by the shift input (bus) to the output of the first shaper 13, the first element 15 AND, connected first in Odom (a) from the output of the generator 3 pulses, and a second input (b) to give (a) the first digit of the first 14 shift register, the second element 16 connected to the first input (a) with the output of the generator 3 pulses, and a second input (b ) - with the second output ( b ) of the first shift register 14, the second pulse shaper 17 connected by the input to the output ( c ) of the third category of the first shift register 14, the third pulse shaper 18 connected by the input to the output ( d ) of the fourth bit of the first shift register 14 , the first delay element 19 connected to the input by the output House second shaper 17 pulses, the second element 20 delays coupled input to an output of the third driver 18 pulses, the first counter 21 pulses coupled countable (information) input (a) with the output of the first element 15 and, while the input (b) zeroing - yield the second delay element 20, the second pulse counter 22, connected by the counting (information) input (a) to the output of the second And 16 element, and the zeroing input ( b ) - with the output of the second delay element 20, the first comparison element 23, connected bitwise to the first inputs ( a) in moves the first counter 21 pulses, and second inputs (b) - a second counter 22, pulse outputs, a first group of members 24 and connected to the first inputs (a) bitwise to the outputs of the first counter 18 pulses and second inputs - the first output (a) the first element 23 of the comparison, the second group of elements 25 And, connected by the first inputs ( a ) bitwise with the outputs of the second counter 22 pulses, and the second inputs - with the first output ( a ) of the first element 23 of the comparison, the third group of elements 26 And, connected by the first inputs ( a) bit by bit with O rows of the first counter 18 pulses and second inputs - a third output (c) a first comparing element 23, the fourth group of elements 27 are connected first inputs (a) bitwise to the outputs of the second counter 22 pulses and second inputs - a third output (with ) of the first comparison element 23, the first group of OR elements 28, connected bitwise by the first inputs ( a ) with the outputs of the second group of elements 25 AND, and the second inputs ( b ) - with the outputs of the third group of elements 26 AND, the second group of OR elements 29, connected by bit first inputs ( a ) with the outputs of the first group of elements 24 AND, and the second inputs ( b ) - with the outputs of the fourth group of elements 27 AND, the arithmetic unit 30 connected by the first inputs ( a ) bitwise with the outputs of the first group of elements 28 OR, second inputs ( b ) - bitwise with outputs the second group of elements 29 OR, and the third input ( c ), the synchronization input, with the output of the first delay element 19, the fifth group of elements 31 AND, connected by the first inputs ( a ) bitwise with the outputs of the arithmetic unit 30, and the second inputs ( b ) - with the output of the third shaper 18 pulses, rety member 32 and coupled to the first input (a) with the output of the third driver 18 pulses and a second input (b) - the second output (b) of the first comparison element 23, a first register 33, memory control results coupled information (installation) inputs ( a ) bitwise with the outputs of the fifth group of elements 31 I, and the input ( s ) of zeroing (reset) with the output of the third element 32 I, and the first indicator 34 of the control result (indicator of the value of the arrhythmia of the heart of the object O control), connected to the inputs bitwise with the outputs of the first register 33 pa Yati control result.

Block 5 control the frequency of heart contractions (see figure 3) includes a fourth element 35 And connected to the first input ( a ) with the output of the heart rate sensor 1, the second, annular, shift register 36 connected to the input (bus) of the shift with the output of the generator 3 pulses, the first trigger 37 connected by the first input ( a ) to the output ( a ) of the first (lowest) bit of the second shift register 36, the second input ( b ) to the output ( q ) of the highest bit of the second shift register 36, and the first output ( a ) - with the second input ( b ) of the fourth element 35 And, the fourth driver 38 pulses, connected by the input to the second output ( b ) of the first flip-flop 37, the second delay element 39 connected by the input to the output of the fourth pulse shaper 38, the third pulse counter 40 connected by the counting (information) input ( a ) to the output of the fourth And 35 element, and the input ( c ) zeroing (reset) - with the output of the third delay element 39, the sixth group of 41 AND elements connected by the first inputs ( a ) bitwise with the outputs of the third pulse counter 40, and the second inputs ( b ) with the second output ( b ) of the first trigger 37 , the second memory register 42 the control type, connected by the installation (information) inputs ( a ) bitwise with the outputs of the sixth group of elements 41 I, and by the input ( s ) of zeroing (reset) with the output of the discharge ( q-1 ) per unit of the least senior ( q -1st) bit the second shift register 36, and the second control result indicator 43 connected by inputs to the outputs of the second control result memory register 35.

The blood pressure monitoring unit 6 (see Fig. 4) contains a inverse transducer including a limit stop 44, a magnetic circuit, and a solenoid 45, consisting of a permanent magnet (solenoid core), a solenoid coil, a membrane and a rod, on the outer surface of which a sensor 1 is placed the heart pulse mechanically rigidly connected with the membrane and the coil, the fifth element 46 And, connected by the first input ( a ) to the output of the generator 3 clock pulses, the second trigger 47, connected by the first input ( a ) with the output of the heart rate sensor 1, the sixth element 48 And, connected by the first input ( a ) with the output of the heart rate sensor 1, and the second input ( b ) with the first output of the second trigger 47, the third trigger 49, connected by the first input ( a ) with the output of the sixth element 48 And, the fifth driver 50 pulses connected to the input with the first output ( a ) of the second trigger 47, the sixth pulse shaper 51 connected to the input with the first output ( a ) of the third trigger 49, the fourth delay element 52 connected to the output of the sixth pulse shaper 51, and the output to the second input (b) the second and third Trigg moat 47 and 49, the fourth pulse counter 53 coupled to counting (information) input (a) to give the fifth member 46 and, as the terminal (c) resetting (resetting) - in a yield of fourth element 52 delays a digital to analog converter 54 coupled bitwise inputs with the outputs of the fourth counter 53 pulses, and the output with the input of the inverter solenoid 45, the seventh group of 55 I elements connected bitwise with the first inputs ( a ) with the outputs of the fourth counter 53 pulses, and the second input ( b ) with the output of the fifth pulse shaper 50 c, the eighth group of 56 And elements connected by the first inputs ( a ) bitwise with the outputs of the fourth counter 53 pulses, and the second inputs ( b ) with the output of the sixth pulse shaper 51, the fifth delay element 57 connected by the input to the output of the fourth delay element 52, third register 58 the memory control results, the compound information (installation) inputs (a) the outputs seventh group elements 55 and, as the reset input (reset) (c) - yield fifth delay element 57, a fourth register 59 the memory control results, coupled first information (installation) inputs (a) the outputs of the eighth group of elements 56 and, as the reset input (reset) (c) - a delay output of the fifth member 57, the third indicator 60 the result of control (the upper value of the controlled parameter) connected to inputs of bitwise with the outputs of the third register 58 of the memory of the control result, and the fourth indicator 61 of the result of the control (the lower value of the monitored parameter) connected by inputs to the outputs of the fourth register 59 of the memory of the control result.

Unit 7 for monitoring the human body temperature (see Fig. 5) contains an analog-to-digital converter (ADC) 62 connected to the information input ( a ) with the output of the human body temperature sensor 2, and the clock input ( b ) with the output of the clock generator 3, and a fifth indicator 63 of the current values of the human body temperature, connected bitwise inputs to the outputs of the ADC 62.

The warning signaling unit 8 (see Fig. 6) contains a second setter 64 (permissible value of cardiac arrhythmia), a second comparison element 65 connected bitwise by the first inputs ( a ) to the outputs of the first register 33 of the memory of the control result, and the second inputs ( b ) - with the outputs of the second setter 64, the third setter 66 (the highest permissible value of the heart rate), the third comparison element 67 connected bitwise with the first inputs ( a ) with the outputs of the second register 42 of the memory of the control result, and the second inputs ( b ) with the outputs of the third sensor 66, the fourth setter 68 (lower permissible value of cardiac arrhythmia), the fourth comparison element 69, connected bitwise to the first inputs ( a ) with the outputs of the second register 42 of the memory of the control result, and the second inputs ( b ) with the outputs of the fourth setter 68, the fifth setter 70 (upper allowable value of blood pressure), a fifth comparison element 71 connected to first inputs of bitwise (a) from the third register 58 outputs the result of the control memory, and second inputs (b) - to the outputs of the fifth set point 70, the sixth zadat IR 72 (the lower the allowable value of blood pressure), a sixth comparison element 73 connected bitwise first inputs (a) the outputs of the fourth register 59 the memory control results, and the second input (b) - to the outputs of the sixth set point adjuster 72, the seventh dial 74, the lower permissible value, human body temperature, eighth setter 75, upper permissible value, human body temperature, seventh comparison element 76 connected bitwise with the first inputs ( a ) with the outputs of the ADC 62, and the second and third inputs with outputs 74 and 75, OR element 77, connected by inputs to the first ( a ) and third ( c ) outputs of the second comparison element 65, with the first output ( a ) of the third comparison element 67, with the third output ( c ) of the fourth comparison element 69, s the first output (a) of the fifth comparison element 71, the third output of the sixth comparison element 73, and with the first ( a ) and third ( c ) outputs of the seventh comparison element 76, the output of which is connected to the input of the actuator 9 (alarm, sound and / or generator light signals), and the heart rate sensor 1 is made on a piezoelectric element and is installed in the inverse transducer 45 on its rod (stop).

The tonometer, block by block, works as follows.

In the initial state, the finger O of the control object is placed in the bracket of the inverter, on the axis of its solenoid, and the generator 3 generates pulses of high potential with a constant frequency f .

In block 4 of the control of cardiac arrhythmias, at the output of the potential source 10 there is a high constant potential U ₇ , at the outputs of the threshold element 12, formers 13, 17 and 18, elements I 15, 16, 31 and 32, delay elements 19 and 20, counters 21 and 22, at the first and third outputs of the comparison element, 23, at the outputs of the groups of OR elements 28 and 29, at the outputs of the arithmetic unit 30 and at the outputs of the register 33 — low, zero potentials (the circuit to set the device to its initial state is not shown in the drawings). The switch 11 sets the value of the threshold operation U _p ≤ U ₁ . The first pulse from the output of the heart rate sensor 1 for the time that U ₁ exceeds the threshold value U _p set by the setter 11, the high potential U _{9 is} established at the output of the threshold element 12. On the leading edge of each pulse U _{9 of} high potential from the output of the threshold element 12 at the output of the former 13, a short pulse of high potential is generated

U ₁₀ , by which the state of the shift register 14 is changed to another, i.e. the unit from the zero bit of register 14 is transferred to its first bit, from the first bit to the second, from the second to the third, from the third to the fourth, from the fourth to the first bit, etc. around the ring. If there is a high potential at the output of the first discharge of the register 14 and the first input of the element And 15, the element And 15 opens and the pulses from the output of the generator 3 are fed to the counting input of the counter 21. The second pulse of the rhythm (pulse) of the heart through the threshold element 12 and the shaper 13 the output of the first discharge register 14 is reset, and at the output of its second discharge a high potential is established, which opens the element And 16, and the pulses from the output of the generator 3 through the element And 16 are fed to the counting input of the counter 22. In the counter 21 is fixed the number of pulses s N ₁₈ , proportional to the duration of the high potential pulse at the output of the first discharge of the register 14, and in the counter 21 the number of pulses N ₁₉ is proportional to the duration of the pulse at the output of the second discharge of the register 14. The contents of the counters 21 N ₂₁ = T / f and N ₂₂ = T / f is compared by comparison element 23. According to the comparison results, a high potential is established at the first output of the comparison element 23 at N ₂₁ > N ₂₂ , and the remaining outputs are zeroed, at the second output of the comparison element 23, a high potential is set at N ₂₁ = N ₂₂ , and at the third output, at N ₂₁ < N ₂₂ at zero potentials at its other two outputs. With the high potential from the first output of the comparison element 23, the groups of elements And 24 and 25 open, with the high potential from the second output of the element And 32 opens, and with the high potential from the third output of the element of comparison 23 opens the And 26 and 27 elements. 25, 26 and 27 provides the output of the counters 21 and 22 to the first and second inputs of the arithmetic block 30. Through the elements OR 27 of the number N ₂₁ or the number N ₂₂ when N ₂₁ > N ₂₂ , and to the second inputs of the arithmetic block 30 through the elements of OR 29 numbers N ₂₁ or N ₂₂ respectively It is by the third pulse of the heart rhythm at the output of the third discharge of register 14 that a high potential is established, and its second output is zeroed. On the leading edge of the high potential, from the output of the third category of the register 14, a short high-potential pulse is generated at the output of the shaper 17, which is reset to the control result memory register 33 without a time delay, and with the time delay τ, an arithmetic unit 30 is launched through the delay element 19, which calculates quotient N ₃₀ from dividing the dividend N ₂₁ ( N ₂₂ ) by the divider

N ₂₂ ( N ₂₁ ), i.e. N ₃₀ = N ₂₁ / N ₂₂ when N ₂₁ < N ₂₂ or N ₂₂ / N ₂₁ when N ₂₁ > N ₂₂ , and since N ₂₁ = T ₁ f , and N ₂₂ = T ₂ f , where T ₁ and T ₂ are the durations of high potential pulses at the outputs of the first and second bits of shift register 14, then N ₃₀ = N ₂₁ / N ₂₂ = T ₁ f / T ₂ f or

N ₃₀ = N ₂₂ / N ₂₁ = T ₂ f / T ₁ f , i.e. N ₃₀ = T ₁ / T ₂ or N ₃₀ = T ₂ / T ₁ , but since arrhythmia α≤1, then an inequality of the form 0 < N ₃₀ <1 turns out to be feasible. The fourth pulse of heart contraction at the output of the fourth discharge of register 14 sets a high potential, and the output of its third discharge is zeroed, by the leading edge of the high potential from the output of the fourth discharge of register 14 of the shift, the shaper 18 generates a short pulse of high potential, which opens the elements And 31 and without delay 32, and with a time delay τ through the delay element 20, the counters 21 and 22 are reset to zero, while the contents of the arithmetic output outputs are recorded in the register 33 of the control result memory Loka 30. The presence of a high potential at the output of the And 32 element is a clear sign of the absence of arrhythmia of the human heart. In register 33 of the result of the assessment (control) of cardiac arrhythmias for each sequence of four pulses of heart contractions, the relative rhythm coefficient of the heart is recorded and the lower it is, the more dangerous the state of the control object. The numerical values of the arrhythmia of cardiac activity, the contents of the outputs of the register 33, displayed by the indicator 34, is a highly representative, objective parameter characterizing the state of the human body.

In block 5 monitoring the heart rate with each pulse from the output of the generator 3, the unit potential sequentially runs through all the bits of the register 36. On the leading edge of the high potential from the output of the first bit of the register 36, the trigger 37 is set to a single state, at its first output and at the second input of the And element 35 high potentials are established. In this case, the And 35 element opens, and the pulses from the output of the heart rate sensor 1 arrive at the counting input of the pulse counter 40. On the leading edge of the pulse from the discharge output one minor to the maximum in the shift register 36, the control result memory register 42 is reset to zero, and on the rising edge from the output of the highest bit of the shift register 36, trigger 37 is reset, its potential is set to a low potential, and its zero output - high potential. Then the And 35 element is closed, the counter 40 is stopped, its contents through the group of And 41 elements are fed to the information inputs of the register 42. But with the number of bits of the register 36 W +2, the contents of the counter 40 and the register 42 are uniquely determined by N = f ₁ / W , and since W = const, then the value N ≡ f ₁ , i.e. the contents of the register 42 of the memory of the control result, reflected by the indicator 43, carries objective information about the heart rate. This parameter also uniquely characterizes the physical and / or psychological state of the human body.

In block 6 of blood pressure control in the initial state, the pulse counter 53, the triggers 47 and 49, and the registers 58 and 59 are zeroed, and the output of the digital-to-analog converter 54 has zero (or maximum) potential, zero (or maximum) flows in the coil of the inverter solenoid 45 current. At zero current value in the coil (in its de-energized state), the coil, membrane and rod are in the initial free state, determined by the initial state of the membrane. (The zeroing chains are not shown in the drawing.) When the current in the coil of the solenoid 45 is other than zero, its position in space (in the axial direction of the solenoid 45), and with it the heart pulse membrane with the rod and sensor 1, varies and depends on the value of the current, the coercive force of the permanent magnet and the rigidity (elasticity) of the membrane. A heart rate sensor 1 for each pulse of blood pressure (heart beat) generates a single pulse of high potential when it is equal to or when the external compensating pressure is exceeded. When the trigger (49) output is zero, the And 46 element is open at the second input and the pulses from the output of the generator 3, through the And 46 element, go to the counter (information) input of the counter 53, the state of its outputs is discrete in time, with a period T = 1 / f , changes by one discrete (unit), as a result of which the state of the output of the DAC 54, and consequently, the value of the current I _y in the coil of the solenoid 45 changes. During the full cycle of the counter 53, the position of the coil, membrane and rod also changes in a sawtooth pattern from zero to maximum (or vice versa), but then the force in the axial direction also changes in a sawtooth direction, located between the rod and the stop the nail phalanx of the human finger undergoes mechanical exposure according to a sawtooth law in time (schedule). When changing the current I _y in the coil (voltage U _y at the terminals of the coil) of the solenoid 45, its transfer function is determined by W ( s ) = X _o ( s ) / U _y = k _s [(1+ sT _e ) (1+ sT ₁₎ + sT ₂ )], where X _o is the movement of the coil, T _e = L _e / R _e is the electromagnet time constant, R ₀ and L ₀ are the resistance and inductance of the solenoid coil 45 corresponding to its initial position, T ₁ = ( mk _p ) ^-0.5 ( m is the mass of the moving parts, k _p is the rigidity of the membrane); T ₂ = k _d / k _p (here k _d is the damping coefficient); k _c = 2 k ₀ I _y / k _p R ₀ ) is the transmission coefficient of the solenoid 45 ( k ₀ is the proportionality coefficient between the force F of the electromagnet and the current I _y in the coil). A solenoid with a force F through the rod acts on a person’s finger and creates pressure on the artery P ( t ) = F ( t ) / S (here S is the area of mechanical contact with the person’s finger). At the output of the heart rate sensor 1, short pulses of high potential are generated at Δ P _a ( t ) = 0. On the first pulse from the output of sensor 1, at

P _a = P _av = P _at ( t ) ≠ 0 (or at P _a = P _en = P _n ( t ) ≠ 0), trigger 47 is brought into a single state, a high potential is established at its single (first) output, with a leading edge which the shaper 50 generates at its output a short pulse of high potential, while the group 55 opens and the contents of the counter 53

N ₁ ≡ P _av (≡ P _en ) is fixed by register 58 and displayed by indicator 60. The sawtooth potential generated at the output of the DAC 54 ensures a fixation of N ₁ = P _ав , and as the contents of the counter 53 and the current in the coil of the solenoid 45 change, at Δ P = 0, at the output of the sensor 1, a short pulse of high potential is generated, which, via the And 48 element, trigger 49 is brought into a single state, and the And 46 element is closed, the counter 53 is stopped, and on the leading edge of the high potential from the trigger single output 49 shaper 51 ge eriruetsya short pulse of high potential, which ≡ P ₂ N _en counter contents 53 recorded in the memory control register 59 and the results displayed by indicator 61. With a time delay element 52 delays the output pulse is generated by the high potential, which resets the counter 53 and flip-flops 47 and 49 . In the registers 58 and 60 recorded values of the upper and lower blood pressure. Subsequently, the control cycle is repeated.

The output information is expressed numerically, does not depend on the subjective factors of the observer, is generated in real time, is representative and reliable.

In block 7 for monitoring the human body temperature, for each pulse from the output of the generator 3, the values of the human body temperature sensor 2 are converted by the ADC 62 into a digital code of the human body temperature values, which is displayed by the indicator 63.

In block 8 of the warning signal, the permissible value of N ₆₄ heart arrhythmias is set by the setter 64, the upper value N _{66 of} the heart rate by the setter 66, the lower value N _{68 of} the heart rate by the setter 68, the upper value of N ₇₀ blood pressure by setter 70 and the lower value N ₇₂ blood pressure - the master 72, the lower and upper permissible values of the human body temperature are set by the master 72 and 73, respectively. With the comparison element 65, the contents of the register 33 N _{33 are} compared with the contents of the setter 64 N ₆₄ , at the first ( a ) output of the comparison element 65 a high potential is generated at N ₃₃ > N ₆₄ (its other two outputs remain at low potentials), at the third output ( with ) of the comparison element 65, a high potential is generated at N ₃₃ < N ₆₄ (its other two outputs remain at low potentials). By the comparison element 67, the contents of the register 42 N _{42 are} compared with the contents of the setter 66 N ₆₆ , at the first output of the comparison element 67, a high potential is generated at N ₄₂ > N ₆₆ (the other two outputs remain at low potentials), at the third output of the comparison element 67, a high potential at N ₄₂ < N ₆₆ (its two other outputs remain at low potentials). By the comparison element 69, the contents of the register 42 N _{42 are} compared with the contents of the setter 68 N ₆₈ , at the first output ( a ) of the comparison element 67, a high potential is generated at N ₄₂ > N ₆₈ (the other two outputs remain at low potentials), at the third output ( with ) of the comparison element 69, a high potential is generated at N ₄₂ < N ₆₈ (its other two outputs remain at low potentials). With the comparison element 71, the contents of the register 58 N _{58 are} compared with the contents of the setter 70 N ₇₀ , at the first output ( a ) of the comparison element 71, a high potential is generated at N ₅₈ > N ₇₀ (the other two outputs remain at low potentials), at the third output ( with ) of the comparison element 71, a high potential is generated at N ₅₈ < N ₇₀ (its other two outputs remain at low potentials). With the comparison element 73, the contents of the register 59 N _{59 are} compared with the contents of the setter 72 N ₇₂ , at the first output ( a ) of the comparison element 73, a high potential is generated at N ₅₉ > N ₇₂ (the other two outputs remain at low potentials), at the third output ( with ) of the comparison element 73, a high potential is generated at N ₅₉ < N ₇₂ (its other two outputs remain at low potentials). The comparison element 76 compares the contents of the outputs of the ADC 62 N ₆₂ with the contents of the adjusters 74 and 75, at the first output ( a ) or on the third output ( c ) of the comparison element 76, a high potential is set at N ₇₅ < N ₆₂ < N ₇₄ , respectively. Content (high, unit, potential) from the first (o) and third ( c ) outputs of the comparison element 65, the first output ( a ) of the comparison element 67, the third output ( c ) of the comparison element 69, the first output ( a ) of the comparison element 71, the third output ( s ) of the element 73 from the first ( a ) and third ( c ) outputs of the comparison element 76, through the OR element 77, is input to the alarm signaling device 9. The alarm signaling device 9 generates an audible and / or warning light (s) warning that one of the monitored parameters has exceeded the tolerance field, i.e. when at least one of the inequalities N ₃₃ < N ₆₄ , N ₄₂ > N ₆₆ , N ₄₂ < N ₆₉ , N ₅₈ > N ₇₀ , N ₅₉ < N ₇₂ and / or N ₇₅ < N ₆₂ < N _{74 is satisfied} .

Thus, the proposed tonometer provides objective, highly representative information about the current values of the monitored parameters: heart rate, their arrhythmias, blood pressure and human body temperature in real time, as well as warning signals about the output of at least one monitored parameter for the field of its admission, which extends the functionality of the tonometer.

The advantage of the proposed tonometer is that the phalanx artery is clamped only periodically, which ensures the possibility of long-term recording of changes in the arrhythmia of the heart, its frequency and blood pressure, both systolic and diastolic, as well as the ability to objectively, in real time, receive a warning about disruption of the heart. The latter is especially important since a signal about the exit of any of the controlled parameters beyond the permissible limits can be used to exclude overloads of the human body. The output information about the work of the heart and the temperature of the human body can be recorded on machine media.

Information sources

1. Patent RU 2048789, A61B 5/022, b. 33, 1995.

2. Patent RU 2159073, A61B 5/022, b.32, 2000.

3. Patent RU 2138195, A61B 5/0404, 6.27, 1999.

4. RU patent on application 2006127801, FIPS decision on the grant of a patent dated 05.10.2007.

Claims (1)

A tonometer containing a heart rate sensor, a clock pulse generator, a constant potential source, a constant potential master connected to the output of the constant potential source, a threshold element connected to the output of the heart rate sensor by the first input and the generator output, the first pulse shaper connected by the input to the output of the threshold element, the first annular shift register connected by the shift input (bus) with the output of the first driver, the first AND element connected by the first input the house with the output of the pulse generator, and the second input with the output of the first discharge of the first shift register, the second element And connected with the first input with the output of the pulse generator, and the second input with the second output of the first shift register, the second pulse shaper connected with the input of the third the discharge of the first shift register, the third pulse former connected to the output of the fourth discharge of the first shift register, the first delay element connected to the input of the second pulse former, sec oh delay element connected by the input to the output of the third pulse former, the first pulse counter connected by the counting (information) input to the output of the first AND element, and the zeroing input by the output of the second delay element, the second pulse counter connected by the counting (information) input to the output the second element And, and the zeroing input - with the output of the second delay element, the first comparison element connected bitwise by the first inputs to the outputs of the first pulse counter, and the second inputs to the outputs of the second pulse meter, the first group of AND elements connected by the first inputs bitwise to the outputs of the first pulse counter, and the second inputs to the first output of the first comparison element, the second group of AND elements connected by the first inputs bitwise to the outputs of the second pulse counter, and the second inputs to the first the output of the first comparison element, the third group of AND elements connected by the first inputs bitwise with the outputs of the first pulse counter, and the second inputs with the second output of the first comparison element, the fourth PPU of AND elements connected by the first inputs bitwise to the outputs of the second pulse counter, and by the second inputs to the second output of the first comparison element, the first group of OR elements connected bitwise by the first inputs with the outputs of the third group of AND elements, and the second inputs to the outputs of the second group of elements And, the second group of OR elements, connected bitwise by the first inputs with the outputs of the fourth group of AND elements, and by the second inputs - with the outputs of the first group of AND elements, an arithmetic block connected by the first inputs of bit with the outputs of the first group of OR elements, second inputs - bitwise with the outputs of the second group of OR elements, and the third input, synchronization input, with the output of the first delay element, the fifth group of AND elements connected by the first inputs bitwise with the outputs of the first arithmetic block, the second input - with the output of the third pulse shaper, and the third inputs with the first and third outputs of the first comparison element, the third element And connected by the first input to the output of the third pulse shaper, and the second input - with the second output of the first comparison element, the first register of the result memory connected by the first inputs bitwise with the outputs of the fifth group of elements - AND, the second input - with the output of the second pulse shaper, and the third input with the output of the third element And, the first indicator of the control result (current indicator values of the arrhythmia of the heart of the control object), the fourth element And, connected by the first input to the output of the heart rate sensor, the second ring shift register, connected by the input (bus) of the shift with the output of the pulse generator c, the first trigger connected to the output of the first (lowest) bit of the second shift register, the second input to the output of the highest bit of the second shift register, and the first output to the second input of the fourth element And, the fourth pulse shaper connected to the input to the second output the first trigger, the second delay element connected by the input to the output of the fourth pulse shaper, the third pulse counter connected by the counting (information) input to the output of the fourth element And, and the input zeroing (reset) - with the output of the third delay element, the sixth group of AND elements connected by the first inputs bitwise to the outputs of the third pulse counter, and the second inputs to the second output of the first trigger, the second memory register of the control result (heart rate), connected by the setting (information) inputs bitwise with the outputs of the sixth group of AND elements, and the input of zeroing (reset) with the output of the discharge per unit of the previous senior digit of the second shift register, the second indicator of the control result (frequency of contractions heart), connected by inputs to the outputs of the second register of the memory of the control result, the inverse converter includes a limit stop, a magnetic circuit, and a solenoid consisting of a permanent magnet (solenoid core), a solenoid coil, a membrane and a rod mechanically rigidly connected to the membrane and coil, fifth the And element, connected by the first input to the output of the clock generator, the second trigger, connected by the first input to the output of the heart rate sensor, the sixth And element, connected by the first input to the output of dates heart pulse, and the second input - with the first output of the second trigger, the third trigger connected by the first input to the output of the sixth element And, the fifth pulse shaper connected by the input to the first output of the second trigger, the sixth pulse shaper connected by the input to the first output of the third trigger, the fourth delay element connected by the input to the output of the sixth pulse shaper, and the output with the second inputs of the second and third triggers, the fourth pulse counter connected by a counting (information) input with the output of the fifth element And, and the input of zeroing (reset) - with the output of the fourth delay element, a digital-to-analog converter connected bitwise with inputs, with the outputs of the fourth pulse counter, and the output with the input of the solenoid of the inverse converter, the seventh group of elements And connected bitwise with the first inputs with the outputs of the fourth pulse counter, and the second input with the output of the fifth pulse shaper, the eighth group of elements And connected by the first inputs bitwise with the outputs of the fourth pulse counter, and the second inputs - with the output of the sixth pulse shaper, the fifth delay element connected by the input to the output of the fourth delay element, the third control result memory register connected by information (installation) inputs with the outputs of the seventh group of AND elements, and the zeroing (reset) input with the fifth output delay element, the fourth register of the memory of the control result, connected by information (installation) inputs with the outputs of the eighth group of AND elements, and the input of zeroing (reset) - with the output of the fifth delay element ki, the third indicator of the control result (upper value of the monitored parameter), connected by the inputs bitwise to the outputs of the third register of the memory of the control result, and the fourth indicator of the control result (lower value of the controlled parameter), connected by the inputs bitwise with the outputs of the fourth register of memory of the control result, the second master ( permissible values of cardiac arrhythmia), the second element of comparison, connected bitwise by the first inputs with the outputs of the first memory register of the control result, and the second with its inputs - with the outputs of the second setter, the third setter (of the upper allowable value of the heart rate), the third comparison element connected bitwise with the first inputs with the outputs of the second register of the memory of the control result, and the second inputs with the outputs of the third setter, the fourth setter (lower allowable value arrhythmias of the heart), the fourth element of comparison, connected bitwise by the first inputs with the outputs of the second memory register of the control result, and the second inputs with the outputs of the fourth master, fifth task k (the upper permissible value of blood pressure), the fifth comparison element, connected bitwise with the first inputs with the outputs of the third register of the memory of the control result, and the second inputs with the outputs of the fifth setter, sixth setter (lower permissible value of the blood pressure), sixth comparison element, connected bitwise by the first inputs with the outputs of the fourth register of the memory of the control result, and the second inputs with the outputs of the sixth setter, an OR element connected by inputs with the first and third outputs the second comparison element, with the first output of the third comparison element, with the third output of the fourth comparison element, with the first output of the fifth comparison element and with the third output of the sixth comparison element, and the output indicator of one of the controlled parameters for the tolerance field connected to the input with the output of the OR element moreover, the heart pulse sensor is made on a piezoelectric element and installed in the inverse transducer on its stock, characterized in that a human body temperature sensor, an analog-to-digital conversion are introduced into it a driver connected by an information input to the output of the human body temperature sensor, a clock input - with the output of a clock pulse generator, and outputs - bitwise with the fourth group of inputs of the warning (light and / or sound) signaling unit, the fifth indicator of the values of the monitored parameter, connected by inputs bitwise with the outputs of the analog-to-digital converter, the seventh and eighth switches and the seventh comparison element, connected bitwise by a group of first inputs with the outputs of the analog-to-digital converter, groups of the second and third inputs - with the outputs of the seventh and eighth sets, and the first and third outputs with inputs of the OR element.

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