SU1168809A2 - Ergomonitor - Google Patents

Abstract

ERGOMONITOR Auth.St. No. 901861, characterized in that, in order to identify types of arrhythmias during exercise, an arrhythmia detector, a memory unit, a dispenser, a reversible multi-stage counter, a readout unit and a third ILI element are inserted in it, the first output of the arrhythmia detector is connected with the input of the arrhythmia signal generator, the output of which is connected to the first control input of the load indication display unit at which the arrhythmia occurs, and with the first input of the third element S1I, the second output of the arrhythmia detector is connected to the summing in A reverse counter, whose subtracting input is connected to the second control input of the load indication display unit at which an arrhythmia occurs, the second input of the third OR element, and the output of the readout block, the reverse counter outputs are connected to the distributor inputs and the third group of inputs of the load indication block, which arrhythmia occurs, and the outputs of the distributor are connected to the service inputs of the memory block, whose information inputs are connected to the outputs of the second register and the first (L Rupp load input resolution block indicating at which arrhythmia occurs, and outputs the block memory connected to the third group of inputs indicating the load unit resolution at which arrhythmia occurs, the output of the third OR gate is connected to a second control input 00 of the indicator. oo

Description

The invention relates to a measuring technique, in particular to devices for the medical diagnosis of cardiac arrhythmias and determination of the amount of physical stress at which an arrhythmia has occurred, and can be used in scientific medical studies or in medical practice. to the fort service, with sports trainings for use in space flights. According to the main aBT.CB.N 901861, a device is known which makes it possible to determine the amount of physical exertion that caused arrhythmias, the Ergomonitor warns about the occurrence of any type of arrhythmia and increases the amount of physical activity at which the arrhythmia has occurred. When conducting scientific research and in some other cases this is. appropriate and reasonable L1.J. However, in everyday life during labor activity or during sports training, it is not necessary to know about the appearance of any type of arrhythmia, it is enough to warn a person about the occurrence of dangerous types of arrhythmia and to indicate the amount of physical activity that caused the arrhythmia. Indication (audible and visual) in these warns a person about the cessation of stress, which prevents the appearance of fibrillation or asystole. In all other cases, when non-dangerous types of arrhythmia appear, signaling distracts the person from exercise shea interferes with work in the home or during exercise. . The purpose of the invention is to identify B1sdon arrhythmias during physical loading. This goal is achieved by introducing an arrhythmia detector, a memory unit, a reversible multi-digit counter, a reader unit, and a third PC element at the same time, the first output of the detector. the arrhythmias are connected to the input of the arrhythmia signal form bodies, the output of which is connected to the first control input of the load indication display unit. which causes the arrhythmia, and the second output of the arrhythmia detector connections to the cyrviMHpyiofflHM third input of the reversible counter, which subtracts the input to the first input of the third I-UHij element which is connected to the second control input of the load indication display unit, at which an arrhythmia occurs, the second input of the third OR element and the output of the readout block, the outputs of the reversible counter are connected to the input The distributor and the third group of inputs of the i-load load resolution unit at which arrhythmia occurs, and the outputs of the distributor are connected to the service inputs of the memory unit, the formatting inputs of which are connected from the output of the 1st and second register and the first group of inputs of the load resolution and resolution block 1 the arrhythmias, and the outputs of the memory block are connected to the third group of inputs of the resolution block and the load citation at which the arit1-1i occurs, while the output of the third element OR is connected to the second control F1 in indicator progress. The drawing shows a structural diagram of the ergomonitor. The ergomonitor consists of a converter 1, a driver 2 pulses, a high-frequency multivibrator 3, a divider 4 frequencies, a counter 5 of operation, an indicator 6, a unit 7 for setting individual human data, a block 8 for setting a permissible operating threshold, a circuit 9 comparing work, a low-frequency multivibrator, 10, a mixer 11, timer 12, timer setting unit 13, power counter 14, register 15, power comparison circuit 16, power tolerance threshold setting block 17, power comparison circuit 18, power indication resolution block 19 unit, the display switching unit 20, the element OR 21, the element OR 22, the setting unit 23 5 in zero, the setting unit 24 to zero, the arrhythmia detector 25, the arrhythmia signal generator 26, the load indication resolution permitting unit 27, register 28, block 29 of memory, distributor 30, multi-bit reversible counter 31, block 32 of readout, element ELI 33, block FOR power supply, The output of converter 1 consisting of at least one seismic sensor, is connected to the input of raiser 2, the output of which is connected to the first input is high hours This multivibrator 3. The frequency range of the multivibrator 3 is controlled by the unit 7 for setting individual human data. The output of the multivibrator 3 is connected to the counting input of the 4 frequency divider and the first input of the mixer 11. The 4 frequency divider is connected by one output to the counting input of the operation counter 5 and by its second output to the counting input of the power counter 14. The outputs of the operation counter 5 are connected to the first information inputs of the indicator 6 and the first inputs of the operation comparison circuit 9. The second inputs of the comparison circuit 9 are connected to the outputs of the installation unit 8, the permissible operation threshold, and the output of the comparison circuit 9 is connected to the first input of the OR element 22, and to the input of the unit 23 of the device (Novki to zero. The output of the unit 23 is connected to the installation inputs of the 4 frequency divider and counter 5, and the output of the element OR 22 is connected to the second input of the multivibrator 3 and to the control inputs of the divider 4 and the low-frequency multivibrator 1 whose output is connected to the second inlet of the mixer 11, and the output of the mixer 11 is connected to the signal input of the indicator 6. Output ta The meter 12 is connected to the control input of the power counter 14, the first installation input of the power counter 14 and the setup input of the register 28. The time interval of the timer 12 is controlled by the interval setting block 13, which is connected to the timer 12. The outputs of the counter 14 are connected to the inputs of the registers 15 and 28 and with the first inputs of the power comparison circuit 16. The outputs of the register 15 are connected to the second inputs of the comparison circuit 16, the first input of the power comparison circuit 18. The output of the comparison circuit is connected to the control input of the register 1; The second input of the power comparison circuit 18 is connected to the power threshold unit 17, and the output of the comparison circuit 18 is connected to the second input of the OR 22 element, the first input of the OR 21 element, and to the input of the 2 block set to zero. The output of block 24 is connected to the second setup input of counter 14 and to the setup input of register 15. The display switching unit 20 is connected to the second input of the OR element 21, the output of which is connected to the control input of the power indication resolution unit 19 and to the first control input of the indicator 6, and the outputs of block 19 are connected to the second information inputs of the indicator 6. The detector 25 is connected to the input of the arrhythmia signal generator 26 by its first output, and its second output to the summing input of the reversible counter. 31. The output of the imaging unit 26 is connected to the control input of the register 28, the first control input of the resolution indication block 27 at which an arrhythmia occurs, the third input of the OR element 22 and the first input of the OR element 33. The calculating t input of the reversible counter 31 is connected to the output of the readout unit 32, the second control input of the load permitting unit 27, and the second input of the OR element 33, the output of which is connected to the second control, the indicator input 6. The outputs of the reversing counter 31 are connected to the inputs of the distributor 30 and three This group of inputs of the load indication resolution unit 27. The outputs of the distributor 30 are connected to the service inputs of the memory block 29, the inputs of which are connected to the outputs of the register 28 and the first inputs of the block 27, and the outputs of the memory block 29 are connected to the third group of inputs of the load indication resolution 27, which occurs with arrhythms. Ergomonitor works as follows. Pre-switch unit 7 installation of individual data of a person set in a position corresponding to the individual data of a particular person (weight, height, average step length, rate of movement). The switch of the unit 8 permissible work threshold sets the permissible value of work for this person. The switch of the block 13 sets the time for which the value of the power is estimated, and the switch-switch of the block 17 for setting the power threshold sets the allowable power threshold for this person. When the power supply unit 34 is turned on, the units 4,5,14,15,28 and 31 are automatically set to zero. The ergomonitor is ready for operation. In this case, from the outputs of the circuit 9 of the comparison circuit 18 of the comparison and block 26, a signal is received at the inputs of the OR element 22 at the output of which the signal arrives at the second input of the multivibrator 3 and the control inputs of the multivibrator 10 and the divider 4 frequencies. As a result, the counting input of the splitter 4 frequency is open for the arrival of pulses from the output of the multivibrator 3, which during the operation of the control pulse from the output of block 2 generates their multivibrator 10 is blocked, and the mixer 11 closes the output of the multivibrator 10. Measurement and power, as well as signaling that the permissible thresholds for operation and power have been reached, occur by analogy with the known ergomonitor. Simultaneously with the measurement of work and power, the Ergomonitor monitors the work of the heart with the help of a 25 arrhythmia detector. It may happen that the development of power by a person will cause a heart arrhythmia. This power may be less than the allowable power threshold due to the general fatigue of a person (for example, a large amount of work was done before the Zitsh), But the very fact of the appearance of arrhythmia is of interest. Thus, in the case of a seemingly dangerous type of arrhythmia, the value of loading (power) 5 that caused the arrhythmia should be entered into memory block 29. In this case, the alarm does not fall and the person continues to perform physical exercise. In the event that dangerous arrhythmias have appeared, it is necessary to immediately stop exercise. In the first case, the load value can be counted after the end of physical exercises, in the second - immediately on the scale of the ergomonitor indicator 6. When a safe arrhythmia occurs, the signal of the second pass of the arrhythmia detector 25 enters the memory1 input of the reversible counter 31 A binary appears at its outputs the code that arrives at the inputs of the distributor 30 and the third group of inputs of the load indication resolution unit 27. The distributor 30 is a multi-bit decoder. The determined value of the binary code at the inputs of the distributor 30 corresponds to a signal at one of the corresponding outputs. The signal at one of the outputs of the distributor determines the cell number of memory block 29 (corresponds to the sequence number of the arrival of arrhythmia to the summing input of the reversible counter 31). The power value stored in register 285 at the time the signal arrives at one of the service inputs of memory 29 from the outputs of distributor 30 is written to the selected memory location. When a new signal arrives at the summing input of the reversible counter 31, the power value is recorded in block 29 from register 28 ,,. which was stored there at this moment. At the end of the research or other needs, reading from the memory block 29 is performed using the read block 32. Pressing the button of the readout block 32 (which represents the one-pulse single-pulse circuit) J sends a signal to the subtracting input of the reversible counter 31. This same signal goes to the second control input of the block 27 and the second input of the OR 33 element. 29 memory (the last one recorded)., And the--gdt-gkatsy permission block 27 skips the value of the power that caused the arrhythmia, and the sequence number of this arrhythmia (from counter 31) to the indicator 6 digital ablo. With each new press of the button, block 32 in the indicator appears a new sequence number (one less than the previous one) and a new power value. All these power values, if necessary, are recorded. The button of the read block 32 is pressed until the counter 31 clears, and all the power values causing the arrhythmia are extracted from block 29. When a dangerous type of arrhythmia appears, the signal at the first output of the arrhythmia detector 25 appears; which enters the shaper 26 arrhythmia signal. This signal comes

711

to the third input of the element OR 22, which includes an audible and visual indication of the ergomonitor (multivibrator 10, offsetter 11, HF multivibrator 3 and divider 4 frequencies). In parallel with this, the signal from the imager 26 is fed to the first control input of the display permitting unit 27, to the control input of the register 28

688098

and to the first input of the element OR 33. On this signal, block 27 passes information from register 28.

5The proposed ergomonitor allows research to be carried out in the course of sports training, in space flights or other extreme conditions. .

Claims (1)

ERGOMONITOR for auto No. 901861, which differs from the fact that, in order to identify the types of arrhythmias during physical activity, an arrhythmia detector, a memory unit, a distributor, a reversible multi-bit counter, a reading unit and a third OR element are introduced into it, while the first output of the arrhythmia detector is connected to the input of the arrhythmia signal generator, the output of which is connected to the first control input · of the resolution block for indicating the load at which arrhythmia occurs, and with the first input of the third OR element, the second output of the arrhythmia detector is connected to the summing input a reverse counter, the subtracting input of which is connected to the second control input of the load indication resolution block, at which arrhythmia occurs, by the second input of the third OR element and the output of the reading block, the outputs of the reverse counter are connected to the inputs of the distributor and the third group of inputs of the load indication resolution block, at which arrhythmia, and the outputs of the distributor are connected to the service inputs of the memory block, the information inputs of which are connected to the outputs of the second register and the first group of inputs b the load indication permission block at which arrhythmia occurs, and the memory block outputs are connected to the third group of inputs of the load indication permission block at which arrhythmia occurs, while the output of the third OR element is connected to the second control input of the indicator.