RU2489177C2 - Monitoring system of bench press in powerlifting - Google Patents

Abstract

FIELD: sport.

SUBSTANCE: monitoring system of bench press in powerlifting relates to medical and computer technology and can be used in sport for training, particularly the athletes-weightlifters and their selection for the championships of various levels. The monitoring system of bench press in powerlifting comprises a bench for bench press in powerlifting, a rack with the object of manipulation (with a bar) and guiding its allowable displacement, a group of sensors of loading the muscles of the object of monitoring, four power-coordinating platforms, with four groups of sensors, reflecting the shift of the object of monitoring relative to the bench, a sensor of dynamics of the object of manipulation, a concentrator, a processor, and two indicators. The monitoring system of bench press in powerlifting provides control and registration of loading a combination of muscle groups of the object of monitoring, processing and analysis ballistograms and dynamics of loading the bench and the dynamics of movement of the object of manipulation and the elimination of subjectivity in evaluation of the results of monitoring. The system is implemented using modern components, automated and is acceptable for objects of monitoring with arbitrary capabilities, including objects of monitoring with disabilities.

EFFECT: implementation of more precise control and on-line visualisation of the state of muscle groups of the trainee.

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Description

The invention of the “Bench Press Powerlifting Monitoring System” relates to medical and computer technology and can be used for sports purposes for training, in particular, weightlifting athletes and their selection for championships at various levels.

The known "Device for monitoring the physical state of biological objects", containing a clock pulse generator, the output of which is connected to the information input of the first frequency divider, the output of which through the exposure level setting unit is connected to the input of the light and sound exposure level unit, the first sensor, the group of load signal signals muscles, the output of which is connected to the input of the first pulse shaper, frequency setting unit, first and second counters, trigger and adder, heart rate sensor is reduced th, exposure time setting unit, second and third frequency dividers, AND element groups, OR element group, AND, OR, NOT elements, first display unit, parameter dispersion field boundary determination unit, second trigger, rectangular pulse shapers, delay elements, analog a digital converter, a switch, and a third counter, wherein the discharge outputs of the first counter are connected to the inputs of the switch, the output of the heart rate sensor is connected through a second square-wave driver to the counting input of the counter, the information input of the second frequency divider is connected to the output of the clock generator, and the installation inputs are connected respectively to the outputs of the exposure time setting unit, the installation input of the first trigger is the device start input, its reset input is connected to the output of the second frequency divider, a single output of the first trigger connected to the triggering input of the clock generator, the output of which is connected to the information input of the third frequency divider, the installation inputs of which are connected to Accordingly, with the outputs of the frequency setting unit, the output of the third frequency divider is connected to the installation input of the first counter, the output of the switch is connected to the input of the third rectangular pulse shaper and to the input of the first NOT element, the output of the first rectangular pulse shaper is connected to the first input of the first AND element, the second input of which connected to the direct output of the first trigger, the third input to the output of the first element NOT, the output of the third driver of rectangular pulses is connected to the first input of the element OR , the second input of which is connected to the output of the first element And, and the output is connected to the counting input of the second trigger, the first and second outputs of which are connected respectively to the inputs of the fourth and fifth formers of rectangular pulses, the outputs of which are connected respectively to the installation inputs of the second and third counters, the first inputs the second and third elements And are connected to the output of the clock generator, and its outputs are connected respectively to the counting inputs of the second and third pulse counters, the second inputs the second and third elements And are connected respectively to the first and second outputs of the second trigger, the outputs of the bits of the second pulse counter are connected respectively to the first inputs of the elements And of the first group, the second inputs of which are connected to the second output of the second trigger, the outputs of the bits of the third counter are connected respectively to the first inputs of the elements And the second group, the second inputs of which are connected to the first output of the second trigger, the outputs of the elements And the first and second groups are connected respectively with the first and second the inputs of OR elements of the group whose outputs are connected to the installation inputs of the first frequency divider, to the information inputs of the first display unit and the unit for determining the boundaries of the dispersion field of parameters, the second and third display units, the first and second groups of outputs of which are connected respectively to the inputs of the second and third display units , the output of the OR element through the first delay element is connected to the control input of the analog-to-digital converter and to the input of the second delay element, the information input is analog-to-digital a converter coupled to an output load sensor muscle groups of signals, and the output connected to the input of summands of the adder, which outputs are connected to inputs of the fourth display unit, the control input of the adder coupled to the output of the second delay element [1]. Italicized - common signs with the subject of the claimed invention.

It is known that the “Device for training muscle muscles” contains a clock generator, a first controllable pulse frequency divider connected by an information input to the output of a pulse generator, a gain block connected by an input to the output of the first pulse repetition rate, a biostimulation block connected by an input to the output of the block amplification, the first sensor, the sensor of contraction of the loaded muscle group in contact with the object of training, the heart rate sensor of the object of training, in contact connecting with the training object, a block for setting threshold values for the heart rate of the training object, a second controllable pulse-rate divider connected by an information input to the output of the clock generator, and control inputs in bits with the outputs of the block for setting threshold values for the heart rate of the training object, the first summing a pulse counter connected to the input of zeroing with the output of the second pulse frequency divider, a switch connected to the inputs bitwise with the outputs of the first pulse counter, the first pulse former connected to the input to the output of the switch, the element NOT connected to the input to the output of the switch, the first AND connected to the first input to the output of the NOT element, the OR element connected to the inputs of the outputs of the pulse former and the first AND element, a counting trigger connected by an input to the output of an OR element, a second pulse shaper connected by an input to the first output of a counting trigger, a third pulse shaper connected by an input to the second output of the count trigger, the second element And, connected by the first input to the output of the clock generator, and the second input to the first output of the counting trigger, the third element And, connected by the first input to the output of the clock pulse, and the second input to the second output of the counting trigger, second a pulse counter connected to the zeroing input with the output of the second pulse shaper, and a counting input to the output of the second And element, a third pulse counter connected to the zeroing input with the output of the third pulse shaper, and input - with the output of the third AND element, the first group of AND elements connected by the first inputs to the second output of the counting trigger, and the second inputs — bitwise with the outputs of the third pulse counter, the second group of AND elements connected by the first inputs to the first output of the counting trigger, and the second inputs - bitwise with the outputs of the third pulse counter, a group of OR elements connected bitwise with the first inputs with the outputs of the first group of AND elements and the second inputs - with the outputs of the second group of AND elements, and the outputs with the inputs the control unit of the first pulse repetition rate divider, the first indicator connected bitwise to the outputs of the group of OR elements, the exposure time setting unit, the third pulse repetition rate divider connected by the information input to the output of the contraction sensor of the loaded muscle group of the training object, and the control inputs - bitwise to the outputs block for setting the exposure time, a static trigger connected by a single input to the input of the start of the “Device for training muscle muscles” control, zero input to output m of the third pulse frequency divider, and with a single output - with the control input of the clock pulse generator and with the second input of the first element And, the third pulse shaper connected to the input with the output of the sensor of the load signals of the muscle group of the training object, and the output - with the third input of the first element And , the fourth pulse shaper connected to the input with the output of the heart rate sensor of the training object, and the output to the counting input of the first pulse counter, the first delay element connected to along with the output of the OR element, an analog-to-digital converter connected to the information input with the output of the sensor of loading signals of the muscle group of the training object, and the control input with the output of the first delay element, the second delay element connected to the input with the output of the first delay element, the unit for determining the boundaries of the dispersion field a parameter connected by inputs bitwise to the outputs of the group of elements OR, an adder connected by information inputs bitwise with the outputs of the analog-to-digital converter, and the control input the output of the second delay element, the second and third indicators connected by bit inputs with the first and second outputs of the block for determining the parameter dispersion field boundaries, and the fourth indicator connected by bit inputs with the outputs of the adder [2]. Italicized - common signs with the subject of the claimed invention.

It is known "Device for controlling the rehabilitation of human muscle functions", containing a clock pulse generator, a first controlled pulse frequency divider connected by an information input to the output of a pulse generator, a gain unit connected by an input to the output of the first pulse frequency divider, a biostimulation block connected by an input to the output of the block amplification, the first sensor, the sensor of the contraction of the loaded muscle group of the rehabilitation object in contact with the rehabilitation object, the heart rate sensor of the object a rehabilitation unit in contact with the rehabilitation object, a unit for setting threshold values for the heart rate of the rehabilitation object, a second controllable pulse frequency divider connected by an information input to the output of the generator, and control inputs in bits with the outputs of the unit for setting the threshold values for heart rate, the first summing pulse counter, connected to the zeroing input with the output of the second frequency divider, the switch connected to the inputs bitwise with the outputs of the first pulse counter is the first a pulse shaper connected by an input to the output of the switch, an element NOT connected by an input to the output of the switch, a first AND element connected by a first input to an output of a NOT element, an OR element connected by inputs to the outputs of a first pulse shaper and a first AND element, a counting trigger connected by an input with the output of the OR element, the second pulse shaper connected by the input to the first output of the counting trigger, the third pulse shaper connected by the input with the second output of the counting trigger, the second element And, with a single first input with the output of the generator, and a second input with the first output of the counting trigger, the third element And, connected by the first input to the output of the generator, and the second input - with the second output of the counting trigger, the second pulse counter connected to the input of zeroing with the output of the second pulse shaper and the counting input - with the output of the second element And, the third pulse counter connected to the zeroing input with the output of the third pulse shaper, and the counting input - with the output of the third element And, the first group of elements And, with the first inputs with the second output of the counting trigger, and the second inputs - bitwise with the outputs of the third pulse counter, the second group of AND elements connected by the first inputs with the first output of the counting trigger, and the second inputs - bitwise with the outputs of the third pulse counter, a group of OR elements connected bitwise the first and second inputs with the outputs of the first group and the second group of AND elements, and the outputs with the control inputs of the first controlled pulse frequency divider, the first display unit connected by in series with the outputs of the group of OR elements, a block for setting the exposure time, a third pulse frequency divider connected by an information input to the output of the sensor for reducing the loaded muscle group, and control inputs in bits with the outputs of the block for setting the exposure time, a static trigger connected by a single input to the device start input , zero input - with the output of the third pulse frequency divider, and a single output - with the control input of the generator and with the second input of the first element And, the fourth pulse shaper, connected to the input with the output of the sensor for reduction of the loaded muscle group, and the output to the third input of the first element And, the fifth pulse shaper connected to the input to the output of the heart rate sensor, and the output to the counting input of the first pulse counter, the first delay element connected to the output OR element, an analog-to-digital converter connected by an information input to the output of the sensor of the loaded muscle group, and a control input with the output of the first delay element, the second delay element connected by the input with the output of the first delay element, the second delay element connected by the input to the output of the first delay element, a block for determining the boundaries of the parameter dispersion field, connected bitwise to the outputs of the group of OR elements, an adder connected to the information inputs bitwise to the outputs of the analog-to-digital converter, and the control input with the output of the second delay element, the second and third display units, connected bitwise inputs with the first and second respectively outputs of the block definition boundaries For the variance of the parameter, and the fourth display unit, connected by the inputs bitwise to the outputs of the adder [3]. Italicized - common signs with the subject of the claimed invention.

It is known "Device for controlling the rehabilitation of human muscle functions", containing a clock pulse generator, a first controlled pulse frequency divider connected by an information input to the output of a pulse generator, a gain block connected by an input to the output of the first pulse frequency divider, a biostimulation block connected by an input to the output of a gain block , the first sensor, the sensor of contraction of the loaded muscle group in contact with the rehabilitation object, the heart rate sensor of the rehabilitation object in contact with the rehabilitation facility, the unit for setting threshold values for the heart rate of the object, the second controllable pulse frequency divider connected by the information input to the output of the pulse generator, and the control inputs in bits with the outputs of the unit for setting the threshold values for the heart rate, the first summing pulse counter connected to the zeroing input with the output of the second frequency divider, the switch connected by inputs to the outputs of the first pulse counter, the first pulse shaper connected along with the output of the switch, the element NOT connected by the input to the output of the switch, the first AND element connected by the first input to the output of the NOT element, the OR element connected by the inputs to the outputs of the pulse shaper and the first AND element, the counting trigger connected by the input to the output of the OR element, a second pulse shaper connected by an input to the first trigger output, a third pulse shaper connected by an input to a second trigger output, a second AND element connected by a first input to a pulse generator output, and a second running with the first trigger output, the third AND element connected to the second output of the pulse generator by the first input and the second output to the second trigger output, the second pulse counter connected to the zeroing input to the output of the second pulse former, and the counting input to the output of the second And element, the third pulse counter connected to the zeroing input with the output of the third pulse shaper, and the counting input to the output of the third AND element, the first group of AND elements connected by the first inputs to the second trigger output, and the second to moves — bitwise with the outputs of the third pulse counter, a second group of AND elements connected by the first inputs to the first output of the trigger, and second inputs — bitwise with the outputs of the third pulse counter, a group of OR elements connected bitwise by the first and second inputs with outputs of the first group and second group AND elements, and outputs - with the control inputs of the first pulse frequency divider, the first display unit connected bitwise to the outputs of the group of OR elements, the exposure time setting unit, the third frequency divider pulses connected by an information input to the output of the sensor for reducing the loaded muscle group of the object, and the control inputs - bitwise with the outputs of the exposure time setting unit, a static trigger connected by a single input to the device start input, a zero input - with the output of the third frequency divider, and a single output - with a control input of the pulse generator and with the second input of the first element And, the fourth pulse shaper connected to the input with the output of the sensor of the load signals of the muscle group, and the output from the third by the input of the first AND element, the fifth pulse shaper connected by the input to the output of the heart rate sensor, and the output - with the counting (information) input of the first pulse counter, the first delay element connected by the input to the output of the OR element, analog-to-digital converter (ADC), connected to the information input with the output of the muscle group loading signal sensor, and the control input with the output of the first delay element, the second delay element connected to the input with the output of the first delay element, the determination unit the boundaries of the parameter dispersion field, connected bitwise by inputs with the outputs of a group of OR elements, an adder connected by information inputs bitwise with the outputs of the ADC, and a control input with the output of the second delay element, the second and third display units connected by bitwise inputs with the first and second outputs of the determination unit the boundaries of the dispersion field of the parameter, and the fourth display unit connected by inputs bitwise to the outputs of the adder [4]. Italicized - common signs with the subject of the claimed invention.

The disadvantages of the known devices is the limited functionality, which is associated with the permissibility of ergometry of individual muscle groups of a person.

Known as being closer to the subject of the claimed invention, an “Ergometer” comprising a clock pulse generator, a first controllable pulse frequency divider connected by an information input to the output of a pulse generator, a gain unit connected by an input to the output of the first pulse frequency divider, a biostimulation unit connected the input with the output of the amplification unit, the first sensor, the sensor of contraction of the loaded muscle group in contact with the rehabilitation object, the heart rate sensor of the rehabilitation object, con clocking with the rehabilitation object, the unit for setting threshold values for the heart beat frequency of the object, the second controllable pulse frequency divider connected by the information input to the output of the pulse generator, and the control inputs in bits with the outputs of the unit for setting threshold values for the heart beat frequency, the first summing pulse counter connected by the input zeroing with the output of the second frequency divider, a switch connected by inputs to the outputs of the first pulse counter, the first driver c, connected by the input to the output of the switch, the element NOT connected by the input to the output of the switch, the first AND element connected by the first input to the output of the element NOT, the OR element connected by the inputs to the outputs of the pulse shaper and the first element And, the counting trigger connected by the input to the output OR element, a second pulse shaper connected by an input to the first trigger output, a third pulse shaper connected by an input to a second trigger output, a second AND element connected by a first input to an output of an impu Ls, and the second input with the first trigger output, the third element And, connected by the first input to the output of the pulse generator, and the second input with the second output of the trigger, the second pulse counter, connected by the zeroing input with the output of the second pulse shaper, and the counting input - with the output of the second element And, the third pulse counter connected to the zeroing input with the output of the third pulse former, and the counting input to the output of the third element And, the first group of elements And connected by the first inputs to the second trigger output pa, and the second inputs - bitwise with the outputs of the third pulse counter, the second group of AND elements connected by the first inputs to the first output of the trigger, and the second inputs - bitwise with the outputs of the third pulse counter, the group of OR elements connected by bit the first and second inputs with the outputs of the first groups and the second group of AND elements, and the outputs - with the control inputs of the first pulse frequency divider, the first display unit connected bitwise to the outputs of the group of OR elements, the exposure time setting unit, the third case a pulse frequency amplifier connected to the information input with the output of the sensor for reducing the muscle group of the object being loaded, and the control inputs - bitwise with the outputs of the exposure time setting unit, a static trigger connected by a single input to the device start input, a zero input - with the output of the third frequency divider, and single the output is with the input of the control of the pulse generator and with the second input of the first element And, the fourth pulse shaper connected by the input to the output of the sensor signals the loading of muscle groups, and in - with the third input of the first AND element, the fifth pulse shaper connected by the input to the output of the heart rate sensor, and the output - with the counting (information) input of the first pulse counter, the first delay element connected by the input to the output of the OR element, an analog-to-digital converter ( ADC), connected to the information input with the output of the sensor for loading the muscle group, and the control input with the output of the first delay element, the second delay element connected to the input with the output of the first delay element, b ok determination of the boundaries of the dispersion field of the parameter, connected bitwise by inputs with the outputs of a group of OR elements, an adder connected by information inputs bitwise with the outputs of the ADC, and a control input with the output of the second delay element, the second and third display units connected by bitwise inputs with the first and second outputs respectively unit for determining the boundaries of the dispersion field of the parameter, and a fourth display unit connected by inputs bitwise to the outputs of the adder [5]. Italicized - common signs with the subject of the claimed invention.

Its disadvantages are the limited functionality, which is associated with the impossibility of ergometry of muscle groups in the dynamics and statics of the monitoring object, the dynamics of the movement of the manipulated object and the possibility of subjectivity in assessing the performance of the monitoring object’s operations with the manipulated object ..

The expansion of the functionality of the claimed "bench press powerlifting monitoring system" consists in providing real-time monitoring and visualization of the state of muscle groups (arms, legs and press) of the monitoring object, contact of the back with the bench and the dynamics of the manipulation object with an unconditional exclusion of subjectivity in the assessment monitoring results.

The technical result is achieved by the fact that a bench for bench press in powerlifting, a first and second power-coordinate platform installed on a bench for bench press in the bench press bench are installed in the powerlifting monitoring system, containing a group of first sensors in contact with the monitoring object and the first and second indicators powerlifting, third and fourth force-coordinate platforms, manipulation object (bar), groups of second, third, fourth and fifth sensors installed, respectively, in the first, second, third and fourth systems locomotive platforms, a hub connected by inputs to the outputs of the second, third, fourth, fifth and sixth sensors, a processor connected by a first input to an output of the first indicator (myomonitor), the inputs of which are connected to the outputs of the first sensors of the same name, the second input-output - with the input-output of the hub, and the output - with the input of the second indicator (display, monitor)

The arrangement of the silo-coordinate platforms in the hardware-software complex for sensing the bench for the bench press in powerlifting, the manipulation object and the second, third, fourth, fifth and sixth sensors is shown in Fig. 1, and the functional diagram of the bench press monitoring system in powerlifting is shown in Fig. 2 .

The bench press powerlifting monitoring system includes (see FIG. 1 and FIG. 2) bench 1 for bench press in powerlifting, the first 2 and second 3 force coordinate platforms installed on bench 1, third 4 and fourth 5 force coordinate platforms, manipulation object 6 (bar), a group of 7 first sensors in contact with the monitoring object, a group of second 8, third 9, fourth 10 and fifth 11 sensors installed respectively in the first 2, second 3, third 4 and fourth 5 power coordinate platforms, the sixth sensor 12, installed at facility 6 manipulated a hub, 13 connected by inputs to the outputs of the sensors of the same name 8, 9, 10, 11 and 12, a first indicator 14 (myomonitor) connected by inputs to the outputs of the sensors of the same name 7, a processor 15 connected by the first inputs / outputs to the input / output of the hub 13 and the second input-output - with the inputs and outputs of the first indicator (myomonitor), and the second indicator 16 (display, monitor) connected to the inputs of the outputs of the processor 15.

The bench press monitoring system in powerlifting works as follows.

In the initial position at the outputs of the sensors 7, 8, 9, 10, 11 and 12 zero potentials are generated. The monitoring object (weightlifter) is placed on bench 1 for the bench press, the back on platform 2, and the pelvis on platform 3. so as to be symmetrical with respect to bench 1, its legs are placed on platforms 4 and 5. wherein the outputs of the sensors are 8, 9 , 9, 10 and 11, respectively, are equal to each other. When manipulating (when pressing) the object 6, the load on the platforms 2, 3, 4 and 5 increases, but while maintaining symmetry, the output state of the sensors in each group is equal. Sensor 12 (accelerometer) generates at its outputs information about the accelerations, inclinations and vibrations of the manipulation object, and sensor group 7 generates real-time information on the muscle loading of the monitoring object (the person whose press is controlled). At the same time, information on the statics and dynamics of the control parameters is graphically displayed by the first indicator 14 (myomonitor) (for the monitoring object) and the second indicator 16 (display, monitor) graphically and numerically in the tables for an indefinite number of people. In addition, all information, including a ballogram, is recorded in the memory of processor 15, which is available at arbitrary points in time for analysis and / or confirmation (refutation) of the monitoring results of external observers. Zeroing the second sensors of group 8 reflects the separation of the back from the bench for the bench press, and zeroing the sensor 12 indicates the fixation of the manipulation object 6, which eliminates the subjectivity of external observers.

The information obtained in this way qualitatively and numerically reflects the state of the monitoring object in real time, it is objective and highly representative, which makes it possible to make unambiguous decisions on the degree of readiness of the monitoring object for planned activities without causing harm to its health and excluding subjectivity.

Information sources

1. Patent SU 1336034, G06F 15/42. Bull. No. 33, 09/07/1987.

2. Patent BY 6590, A61N 1/08, G06F 159: 00, 12.30.2004.

3. Patent RU 2153363, A61N 1/08, G06F 159: 00. Bull. No. 21, 07/27/2000.

4. Patent RU 77547, A61N 1/08, G06F 15/00. Bull. No. 30, 10.27.2008.

Claims (1)

Powerlifting bench press monitoring system, containing a group of first sensors in contact with the monitoring object, and first and second indicators, characterized in that it additionally includes a bench press for powerlifting bench presses, the first and second power-coordinate platforms installed on the bench bench in powerlifting, the third and fourth force-coordinate platforms, the manipulation object (bar), groups of second, third, fourth and fifth sensors installed respectively in the first, second, third and fourth forces ordinate platforms, a hub connected by inputs to the outputs of the second, third, fourth, fifth and sixth sensors of the same name, a processor connected by the first input to the input-output of the first indicator (myomonitor), the inputs of which are connected to the outputs of the first sensors of the same name, the second input-output - with the input-output of the hub, and the output - with the input of the second indicator (display, monitor).

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