KR20130017284A - Athletic system and method for strengthening muscular strength - Google Patents

Abstract

PURPOSE: An exercise method for strengthening muscle and a system therefor are provided to operate an exercise device in real time. CONSTITUTION: An exercise system for strengthening muscle comprises a drive unit(100) which drives a manipulation unit(400) as a user exercises, a sensing unit(200) which senses power applied to the manipulation unit as the user exercises, and a control unit(300) which drives the manipulation unit, sets a reversing value standard per each exercise section, and synchronizes the operation of the drive unit and power information. [Reference numerals] (100) Drive unit; (200) Sensing unit

Description

Strength strengthening exercise method and system {ATHLETIC SYSTEM AND METHOD FOR STRENGTHENING MUSCULAR STRENGTH}

The present invention relates to a method of strengthening muscle strength using an autonomous neo-economic model that enables the user to repeat the exercise of the correct exercise and the effective muscle parts and to perform the same repeatedly, without giving the user a sense of heterogeneity. .

Recently, as well as the field of rehabilitation and sports medicine, the interest in exercise is increasing due to the rapid aging and well-being craze. In particular, the strength strengthening exercise to prevent muscle weakness and rehabilitation due to aging should be properly exercised (posture, path, speed, strength) to reduce the risk of injury and to exercise effects.

However, conventional exercise equipments may be considered to be able to exercise or change the path by simply designating the exercise path of the exercise device as only one path, but these exercise devices do not feedback the movement of the body. By doing so, only a simple guideline can be performed.

These problems can be solved using wearable robots, but the concept of implementing exercise equipment using wearable robots has not been proposed yet. By feeding back the movements of exercise equipment users, they lead the appropriate path and exercise power. The technology is not presented.

In the case of the present invention to effectively teach and practice the exercise in such a situation, the user can be easily and intuitively taught the correct exercise method (path position, speed, acceleration).

In addition, it is possible to test / confirm step by step until mastered the exercise method taught, and to perform the exercise with the appropriate force for each path section. In addition, the user can avoid dangerous postures and paths during exercise, and this exercise system may be applied to rehabilitation patients, elderly weakness prevention and treatment, muscle strength training program for the general public, athletes.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

The present invention has been proposed to solve this problem, it is possible to teach the user the correct exercise method using a robot to perform the exercise, the situation is not awkward by driving the exercise equipment by feeding back the user's power in real time The purpose of the present invention is to provide a method and system for strengthening strength that allows a user to use an exercise device.

Muscle strength training method according to the present invention for achieving the above object, the teaching step of teaching the user the exercise method by operating the drive unit of the exercise system in the path of the required exercise; And setting the threshold criteria for each section by dividing the exercise path into a plurality of sections, and feeding back the user's force information in real time so that the force information and the operation of the driving unit are synchronized, but the user's force information is based on the threshold value in the corresponding section. And an exercise step of changing the reflection ratio of the user force information necessary for the operation of the driving unit by dividing the above case and the case below.

In the teaching step, the driving unit is operated by the taught path, but when the user senses the force information applied to the exercise system, the driving unit of the exercise system stops when the driving of the exercise system according to the force information of the user deviates from the taught path. Practice step to let; may further include.

The teaching step may be to operate the drive with the path, speed and acceleration of the required movement.

In the exercise step, when the feedback force information of the user is greater than or equal to the threshold criterion in the corresponding section, the reflection ratio of the user force information may be larger than when the force information is smaller than the threshold criterion.

The exercise step may be synchronized by causing the driving unit of the exercise system to follow this in real time according to the feedback force information of the user.

On the other hand, the muscle strengthening exercise system for implementing the strength strengthening exercise method, the drive unit for driving the operation unit to be manipulated as the user exercise; Sensing unit for sensing the force applied to the operation unit as the user exercises; And operating the drive unit according to a predetermined exercise path, dividing the exercise path into a plurality of sections, setting a threshold reference for each section, and feeding back the force information of the user from the sensing unit in real time to operate the force information and the drive unit. And a controller configured to change the reflection ratio of the user force information required for the operation of the driving unit by dividing the case where the user force information is equal to or greater than the threshold criterion in the corresponding section.

The sensing unit may sense the user's force from the driving unit by seeing the user's force transmitted to the driving unit through the manipulation unit as a reaction force.

According to the strength strengthening exercise method and system having the above-described structure, it is possible to utilize the exercise equipment for various purposes by teaching the user the correct exercise method and inducing the user to exercise based on this.

In addition, the reflection ratio of the user's power information is set differently according to the situation, so that the user can learn and perform the exercise in a state where the user feels awkward as much as possible.

In addition, by sensing the power of the person in real time and following it, the user can exercise freely while feeling resistance as naturally as possible.

1 is a view showing a muscle strengthening exercise system according to an embodiment of the present invention.
Figure 2 is a flow chart of the strength training method using the strength training system of Figure 1;
Figure 3 is a detailed flowchart of the practice step of the strength training method shown in FIG.

Hereinafter, with reference to the accompanying drawings looks at the muscle strengthening exercise method and system according to a preferred embodiment of the present invention.

1 is a view showing a muscle strength exercise system according to an embodiment of the present invention, the muscle strength exercise system of the present invention, the driving unit 100 for driving the operation unit 400 to be manipulated as the user exercise; Sensing unit 200 for sensing the force applied to the operation unit as the user exercises; And operating the drive unit according to a predetermined exercise path, dividing the exercise path into a plurality of sections, setting threshold criteria for each section, and feeding back the force information of the user from the sensing unit 200 in real time to the force information and the driving unit. The control unit 300 to synchronize the operation of (100), but to change the reflection ratio of the user force information required for the operation of the drive unit 100 by dividing the case when the user's force information is greater than or equal to the threshold reference in the corresponding section; Include.

In addition, the sensing unit 200 may sense the user's power from the driving unit 100 by looking at the user's force transmitted to the driving unit through the manipulation unit 400 as a reaction force.

Specifically, the strength training system of the present invention is composed of a driving unit 100 constituting the exercise device, the sensing unit 200 and the control unit 300 for controlling the driving unit 100. The driving unit 100 may implement a joint of the wearable exercise device using a motor. And the control of the motor is to receive the information of the sensing unit 200 in the control unit 300 to properly control.

The sensing unit 100 may measure the force applied by the user through the strain gauge of the operation unit 400, or may measure the degree of force applied by the user using the counter electromotive force applied to the motor.

The control unit 300 obtains information on the force of the person from the sensing unit 200 and sets the reflecting ratio of the force information of the feedbacked person in determining the output signal transmitted to the driving unit 100.

For example, the control unit 300 of FIG. 1 may be implemented as a control of the driving unit 100 through the autonomous new economics theory. Autonomous neo-economic theory is the theory of robots' control method for implementing motions such as highly responsive biological motions. This is achieved through the interaction of the muscle-skeletal system of the organism with the neural vibrators that drive it.

Therefore, a mathematically modeled neural vibrator may be combined with a mechanical system, and sensing information for autonomous response of the neural vibrator model may be implemented to sense an external environment change through feedback. Such a system exhibits an appropriate periodic motion pattern by the neural vibrator, and this motion pattern is capable of generating motion suitable for the external environment by the feedback sensing signal. Therefore, if the system is applied to the robot, the efficient motion of the nerves, muscles, and skeletal systems seen in living organisms can be realized by the robot. As a result, the robot can properly display autonomous motion according to any disturbance.

The controller of the present invention may be applied to a controller using such an autonomous economic model, and basically detects an external force applied by a user in a periodically repeated motion from the sensing unit and reflects it to the driving signal of the driving unit appropriately. The drive is to move.

Appropriate exercise may be implemented by arbitrarily adjusting the reflection ratio of the force information of the user fed back in calculating an operation signal applied to the driving unit in some cases. In other words, the autonomic nervous system of a person who performs periodic movements such as walking or breathing reflexively adapts to disturbance, and such a system can be implemented as a mechanical system through a mass-spring-damper model. Disturbance, that is, the sensitivity of the tracking degree to the external force is determined by adjusting the gain value which is a ratio reflecting the sensed external force. Therefore, when adjusting the reflection ratio of the user force information, the user may feel the degree of reaction force felt from the exercise equipment differently. And this is to implement the ability to induce the user to exercise in the right way.

Specifically, FIG. 2 is a flowchart of a strength strengthening exercise method using the strength strengthening exercise system of FIG. 1, and FIG. 3 is a detailed flowchart of a practice step among the strength strengthening exercise methods shown in FIG. 2. Strength strengthening exercise method, the teaching step of teaching the user the exercise method by operating the drive unit of the exercise system in the path of the required exercise (S100); And setting the threshold criteria for each section by dividing the exercise path into a plurality of sections, and feeding back the user's force information in real time so that the force information and the operation of the driving unit are synchronized, but the user's force information is based on the threshold value in the corresponding section. It includes; and the exercise step (S300) for changing the reflection ratio of the user force information required for the operation of the driving unit by dividing the above case and less than.

And the teaching step (S100), while operating the drive unit in the taught path, the user senses the force applied to the exercise system, if the drive of the exercise system according to the user's force information is out of the taught path exercise system Practice step of stopping the drive of the (S200); may further include.

First, in the teaching step (S100) to operate the drive of the exercise system to teach the user how to exercise. That is, the user wears the wearable exercise equipment and the robot is driven in the same manner as the movement method previously inputted to the controller of the robot. At this time, the teaching step (S100) is to operate the drive with the path, speed and acceleration of the required motion. That is, the teaching motion of the robot input to the driving unit is to be determined as a path, speed and acceleration for each predetermined section.

The user relaxes his or her body and perceives the movement along the path, speed, and acceleration that the exercise device teaches.

Then may go through the practice step (S200). In the practice step (S200), the driving unit is operated by the taught path, but when the user senses the force information applied to the exercise system and the driving of the exercise system according to the user's force information deviates from the taught path, the driving unit of the exercise system You can stop it. That is, as shown in FIG. 3, when the user performs the exercise as taught after the teaching step, if the user deviates from the taught path, the driving unit of the exercise device is stopped so that the user feels a large load. Then, the user will naturally try in the other direction, and if the attempt is correct, the control unit will increase the power reflection ratio of the user again to control the driving unit so that the user can feel the appropriate load and exercise.

After that, it can be configured to give different loads for each section according to a preset exercise section. That is, in the earnest exercise phase, the user assumes that they have already learned the path, speed, and acceleration of the exercise, and starts the exercise.

In the case of regular repetitive exercise, if different loads are applied to each section, the user may exercise differently by setting the intensity for each muscle of the required area, and thus it will be effective when trying to reinforce a specific part.

In the exercise phase, different threshold values may be set for each section, and if the feedback information of the user is greater than the threshold value in the corresponding section, the reflection ratio of the user force information may be made larger than if it is less than the threshold value. S300). Then, the exercise step (S300) to synchronize the drive unit of the exercise system to follow this in real time according to the feedback force information of the user.

That is, in general, if the user is properly exercising along the exercise path, the exercise device reflects the user's power in real time through the operation of the drive unit according to the autonomous neo-economic theory according to the force information applied by the user, thereby following him. It allows the user to exercise without feeling awkward and feeling constant reaction force. However, when a force above the threshold value required in the corresponding section is not detected, the reflectance ratio of the user's force information is reduced, and accordingly, the exercise device follows the user's power less. Thus, the user will naturally feel more load and will be more empowered to speed up the exercise as taught.

Then, the force applied by the user will be increased. Accordingly, the user's power exceeds the threshold value, and thus the ratio of the user's force information reflected in the exercise equipment is increased, so that the user can feel the natural and moderate exercise load again.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: driving unit 200: sensing unit
300: control unit 400: operation unit

Claims (7)

Teaching step (S100) for teaching the user how to exercise by operating the drive unit of the exercise system in the path of the required exercise; And
By dividing the exercise path into a plurality of sections, a threshold value is set for each section, and the user's force information is fed back in real time so that the force information and the operation of the driving unit are synchronized, but the user's force information is greater than or equal to the threshold value in the corresponding section. Strengthening exercise method comprising a; and the exercise step (S300) for changing the reflection ratio of the user force information required for the operation of the driving unit by dividing the case less than. The method according to claim 1,
The teaching step (S100) operates the drive unit in the taught path, but if the user senses the force information applied to the exercise system, the drive of the exercise system according to the user's force information is out of the taught path of the exercise system Exercise step of stopping the driving unit (S200); Strength training method further comprising. The method according to claim 1,
The teaching step (S100) is a strength strengthening exercise method, characterized in that for operating the drive unit to the path, speed and acceleration of the required movement. The method according to claim 1,
The exercise step (S300) is a strength strengthening exercise method characterized in that if the user's force information fed back is greater than the threshold value in the corresponding section than the threshold value of the user's force information is greater than. The method according to claim 1,
The exercise step (S300) is a strength strengthening exercise method characterized in that by synchronizing the drive unit of the exercise system in accordance with the feedback of the user's force information in real time. A driving unit 100 driving the operation unit 400 to be manipulated as the user exercises;
Sensing unit 200 for sensing the force applied to the operation unit as the user exercises; And
The driving unit is operated according to a predetermined exercise path, the exercise path is divided into a plurality of sections, and a threshold criterion is set for each section, and the force information and the driving unit are fed back in real time to the user's force information from the sensing unit 200. The control unit 300 to change the reflection ratio of the user force information necessary for the operation of the driving unit 100 by dividing the case that the operation of the user 100 is synchronized, but if the user's force information is greater than or equal to the threshold value in the corresponding section; Strength strengthening exercise system. The method of claim 6,
The sensing unit 200 is a strength strengthening exercise system, characterized in that for sensing the user's force from the drive unit 100 in view of the user's force transmitted to the drive unit through the operation unit 400.

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