KR20160046265A - movement power test method, and movement test system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an exercise ability test, and more particularly, to an exercise ability test method and an exercise ability test system for inspecting an exercise ability of a subject.
The present invention relates to a measuring apparatus comprising: a plurality of measurement booths partitioned into spaces; An ID recognition unit installed in the measurement booth for recognizing a user ID entering the measurement booth and an operation for inspecting the designated motion ability assigned to the measurement booth after recognizing the ID recognition unit installed in the measurement booth And a sensing unit for sensing a result of a movement corresponding to the designated exercise capacity, the sensing unit being installed in the measurement booth.

Description

[0001] The present invention relates to a movement test method and a movement test system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an exercise ability test, and more particularly, to an exercise ability test method and an exercise ability test system for inspecting an exercise ability of a subject.

Adults' height and health are determined according to the growing period of infancy and childhood, and the health status and athletic ability of the growing child are very important matters for the parents.

Therefore, it is necessary to provide a proper prescription method according to the measurement of the health condition and exercise ability of the child and the result of the measurement.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and apparatus for measuring an athletic ability and an athletic performance measuring system capable of automatically measuring an athletic ability, a cognitive ability, and the like for a user such as a child.

Another object of the present invention is to provide a method and apparatus for automatically measuring exercise capacity, cognitive ability and the like for a user such as a child and measuring exercise capacity capable of providing an appropriate prescription such as recommended lunch, Method and exercise capacity measurement system.

The present invention has been made in order to achieve the above-mentioned object of the present invention. An ID recognition unit installed in the measurement booth for recognizing a user ID entering the measurement booth and an operation for inspecting the designated motion ability assigned to the measurement booth after recognizing the ID recognition unit installed in the measurement booth And a sensing unit for sensing a result of a movement corresponding to the designated exercise capacity, the sensing unit being installed in the measurement booth.

The method for measuring exercise capacity and the exercise capacity measuring system according to the present invention are characterized in that each of a plurality of measurement booths partitioned into spaces is provided with a sensing unit for inspecting a designated exercise capacity, There is an advantage that the user's exercise ability can be efficiently checked by displaying the result.

In addition, the method for measuring exercise capacity and the exercise capacity measuring system according to the present invention may include a sensing unit for inspecting a designated exercise capacity in each of a plurality of measurement booths partitioned into spaces, According to the results of the test, there is an advantage that convenience for the user can be provided by providing a prescription for a recommended diet, recommendation exercise and the like.

Particularly, the method and apparatus for measuring exercise capacity according to the present invention are provided as a play form in the measurement of the designated exercise capacity, so that the child who is the measurement target can naturally measure the exercise ability without being bored.

1 is a conceptual diagram showing the arrangement of a measurement booth of an athletic performance measurement system according to the present invention.
2 is a block diagram showing a basic configuration of an athletic performance measuring system according to the present invention.
3 is a block diagram showing a specific configuration of the exercise ability measuring system of Fig.
FIG. 4 is a conceptual diagram showing examples of booths constituting the exercise ability measuring system according to the present invention.
FIG. 5 is a table illustrating tests, i.e., test items, in each of the booths shown in FIG.
FIG. 6 is a table showing motion measurements at the first booth among the booths shown in FIG.
7 is a table showing motion measurements at the second booth of the booths shown in FIG.
8 is a table showing motion measurements in the third booth of the booths shown in FIG.
9 is a table showing motion measurements at the fourth booth of the booths shown in FIG.
10 is a table showing motion measurements at the fifth booth of the booths shown in FIG.
FIG. 11 is a table showing motion measurements at the sixth booth of the booths shown in FIG.
FIG. 12 is a table showing a measurement method for operation of the booths shown in FIG.
FIG. 13 is a table showing examples of displaying measurement results measured in the respective booths shown in FIG.

Hereinafter, a method and a system for measuring exercise capacity according to the present invention will be described with reference to the accompanying drawings.

The exercise capacity measuring system according to the present invention comprises: a plurality of measurement booths partitioned into spaces, as shown in FIGS. 1 and 2; A plurality of measurement booths partitioned into spaces; And a motion ability checking unit installed in the measurement booth and measuring the motion ability designated in the measurement booth.

1, the measurement booths are divided into spaces so that the athletic performance measuring devices can be installed, and various arrangements and configurations according to an athletic performance measuring device for inspecting a designated athletic ability designated in the measurement booth This is possible.

In particular, the number and arrangement of the measuring booths can be determined according to the number and characteristics of the athletic capabilities to be measured.

For example, as shown in FIGS. 4 and 5, the plurality of measurement booths may correspond to six test items, and may include a first booth for measuring muscle strength, a second booth for measuring balance, A fourth booth for measuring the instantaneous force, a fifth booth for measuring flexibility, and a sixth booth for measuring muscle endurance.

The first booth is configured to induce a motion for strength measurement, such as a long jump, as a booth to check the strength of the user, as shown in Figures 4, 5 and 6.

For example, when the user enters the first booth, the athletic performance measuring unit recognizes the user's ID at the same time as the first booth is entered, and induces the user to take a long jump.

Specifically, the user is moved to the execution position, and then the in-place long jump is instructed. Here, the movement and direction of the user can be performed by various methods such as a sound instruction and a screen instruction.

At this time, the first booth is provided with one or more detection sensors for measuring the distance after the user makes a long jump, thereby measuring the user's long jump result.

Meanwhile, the measurement result of the detection sensor is transmitted to the center PC, that is, the server, by wire or wirelessly.

In addition, a background image can be displayed using a projector or a display device so that the user can increase the interest when performing the long jump.

The second booth is configured as a booth for checking the balance of the user, as shown in Figs. 4, 5, and 7, to induce a motion for balance measurement such as surfboard sticking.

For example, when the user enters the second booth, the athletic performance measuring unit recognizes the user's ID at the same time as the second booth is entered, and induces the user to hold the surfboard.

Specifically, after the user moves to the execution position, the user is instructed to stick to the surfboard. Here, the movement and direction of the user can be performed by various methods such as a sound instruction and a screen instruction.

At this time, the second booth measures the user's standing time by installing one or more detection sensors for measuring a standing time after the user performs the surfboard striking.

Meanwhile, the measurement result of the detection sensor is transmitted to the center PC, that is, the server, by wire or wirelessly.

In addition, a background image can be displayed using a projector and a display device so that the user can increase the interest in performing surfboard stays.

As shown in FIGS. 4, 5 and 8, the third booth is configured to induce a movement for cardiopulmonary endurance such as a '+' hopper as a booth for checking a cardiovascular endurance of a user.

For example, when the user enters the third booth, the athletic performance measuring unit recognizes the user's ID at the same time as entering the third booth, and induces the user to perform a '+' jump.

Specifically, the user is moved to the execution position, and a '+' jump is instructed. Here, the movement and direction of the user can be performed by various methods such as a sound instruction and a screen instruction.

At this time, the third booth measures the number of touches of the user by installing one or more detection sensors for measuring the number of touches that have been performed within a predetermined time after the user performs the '+' jump.

Meanwhile, the measurement result of the detection sensor is transmitted to the center PC, that is, the server, by wire or wirelessly.

As shown in FIGS. 4, 5, and 9, the fourth booth is configured to induce a motion for measurement of a sudden force, such as a muzzle, as a booth for checking a user's power.

For example, when the user enters the fourth booth, the athletic performance measuring unit recognizes the user's ID at the same time as the fourth booth, and induces the user to catch the mole.

Specifically, the user is instructed to catch the mole after moving to the execution position. Here, the movement and direction of the user can be performed by various methods such as a sound instruction and a screen instruction.

At this time, the fourth booth is provided with at least one detection sensor for measuring the number of touched touched within a predetermined time after the user performs the mole catching, thereby measuring the number of touches of the user.

Meanwhile, the measurement result of the detection sensor is transmitted to the center PC, that is, the server, by wire or wirelessly.

The fifth booth is configured to induce a movement for flexibility measurement, such as avoiding a laser, as a booth for checking the flexibility of the user, as shown in Figs. 4, 5, and 10.

For example, when the user enters the fifth booth, the athletic performance measuring unit recognizes the user's ID at the same time as the fifth booth enters and induces the user to avoid the laser.

Specifically, the user is instructed to avoid the laser after moving to the execution position. Here, the movement and direction of the user can be performed by various methods such as a sound instruction and a screen instruction.

At this time, the fifth booth is provided with at least one detection sensor for measuring the number of touches touched within a preset time and the time taken from the entrance to the exit while avoiding the laser while the user avoids the laser beam, Measure the number of times and the time required.

Meanwhile, the measurement result of the detection sensor is transmitted to the center PC, that is, the server, by wire or wirelessly.

The sixth booth is configured to induce a movement for measuring muscular endurance such as hanging as a booth for checking the muscular endurance of the user, as shown in Figs. 4, 5, and 11.

For example, when the user enters the sixth booth, the athletic performance measuring unit recognizes the user's ID at the same time as the sixth booth enters, and induces the user to hang up.

Specifically, the user is instructed to move to the execution position and hang up. Here, the movement and direction of the user can be performed by various methods such as a sound instruction and a screen instruction.

At this time, the fifth booth is provided with one or more detection sensors for measuring a time required for the user to perform a hanging operation while measuring the time taken by the user.

Meanwhile, the measurement result of the detection sensor is transmitted to the center PC, that is, the server, by wire or wirelessly.

In addition, the plurality of measurement booths may include booths capable of measuring human senses, intellectual abilities, such as body composition measurement, concentration measurement, IQ measurement, and EQ measurement in addition to exercise ability.

It goes without saying that a plurality of measurement objects may be measured in addition to the case where only one measurement object stands in each booth.

The exercise ability checking unit may be configured in various ways according to the characteristics of the exercise ability to be inspected in a configuration for inspecting the designated exercise ability set in each booth and assigned to the booth.

For example, the exercise ability checking unit may include an ID recognizing unit installed in the measuring booth and recognizing a user ID entering the measurement booth, and an operation for inspecting the designated exercise ability designated in the measurement booth after recognizing the ID recognizing unit And a sensing unit installed on the measurement booth and measuring a result of the motion corresponding to the designated exercise capacity.

The ID recognition unit may be configured to recognize a user who is a measurement target and may be configured in various ways such as a proximity sensor, an RFID, a bar code, a QR code, and a smart phone.

The starting unit is configured to start an operation for inspecting the designated exercise capacity designated in the measurement booth after recognizing the ID recognition unit, and can be configured in various ways according to the measurement target of the measurement booth.

For example, the startup unit may have various configurations such as a start button, a remote controller, and a motion sensor so that the user can start pressing.

On the other hand, when the operation is started by the startup unit, the user can be notified of the start of the motion measurement through a sound signal (voice, buzzer sound, etc.), a video signal,

The starting unit generates an operation signal for a device for measuring the motion, for example, a standing long jump measuring device, a surfboard device, a '+' hopper device, a mole catching device, a laser avoiding device, and a hanging stick device.

The sensing unit is configured to measure a result of a motion corresponding to the designated exercise capacity, which is installed in the measurement booth, and can have various configurations according to the exercise capacity to be measured.

For example, the sensing unit may include at least one sensor such as a distance sensor, a touch sensor, a button, an impact sensor, a laser sensor, a fall detection sensor (load sensing), and a motion sensor.

Meanwhile, as shown in FIG. 13, the measurement results measured in the respective booths can be displayed through a display unit installed in the booth and an integrated display integratedly displayed.

In addition, the measurement results measured in the respective booths can be wirelessly or wiredly transmitted so as to be confirmed by the user's smartphone. Here, as a form for confirming the measurement result, the app can be installed on the smartphone and can be confirmed through the app.

Also, the measurement result may be transmitted to the wired / wireless terminal of the user by various methods such as mail, text, and SNS service as a provision form.

In addition, the measurement results measured in the respective booths can be output to paper and provided to the user.

On the other hand, the measurement results measured in the respective booths can provide a recommendation diet and a recommendation exercise based on previously accumulated related information as a prescription.

For example, a measurement result of muscle strength, balance, cardiopulmonary endurance, quickness, flexibility, and muscle endurance can be scored and a recommendation exercise and recommendation exercise that can supplement deficient exercise ability according to each score can be provided as a process.

Also, the measurement results measured at each of the booths can provide an instant lunch box based on a recommended meal.

That is, a child who is a measurement subject can measure a variety of exercise capacities while circulating the booths according to a predetermined order, and then provide a lunch prepared by a set meal according to a measurement result, thereby maximizing the measurement effect and induction effect have.

The instant lunch box type can be named in association with the athletic ability, and can be provided in the form of a quick lunch box, an IQ lunch box, a power lunch box, a slim lunch box, and a strong lunch box.

Meanwhile, the athletic performance measuring system according to the present invention can measure a variety of athletic ability of a child through a play without boring a child who is a measurement subject, by providing an athletic performance measuring unit for measuring each athletic performance as a playground.

12 is a table showing a measurement method for the operation of the booths shown in FIG.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

Claims (1)

A plurality of measurement booths partitioned into spaces;
An ID recognition unit installed in the measurement booth for recognizing a user ID entering the measurement booth and an operation for inspecting the designated motion ability assigned to the measurement booth after recognizing the ID recognition unit installed in the measurement booth And a motion detector installed in the measurement booth and measuring a result of the motion corresponding to the designated motion capability.

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