KR101040674B1 - Aeration smart wear system for correcting motion of exercise - Google Patents

Abstract

PURPOSE: An aeration type smart wear system for correcting a motion of an exercise is provided to give a stimulus to an incorrect part of a clothes wearer by injecting air into a corresponding part to be corrected. CONSTITUTION: A gyro sensor(11) analyzes motion data of a clothes wearer. An air frame(20) is extended in a shape of a string in a state of including an air tunnel into which air is injected. A fabric block(40) is closely attached to a body area of the clothes wearer and is formed with a flexible fabric. A plurality of air frame patterns are connected to the fabric block so as to cover the fabric block. An air input/output unit(80) injects the air to and discharges the air from the air tunnel through a connective tube. A controller(100) transmits the motion data to a central control server(200), receives motion correction information from the central control server, and controls a driving operation of the air input/output device to inject the air into the air tunnel. The central control server includes a standard stance database(210), a display unit(220), and a motion correction information provision unit(240).

Description

AERATION SMART WEAR SYSTEM FOR CORRECTING MOTION OF EXERCISE}

The present invention relates to an air-injected smart wear system for athletic motion correction, and analyzes the motion information of the wearer through the gyro sensor mounted on the wearer's smart wear for motion according to the best posture information, The present invention relates to an air injection type smart wear system that performs a comparison process to correct motion by injecting air into an air frame formed in the smart wear.

Not many modern people often exercise steadily and diet to keep their health even in busy daily life.There are many kinds of exercise, but for urban people, there is a fitness club near home, work or school. It is often used.

The Fitness Club is a place where various trainers for exercise and development of each part of the body, as well as a complex facility for exercising yoga, spinning, swimming, golf, etc. In addition to guiding general exercise members on how to use, how to exercise, and diet, they are also conducting personal training.

In addition, in the case of performing an exercise such as yoga, there are many cases of playing various yoga videos on the market and following the instructions of the yoga videos by themselves.

In other words, there are many exercise spaces and exercise equipment that can perform a combination of exercise in busy daily life if there is only one's own, but the problem is that the general members who are not exercise experts do not exercise with the correct posture, In many cases, the effect is minimal.

For example, even if you watch and follow a yoga video, you often follow your blind spot without knowing where it is so wrong, so you'll cut your body or lose interest. This is because there is a difference between seeing and learning and real body, so there is a limit to learning the proper exercise method by body, not by head and body.

In this case, it may be one way to receive an exercise guidance from an exercise expert or a trainer, but the disadvantage is that the cost is not small.

In other words, if you perform an exercise that requires a correct posture, the exerciser can correct the posture by simply giving tactile stimulation to the part of the body that is in the wrong posture. It is expected to have an exercise effect that is comparable to receiving a.

In other words, if a tactile stimulus is applied to a specific part of a sportswear wearer who can guide the correct exercise posture in the sportswear itself without the help of a trainer or a third party, it can be helped to acquire the proper use of the equipment. will be.

Smart ware, a product of the ubiquitous era, is a next-generation garment that integrates various digital devices necessary for life, and is a clothing product incorporating new textile technology and digital technology.

As the demand for functional clothing that has tried new technology gradually increases, there are various kinds of functional clothing. In particular, functional sportswear has many practical uses among smart wear types. A technology that provides various exercise assistance / analysis functions by analyzing the amount of exercise by analyzing the sweat of the exerciser is disclosed.

Referring to the prior art of the functional garment that presses the body through the garment, Korean Patent Publication No. 10-2007-0074565 'Pressed garment and manufacturing method' consists of the first and second panels with elastic seams between It is designed to press the body by forming a pressure, but it does not have the function of adjusting the compression area of the seam, and also does not have the effect of promoting the extension of the panel itself. The disadvantage of pressure is pointed out.

In addition, Korean Patent No. 838100, 'Susk-style exercise band for back muscles relaxation' provides a bag for providing pressure to the back muscles, but this also has the disadvantage that the compression position is fixed to the back.

Therefore, not only the compression area can be changed so that the athlete can correct his posture through the compression site, but also a new and advanced system that detects the athlete's posture and guides the correct exerciser's posture by providing the compression force. Development is needed.

The present invention has been made to overcome the problems of the above technology, by comparing the analysis information of the motion information of the garment wearer taking the motion according to the best posture image provided by the system and the analysis value of the corresponding good attitude image to process the motion of the wearer The main purpose of the present invention is to provide a smart wear system that allows the wearer to correct his posture by injecting air into the corrected part and stimulating the wrong part to the wearer.

Another object of the present invention is to equip the air inlet and outlet components for injecting air into accessories that can be worn on the body to ensure the slimming and simplification of the clothing and to ensure the efficiency of the clothing management.

Still another object of the present invention is to divide the air frame into which the air is injected, so that air is injected independently from each other, so that the far-end blocks connected to the inside and the outside can be independently controlled.

It is a further object of the present invention to provide an action of extending the fabric block by causing the air frame portion into which the air is injected is directed to one side by using a material having a coefficient of expansion higher than that of other parts of the partition wall of the bisected air frame. .

A further object of the present invention is to prevent the damage to the gyro sensor by configuring the gyro sensor detachable from the garment to analyze the posture information of the garment wearer.

In order to achieve the above object, the air motion-type smart wear system for exercise motion correction according to the present invention comprises a garment and a central control server, the garment comprises a gyro sensor for analyzing the motion information of the wearer of the garment; An air frame extending in a string form with an air tunnel into which air is injected; A fabric block in close contact with the individual body region of the garment wearer, the fabric block being made of stretch fabric; An air frame pattern connected to the far end block, the air frame being composed of a plurality of air frames to surround the far end block; An air inlet / outlet device for injecting and discharging air into the air tunnel through a connection pipe; And a controller for transmitting the motion information to a central control server and controlling the driving of the air in / out device to receive air calibration information of the central control server and inject air into a specific air tunnel. A model posture database including model posture information including model posture images and gyro analysis values in the model posture images; A display unit configured to display the exemplary posture image to the wearer of the garment; Analyzing the difference of the motion information received on the basis of the best posture information, generating motion correction information including information for differentially designating an air tunnel into which air is to be injected according to the analysis result, and providing the motion correction information to the controller through the transceiver unit. Calibration information providing unit; characterized in that it comprises a.

In addition, the air in and out device, the connection pipe is connected to enable the air injection via a connection device, the connection device, the connection terminal detachably coupled to each connection pipe, and a predetermined length in the connection terminal And an extended pipe line and a check valve that is opened and closed so as to inject air by selecting the pipe line. The controller may include opening and closing of the check valve so as to inject air by selecting a specific pipe line among a plurality of pipe lines. And a function for controlling the rotation angle.

In addition, the air frame is formed of a frame wall forming a wall portion from the outer surface to the air tunnel, and a partition wall dividing the air tunnel into two portions in a direction perpendicular to the direction connected to the far end block, wherein the air tunnel Silver is partitioned into the first and second air tunnels by the partition wall, characterized in that the first and second air tunnels are independent to inject air through a separate connection pipe, respectively.

In addition, the garment, the sensor mounting portion including a waterproof port made of a waterproof material for receiving and detaching the gyro sensor but a communication port including a communication function, and the opening and closing of the communication port; do.

According to the air injection type smart wear system for exercise motion correction according to the present invention,

1) It provides the advantage that the athlete can perform posture correction by providing the function to correct the posture to the user who takes the posture image such as yoga and takes the posture accordingly.

2) It is possible to stretch the fabric around the area where air is injected without using hot air.

3) not only has the expandability to form air frames in various patterns according to the body muscle area to be trained,

4) The gyro sensor which measures the posture of the athlete is configured to be detachable from the garment to provide the effect of ensuring the efficiency of the gyro sensor management.

1 is a block diagram showing a schematic configuration of a smart wear system according to the present invention.
2 is a conceptual diagram illustrating a state in which an air frame pattern and a gyro sensor are mounted in a smart wear according to the present invention;
Figure 3 is a side cross-sectional view showing a specific configuration of an air frame according to the present invention.
Figure 4 is a conceptual diagram showing an embodiment in which the far-end block is stretched by the air frame pattern according to the present invention.
Figure 5 is a conceptual diagram showing an embodiment of the air intake apparatus and connecting pipe according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The accompanying drawings are not drawn to scale and wherein like reference numerals in the various drawings refer to like elements.

1 is a block diagram showing a schematic configuration of a smart wear system according to the present invention.

As can be seen from Figure 1, the smart wear system according to the present invention is a plurality of gyro sensor 11 is mounted on various parts of the garment to generate the motion information of the wearer, and the air frame 20, the air is injected And a plurality of air frame patterns 25 to which such air frames 20 are connected are formed by a specific pattern, and a stretch fabric (fabric block) having elasticity is provided between individual air frame patterns 25 and one The controller for controlling the air injection of the air inlet and outlet unit 80 while forming an air inlet and outlet unit 80 for injecting individual air in units of air frame patterns 25 integrally or detachably to the garment 10. 100) and additionally displays the best posture to the wearer of the garment in a state capable of wired and wireless communication with the controller 100, and at the same time, the garment taking the motion It is configured to include a central control server 200 that controls to correct in a tactile stimulation way through the garment 10 by injecting air into the air tunnel (air frame pattern) of the wearer's garment 10.

That is, the central control server 200 displays the model posture through the display unit 220 to the wearer of the garment, and then obtains motion information from the gyro sensor 11 which analyzes the posture of the garment wearer who has taken the motion. After transmitting to the control server 200, the central control server 200 compares the motion information and the best posture information of the wearer of the garment, generates posture correction information, and then sends it to the controller 100 of the garment 10 again. By transmitting the air to a specific air tunnel or air frame pattern under the control of the controller 100 to guide the wearer to correct his or her wrong posture while feeling the pressure on the corresponding area, and the specific function and The action is more specified below.

2 is a conceptual diagram illustrating a state in which an air frame pattern is formed on the garment according to the present invention.

As can be seen from Figure 2, the smart wear system according to the present invention extends the air frame 20, which can be injected into the clothes 10 (athletic clothes, special posture corrective clothing, etc.) as a predetermined length And an air frame pattern 25 formed of a plurality of such air frames 20 to draw a closed curve to surround a specific garment part (a part touching the muscle area).

Air frame 20 according to the present invention is formed in a shape such as a compression line extending to fit the body line along the muscle part in a known sportswear, that is, a long extended string shape, in Figure 2 A, B, C The combination of the plurality of air frames 20 surrounding the garment part such as the back is called an air frame pattern 25. That is, the air frame pattern 25 provides a function of enclosing the outline of the garment part that is in contact with the body region based on a specific body region and applying pressure to the body region that is in contact with the kidney of the garment part. It refers to a plurality of air frame 20 extending to surround a specific body region. The air frame pattern 25 may be connected to each other between the air frame 20 constituting the air frame 20 and the air frame 20 may be in contact with each other, but not in the inner air frame 20.

As will be described later, two air tunnels 30 are present in the air frame 20, and each air tunnel 30 has a space for independently injecting / exhausting air. Becomes part of the two air frame patterns 25.

In addition, in FIG. 2, a specific part of the garment surrounded by the air frame pattern 25 as A, B, and C is called a fabric block 40, and the fabric block 40 is made of a stretch fabric to have elasticity. Of course.

That is, the fabric block 40 connected to the air frame 20 is made of a material having a strong elasticity, but will be described later, but when air is injected into the air frame 20, the air frame 20 is bent or moved in a specific direction. Connected stretch fabric, that is, fabric block 40 is also possible to stretch and shrink.

Figure 3 is a side cross-sectional view showing a specific configuration of an air frame according to the present invention.

As can be seen from Figure 3, the air frame 20 according to the present invention is a frame wall (31) having a circular / oval cross-sectional shape that can be called the outermost circumferential wall and the frame wall 31 is a fabric block ( 40) Comprising a partition 32 divided into two equally divided parts on the basis of the extension line, these two compartments are to be an air tunnel 30 is injected air.

In other words, the air frame 30 is provided with two air tunnels (first and second air tunnels), and the first and second air tunnels 30 and 30 'are air supplied from the air in / out device 80 to be described later. It provides a space to be injected, but is based on being sealed to prevent the exchange of air between each other. That is, the first and second air tunnels 30 and 30 ′ do not share the air supplied from the air inlet and outlet device 80, but are separate check valves (not shown) formed in the other connecting pipe 50 or the connecting pipe 50, respectively. It is configured to supply / discharge air by opening / closing control.

By such a configuration, each air frame 20 injects air for each of the air tunnels 30 and one of the air frame patterns 25 to which the plurality of first and second air tunnels 30 and 30 'are connected. It is configured to discharge and the air inlet and outlet device 80 is differentially controlled to control the air injection and discharge so that the air injection / discharge for each air tunnel 20 to the air frame pattern 25 or a plurality of connection pipes (50) Is configured to perform air injection and discharge by selecting any one of

Here, the connecting pipe 50 is formed in the garment, is connected to the air tunnel 20 to the air frame pattern 25 extends to one portion of the garment (bottom portion in Figure 5) to the end is exposed to the outside That is, it means a pipeline formed so that the air supplied from the air inlet and outlet device 80 flows.

In addition, the partition wall 32 is made of a material having a higher elasticity than that of the frame wall 31, so that when the air is injected into the air tunnel 20, the partition wall 32 preferentially expands rather than the frame wall 31. do.

Figure 4 is a conceptual diagram showing an embodiment in which the far-end block is stretched by the air frame pattern according to the present invention.

The first and second air tunnels 30 and 30 'provided as two by the partitions 32 of the air frame 20 are configured to be adjacent to different far-end blocks 40, respectively.

Referring to FIG. 2, the first air tunnel 30 is adjacent to the far end block 40 called A and the second air tunnel 30 'is adjacent to the far end block 40 called B. In other words, A The far end block 40 is surrounded by an air frame pattern 25 consisting of a first air tunnel 30 and another air tunnel, and the far end block 40 is a second air tunnel 30 'and another air. It is surrounded by a separate air frame pattern 25 connected by a tunnel.

At this time, when air is injected into the first air tunnel 30, the frame wall 31 and the partition wall 32 surrounding the first air tunnel 30 expand and swell. Only during this process, that is, the phenomenon in which the air frame pattern 25 surrounding the specific fabric block 40 is expanded, the garment wearer can tactilely recognize the position of the body region in contact with the fabric block between the expanded air frame patterns. Therefore, the partition wall 32 mentioned above is not an essential structure, but can be mounted in the air frame 20 selectively.

If the partition wall 32 is formed in the air frame 20, since the partition wall 32 is relatively more elastic than the frame wall 31, the expansion force of the partition wall 32 overcomes the expansion force of the frame wall 31 so that the partition wall 32 is more elastic. One of the frame walls 31 of the air tunnel 30 is more inclined to expand toward the partition 32 side than the opposite side of the partition wall 32 is expanded, of course, the frame wall 31 is not expanded at all However, as the primary expansion of the partition 32, the air filled in the first air tunnel 30 extends to the area (space) of the second air tunnel 30 ′ by the expansion of the partition 32, thereby causing the first air. The air filled with air may be guided so that the filling air region of the tunnel 30 may be biased toward the second air tunnel 30, and consequently expands in the outward direction of the air tunnel 30 in which the air is filled. Fabric formed in the tunnel 30 A slight pulling of the block 40 can be achieved.

As a result, the stretch fabric wrapped by the first air tunnel 30, that is, the fabric block 40, extends slightly outward, that is, in the direction of the second air tunnel 30 ′, that is, the first air tunnel 30. ) Is wrapped in the original block 40 is extended radially outward by the expansion of the first air tunnel 30, the original block 40 wrapped in the first air tunnel 30 is in close contact with the body part It works by allowing the wearer of the garment to feel light pressure on the skin.

Here, the length of the fabric block 40 may not be very long, but because the fabric is in close contact with the skin and air is injected into the first air tunnel 30, the garment has been given a primary pressure to the wearer. The wearer does not have a big problem in feeling the pressure of the corresponding site due to the expansion of the first air tunnel 30 and the extension of the enclosed distal block 40.

As a result, the wearer of the garment feels pressure on the body part by the extension of the specific fabric block 40 and the expansion of the air frame pattern 25 surrounding the fabric block 40, thereby exerting a force on the body part that has been consciously pressed or tactilely stimulated. It provides the characteristics to do proper exercise.

Furthermore, if it is necessary to take the posture of raising the arm further, the user injects air into the air frame pattern 25 surrounding the fabric block 40 formed to contact the body region of the triceps, allowing the user to raise the arm further. If it is necessary to lower the posture, it is possible to induce the user to lower the arm by injecting air into the air frame pattern 25 surrounding the fabric block 40 formed to contact the body region of the biceps. .

5 is a conceptual diagram illustrating an embodiment of an air intake apparatus and a connection pipe according to the present invention.

The air inlet and outlet device 80 according to the present invention injects air into the first and second air tunnels 30 and 30 ′ of the air frame 20 via a connecting pipe 50 (or up to the connecting device 80). Each air frame pattern in a 1: 1 manner by providing a function of discharging and discharging, by being integrally attached to the garment 10 or detachably attached to the garment 10 by an accessory (housing) or the like. It is possible to be connected to the air frame pattern 25 in the manner of 1: 25 (one air inlet and out: n air frame patterns) or the like. That is, in the system according to the present invention, since the air frame pattern 25 occupies a space independent of other air frame patterns, a plurality of air inlet / out devices 30 may be provided as necessary.

However, in order to implement the smart wear system according to the present invention more efficiently, it is preferable to have a minimum number of air inlet / outlet devices 30. Thus, for example, a plurality of air through one air inlet / outlet device 30 is provided. To properly and independently control the tunnel part 25, the branch 50 of the conduit 62 of the connector 50 or the connector 60 connecting the air inlet and outlet device 80 and the air frame pattern 25 is checked. Forming the valve 70 to control the opening and closing of the check valve 70 (control the opening and closing angle to the rotation angle of the valve, etc.) to perform the air injection / discharge to each air frame pattern 25 or each air When the air is injected / exhausted to a specific connector 50 by connecting the frame pattern 25 and the plurality of connectors 50 in a 1: 1 manner, the air frame pattern 25 that the connector 50 is responsible for. Take the air in / out May.

In particular, when connecting the connector 50 and the air frame pattern 25 in a 1: 1 manner, since the connector 50 may be intricately entangled in the garment 10, the plurality of connector tubes 50 Extend along the side line of the end and then its end is concentrated to one part of the garment (lower part of the garment in the figure), and the end of each connector 50 is controllable by the controller 100 It is also possible to pursue the manner of being connected to the air inlet and outgoing device 80 via the connecting device 60 having a 70.

5 is a plurality of air inlet and outlet device 80 is configured to be detachable to the garment 10 and at the same time connected to the air tunnel 30 to the air frame pattern 25 via a connecting device 60 in a plurality of ways Illustratively illustrating an embodiment connected to the connecting pipe 60, the garment 10 according to the present invention is made of sportswear in pursuit of light and slim characteristics, reducing the weight of the garment itself and at the same time washing In order to provide convenience, the air in / out device (including the controller) is preferably mounted in an accessory worn on the waist, that is, the housing 90 formed in the form of a belt.

In addition, the connecting pipe 50 of the garment 10 extends along one side of the garment 10 in a state of being connected in a 1: 1 manner to each air tunnel 30 or the air frame pattern 25 so that an extension end is provided. It is connected to the connecting device 60. In other words, the garment 10 according to the present invention may not have an electronic device vulnerable to water by itself, it is possible to direct the light weight and to ensure the convenience of washing.

The connecting device 60 is composed of a connecting terminal 61 detachably connected to an end of each connecting pipe 50 and a conduit 62 which is a passage extending from the connecting terminal 61 to one side. According to the number of 60, the connecting terminal 61 and the conduit 62 are formed in plural, and the conduit 62 having a branch type is connected to the check valve 70 by making a specific number in a bundle.

* The check valve 70 is controlled by the controller 100 which will be described later as being capable of opening / closing control (or rotation control) to connecting pipe selection control so as to inject / discharge air only to a specific pipe line 62.

In addition, the passage extending from the opposite side of the conduit 62 on the basis of the check valve 70 is connected to the air outlet 80.

In other words, by such a configuration, for example, when the air extractor 80 is driven for supplying air to inject air into the passage of the connecting device 60, a specific conduit 62 is selected from the check valve 70. The air is injected into the air frame pattern 25 connected to the connection pipe 50 by supplying air to a specific pipe line 62 to be opened and closed and then injecting air into the connection pipe 50 connected to the corresponding pipe line 62. It is possible to.

Specifically, the air intake apparatus 80 may be configured of any one of a compressed air injection method and a fan driving method.

Compressed air injection method operates the air pump by driving the driving motor to induce pressure generation according to the volume change, so that the air in the air is stored in the compressed state in the air storage, and the stored compressed air controls the flow of the solenoid valve. The air pump serves to discharge the compressed air to the pipe through the discharge port, and the air pump has a function as an air inhaler by the reverse driving method of the drive motor, and the air as a process opposite to the air injection method. It also performs the function of discharging the air injected into the frame.

Such air pumps must ensure a certain level of rapid air injection capability, preferably allowing air to be injected into the air tunnel at a rate of 100 to 300 ml / sec.

In addition, the fan driving method may be configured to enable air injection / discharge according to the forward / reverse rotation direction of the fan by supplying air through the outside air by the rotational driving of the fan. In other words, since the air frame in the present invention does not need much air

The air inlet and outgoing device 80 provides a feature of automatically injecting and discharging air into the air tunnel 30.

However, the air injector 80 applied to the present invention is not necessarily limited to the above configuration, and of course, an air injector having various types and methods known in the art may be used.

The controller 100 according to the present invention injects air into the specific air tunnel 30 to the air frame pattern 25 by a user's operation or an automatic method, so that the specific fabric block 40 that the air frame pattern 25 surrounds. ) Provides a function of controlling the air entry and exit device 80 so that elongation occurs, and this controller 100, like the embodiment shown in FIG. 4, is a specific accessory connectable to the garment 10, for example, in the form of a belt. Made with a housing 90 implemented as it can be configured to be detachable with the garment (10).

In detail, the controller 100 includes a communication unit 110, an identification storage module 120, and an air access control module 130.

The communication unit 110 transmits the motion information of the garment wearer generated by the gyro sensor 11 to the central control server and at the same time receives the motion correction information of the central control server 200.

At this time, the communication unit 110 may be connected in a wired manner by a digital company capable of signal exchange with the gyro sensor 11 or wirelessly by the above-described communication port 15a.

The identification storage module 120 assigns an identification number to the air frame pattern 25 to the air tunnel 30 to which air is to be injected and performs a function of storing and storing the identification number.

For example, the identification storage module 120 identifies the air frame pattern surrounding the far-end block 40 in close contact with the left shoulder portion once (the air tunnel constituting this is 1-1, 1-2, etc.). Identification storage processing), and the air frame pattern 25 surrounding the far-end block 40 in close contact with the muscle part such as the lower shoulder part is identified and processed twice.

That is, the motion correction information generated by the central control server 200 includes information indicating the identification mark on the far-end block 40 to be calibrated by interlocking with the function of the identification storage module, thereby storing the identification storage module 120. It is possible to easily recognize the far-end block 40 to be corrected in the).

The air inlet / outlet control module 130 injects / injects air into the corresponding air frame pattern 25 when a signal for injecting / outleting air into a specific air frame pattern 25 is transmitted through motion correction information of the central control server 200. Drive control of the air in / out device 80 is performed to discharge.

In particular, when the connection device 60 is provided in the present invention, the air inlet / outlet control module 130 controls the opening / closing control of the check valve 70 in the connecting device 60 to inject air into a specific air tunnel 30. The check valve control unit 131 is provided to perform rotation control.

That is, the air inlet / outlet control module 130 may inject air into the specific air frame pattern 25 selected through the motion correction information generated by the central control server 200, as well as the check valve ( 70) plays a role in charge of driving control.

As can be seen again from Figure 1, the central control server 200 according to the present invention not only provides the correct wearer posture information to the wearer of the garment, but also receives the motion information of the wearer of the garment and compare it with the best posture to correct the motion correction information To generate the transmission process to the communication unit 110 of the controller, and specifically includes a good posture database 210, the display unit 220, the transceiver 230, the motion correction information providing unit 240.

The model posture database 210 includes various model postures for a specific exercise, i.e., a model posture image by a professional yoga instructor in the case of a yoga exercise, and analyzes the model image by a gyro sensor in advance. This includes the recorded best posture information recorded for each good posture image including gyro analysis figures.

The display unit 220 serves to display the best posture image in the exemplary posture database 220 to the wearer of the garment through a display screen such as LCD to LED, thereby enabling the wearer of the garment to stand alone without a professional instructor. As you watch, make sure you have the foundation to take motor motion.

The transmitter / receiver 230 performs a communication function for receiving motion information of the wearer and transmitting motion correction information to be described later, which may be selectively applied to the controller 100 according to necessity among wired and wireless communication methods. Can be.

The motion correction information providing unit 240 compares the motion information of the wearer who is transmitted through the transmitting and receiving unit 230 with the best posture information, and analyzes the difference of the motion information based on the best posture information to analyze the difference of the motion information. It generates a motion correction information including the information specifying the air tunnel to be injected into the air and provides it to the controller 100 via the transceiver 230.

For example, when practicing yoga exercise, the hand-up angle is derived as 7 ㅀ in the model posture information. In the motion information by the actual wearer, if the hand-up angle is 5 ㅀ, raise the arm by 2 ㅀ. In order to generate the motion correction information to inject air into the air frame pattern 25 surrounding the distal block 40 formed in the triceps region of the arm to provide it to the controller 100.

Thereafter, the air inlet / outlet control module 130 of the controller 100 opens / rotates / rotates the check valve 70 and the air inlet and outlet device 80 to inject air into the air frame pattern 25 specified in the motion correction information. To control the air to inject air to each connector connected to the air frame pattern (25).

As described so far, the configuration and operation of the pneumatic motion-correcting smart wear system for exercise motion correction according to the present invention have been expressed in the above description and the drawings, but this is merely described by way of example. Without being limited, various changes and modifications are possible without departing from the technical spirit of the present invention.

10: Clothes 11: Gyro Sensor
15: sensor mounting portion 15a: communication port
15b: connection 20: air frame
25; Air frame pattern 30: air tunnel (first air tunnel)
30 ': second air tunnel 31: frame wall
32: bulkhead 40: fabric block
50: connector 60: connector
61: connection terminal 62: pipe line
70: check valve 80: air inlet and outlet
90: housing 100: controller
110: communication unit 120: identification storage module
130: air inlet / outlet control module 131: check valve control unit
140: receiving module 200: central control server
210: good posture database 220: display unit
230: transmission module 240: motion correction information providing unit

Claims (6)

It is an air-injected smart wear system for exercise motion correction consisting of clothes and a central control server.
The garment,
A gyro sensor for analyzing motion information of the wearer of the garment;
An air frame extending in a string form with an air tunnel into which air is injected;
A fabric block in close contact with the individual body region of the garment wearer, the fabric block being made of stretch fabric;
An air frame pattern connected to the far end block, the air frame being composed of a plurality of air frames to surround the far end block;
An air inlet / outlet device for injecting and discharging air into the air tunnel through a connection pipe;
And a controller for transmitting the motion information to a central control server and controlling the driving of the air in / out device to receive the motion correction information of the central control server and inject air into the air tunnel.
The central control server,
A model posture database including model posture information including model posture images and gyro analysis values in the model posture image;
A display unit configured to display the exemplary posture image to the wearer of the garment;
A motion correction information providing unit configured to analyze the difference between the motion information received based on the exemplary posture information and generate motion correction information including information for differentially designating an air tunnel into which air is to be injected according to the analysis result and providing the same to the controller; Air injection type smart wear system for athletic motion correction, comprising a. The method of claim 1,
The air inlet and outlet device,
The connecting pipe is connected to enable the air injection via the connecting device,
The connecting device,
And a connection terminal detachably coupled to each connection pipe, and a check valve opened and rotated so that air can be injected by selecting the pipe line and the pipe line extending in a predetermined length from the connection terminal.
The controller,
The air injection type smart wear system for exercise motion calibration, characterized in that it further comprises a function of controlling the opening and closing angle of the check valve to inject air by selecting any one of the plurality of pipes. The method of claim 2,
The controller and the air inlet and outlet device,
Connected via the garment and the connecting tube, characterized in that mounted in the housing detachably mounted to the body part of the wearer, the air motion type smart wear system for exercise motion correction. The method of claim 1,
The air frame,
A frame wall forming a wall portion from the outer surface to the air tunnel, and a partition wall dividing the air tunnel into two portions in a direction perpendicular to the direction connected to the far end block;
The air tunnel,
The first and second air tunnels are partitioned by the partition walls, and the first and second air tunnels are characterized in that they are independent to inject air through separate connection pipes, and the air motion type smart wear for motion motion calibration. system. The method of claim 4, wherein
The partition wall,
Made of a material having a higher coefficient of expansion than the frame wall,
When the air is injected into any one of the first and second air tunnels, characterized in that to expand in preference to the frame wall, air motion type smart wear system for motion motion calibration. The method of claim 1,
The garment,
A communication port for detachably accommodating the gyro sensor but including a communication function;
The sensor mounting portion that can open and close the communication port, but including a waterproof cover made of a waterproof material; characterized in that the air injection type smart wear system for exercise motion correction.

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