KR20170088052A

KR20170088052A - Turtle Neck Correction System via Turtle Neck Detection System Interlocked with Smart Device

Info

Publication number: KR20170088052A
Application number: KR1020160007918A
Authority: KR
Inventors: 진강규; 여도현; 이정근; 최기용; 손나영; 추연대
Original assignee: 한국해양대학교 산학협력단
Priority date: 2016-01-22
Filing date: 2016-01-22
Publication date: 2017-08-01
Also published as: KR101837261B1

Abstract

The present invention relates to a turtle neck correction system through a turtle neck detection device interlocked with a smart device. The purpose of the present invention is to provide a turtle neck correction system through a turtle neck detection device interlocked with a smart device, which allows the turtle neck can be corrected to the normal condition during the various activities, and conveniently prevents turtle neck syndrome and neck disk by adding a warning function. To this end, the present invention provides a turtle neck correction system through a turtle neck detection device interlocked with a smart device including the turtle neck detection device, comprising: a tilt detection sensor for measuring a tilt value; a short-range communication unit including Bluetooth for enabling wired and wireless communication; a control unit receiving the tilt value from the tilt detection sensor to determine whether the turtle neck is advanced and an advancing step of the turtle neck; a power supply unit for supplying power; a neck circumference unit formed along the neck circumferential direction and held on the neck so as not to fall; a receiving unit disposed on one side and the other side of the neck circumference unit and including a receiving space, wherein the tilt detection sensor and the control unit are incorporated; and an ear mounting unit connected to the receiving unit so as to be positioned on the upper side of the receiving unit where the tilt detection sensor is installed and having the tilt detection sensor for transmitting the tilt value of the ear of a user calculated therein.

Description

Tortoise Correction System via Turtle Neck Detection Device Interlocked with Smart Device {omitted}

The present invention relates to a turtle neck calibrating system using a turtle neck sensing device interlocked with a smart device. And more particularly, to a tortoise neck sensing apparatus having a tilt sensor incorporated in a receiving portion of a neckline and a controller for measuring a tilt value of a tangent line of a tilt sensor incorporated in the ear mount portion, When the user takes a wrong posture to determine whether the turtle neck is measured by measuring the tangent value of the tangent of the sensor, the notification module of the smart device provides notification including the alarm sound and vibration, , It is possible to conveniently recognize the user's posture, prevent and correct the user's posture, and by providing a hospital recommendation module in the smart device, if the turtle neck is judged from the turtle neck judgment module and it is determined that the treatment is necessary, Provide users with a list of professional hospitals to be corrected, The present invention relates to a turtle neck calibrating system using a turtle neck sensing device interlocked with a smart device for enabling a user to perform a turtle neck sensing operation.

Recently, as the use of various information processing devices such as computers, smart phones, and smart TVs has become commonplace, the number of users complaining of new diseases such as dry eye syndrome, mouse syndrome, and turtle neck syndrome is rapidly increasing.

In particular, turtle neck syndrome is caused by excessive loading of the neck due to abnormal posture by the user when using an information processing device, which causes not only myofascial pain, headache, sleeping disorder, respiratory disorder, .

Generally, the neck disk (cervical herniated nucleus pulpususdisc) is referred to as "neck disk" hereinafter) refers to a cervical disc (disc) is sudden external stimuli or age increases with a decrease in water degenerative changes caused by elasticity Is a symptom caused by the loss of internal hardened nucleus due to hardening and cracking of the wall of the intervertebral disc. It is also caused by trauma.

This neck disc is the most common symptom of the neck and upper shoulder pain. Pain and weakness of the shoulder and arm may occur depending on the area where the disease occurs. In severe cases, damage to the spinal cord may cause weakness of the leg or paralysis. It is important to prevent it through stretching and posture correction because it is necessary to treat it through surgery and it is difficult to complete treatment once it takes.

The torticollis syndrome, which may be the cause of this neck disk, is the adolescent teenager. It is a symptom that appears to people who work with computers. However, nowadays it occurs frequently regardless of age and sex.

These postures cause many problems including pain, and there is a need to study a device that can correct these turtle neck syndrome.

Prior Art Document: KR Patent Registration No. 1402167 (registered on May 26, 2014)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method for preventing turtle neck syndrome and neck disk, The purpose of this system is to provide a turtle neck correction system through a turtle neck sensing device that works in conjunction with a smart device.

In order to accomplish the above object, a turtle neck calibrating system according to the present invention is provided with a tilt sensor for measuring a tilt value, a short distance communication unit including Bluetooth for enabling wire / wireless communication, A control unit for receiving the tilt value from the tilt detection sensor and determining whether the turtle neck or the turtle neck is advanced, a power supply unit for supplying power, a neck circumference portion formed along the neck circumference, And a tilt detection sensor connected to the accommodation portion to receive the tilt detection sensor and the tilt detection sensor and to receive the tilt detection sensor from the accommodation portion, And a tilt detection sensor for transmitting the calculated tilt value of the user's ear to the control unit Turtle neck detection apparatus comprising: a; A list module for outputting a list of turtle neck sensing devices that can be connected through a pairing process that enables the turtle neck sensing devices including the short range communication portion including the Bluetooth communication to operate by connecting them to each other, A tie sensor connected to the turtle neck sensing device selected, a tilt sensor incorporated in the receiving portion of the turtle neck sensing device in a state in which the turtle neck sensing device connected through the connection module is worn in a correct posture, A tilt sensor for receiving a tilt value from a control unit of a turtle neck sensing device for measuring a tilt value of a tilt sensor of the sensing sensor and setting the tilt value as a reference, a tilt sensor incorporated in the receiving portion, and a tangential sensor And the difference between the slope value set in the attitude setting module and the slope value set in the attitude setting module, A turtle neck judging module for receiving and displaying the turtle neck type and the progress status of the user from the control unit of the turtle neck detecting device and providing a notification including a warning sound, a screen flicker, and a vibration when it is judged as turtle neck from the turtle neck judging module A notification module for displaying stretching information for correcting the turtle neck, and a hospital recommendation module for providing a list of hospitals according to the region when the turtle neck is advanced from the turtle neck determination module and it is determined that the treatment is necessary, The turtle neck and turtle neck progress steps are transmitted through the local communication unit and displayed on the display. If the turtle neck exceeds the reference inclination value, it is determined that the posture correction is necessary, and a smart Device.

In addition, the control unit of the turtle neck sensing apparatus can estimate an optimal value through repetitive calculation using a Kalman filter algorithm in order to prevent an error of a slope value due to a malfunction of the tilt sensor.

According to the present invention, the tortoise neck sensing apparatus includes a tilt sensor incorporated in the receiving portion of the neckline and a controller for measuring a tilt value of a tangent line of the tilt sensor incorporated in the ear mount portion, When the user takes a wrong posture to determine whether the turtle neck is measured by measuring the tangent value of the tangent of the sensor, the notification module of the smart device provides notification including the alarm sound and vibration, So that it is possible to conveniently recognize, prevent, and correct the posture of the user.

In addition, by providing a hospital recommendation module in the smart device, if it is judged that the turtle neck is advanced from the turtle neck judgment module and the treatment is necessary, a list of specialized hospitals for correcting the turtle neck by region is provided to the user, It has an effect of enabling treatment.

FIG. 1 is a conceptual diagram of a turtle neck calibrating system through a turtle neck sensing apparatus interlocked with a smart device according to a preferred embodiment of the present invention,
FIG. 2 is a block diagram of a turtle neck calibrating system using a turtle neck sensing device interlocked with a smart device according to a preferred embodiment of the present invention;
FIG. 3 is a photograph of a turtle neck sensing apparatus according to a preferred embodiment of the present invention,
FIG. 4 is a simplified view of the criterion of a turtle neck according to a preferred embodiment of the present invention,
FIG. 5 is a diagram illustrating a screen on which a list module according to a preferred embodiment of the present invention is implemented,
6 is a diagram illustrating a screen for implementing a connection module according to a preferred embodiment of the present invention,
FIG. 7 is a view illustrating a screen for implementing a posture setting module according to a preferred embodiment of the present invention,
FIG. 8 is a view illustrating a screen for implementing the turtle neck determination module according to the preferred embodiment of the present invention,
9 is a diagram illustrating a notification module according to a preferred embodiment of the present invention, and FIG.
FIGS. 10 to 12 are photographs showing the state of the turtle neck and the progress of the turtle neck sensing apparatus and the smart apparatus according to the preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the preferred embodiments of the present invention will be described below, but it is needless to say that the technical idea of the present invention is not limited thereto and can be variously modified by those skilled in the art.

FIG. 1 is a conceptual diagram of a turtle neck calibrating system 100 through a turtle neck sensing apparatus interlocked with a smart device according to a preferred embodiment of the present invention. FIG. 2 is a block diagram of a turtle turntable 100 interlocked with a smart device according to a preferred embodiment of the present invention. FIG. 3 is a photograph of a turtle neck sensing apparatus 10 according to a preferred embodiment of the present invention, and FIG. 4 is a schematic view of a turtle neck sensing system 10 according to a preferred embodiment of the present invention. FIG. 5 is a view illustrating a list module 21 according to a preferred embodiment of the present invention, and FIG. 6 is a view illustrating a connection module 22 according to a preferred embodiment of the present invention. FIG. 7 is a screen for implementing the posture setting module 23 according to a preferred embodiment of the present invention, and FIG. 8 is a view for implementing the turtle neck judging module 24 according to the preferred embodiment of the present invention Fig. 9 shows a screen 10 to 12 illustrate a turtle neck sensing apparatus 10 according to a preferred embodiment of the present invention and a smart device 20 interlocked with the turtle neck sensing apparatus 10 according to a preferred embodiment of the present invention, Neck, and neck.

The inclination sensor 11 incorporated in the receiving portion 16 of the neck portion 15 of the turtle neck sensing device 10 and the tilt sensor 11 built in the ear mount portion 17 By providing the control unit 13 for measuring the tilt value of the tangent line, if the tilt angle of the tangent of the two tilt detection sensors 11 is measured to determine whether the user is in a wrong position, It is possible to provide notifications including alarms and vibrations through the notification module 25 of the portable device 20 and display the stretching information that is useful for calibration on the smart device 20 to conveniently recognize, .

Referring to FIG. 1, a turtle neck calibrating system 100 according to a turtle neck sensing apparatus interlocked with a smart device according to a preferred embodiment of the present invention includes a turtle neck sensing apparatus 10 and a smart device 20, The smart device 20 can download and use an application or use an embedded application to use it.

The smart device 20 may be a tablet PC, a PDA (Personal Digital Assistant), a notebook computer, a cellular phone, a PCS (Personal Communication Service) phone, a hand-held PC, W-CDMA (Wideband CDMA) phone, CDMA-2000 phone and smart phone.

2, when a value measured through a tilt sensor of the turtle neck sensing apparatus 10 is transmitted to the control unit 13, the control unit 13 determines whether or not the turtle tree is present, And the modules are implemented in the smart device 20 through the communication unit 12.

Hereinafter, the turtle neck sensing apparatus 10 will be described.

3, the turtle neck sensing apparatus 10 includes a tilt detection sensor 11, a short range communication unit 12, a control unit 13, a power supply unit 14, a neckline 15, a storage unit 16, And an ear mount portion (17).

Hereinafter, the tilt detection sensor 11 will be described.

The tilt detection sensor 11 measures the tilt value and transmits it to the control unit 13.

In addition, the tilt detection sensor 11 is detachably incorporated in at least one of the neck portion and the ear portion of the turtle neck sensing device 10, and detects a tilt value of each position.

The local communication unit 12 includes Bluetooth for enabling wire / wireless communication. For example, a Bluetooth chip is embedded in the turtle neck sensing apparatus 10 to communicate with the turtle neck sensing apparatus 10 and the smart apparatus 20 And the local communication unit 12 of the present invention is not limited to the use of the Bluetooth chip.

The controller 13 receives the tilt value from the tilt sensor 11, and discriminates whether the turtle neck or the turtle neck is advanced.

In addition, the controller 13 may estimate the optimal value by using the Kalman filter algorithm to prevent the misalignment of the slope value due to the malfunction of the tilt sensor 11.

A control unit 13 of the turtle neck sensing apparatus 10 using the Kalman filter algorithm,

Since the present invention measures the turtle neck condition and the state with a difference in angle value, it is important to measure an accurate value. There is a tilt detection sensor 11 which is a sensor for measuring an angle, but an error may occur over time. In order to solve this problem, a 'Kalman filter algorithm' is used. The Kalman filter algorithm is an algorithm for estimating an optimum value through repetitive calculation, and it compensates for a disadvantage (a point at which an error occurs) of the tilt sensor 11 Respectively.

In order to calculate the normal slope (= angle value, = Euler angle), there is a method of using a gyro value (angular velocity of each axis) and a method of using the acceleration value of each axis. When the angle is obtained by the gyro value, it is obtained by the following equation.

(Euler value) (Gyro value)

The values of φ ', θ', and ψ 'correspond to p, q, and r, and integration is required to obtain Euler values with gyro values. However, due to the characteristic of the operation called integral, there is a problem that the error continues to accumulate over time.

When the angle is obtained by the acceleration value, it is calculated as follows.

(Euler value) (fx: acceleration value in the x-axis direction of the sensor)

(fy: acceleration value of the sensor in the y-axis direction)

In this case, Euler values are estimated with gravity and acceleration. This means that parts such as directions can be measured, but there is a frequent difference from the actual value.

That is, although the actual angular value is estimated, the Euler value by the gyro value in which the error according to the time is accumulated / the Euler value by the acceleration value in which the error is not accumulated with the actual angular value, The Euler value by the gyro value accumulates with time. In order to prevent this, the Euler value by the acceleration value is used to make the algorithm to extract the angle value while maintaining the direction to the correct Euler value, And accurate values can be derived. The Kalman filter algorithm is used at this time.

In the case of the Kalman filter algorithm, a new estimated value is extracted by using the measured value predicted value and the Kalman gain in the measured value.

The measured value is the Euler angle by the gyro value // The predicted value of the measured value is determined by the Euler angle by the acceleration value and the Kalman gain by the transfer function of the system, the process error and the system environment error (in the case of the present invention, Since it is not a dynamic system, we substitute the basic system to extract the Kalman gain)

The Kalman filter algorithm is applied to calculate the correct Euler angle (slope).

(Euler angle by gyro value // Euler angle by acceleration value // Euler angle by Kalman filter algorithm)

Accordingly, the controller 13 of the present invention calculates the slope of the correct neck using the Kalman filter algorithm, and compares the slope with the reference value to measure the state of the turtle neck.

Referring to FIG. 4, it is shown that the standard of judgment of the turtle neck is simplified, and it is classified into normal, ongoing, and calibrated according to the tilt value of the tilt sensor 11 installed on the neck of the ear. 20).

The power supply unit 14 supplies power to the turtle neck sensing apparatus 10.

The neckline portion 15 is formed along the neckline direction and is placed on the neck so as not to flow down.

The accommodation portion 16 is disposed on one side and the other side of the neckline portion 15 and includes a tilt sensing sensor 11 and a control portion 13 in the accommodation space.

The ear fixing portion 17 is constructed so as to be connected to the accommodating portion 16 so as to be positioned above the accommodating portion 16 provided with the inclination sensor 11 when the turtle neck sensing device 10 is worn, And a tilt detection sensor 11 for transmitting the tilt value of the user's ear to the control unit 13. [

The smart device 20 receives the turtle neck and turtle neck progress steps calculated from the control unit 13 of the turtle neck sensing apparatus 10 through the short range communication unit 12 and displays it on the display, , It is determined that the posture correction is necessary, and the warning and posture correction are instructed based on the current posture of the user.

The smart device 20 includes a list module 21, a connection module 22, a posture setting module 23, a turtle neck determination module 24, a notification module 25, and a hospital recommendation module 26 .

Hereinafter, the list module 21 will be described.

5, the list module 21 is a screen in which the paired device list is implemented in the smart device 20. The list module 21 includes a short range communication unit 12 that enables short range communication including Bluetooth communication, The device 10 is connected to each other, and a pairing process is performed to allow the device 10 to operate.

Referring to FIG. 6, the connection module 22 implements a screen displayed on the list module 21 and connected to the selected turtle neck sensing device 10 in the smart device 20.

The posture setting module 23 is configured to transmit the tilt detection sensor 10 installed in the receiving portion 16 of the turtle neck sensing device 10 in a state in which the turtle neck sensing device 10 connected through the connection module 22 is worn in a correct posture And the slope value of the tangent line of the tangential line sensor 11 built in the ear mount 17 is measured by the controller 13 of the turtle neck sensing apparatus 10 and set as a reference.

7, when the user selects a setting offset in the smart device 20 after wearing the turtle neck sensing device 10 in a correct posture, the tilt sensor (not shown) of the turtle neck sensing device 10 11) Set the value to the correct posture reference.

The turtle neck judging module 24 judges whether or not the slope value of the tangent between the tilt sensor 11 built in the receiver 16 and the tilt sensor 11 built in the ear mount 17 and the tilt value of the posture setting module 23, The turtle neck and the progress state of the turtle are provided from the control unit 13 of the turtle neck sensing apparatus 10 and displayed according to the stored values.

For example, referring to FIG. 8, the turtle neck sensing apparatus 10 is worn in a correct posture and is implemented as a 'normal' screen on the turtle neck determination module 24 of the smart device 20.

Referring to FIGS. 10 to 12, the normal, progress, and dangerous states are implemented through the turtle neck sensing device 10 and the smart device 20, respectively.

The notification module 25 provides a notification including a beep sound, a screen flicker, and a vibration when it is judged from the turtle neck judging module 24 to display stretching information for correcting the turtle neck.

For example, referring to FIG. 9, it is an example that a notification including a warning sound and vibration is provided to the smart device 20 when correction is determined from the turtle neck determination module 24 as a turtle neck.

The hospital recommendation module 26 provides a list of local hospitals when it is determined that the turtle neck is proceeding from the turtle neck determination module 24 and the treatment is necessary.

In addition, by providing the hospital recommendation module 26 in the smart device 20, when it is determined that the turtle neck is advanced from the turtle neck determination module 24 and the treatment is necessary, To provide the effect of treating the turtle neck before it gets worse.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10 - Turtle neck sensor 11 - Tilt sensor
12 - Local communication section 13 - Control section
14 - Power section 15 - Neck section
16 - receptacle 17 - ear receptacle
20 - Smart Device 21 - List module
22 - connection module 23 - attitude setting module
24 - Turtle Neck Judgment Module 25 - Notification Module
26 - Hospital referral module
100 - Turtle Neck Correction System with Turtle Neck Detection System Interlocked with Smart Device

Claims

A tilt detection sensor for measuring a tilt value,
A short-range communication unit including Bluetooth that enables wired and wireless communication,
A control unit for receiving the tilt value from the tilt detection sensor and discriminating the turtle neck type and the turtle neck progress stage,
A power supply unit for supplying power,
A neckline formed along the neckline and held on the neck so as not to flow down,
A housing portion including a housing space on one side and the other side of the neckline portion and including a tilt detection sensor and a control portion in the housing space,
A tilt sensor for detecting a tilt of the user's ear and a tilt sensor for detecting a tilt of the user's ear when the tilt sensor is installed,
A turtle neck sensing device
The system of turtle neck calibrating system through the turtle neck sensing device that works with smart devices including

A tilt detection sensor for measuring a tilt value,
A short-range communication unit including Bluetooth that enables wired and wireless communication,
A control unit for receiving the tilt value from the tilt detection sensor and discriminating the turtle neck type and the turtle neck progress stage,
A power supply unit for supplying power,
A neckline formed along the neckline and held on the neck so as not to flow down,
A housing portion including a housing space on one side and the other side of the neckline portion and including a tilt detection sensor and a control portion in the housing space,
A tilt sensor for detecting a tilt of the user's ear and a tilt sensor for detecting a tilt of the user's ear when the tilt sensor is installed,
A turtle neck sensing device including;
The turtle neck and the turtle neck progress stage calculated from the control unit are transmitted through the local communication unit and displayed on the display, and when it exceeds the reference inclination value, it is judged that the posture correction is necessary and based on the current user's posture, &Lt; / RTI >
A turtle neck calibrating system through a turtle neck sensing device that interlocks with a smart device including

A tilt detection sensor for measuring a tilt value,
A short-range communication unit including Bluetooth that enables wired and wireless communication,
A control unit for receiving the tilt value from the tilt detection sensor and discriminating the turtle neck type and the turtle neck progress stage,
A power supply unit for supplying power,
A neckline formed along the neckline and held on the neck so as not to flow down,
A housing portion including a housing space on one side and the other side of the neckline portion and including a tilt detection sensor and a control portion in the housing space,
A tilt sensor for detecting a tilt of the user's ear and a tilt sensor for detecting a tilt of the user's ear when the tilt sensor is installed,
A turtle neck sensing device including;
A list module for outputting a list of turtle neck sensing devices that can be connected to each other through a pairing process that enables the turtle neck sensing devices including the short range communication unit including the Bluetooth communication to be connected to each other,
A connection module which is output from the list module and connected to the selected turtle neck sensing device,
The tortoise neck sensor, which is connected through the connection module, measures the tilt of the tangent sensor built in the receptacle of the turtle neck sensor and the tilt sensor built in the ear mount A posture setting module for receiving a tilt value from the control unit of the sensing device and setting the tilt value as a reference, and
The difference between the inclination value of the tangent of the inclination sensor built in the receiver and the inclination sensor of the inclination sensor and the inclination value set by the attitude setting module is determined according to the pre-stored value, The turtle neck judging module, which is provided from the control unit of the sensing apparatus and displayed,
And displays the turtle neck and the turtle neck progress stage calculated from the controller through the short range communication unit and displays on the display. If the turtle neck turtle exceeds the reference inclination value, it is determined that the posture correction is necessary. And smart devices that instruct posture correction
The system of turtle neck calibrating system through the turtle neck sensing device that works with smart devices including

A tilt detection sensor for measuring a tilt value,
A short-range communication unit including Bluetooth that enables wired and wireless communication,
A control unit for receiving the tilt value from the tilt detection sensor and discriminating the turtle neck type and the turtle neck progress stage,
A power supply unit for supplying power,
A neckline formed along the neckline and held on the neck so as not to flow down,
A housing portion including a housing space on one side and the other side of the neckline portion and including a tilt detection sensor and a control portion in the housing space,
A tilt sensor for detecting a tilt of the user's ear and a tilt sensor for detecting a tilt of the user's ear when the tilt sensor is installed,
A turtle neck sensing device including;
A list module for outputting a list of turtle neck sensing devices that can be connected through a pairing process that enables the turtle neck sensing devices including the local communication section to enable short-range communication including bluetooth communication,
A connection module which is output from the list module and connected to the selected turtle neck sensing device,
The tortoise neck sensor, which is connected through the connection module, measures the tilt of the tangent sensor built in the receptacle of the turtle neck sensor and the tilt sensor built in the ear mount A posture setting module for receiving a slope value from the control unit of the sensing device and setting the slope value as a reference,
The difference between the inclination value of the tangent of the inclination sensor built in the receiver and the inclination sensor of the inclination sensor and the inclination value set by the attitude setting module is determined according to the pre-stored value, A turtle neck judging module which is provided from the control unit of the sensing apparatus and displays the turntable;
A notification module that provides notifications including a beep, screen flicker, and vibration when judged by the turtle neck judging module, and displays stretching information for correcting the turtle neck;
And displays the turtle neck and the turtle neck progress stage calculated from the controller through the short range communication unit and displays on the display. If the turtle neck exceeds the reference inclination value, it is determined that the posture correction is necessary. And smart devices that instruct posture correction
The system of turtle neck calibrating system through the turtle neck sensing device that works with smart devices including

A tilt detection sensor for measuring a tilt value,
A short-range communication unit including Bluetooth that enables wired and wireless communication,
A control unit for receiving the tilt value from the tilt detection sensor and discriminating the turtle neck type and the turtle neck progress stage,
A power supply unit for supplying power,
A neckline formed along the neckline and held on the neck so as not to flow down,
A housing portion including a housing space on one side and the other side of the neckline portion and including a tilt detection sensor and a control portion in the housing space,
A tilt sensor for detecting a tilt of the user's ear and a tilt sensor for detecting a tilt of the user's ear when the tilt sensor is installed,
A turtle neck sensing device including;
A list module for outputting a list of turtle neck sensing devices that can be connected to each other through a pairing process that enables the turtle neck sensing devices including the short range communication unit including the Bluetooth communication to be connected to each other,
A connection module which is output from the list module and connected to the selected turtle neck sensing device,
The tortoise neck sensor, which is connected through the connection module, measures the tilt of the tangent sensor built in the receptacle of the turtle neck sensor and the tilt sensor built in the ear mount A posture setting module for receiving a slope value from the control unit of the sensing device and setting the slope value as a reference,
The difference between the inclination value of the tangent of the inclination sensor built in the receiver and the inclination sensor of the inclination sensor and the inclination value set by the attitude setting module is determined according to the pre-stored value, A turtle tree deciding module for receiving and displaying the data from the control unit of the sensing device,
A notification module that provides alerts including a beep, screen flicker, and vibration when judged by the turtle neck judge module to display a stretch information helpful for correcting the turtle neck; and
If it is judged that the turtle neck has progressed from the turtle neck judgment module and the treatment is necessary, a hospital recommendation module
And displays the turtle neck and the turtle neck progress stage calculated from the controller through the short range communication unit and displays on the display. If the turtle neck turtle exceeds the reference inclination value, it is determined that the posture correction is necessary. And smart devices that instruct posture correction
The system of turtle neck calibrating system through the turtle neck sensing device that works with smart devices including

6. The method according to any one of claims 1 to 5,
The control unit of the turtle neck sensing device
A turtle neck calibrating system using a turtle neck sensing device that interlocks with a smart device that estimates the optimal value through repetitive calculation using a Kalman filter algorithm to prevent misleading tilt values due to malfunction of the tilt sensor.