KR20200019913A - IoT Chair Sheet with Posture correcting function - Google Patents

Abstract

The present invention relates to an IoT chair sheet for posture correction and, more specifically, to an IoT chair sheet for posture correction which measures the angle of a neck, a back, a waist, etc. through a plurality of sensors installed in a chair sheet to analyze a seating posture of a user and provide feedback to the user. According to a preferable embodiment of the present invention, the IoT chair sheet for posture correction, which is installed in a chair with a separable seat plate, comprises: an upper end portion (1) formed in a predetermined shape attached to a neck of a user; a middle end portion (2) installed in a backrest of the chair; a lower end portion (3) installed in a bottom support of the chair and connected to a lower side of the middle end portion (2); a sensor portion (4) installed on the upper end portion (1), the middle end portion (2) or the lower end portion (3) and measuring a posture of the user; a control portion (not shown) for analyzing the posture of the user measured in the sensor portion (4); and a notification portion (6) for providing feedback to the user according to the posture of the user analyzed in the control portion (5). According to another embodiment of the present invention, a method for monitoring posture correction, which is performed in a wireless communications terminal communicating with the IoT chair sheet for posture correction, comprises the following steps of: receiving identification information of the IoT chair sheet for posture correction; receiving posture data of a user from the IoT chair sheet for posture correction; and analyzing the posture data and displaying the same.

Description

IoT Chair Sheet with Posture correcting function}

The present invention relates to a posture correction IoT chair seat, and more particularly, to measure the angle of the neck, back, waist, etc. through a plurality of sensors installed in the chair seat to analyze the seating position of the user and to provide feedback to the user. Orthodontic IoT chair seat.

Modern people spend more than half of their time per day for a variety of purposes, including academic and business purposes. Because of this, modern people are suffering from various back diseases such as lumbar disc, pelvic distortion, and scoliosis, which rarely occurred in the past. Recently, there are also hospitals that specialize in treating only the spine.

Because of bad posture, such as sitting cross-legged or sitting one leg on the other, you may be exposed to spinal disease if gravity is concentrated or focused on one side of your spine.

These vertebrae are the cervical spine (頸椎) corresponding to the neck bone, the thoracic spine (胸椎) corresponding to the spine, the lumbar spine (腰椎) corresponding to the hip bone, sacral (해당) corresponding to the sacral bone, and the tailbone (tail) It is composed of

When viewed from the side of the normal spine, the cervical spine (neck) and lumbar spine (back) are convex (forward lordosis), the thoracic (chest) and sacral (hip) 휜 shape (after curvature, Kyphosis).

However, when abnormalities of the vertebrae, intervertebral discs and surrounding muscles cause an increase in the posterior curvature of the thorax rather than the normal shape of the vertebrae, or a posterior deformity in the cervical and lumbar spines, it is called scoliosis.

If the cervical or lumbar vertebral curve is normal, the gravity centerline is located at the back of the vertebrae, and the weight bearing points are placed on the back and the posterior joints of the vertebral vertebrae to obtain physiological fixation.

However, when the cervical spine or lumbar spine become dated or later, the center of gravity moves forward of the vertebrae, causing the center of gravity to move above the nucleus pulposus and the vertebrae become in an unstable position.

It is important to correct the lordosis of the cervical or lumbar spine because the nucleus tends to move backwards, which is relatively borderless, and as a result can easily cause nucleus prolapse of the cervical or lumbar spine (neck or lumbar disc).

With the success of the duoback technology in the past, many of the chairs on the market now use detachable backrest technology. Recently, however, unlike the existing duobag, a seat-separated chair that is divided into two parts, as well as a back part and a plate part in contact with the hip, has been developed. The splittable chair divides the plate where the hips come into contact with the two parts, reducing the strain on the waist and hips caused by sitting for a long time through the distribution of pressure applied to the hips and pelvis / waist. Through this, the effect of reducing back pain and hip pain caused by sitting for a long time as well as inducing the user to sit in a correct posture.

In recent years, health care is changing to a medical system that can continuously check health and inform the doctor of the use behavior through devices used by patients in their daily lives rather than short-term treatment through medical institutions.

Due to the development of IT convergence technology, it is possible to implement such a medical system, and this technology detects the user's bio-signal through various sensors and transmits the detected information to various smart devices so that the user's information and correct usage pattern It is a form that provides various services through SW (Software) that can be compared and analyzed with DB (Database) that stores.

In addition, smart sheets based on intelligent smart textile materials that incorporate pressure, temperature, and humidity sensing functions and respond to environmental changes like living organisms in order to monitor biometric information more accurately and conveniently Applications are being researched.

The present invention is to provide a posture correction IoT chair seat to guide the user to sit in a correct posture by analyzing the user's seating posture and providing feedback through a plurality of sensors installed on the chair seat in accordance with the development of IT fusion technology.

Posture correction IoT chair seat is installed on the seat separation type chair according to a preferred embodiment of the present invention is the upper end portion (1) installed on the chair neckrest; A stopper part 2 installed on the chair back and connected to a lower part of the upper part 1; A lower portion 3 installed at the chair butt support and connected to the lower portion of the middle portion 1; A sensor unit 4 installed at the upper end 1, the stop 2, or the lower end 3 to measure a posture of a user; A controller (not shown) for analyzing a posture of the user measured by the sensor unit 4; And a notification unit 6 providing feedback to the user according to the posture of the user analyzed by the control unit 5.

In this case, the communication unit for transmitting the information on the posture to the wireless communication terminal (not shown); further comprising, the communication unit may be implemented as a Wi-Fi module, Zigbee module or Bluetooth module.

The controller may manage identification information of the sensor unit 4 and provide the identification information to the communication unit.

In addition, the sensor unit 4 includes a pressure sensor 41 and the inclination sensor 42, the pressure sensor 41 is installed in the stop portion 2 and the lower end (3) according to the user's seating posture The pressure is measured, and the inclination sensor 42 may be installed at the upper end 1 to measure the neck angle of the user.

In addition, the upper end 1 may be implemented as a low frequency massager.

According to another aspect of the present invention, a posture correction monitoring method performed in a wireless communication terminal communicating with the posture correction IoT chair seat is provided with identification information of the posture correction IoT chair seat; Receiving posture data of the user from the posture correcting IoT chair seat; And analyzing and displaying the posture data.

The posture correction IoT chair seat according to a preferred embodiment of the present invention analyzes the seating posture by measuring the angle of the user's neck, back, waist, etc. through a plurality of sensors,

It is effective to induce the correct posture by giving a notification to the user through vibration or sound or giving feedback on which part of the body posture should be corrected in real time through a wireless terminal.

And the effect obtained from the present invention is not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those skilled in the art from the following description. There will be.

1 is a perspective view of a posture correction IoT chair seat according to an embodiment of the present invention.
Figure 2 is a perspective view showing that the posture correction IoT chair seat is installed in the seat separation type chair according to an embodiment of the present invention.
3 is a view showing the operation of the pressure sensor of the posture correction IoT chair seat according to an embodiment of the present invention.
4 is a view showing that the tilt sensor of the posture correcting IoT chair seat according to an embodiment of the present invention.
5 is a view showing that the user correctly seated in the posture correction IoT chair seat according to an embodiment of the present invention.

Embodiments described herein are intended to clearly explain the spirit of the present invention to those skilled in the art, the present invention is not limited by the embodiments described herein, the present invention The scope of should be construed to include modifications or variations without departing from the spirit of the invention.

The terminology used herein is a general term that has been widely used as far as possible in view of the functions of the present invention, but may vary according to the intention of a person of ordinary skill in the technical field to which the present invention belongs, custom or the emergence of a new technology. Can be. In contrast, when a specific term is defined and used in any meaning, the meaning of the term will be described separately. Therefore, the terms used in the present specification should be interpreted based on the actual meanings of the terms and the contents throughout the present specification, rather than simple names of the terms.

BRIEF DESCRIPTION OF THE DRAWINGS The drawings attached to the present specification are provided to easily explain the present invention, and the shapes shown in the drawings may be exaggerated and displayed as necessary to help understanding of the present invention, and thus the present invention is not limited to the drawings.

In the present specification, when it is determined that a detailed description of a known configuration or function related to the present invention may obscure the gist of the present invention, a detailed description thereof will be omitted as necessary.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a posture correction IoT chair seat according to an embodiment of the present invention, as shown in Figure 2 can be easily installed on the seat plate detachable chair.

Posture correction IoT chair seat is the upper end (1) made of a predetermined shape attached to the user's neck; A stop part (2) installed on the chair back; A lower portion 3 installed at the chair butt support and connected to the lower portion of the middle portion 1; A sensor unit 4 installed at the upper end 1, the stop 2, and the lower end 3 to measure a posture of a user; A controller (not shown) for analyzing a posture of the user measured by the sensor unit 4; A notification unit 6 providing feedback to the user according to the posture of the user analyzed by the control unit 5; And a coupling part 7 provided at the stop part 2 and the lower part 3 and coupled to the chair.

The upper end 1 is formed in the form of wrapping the user's neck to the side can be easily inclined to the right or left according to the user's neck movement.

Alternatively, the upper end 1 may be connected to the upper side of the stop 2 as shown in FIG.

Alternatively, the upper end portion 1 may be attached to the user's neck in a state connected to the upper side of the stop portion (2). At this time, it is preferable that the upper end 1 is not installed in the seat plate chair-type attachment.

On the other hand, the communication unit (not shown) for transmitting information about the user's seating posture to a wireless communication terminal, a wireless gateway and a server, the communication unit may be implemented as a Wi-Fi module, Zigbee module or Bluetooth module.

The communication unit may transmit a value measured by the sensor unit 4 to a wireless communication terminal, a wireless gateway and a server through a low power communication method. Based on the communication method used by the communication unit, iBeacon communication method and connection communication method may be selectively used depending on the situation. Since the communication scheme is a widely known scheme, further detailed description thereof will be omitted.

In this case, the wireless communication terminal is an electronic terminal that can be installed with a program (application, etc.) for visualization and correction of information on the seating posture, and may be a smartphone, a tablet PC, or a wearable communication terminal, and is not limited to a specific terminal. .

The control unit receives and manages identification information, posture information, time, etc. from the sensor unit 4 and records them in a database of a server so that the control unit can be used to analyze posture patterns of individual users or groups. The information stored in the database may be provided to the communication unit.

In this case, the controller generates posture information according to a packet structure suitable for a communication scheme to transmit the value measured by the sensor unit 4 to the communication unit, and transmits the communication through the communication unit.

In addition, the communication method in the communication unit may be determined according to the type of request received from the wireless communication terminal or the wireless gateway.

On the other hand, the sensor unit 4 includes a pressure sensor 41 and the inclination sensor 42, the pressure sensor 41 is installed on the stop portion (2) and the lower end (3) according to the user's seating posture The pressure at the middle part 2 and the lower part 3 by the weight is measured, and the inclination sensor 42 is installed at the upper part 1 to measure the neck angle of the user. The upper end 1 may be implemented as a low frequency massager, and the low frequency massager may serve as a notification unit 6.

The pressure sensor 41 may be made of a piezoelectric element or other sensor element. When using a piezoelectric element, a voltage signal is generated according to the pressure according to the user's sitting posture. The pressure may be calculated from the intensity of the voltage signal generated in the piezoelectric element according to the pressure, and the seating posture of the user may be analyzed from the signals detected in the piezoelectric elements distributed in plural using this principle. In the case of using other pressure sensing elements in addition to the piezoelectric elements, the seating posture of the user may be analyzed from the plurality of detected signals. In addition, in the case of implementing the pressure sensor 41 using the piezoelectric element, even without a separate power supply, an electric signal may be generated according to the pressure according to the sitting posture, and a power supply unit may be used for the sensitivity or amplification of the signal. can do.

As shown in FIG. 3, the pressure sensor 41 installed at the lower end 3 may detect whether the user is seated, and may tilt the body from side to side or cross the legs to detect that the body is inclined to one side.

In this case, the pressure sensor 41 may be installed symmetrically in the lower portion 3 in order to easily detect the pressure.

In addition, the pressure sensor 41 installed in the stop 2 may detect whether the user's back is inclined forward or sideways.

The inclination sensor 42 may be used as a gyro sensor and an acceleration sensor, and as shown in FIG. 4, the inclination sensor 42 may measure inclination according to a user's neck movement.

As such, when one or more sensor values of the pressure sensor 41 and the tilt sensor 42 are out of a preset value range, the user may be notified in real time through the notification unit 6 or the wireless communication terminal.

5 shows a user sitting in a chair in a correct posture, in which all the pressure sensors 41 and the tilt sensor 42 are in contact with the user's body.

According to another aspect of the present invention, a posture correction monitoring method performed in a wireless communication terminal communicating with the posture correction IoT chair seat is provided with identification information of the posture correction IoT chair seat; Receiving posture data of the user from the posture correcting IoT chair seat; And analyzing and displaying the posture data.

In this case, the wireless communication terminal may be connected with a plurality of posture correction IoT chair seats.

In another embodiment, the wireless communication terminal may be connected to an application or a web page, and the user may register and log in, and may be connected to a posture correction IoT chair seat located in a Bluetooth, Wi-Fi, or Zigbee communication manner.

In this case, a menu such as a product description, real time my posture, today's posture analysis, mode selection, and my information may be generated in the application or web page.

The product description may include a description and usage of the posture correction IoT chair seat.

In today's posture analysis, a correct posture holding time and average time may be recorded.

The mode selection may include setting a notification and changing a massage mode when the posture is incorrect. The notification may include a sound, vibration, or silent mode.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments of the present invention described above may be implemented separately or in combination with each other.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1: upper part
2: interruption part
3: lower part
4 sensor unit
41: pressure sensor
42: tilt sensor
6: notification unit
7: coupling part

Claims (6)

In the posture-correcting IoT chair seat installed on the separate chair:
An upper portion formed of a predetermined shape attached to the user's neck;
Suspension unit is installed on the chair back;
A lower end installed on the chair butt support and connected to the lower side of the middle part of the chair;
A sensor unit installed at the upper end, the stopping part, or the lower end to measure a posture of a user;
A controller analyzing the posture of the user measured by the sensor unit; And
Posture correction IoT chair seats including; notification unit for providing feedback to the user according to the user's posture analyzed by the controller The method according to claim 1,
The communication unit for transmitting the information on the posture to the wireless communication terminal further comprises;
Posture correction IoT chair seat, characterized in that the communication unit is implemented by a Wi-Fi module, Zigbee module or Bluetooth module The method according to claim 2,
The control unit manages identification information of the sensor unit, and provides the identification information to the communication unit posture correction IoT chair seat The method according to claim 1,
The sensor unit includes a pressure sensor and a tilt sensor,
The pressure sensor is installed on the stop and the lower end to measure the pressure according to the user's seating position,
The tilt sensor is installed on the upper end posture correction IoT chair seat, characterized in that for measuring the neck angle of the user The method according to claim 1,
Posture correction IoT chair seat, characterized in that the upper end is implemented as a low-frequency massager In the posture correction monitoring method performed in the wireless communication terminal communicating with the posture correction IoT chair seat of claim:
Receiving identification information of the posture correcting IoT chair seat;
Receiving posture data of the user from the posture correcting IoT chair seat; And
Posture correction monitoring method comprising the step of interpreting and displaying the posture data;

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