KR20140032082A - Monitoring system for sitting posture of user - Google Patents

Abstract

A system for monitoring the sitting posture of a user according to the present invention includes: a chair device (100) which has a pressure sensor (101) and a tilt sensor (102) generating posture data about the posture of a user sitting on a chair; an analysis device (200) which analyzes the posture data generated in the chair device (100) and generates information about the posture of the user; and a display device (250) which displays the information generated in the analysis device (200). The chair device (100) transmits the posture data to the analysis device (200) through wired or wireless data communications. [Reference numerals] (101) Pressure sensor; (102) Tilt sensor; (120,210) Transmission and reception communications module; (130,230) Memory; (220) Data analysis processor; (250) Display device

Description

Seating posture monitoring system of user {MONITORING SYSTEM FOR SITTING POSTURE OF USER}

The technology described below relates to a system for monitoring the posture of a user seated in a chair.

In recent years, healthcare is changing to a medical system that can continuously check the health and inform the doctor of the use behavior through devices used by the 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 a user's biosignal through various sensors and transmits the detected information to various smart devices, thereby providing information and correct usage pattern of the user. It is a form that provides various services through SW (Software) that can be compared and analyzed with DB (Database) that stores.

In recent years, 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 user's sitting posture monitoring system described below is intended to provide a system for accurately measuring a posture of a user sitting on a chair.

The user's sitting posture monitoring system described below is to provide a system for generating posture information for a user or a medical staff by generating a pattern of a posture of a user sitting on a chair.

The solutions to the technical problems described below are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

Seating posture monitoring system of the user according to the present invention is a pressure sensor and a tilt sensor is disposed, the pressure sensor and the tilt sensor is a chair device for generating posture data for the posture of the user sitting on the chair, posture data generated by the chair device And a display device for displaying the information generated by the analysis device and the analysis device for generating information on the posture of the user by analyzing the. The chair device transmits posture data to the analysis device through wired or wireless data communication.

The chair device includes a seat plate portion disposed on the upper part of the chair leg, a backrest portion disposed vertically upward on the rear upper portion of the seatplate portion, and a headrest portion disposed in an upwardly extending form from the backrest portion, and includes a seatplate portion, a backrest portion, and A plurality of pressure sensors are disposed at the head restraints, respectively, in contact with the user, a part connecting the chair leg and the seat, a part connecting the seat and the backrest, and a part connecting the backrest and the headrest, respectively. Is placed.

The wide face of each of the seat plate, the backrest and the headrest is rectangular in shape, and a pressure sensor is arranged at the vertex of the rectangle.

The analysis device compares the pressure data transmitted from the pressure sensors disposed in the seat plate, the backrest and the headrest and the tilt data transmitted from the tilt sensor with the reference posture data, respectively, and the postures of the seat plate, the backrest and the headrest respectively. Analyze the data.

The analyzer analyzes the posture data during the reference period to generate a posture pattern.

The analysis device may be any one or more of a mobile terminal, a PC, or an analysis server connected to the chair device via a wired or wireless network.

The chair apparatus further includes one or more of a temperature sensor, a humidity sensor, and a weight sensor in the seat plate, further generates seating information on a user's seating time or a seating environment, and transmits seating information to the analyzer.

The analyzing apparatus includes a reader for identifying the RFID tag possessed by the user, and analyzes the attitude data only when the ID stored in the RFID tag and the user ID stored in the analyzing apparatus match.

The user's seating posture monitoring system described below ideally arranges various sensors and monitors accurate posture information to periodically notify the user through a smart device. Because it can be analyzed, various spinal diseases and diseases can be prevented in advance, and users who use the chair for a long time can maximize work or learning performance effects.

Not only can the general public obtain the correct posture correction information through the image of the smart device in the comfort of their own home or office, but also analyzes the pattern of chair use in daily life for patients with spinal diseases. As you get help, you can maximize your treatment for spinal diseases.

In addition, parents who have adolescent children who need hard self-directed learning can expect educational effects by analyzing and delivering their learning status information. National prevention of spinal diseases is possible, which can contribute to the improvement of public welfare and medical expenses.

The effects of the techniques described below are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a block diagram schematically showing the configuration of a user's seating posture monitoring system.
FIG. 2 is a perspective view illustrating an example in which various sensors are arranged in a chair device of a user's seating posture monitoring system.
3 is a sequence diagram showing a sequence in which a user's seating posture monitoring system operates.
4 illustrates an example of a screen on which a user's seating posture monitoring system executes an application executed in a user's mobile terminal.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms first, second, A, B, etc., may be used to describe various components, but the components are not limited by the terms, but may be used to distinguish one component from another . For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

As used herein, the singular " include "should be understood to include a plurality of representations unless the context clearly dictates otherwise, and the terms" comprises & , Parts or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, components, components, or combinations thereof.

Before describing the drawings in detail, it is to be clarified that the division of constituent parts in this specification is merely a division by main functions of each constituent part. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. Each of the components to be described below may additionally perform some or all of the functions of other components in addition to the main functions of the components, and some of the main functions of each of the components are different. Of course, it may be carried out exclusively by. Therefore, the presence or absence of each component described through this specification should be interpreted functionally, and for this reason the configuration of the components according to the seating posture monitoring system 1000 of the user of the present invention will achieve the object of the present invention. It should be clear that it may be different from FIG. 1 to the extent possible.

Hereinafter, a user's sitting posture monitoring system 1000 will be described in detail with reference to the accompanying drawings. 1 is a block diagram schematically illustrating a configuration of a user's seating posture monitoring system 1000.

In the seating posture monitoring system 1000 of the user according to the present invention, a pressure sensor 101 and an inclination sensor 102 are disposed, and the pressure sensor 101 and the inclination sensor 102 correspond to a posture of a user sitting in a chair. Chair device 100 for generating posture data, analyzing the posture data generated by the chair device 100 displays the information generated by the analysis device 200 and the analysis device 200 for generating information about the user's posture And a display device 250. The chair device 100 transmits posture data to the analysis device 200 through wired or wireless data communication.

In the present invention, the chair device 100 is a device in which various sensors and communication modules are arranged in a general chair mechanism. The analysis device 200 corresponds to a computer device including a processor (CPU) capable of analyzing data. The chair device 100 and the analysis device 200 exchange data through wired or wireless communication.

The posture data is data for analyzing a posture of a user who sits in a chair, and the posture data is measured through various sensors disposed in the chair device 100. The basic sensor disposed on the chair device 100 includes a pressure sensor 101 for measuring the pressure added while the user is sitting and a tilt sensor 102 for measuring the degree of deformation of each part of the chair according to the user's seating position. to be. Therefore, the posture data includes pressure data and inclination data.

The data measured by the pressure sensor 101 or the like may be stored in the memory 130, and the measured data may be directly transmitted through the transceiving communication module 120. It may be necessary when the analysis device 200 analyzes posture data after a predetermined time of data stored in the memory 130 or analyzes a pattern for posture data measured within a predetermined time zone.

Posture data transmitted through the transmission / reception communication module 120 of the chair device 100 is transmitted to the analysis device 200 through the transmission / reception communication module 210 of the analysis device 200. The data analysis processor 220 of the analysis apparatus 200 analyzes posture data and analyzes a user's sitting posture. The analyzed result is immediately displayed on the display apparatus 250 or the result stored in the memory 230 of the analysis apparatus 200 is displayed on the display apparatus 250.

2 is a perspective view illustrating an example in which various sensors are arranged in the chair device 100 of the user's seating posture monitoring system 1000.

The chair device 100 extends upward from the seat plate part 111 disposed on the chair leg, the backrest part 112 and the backrest part 112 disposed in the vertical upper direction on the rear upper part of the seat plate part 111. It includes a headrest 113 is disposed in the form.

A plurality of pressure sensors 101 are disposed at portions of the seat plate 111, the backrest 112, and the headrest 113 that are in contact with the user. It is sufficient to arrange the pressure sensor 101 at the site under pressure when the user is sitting. Further, the inclination sensor is located at the part connecting the chair leg and the seat plate part 111, the part connecting the seat plate 111 and the backrest part 112, and the part connecting the backrest part 112 and the headrest part 113, respectively. Preferably, 102 is disposed.

A wide surface of each of the seat plate 111, the backrest 112, and the headrest 113 may have a quadrangular shape, and the pressure sensor 101 may be disposed at a vertex of the quadrangle. Since it is a vertex of a rectangle, as shown in FIG. 2, four pressure sensors 101 may be disposed on the seat plate 111, the backrest 112, and the headrest 113. The inclination sensor 102 is preferably disposed at a portion to which each component of the chair is connected.

Furthermore, a temperature sensor 103, a humidity sensor 104, or a weight sensor 105 may be disposed in the seat plate 111. In FIG. 2 only the temperature sensor 103 is shown for example. When the user is seated for a long time, the temperature or humidity of the seat plate 111 in contact with the user's body increases. The temperature sensor 103 or the humidity sensor 104 may measure such a change in temperature or humidity to measure a seating time or a seating environment of the user. The weight sensor 105 may be necessary because the criteria for analyzing the sitting posture may vary according to the weight of the user. For example, a person with a large weight puts a lot of pressure on the chair device 100, and therefore, it is necessary to appropriately correct the posture data.

The analysis apparatus 200 may store the pressure data transmitted from the pressure sensor 101 disposed on the seat plate 111, the backrest 112, and the headrest 113, and the gradient data transmitted from the tilt sensor 102, respectively. The posture data of each of the seat plate 111, the backrest 112, and the headrest 113 may be analyzed in comparison with the reference posture data. That is, the posture data of each region of the seat plate 111 contacting the hips of the user, the backrest 112 contacting the back of the user, and the headrest 113 contacting the user's head is analyzed.

The reference posture data may use general data on pressure, inclination, etc. generated when the user sits in a chair in a correct posture according to general medical knowledge. Alternatively, the user may set the reference posture data by measuring data measured after sitting in the chair device 100 in a correct posture for each user.

The analyzing apparatus 200 analyzes the posture data by measuring whether or not the pressure is received above a threshold value while comparing the posture data with the reference posture data. Furthermore, the analysis apparatus 200 may generate a posture pattern while analyzing posture data for a reference time. The posture pattern may be displayed in numerical or graphical form with respect to posture data that changes along the time axis.

The analysis device 200 may be at least one of a mobile terminal such as a smartphone, a personal computer (PC), or an analysis server in which an analysis algorithm is stored. In the mobile terminal, the sitting position can be analyzed through an application for analysis. In the mobile terminal, the display panel corresponds to the display device 250, and in the PC, the monitor device corresponds to the display device 250, and the analysis server includes a monitor of a separate terminal used by a user. Will correspond.

Embodiments in which the user's seating posture monitoring system 1000 according to the present invention are used may vary. For example, a spinal disease patient may collect posture data in daily life and provide it to a healthcare provider for use in medical care and treatment. In this case, the patient may check the posture data analysis result through his mobile terminal, or deliver the posture data analysis result only to the medical staff through the analysis server.

In addition, by analyzing the sitting posture of a student who needs learning guidance, it may provide information to help the learning, or provide information on whether or not seated and sitting in the correct position to the guardian, such as parents or teachers.

In addition, by applying the present system to the car, the driver who drives can tell the driver in real time whether he or she is driving in a stable position even when driving for a long time.

Meanwhile, the seating posture monitoring system 1000 of the user of the present invention may be set to be used only by a specific user. Although various methods may be possible, the analysis apparatus 200 includes a reader for identifying the RFID tag possessed by the user, and the ID stored in the RFID tag of the user accessing the analysis apparatus 200 and the user stored in the analysis apparatus 200. Posture data can also be analyzed only if the IDs match.

3 is a sequence diagram illustrating a sequence in which the user's seating posture monitoring system 1000 operates. The left side corresponds to the chair apparatus 100 and the right side corresponds to the analysis apparatus 200. Attempts a connection for data transmission to the chair device 100 in the analysis device 200, such as a smartphone (①), receiving the approval for data connection from the chair device 100 (②), chair device 100 The posture data measured by the various sensors in the transmission and reception communication module 120 of the chair apparatus 100 and the transmission and reception communication module 210 of the analysis device 200 is transmitted to the analysis device 200 (③). After analyzing the attitude data through the data analysis processor 220 of the analysis device 200, and displays the analysis result on the display device 250 or transmits the data to the terminal in the remote (④). When the operation is complete, the connection is released and the whole process is terminated (⑤).

4 illustrates an example of a screen on which a user's seating posture monitoring system 1000 executes an application executed in a user's mobile terminal. Corresponds to an embodiment using the user's seating posture monitoring system 1000 of the present invention.

When the application starts, the initial image comes out as shown on screen ① and goes to the main screen ②. In the main screen ②, the posture information of the chair user is set correctly according to the screen ④ which first selects the initial setting D-1. This part sets the standard posture data for each user.

When the setting is completed, the screen returns to the main screen②. Clicking D-2 Measurement displays the current or continuous status information of the chair user as shown in screen ③. D-3 If you select the statistics view, you can display the periodic usage status (posture pattern) as a graph on the screen ⑤ and send the usage pattern to the person (medical staff, parents) set up by sending information.

When the child management is selected in the main screen ②, the child's chair usage information is displayed as shown in the screen ③ and the information on the screen ⑤ is transmitted to the parents through the D-3 statistics view.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that variations and specific embodiments which may occur to those skilled in the art are included within the scope of the present invention.

1000: user sitting posture monitoring system
100: chair device 101: pressure sensor
102: tilt sensor 103: temperature sensor
104: humidity sensor 105: weight sensor
111: seat plate portion 112: back portion
113: headrest 120: transmission and reception communication module
130: memory 200: analysis device
210: transmit and receive communication module 220: data analysis processor
230: memory 250: display device

Claims (10)

A pressure sensor and a tilt sensor are disposed, the pressure sensor and the tilt sensor comprising: a chair device for generating posture data on a posture of a user sitting on a chair;
An analysis device for generating information on the posture of the user by analyzing posture data generated by the chair device; And
And a display device displaying information generated by the analysis device, wherein the chair device transmits the posture data to the analysis device through a wired or wireless data communication. The method of claim 1,
The chair device is
A seat plate disposed on an upper part of a chair leg, a backrest disposed vertically upwardly at a rear upper portion of the seatplate, and a headrest disposed in a form extending upwardly from the backrest;
A plurality of pressure sensors are disposed in the seat plate portion, the backrest portion and the headrest portion in contact with the user, respectively, a portion connecting the chair leg and the seatplate portion, a portion connecting the seatplate portion and the backrest portion, and Seating posture monitoring system of the user, the inclination sensor is disposed in each of the portion connecting the backrest and the headrest. 3. The method of claim 2,
A seating posture monitoring system of a user in which a wide surface of each of the seat plate, the backrest portion and the headrest portion has a rectangular shape and the pressure sensor is disposed at a vertex of the rectangle. 3. The method of claim 2,
The analysis device
The seat plate part, the backrest part and the headrest are compared with the reference posture data by comparing the pressure data transmitted from the pressure sensor disposed in the seat plate part, the backrest part and the headrest part and the tilt sensor respectively. Seating posture monitoring system of the user to analyze each posture data. 5. The method of claim 4,
The analysis apparatus is a sitting posture monitoring system for a user to generate a posture pattern by analyzing the posture data for a reference period. 5. The method of claim 4,
The reference posture data of the user's seating posture monitoring system is measured while the user is sitting in the reference position on the chair device. The method of claim 1,
The analysis device is a seating posture monitoring system for the user is any one or more of a mobile terminal, a PC, or an analysis server connected to the chair apparatus and a wired or wireless network. The method of claim 1,
And information about the posture of the user generated by the analyzing apparatus includes whether the user is seated on a chair. 3. The method of claim 2,
The chair device further includes any one or more of a temperature sensor, a humidity sensor, or a weight sensor in the seat plate, and further generates seating information about a user's seating time or a seating environment, and transmits seating information to the analysis device. User's seating posture monitoring system. The method of claim 1,
The analysis apparatus includes a reader for identifying the RFID tag possessed by the user, and the sitting posture monitoring system of the user analyzing the posture data only when the ID stored in the RFID tag and the user ID stored in the analysis device.

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