KR20170010503A - posture correction system having wearable cushion - Google Patents

Abstract

The present invention relates to a posture correction system equipped with a wearable cushion that can help the user to sit in the correct posture as much as possible and thereby prevent a scoliosis of a user or incontinence or pelvic pain, A pressure measurement command signal is received from a smartphone through wireless communication, a pressure is measured when the user is seated according to the received pressure measurement command signal, and the measured pressure measurement information is transmitted to a smart phone To the wearable cushion (102); The wearable cushion 102 is connected to the wearable cushion 102 via a wireless communication. The pressure measurement command transmits a pressure measurement command signal to the wearable cushion 102 using the pressure measurement application software. The pressure measurement information is received from the wearable cushion 102, And a user smartphone 104 for displaying pressure measurement information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a posture correction system having a wearable cushion,

The present invention relates to a posture correction system equipped with a wearable cushion that can help a user to sit in a correct posture as much as possible and thereby prevent a user's scoliosis,

Generally, a cushion is used to sit in a living room such as a home or a restaurant, and a cushioning material such as cotton is filled in a cover material such as a leather or a fabric so that the user can feel comfort when sitting on the seat.

In recent years, in addition to the basic use of a cushion, a variety of functional cushions for achieving an effect of acupressure by arranging acupressure projections on a surface at regular intervals have been widely available.

However, since the conventional cushioning cushions have a structure in which a plurality of acupressure protrusions uniformly protrude upward from the body of the cushion uniformly, it simply presses the buttocks or the thighs evenly, The acupoint of the sciatica where acupressure is particularly required for the treatment of circulation, back pain, and neuralgia can not be effectively applied to the acupuncture point, and the cushion having the conventional acupressure function has a plurality of acupressure protrusions always protruding to the outside, It is inconvenient because it can not be used as a cushion, and the appearance of the cushion is not good.

In addition, the conventional pressure-sensitive cushions do not want to use the acupressure function, and the feeling of the acupressure projection is transmitted as it is even when the user sits in an upside-down state.

In order to solve the above problems, the patent application was filed with the Korean Intellectual Property Office on Oct. 19, 2009, filed with the application No. 10-2009-0099135 (entitled "Acupressure Cushion Cushion"), And a cover 120 to which the menstrual blood pressure guide plate 110 is inserted. The cover 120 includes a plurality of menstrual blood pressure guide protrusions 112, And a cushion member 130 provided on the diaphragm 100 for covering the upper and lower surfaces of the diaphragm 100. The diaphragm 110 is provided with a heater wire 176 for obtaining a fomenting effect, A temperature sensor 177 for sensing the temperature of the heater wire 176 when the heater wire 176 generates heat is provided at one side of the pressure plate 110. The heater wire 176 is connected to the heater wire 176 according to the heating temperature measured by the temperature sensor 177 A controller 190 for controlling power supply and a controller 190 for driving For menstrual blood pressure cushion, characterized in that power supply means for supplying a source 200 is further provided: "a.

However, the above-described conventional menstrual cushioning pressure cushion is used for shaking the acupuncture points of the human body or the thighs,

There was a problem that the posture of the user sitting on the cushion could not be measured.

Particularly, when the user is sitting for a long period of time in a wrong posture, the user may suffer from a variety of diseases such as scoliosis, headache or pelvic pain.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for supporting a user to sit in a correct posture as much as possible, And a wearable cushion that can prevent the wearer's cushion.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a posture correction system having a wearable cushion,

The pressure measurement command signal is received from the smartphone through wireless communication and the pressure applied when the user is seated according to the received pressure measurement command signal is measured, A wearable cushion 102 for transferring to a smartphone through a personal computer;

The wearable cushion 102 is connected to the wearable cushion 102 via a wireless communication. The pressure measurement command transmits a pressure measurement command signal to the wearable cushion 102 using the pressure measurement application software. The pressure measurement information is received from the wearable cushion 102, And a user smartphone 104 for displaying pressure measurement information.

As described above, the posture correction system having the wearable cushion according to the present invention has an effect of helping the user to sit in the correct posture as much as possible.

Further, the present invention has an effect of preventing scoliosis of the user or incontinence or pelvic pain of the user.

1 is a schematic view of a posture correcting system having a wearable cushion according to the present invention,
Fig. 2 is an enlarged view of the wearable cushion of Fig. 1,
Fig. 3 is a schematic configuration diagram of the wearable cushion of Fig. 1,
FIG. 4A is a view schematically showing a state when the user is seated at the center of the upper surface of the wearable cushion of FIG. 1,
Fig. 4B is a view showing a state when the wearable cushion of Fig. 1 is seated on the upper edge of the wearable cushion.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a position correction system having a wearable cushion according to the present invention will be described.

In the following description of the present invention, 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.

FIG. 1 is a schematic view of a posture correcting system having a wearable cushion according to the present invention, FIG. 2 is an enlarged view of the wearable cushion of FIG. 1, and FIG. 3 is a schematic configuration diagram of the wearable cushion of FIG.

1 to 3, a posture correcting system 100 having a wearable cushion according to the present invention includes:

The pressure measurement command signal is received from the smartphone through wireless communication and the pressure applied when the user is seated according to the received pressure measurement command signal is measured, A wearable cushion 102 for transferring to a smartphone through a personal computer;

The wearable cushion 102 is connected to the wearable cushion 102 via a wireless communication. The pressure measurement command transmits a pressure measurement command signal to the wearable cushion 102 using the pressure measurement application software. The pressure measurement information is received from the wearable cushion 102, And a user smartphone 104 for displaying pressure measurement information.

In the wearable cushion 102,

An elastic material body 106 for comfortably supporting the user's hips;

A condenser plate 108 fixed to one side of the elastic material body 106 to receive light and convert the received light into electric energy;

A condenser 108 for condensing the electric energy supplied from the condenser 108 to the condenser 108 and a condenser 108 for condensing the condenser 108 and the condenser 108, 110);

The electric energy (power) supplied from the charging unit 110 is electrically connected to the charging unit 110 and is supplied to the charging unit 110 at predetermined intervals from the charging unit 110, A control unit (112) for controlling the operation according to the program;

The control unit 112 is disposed at an inner center of the elastic material body 106 at a predetermined interval from the control unit 112. The control unit 112 is electrically connected to the control unit 112, A first pressure measurement sensor 114 for measuring the pressure applied when the user sits;

The first pressure measurement sensor 114 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with a control signal of the control unit 112, A second pressure measurement sensor (116) for measuring a pressure applied when the user sits on the upper surface of the pressure sensor (106);

The second pressure measurement sensor 116 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with a control signal of the control unit 112, A third pressure measurement sensor 118 measuring the pressure applied when the user sits on the upper surface of the second pressure sensor 106;

The first pressure measurement sensor 118 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with the control signal of the control unit 112, A fourth pressure measurement sensor 120 for measuring a pressure applied when the user sits on the upper surface of the second pressure sensor 106;

The first pressure measurement sensor 120 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with a control signal of the control unit 112, A fifth pressure measurement sensor 122 for measuring a pressure applied when the user sits on the upper surface of the second pressure sensor 106;

The first pressure measurement sensor 122 is disposed at a predetermined distance from the inside of the elastic material body 106 and is electrically connected to the control unit 112, Receives a pressure measurement command signal from a smartphone, sends a pressure measurement command signal to the controller 112, receives pressure measurement information from the controller 112 according to a control signal of the controller 112, And a communication unit (124) for transmitting to the user smartphone (104).

Here, the second pressure measurement sensor 116 is at the north edge from the first pressure measurement sensor 114, the third pressure measurement sensor 118 is at the western edge from the first pressure measurement sensor 114, The fourth pressure measurement sensor 120 is at the south edge from the first pressure measurement sensor 114 and the fifth pressure measurement sensor 122 is at the east edge from the first pressure measurement sensor 114.

Hereinafter, the operation of the posture correction system 100 having the wearable cushion according to the present invention will be described.

A condenser 108 in which an elastic material body 106 and a collector are connected to each other, a charger 110, a controller 112, a first pressure measuring sensor 114 and a second pressure measuring sensor 116, The wearable cushion 102 including the sensor 118, the fourth pressure measurement sensor 120, the fifth pressure measurement sensor 122, the communication unit 124, and the like is positioned.

At this time, the light collecting plate 108 receives the light, converts the received light into electric energy, and sends it to the charging unit 110. The charging unit 110 stores electrical energy and sends the stored electrical energy to the controller 112. [ The controller 112 sends a control signal to the component according to a preset program.

A user having a user smartphone 104 equipped with pressure measurement app software sits on the upper surface of the elastic material body 106. [

Then, the user executes the pressure measurement application software in the user smartphone 104 which the user has.

When the pressure measurement application software is executed, the user smartphone 104 sends a pressure measurement command signal to the wearable cushion 102.

The communication unit 124 installed at one side of the elastic material body 106 of the wearable cushion 102 receives the pressure measurement command signal in accordance with the control signal of the control unit 112, And sends it to the control unit 112.

The controller 112 controls the first pressure measurement sensor 114 installed at the center of the elastic material body 106 according to the received pressure measurement command signal and the second pressure measurement sensor 114 installed at the center of the elastic material body 106, A third pressure measurement sensor 118 provided on one side of the inner edge of the elastic material body 106; a fourth pressure measurement sensor 120 provided on one side of the inner edge of the elastic material body 106; And sends a control signal to the fifth pressure measurement sensor 122 provided on one side of the inner edge of the material body 106.

The first pressure measurement sensor 114 measures the pressure applied to the center of the elastic material body 106, and then sends the measured pressure value to the control unit 112.

The second pressure measurement sensor 116 measures the pressure applied to the inner edge of the elastic material body 106, that is, the north edge, and then sends the measured pressure value to the controller 112.

The third pressure measuring sensor 118 measures the pressure applied to the inner edge of the elastic material body 106, that is, the western edge, and then sends the measured pressure value to the controller 112.

The fourth pressure measuring sensor 120 measures the pressure applied to the inner edge of the elastic material body 106, that is, the south edge, and then sends the measured pressure value to the controller 112.

The fifth pressure measurement sensor 122 measures the pressure applied to the inner edge of the elastic material body 106, that is, the edge of the elastic material body 106, and then sends the measured pressure value to the controller 112.

The control unit 112 controls the pressure of the first pressure measurement sensor 114, the pressure of the second pressure measurement sensor 116, the pressure of the third pressure measurement sensor 118, And sends the pressure value of the fourth pressure measurement sensor 120 and the pressure value of the fifth pressure measurement sensor 122 to the communication unit 124.

The communication unit 124 communicates the pressure value of the first pressure measurement sensor 114, the pressure value of the second pressure measurement sensor 116, the pressure value of the third pressure measurement sensor 118, The pressure value of the fourth pressure measurement sensor 120, and the pressure value of the fifth pressure measurement sensor 122 are sent to the user smartphone 104.

Then, the user smartphone 104 transmits the pressure value of the first pressure measurement sensor 114, the pressure value of the second pressure measurement sensor 116, the pressure value of the second pressure measurement sensor 116, The pressure value of the fourth pressure measurement sensor 120 and the pressure value of the fifth pressure measurement sensor 122 and stores the pressure value of the first pressure measurement sensor 114 and the pressure value of the second pressure measurement sensor 122 116, the pressure value of the third pressure measurement sensor 118, the pressure value of the fourth pressure measurement sensor 120, and the pressure value of the fifth pressure measurement sensor 122 are displayed.

The pressure value of the first pressure measurement sensor 114, the pressure value of the second pressure measurement sensor 116, the pressure value of the third pressure measurement sensor 118, If the pressure value of the first pressure measurement sensor 114 is the largest at the pressure value of the fourth pressure measurement sensor 120 and the pressure value of the fifth pressure measurement sensor 122,

As shown in FIG. 4A, it is assumed that the user is sitting in the correct posture as much as possible.

The pressure value of the first pressure measurement sensor 114, the pressure value of the second pressure measurement sensor 116, the pressure value of the third pressure measurement sensor 118, If the pressure value of the fourth pressure measurement sensor 120 and the pressure value of the second pressure measurement sensor 116 are the largest at the pressure value of the fifth pressure measurement sensor 122,

As shown in FIG. 4B, it is assumed that the user is inclined to the wearer's cushion 102 in a posture bent to the north edge portion.

A pressure value of the first pressure measurement sensor 114, a pressure value of the second pressure measurement sensor 116, a pressure value of the third pressure measurement sensor 118, If the pressure value of the fourth pressure measurement sensor 120 and the pressure value of the third pressure measurement sensor 118 are the largest at the pressure value of the fifth pressure measurement sensor 122,

It is assumed that the user is inclined to the western edge portion of the wearable cushion 102 in a bent posture

The pressure value of the first pressure measurement sensor 114, the pressure value of the second pressure measurement sensor 116, the pressure value of the third pressure measurement sensor 118, If the pressure value of the fourth pressure measurement sensor 120 and the pressure value of the fourth pressure measurement sensor 120 are the largest at the pressure value of the fifth pressure measurement sensor 122,

It is assumed that the user is biased to the wearable cushion 102 in a bent state toward the south edge portion

The pressure value of the first pressure measurement sensor 114, the pressure value of the second pressure measurement sensor 116, the pressure value of the third pressure measurement sensor 118, If the pressure value of the fourth pressure measurement sensor 120 and the pressure value of the fifth pressure measurement sensor 122 are the largest at the pressure value of the fifth pressure measurement sensor 122,

It is assumed that the user is inclined to the wearable cushion 102 in a bent posture toward the eastern edge portion.

Therefore, the user is inclined to the posture bent in the north edge portion in the second example through the screen of the smartphone 102, the posture is bent in the posture bent in the west edge portion in the third example, And in the fifth example, it can be seen that it is biased toward the east edge portion,

The user can calibrate to the correct posture.

Therefore, the posture correction system equipped with the wearable cushion according to the present invention helps the user to sit in the correct posture as much as possible.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: attitude correction system equipped with wearable cushion
102: Wearable cushion
104: User smartphone
106: elastic material body
108: condenser plate
110:
112:
114: first pressure measuring sensor
116: Second pressure measuring sensor
118: Third pressure measuring sensor
120: Fourth pressure measuring sensor
122: fifth pressure measuring sensor
124:

Claims (2)

The pressure measurement command signal is received from the smartphone through wireless communication and the pressure applied when the user is seated according to the received pressure measurement command signal is measured, A wearable cushion 102 for transferring to a smartphone through a personal computer;
The wearable cushion 102 is connected to the wearable cushion 102 via a wireless communication. The pressure measurement command transmits a pressure measurement command signal to the wearable cushion 102 using the pressure measurement application software. The pressure measurement information is received from the wearable cushion 102, And a user smartphone (104) for displaying pressure measurement information.
The method according to claim 1,
The wearable cushion (102)
An elastic material body 106 for comfortably supporting the user's hips;
A condenser plate 108 fixed to one side of the elastic material body 106 to receive light and convert the received light into electric energy;
A condenser 108 for condensing the electric energy supplied from the condenser 108 to the condenser 108 and a condenser 108 for condensing the condenser 108 and the condenser 108, 110);
The electric energy (power) supplied from the charging unit 110 is electrically connected to the charging unit 110 and is supplied to the inside of the elastic material body 106 at predetermined intervals from the charging unit 110, A control unit (112) for controlling the operation according to the program;
The control unit 112 is disposed at an inner center of the elastic material body 106 at a predetermined interval from the control unit 112. The control unit 112 is electrically connected to the control unit 112, A first pressure measurement sensor 114 for measuring the pressure applied when the user sits;
The first pressure measurement sensor 114 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with a control signal of the control unit 112, A second pressure measurement sensor (116) for measuring a pressure applied when the user sits on the upper surface of the pressure sensor (106);
The second pressure measurement sensor 116 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with a control signal of the control unit 112, A third pressure measurement sensor 118 measuring the pressure applied when the user sits on the upper surface of the second pressure sensor 106;
The first pressure measurement sensor 118 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with the control signal of the control unit 112, A fourth pressure measurement sensor 120 for measuring a pressure applied when the user sits on the upper surface of the second pressure sensor 106;
The first pressure measurement sensor 120 is installed at one side of the inner edge of the elastic material body 106 at a predetermined interval and is electrically connected to the control unit 112. In accordance with a control signal of the control unit 112, A fifth pressure measurement sensor 122 for measuring the pressure applied when the user sits on the upper surface of the second pressure sensor 106,
The first pressure measurement sensor 122 is disposed at a predetermined distance from the inside of the elastic material body 106 and is electrically connected to the control unit 112, Receives a pressure measurement command signal from a smartphone, sends a pressure measurement command signal to the controller 112, receives pressure measurement information from the controller 112 according to a control signal of the controller 112, And a communication unit (124) for transmitting the information to the user smartphone (104).

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