KR101551575B1 - Scoliosis posture correcting seat and operating method thereof - Google Patents

Abstract

The present invention relates to a seat for correcting a scoliosis posture to correct the posture of a scoliosis patient, and a method for operating the same. The seat for correcting a scoliosis posture comprises: a main body part which is formed in a seat mat or a cushion, and receives commercial power from the outside by switch on/off, converts the same into necessary power and provides the converted power; a plurality of air embossing parts which are formed on the upper portion of the main body part and receive air; a plurality of air injection parts which receive a power source from the main body part and inject air into the air embossing parts according to an injection control signal; a plurality of air pressure sensing parts which receive the power source from the main body part and sense the pressure of air injected into the air embossing parts; a plurality of weight sensing parts which receive the power source from the main body part and partially sense the weight of the scoliosis patient when the patient sits on the air embossing parts; a memory part which presets and stores an initial air pressure value to make the air embossing parts have an equal height at an initial state before the scoliosis patient sits down, and a corrected air pressure value to correct the posture of the scoliosis patient to correct a balanced symmetric posture in response to the center of gravity in a state in which the scoliosis patient is seated; and a control part which receives the power source from the main body part, analyzes weight partially sensed in the weight sensing parts to grasp the center of gravity of the scoliosis patient in a state in which the scoliosis patient is seated, reads corrected air pressure values corresponding to the grasped center of gravity of the scoliosis patient from the memory part, generates an air injection control signal for injecting air to the air embossing parts until the air pressure sensed in the air pressure sensing parts reaches the read corrected air pressure value, and inputs the air injection control signal to the air injection parts.

Description

[0001] The present invention relates to a scoliosis posture correcting seat and an operating method thereof,

The present invention relates to a scoliosis posture correction cushion and a method of operating the same, and more particularly, to a scoliosis posture correction cushion and a method of operation thereof for correcting a posture of a scoliosis patient.

Scoliosis is a progressive lesion that causes degeneration of the vertebrae without adverse symptoms in adolescence. It can be divided into three types as neuro-muscular, idiopathic, and functional, and idiopathic scoliosis is the most common. However, Is becoming a problem for young people in modern society. The symptoms caused by this are only the deformation of the vertebrae without any unusual symptoms. Rarely, back pain is the most common symptom. Long-term deterioration is caused by general physical problems such as chronic nerve pain and migraine.

Such scoliosis can reduce concentration and result in poor academic performance for school-aged adolescents. In addition, problems can arise in the cosmetic area. In general, when the normal pelvis is out of position, the asymmetrical imbalance in the spine changes the center of the body in our body. Therefore, the orthodontic treatment method by the physical therapist or the exercise prescriber or the orthosis for the correction of the scoliosis is mainly used, and in severe cases, the surgical method is also used.

The orthodontic treatment method by the physical therapist or the exercise prescriber has the inconvenience that the scoliosis patient has to visit the treatment room directly, and the method of wearing the orthosis has the inconvenience that the orthosis should be continuously worn at the time of daily life, There was a limited problem in the treatment application. Especially, in case of scoliosis, the possibility of exacerbation is low when there is no gravity exposure such as lying down, but it is more likely to be exacerbated when the subject is exposed to gravity for a long time such as sitting or standing posture, In the case of students, maintaining long-term abnormal posture leads to worsening of scoliosis. In addition, there has been a study on shoe insole for correction of scoliosis posture in the past, but most students have longer time sitting in front of desk than walking in insole, so the scoliosis posture correction insole There is a difficulty in heightening.

A Korean Utility Model No. 20-2013-0001692 (published on Mar. 13, 2013) discloses a calibration chair capable of adjusting an interval position according to a user's body change, and relates to a calibration chair capable of adjusting the knee plate up and down, The bottom plate of the hip plate and the lower end of the hydraulic cylinder are pierced and fixed with a movable insert pin which is movable. The plate is supported by a support plate down to the ground from the bottom plate of the hip plate. A knee plate chair having a right end support piercing the left knee plate and the hip plate so that the height of the knee plate and the hip plate can be adjusted by mounting the insertion pin at the intersection point; A backboard that can be adjusted to move the backboard by moving the hip plate and the backboard with angle adjustable gear bars; And a removable seat for movement, which is not an armrest that is detachable by attaching a C-shaped structure to both sides of the chair. According to the disclosed technique, as the dynamic and all-angle adjustment becomes out of the stereotyped simple chair composition, it is possible to show the effect of correction in using the scoliosis patient who is not sitting for a long time, have.

Korean Registered Utility Model No. 20-0268150 (Registered on Mar. 4, 2002) is used continuously in daily life when accompanied by back pain due to abnormal deformation of the spine, such as scoliosis that curves in the left and right side of the vertebra, To correct the posture by compressing it in various directions, to mitigate or eliminate various kinds of pain, and to make it easier to use by moving the seat in a motorized manner. . According to the disclosed technology, the backrest and the armrest are fixed on the fixed seat plate coupled to the upper part of the elevator shaft of the support, and are spaced apart from each other on the fixed seat plate so that they can swing on the fixed seat plate via the swinging means interposed therebetween And a plurality of tension belts fixed to the backrest and the armrest frame so as to be able to pull the user's body forward, back, left and right upon sitting on the swinging seat plate, In the orthodontic chair, a fixed seat plate and a swinging seat plate are hinged at the center of the swinging seat plate so that the swinging seat plate can move freely around the ball joint axis penetrating through the fixed seat plate, and the swinging means A rotary plate which is rotatably and variably rotated in the reverse direction by the drive motor of the rotary plate, Is fixed protruding on one side features a seat yirueojim including rotating ball beneath the bottom side of the swing plate bases.

As described above, in the modern era where the era of rapid change in the digital era has been long lived, modern people who have been living in the sedentary lifestyle have various possibilities for correcting the abnormal postures and for the prevention of scoliosis, This high scoliosis posture correction method will need to be developed further.

Published Korean Utility Model No. 20-2013-0001692 Korean Registered Utility Model No. 20-0268150

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for correcting a scoliosis posture by performing a therapeutic approach of symmetry and posture correction of a vertebrae in a sitting position, A scoliosis correction cushion and a method of operation thereof.

According to an aspect of the present invention, there is provided a power supply device comprising: a main body having a cushion or a cushion in which an external commercial power supply is turned on / off according to an on / off state of a power switch, A plurality of air embossing parts formed on the body part to receive air; A plurality of air injecting parts supplied with power from the main body part and injecting air into the air embossing part according to an injection control signal; A plurality of air pressure sensing units receiving power from the main body and sensing a pressure of air injected into the air embossing unit; A plurality of weight sensors for sensing partial weight of the scoliosis patient when power is supplied from the main body part and the scoliosis patient sits in the air embossing part; An initial air pressure value for making the air embossing portion to be the same height in an initial state before a patient with scoliosis, and a correction air amount for correcting a normal symmetrical posture in accordance with the center of the body when the scoliosis patient is seated A memory unit for presetting and storing pressure values; And receiving the power from the main body, analyzing the partial body weights detected by the body weight sensing unit to grasp the center of the scoliosis patient in a sitting state, and correcting air pressure values corresponding to the center of the scoliosis patient An air injection control signal for causing the air to be injected into the air embossing unit until the corrected air pressure values read out from the memory unit and reading the air pressure sensed by the air pressure sensing unit are generated, A scoliosis posture correcting cushion including a control part for performing a scoliosis correcting cushion.

In one embodiment, the control unit reads the initial air pressure value from the memory unit by receiving power from the main body unit, and controls the air pressure sensor to read the initial air pressure value read from the air pressure sensing unit An initial air injection control signal to be injected into the air embossing unit is generated and inputted to the air injection unit.

In one embodiment, the main body includes an initial drive button, an analysis drive button, and a calibration drive button to notify the controller of on / off of the operation button.

In one embodiment, the control unit generates an initial air injection control signal according to the turning on of the initial driving button notified from the main body unit, and inputs the initial air injection control signal to the air injection unit.

In one embodiment, the control unit analyzes partial body weights sensed by the body weight sensing unit according to the turning on of the analysis driving button informed from the main body unit, and grasps the center of the scoliosis patient body in a sitting state do.

In one embodiment, the control unit generates a calibration air injection control signal according to the turning on of the calibration drive button notified from the main body unit, and inputs the calibration air injection control signal to the air injection unit.

In one embodiment, the air embossing unit is divided into a plurality of zones, and air is separately injected from the air injecting unit into each of the zone units, thereby adjusting the elevation of each zone unit.

In one embodiment, the air injecting unit is installed as many as the number of the unit areas of the air embossing unit, and injects air into each of the air embossing units corresponding to each unit area.

In one embodiment, the air pressure sensing unit is installed as many as the number of unit areas of the air embossing unit, and senses the air pressure by the air embossing unit corresponding to each unit area.

In one embodiment, the weight sensing unit is installed at a predetermined ratio of the number of unit areas or the number of unit areas of the air embossing unit, and the air embossing unit corresponding to each area corresponding to a certain ratio of the number of unit areas or unit areas, And detecting the partial body weight of the scoliosis patient.

In one embodiment, the scoliosis posture correction cushion further includes an air discharging unit that receives power from the main body unit and discharges the air injected into the air embossing unit according to a discharge control signal input from the control unit .

In one embodiment, the air discharging portion is installed as many as the number of unit areas of the air embossing portion, and discharges the air injected by the air embossing portions corresponding to each unit region.

In one embodiment, the control unit generates a discharge control signal for discharging the air injected into the air embossing unit until the read air pressure values of the air pressure sensed by the air pressure sensing unit become the read calibration air pressure values, And is input to a discharge unit.

In one embodiment, the control unit generates a discharge control signal according to the turning on of the calibration drive button notified from the main body unit, and inputs the discharge control signal to the air discharge unit.

In one embodiment, the memory unit stores information on a scoliosis posture pattern corresponding to a center of a scoliosis patient's body in a sitting state in advance.

In one embodiment, the control unit reads information on the scoliosis posture pattern corresponding to the detected center of the scoliosis patient from the memory unit, and displays the read scoliosis posture pattern information on the screen .

In one embodiment, the memory unit divides a plurality of patient grades according to a state of the scoliosis patient, sets a corresponding calibration level for each patient grade in advance, and stores information about the calibration air pressure values corresponding to each calibration level Is stored in advance.

In one embodiment, the control unit reads information on the calibration air pressure values corresponding to the calibration level corresponding to the center of the scoliosis patient body from the memory unit, reads the air pressure sensed by the air pressure sensing unit A correction air injection control signal for causing air to be injected into the air embossing portion according to information on the correction air pressure values is generated and input to the air injection portion, And a control signal is generated and input to the air discharge unit.

In one embodiment, the memory unit stores the scoliosis posture pattern information for each scoliosis patient by date, divides a plurality of treatment classes according to the progress of the treatment of the scoliosis patient, And information on the calibration air pressure values corresponding to the respective treatment levels is preset and stored.

In one embodiment, the control unit reads information about a scoliosis posture pattern corresponding to the center of the scoliosis patient, and reads the read scoliosis posture pattern information for each of the scoliosis patients and the date And reads out the scoliosis posture pattern information stored for each scoliosis patient and each date from the memory unit to grasp the treatment progress of the scoliosis patient, and the correction air corresponding to the treatment level corresponding to the detected treatment progression A calibration air injection control signal for causing the air to be injected into the air embossing unit in accordance with information on the correction air pressure values read out from the memory unit and reading the air pressure sensed by the air pressure sensing unit, And the air is injected into the air injection unit, To generate an emission control signal for allowing the injected air to the discharge unit characterized in that the input to said air outlet.

According to another aspect of the present invention, there is provided a method of controlling a power supply, the method comprising: receiving power from an external commercial power supply in response to turning on / off a power switch; Sensing a pressure of air injected into a plurality of air embossing units formed on an upper portion of the main body by receiving power from the main body unit; When a scoliosis patient sits on the air embossing part, receiving a power from the body part and detecting a plurality of weight sensing parts of the scoliosis patient; Analyzing the partial body weights detected by the body weight sensing unit to determine the center of the scoliosis patient body in a sitting state; Reading the calibration air pressure values corresponding to the center of the vertebrae patient body received by the controller from the main body unit; Generating an air injection control signal for causing air to be injected into the air embossing unit until the control unit obtains the read correction air pressure values and inputting the air injection control signal to a plurality of air injection units; And injecting air into the air embossing unit in accordance with the injection control signal, wherein the air injecting unit receives power from the main body and supplies the air to the air embossing unit.

In one embodiment, the method of operating the scoliosis posture correction cushion may include: when the control unit receives power from the main body unit and reads the initial air pressure value, and when the sensed air pressure becomes the read initial air pressure value Generating an initial air injection control signal for causing air to be injected into the air embossing unit, and inputting the generated initial air injection control signal to the air injection unit.

According to the present invention, symmetry and posture correction of the vertebrae can be performed in a sitting position for a patient having a large amount of time spent sitting in front of a desk (for example, a worker or a teenager) Not only can be used but also can be easily applied by anyone, so that the application range is infinite, and accessibility and treatment exposure time are long.

According to the present invention, it is possible to maximize the utilization of the scoliosis patient by adjusting the condition and progress of the spinal scoliosis patients, The patients with scoliosis who have a life expectancy can have a better therapeutic approach and maximize the treatment effect.

According to the present invention, by correcting the unbalanced posture of patients with scoliosis in a sitting state, it is possible to economically and temporally facilitate a therapeutic approach, expose a large amount of time in daily life to a therapeutic approach, and effectively treat scoliosis It has the effect of being able to.

1 is a view for explaining a scoliosis posture correcting cushion according to an embodiment of the present invention.
Fig. 2 is a view for explaining a main body portion shown in Fig. 1. Fig.
3 is a flowchart illustrating a method of operating a scoliosis posture correcting cushion according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the description of the present invention is merely an example for structural or functional explanation, and the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the present invention should be understood to include equivalents capable of realizing technical ideas. Also, the purpose or effect of the present invention should not be construed as limiting the scope of the present invention, since it does not mean that a specific embodiment should include all or only such effect.

Meanwhile, the meaning of the terms described in the present invention should be understood as follows.

The terms "first "," second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, 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.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, but there may be other elements in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

It should be understood that the singular " include "or" have "are to be construed as including a stated feature, number, step, operation, component, It is to be understood that the combination is intended to specify that it does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used predefined terms should be interpreted to be consistent with the meanings in the context of the related art and can not be interpreted as having ideal or overly formal meaning unless explicitly defined in the present invention.

Now, a scoliosis posture correcting cushion and a method of operating the same according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a view for explaining a scoliosis posture correcting cushion according to an embodiment of the present invention, and FIG. 2 is a view for explaining a main body portion in FIG.

1 and 2, the scoliosis posture correcting cushion 100 includes a main body 110, a plurality of air embossing units 120, a plurality of air injecting units 130-1 to 130-N, A plurality of air discharging units 150-1 to 150-N, a plurality of weight detecting units 160-1 to 160-M, a controller 170, (180).

The main body 110 is formed in the shape of a cushion or a cushion and has a plurality of weight detecting portions 160-1 to 160-M provided thereon, a plurality of air embossing portions 120 are formed, (I.e., a plurality of air injection units 130-1 to 130-N) and a plurality of air pressure sensing units 140-1 to 140-N N), a plurality of weight detecting units 160-1 to 160-M, and a controller 170).

In one embodiment, the main body 110 may include an activation button (e.g., an initial activation button, an analysis activation button, a calibration activation button, etc.) to inform the control unit 170 of the on / .

The air embossing unit 120 is an air bag or the like and has body weight sensing units 160-1 to 160-M installed at the lower part thereof and is formed on the upper part of the body part 110. The air injecting unit 130- 1 to 130-N are connected to one another and air discharging parts 150-1 to 150-N are installed on the other side, air is injected from the air injecting parts 130-1 to 130-N, Through the air discharge units 150-1 to 150-N.

In one embodiment, the air embossing unit 120 may be divided into a plurality of zones (for example, four zones), and the air injecting units 130-1 to 130-N And the height of the air embossing unit 120 can be adjusted for each zone unit by discharging the injected air through the air discharging units 150-1 to 150-N.

The air injecting portions 130-1 to 130-N are connected to one side of the air embossing portion 120 as an air pump or the like and are supplied with power from the main body 110 and input from the control portion 170 Injects air into each of the air embossing portions 120 according to the injection control signal (i.e., the initial air injection control signal, the correction air injection control signal).

In one embodiment, the air injecting units 130-1 to 130-N are installed as many as the number of unit areas of the air embossing unit 120 to inject air for each air embossing unit 120 corresponding to each unit area Or may be formed separately on the outside in case of a large volume, and may be connected to one side of the air embossing unit 120 through a connection pipe such as a hose or the like.

The air pressure sensing units 140-1 to 140-N are connected to the air embossing unit 120 (or the air injecting units 130-1 to 130-N) as digital pressure gauges or the like, (Or measures) the pressure of air injected into the air embossing unit 120 and informs the controller 170 of the sensed air pressure.

In one embodiment, the air pressure sensing units 140-1 to 140-N are installed as many as the number of unit areas of the air embossing unit 120 to detect the air pressure for each air embossing unit 120 corresponding to each unit area (Or measures) the detected air pressure, and informs the controller 170 of the sensed air pressure.

The air discharge units 150-1 to 150-N are solenoid valves or the like and connected to the other side of the air embossing unit 120. The air discharge units 150-1 to 150-N are supplied with power from the main body 110, Thereby discharging the air injected into the air embossing unit 120 according to the discharge control signal.

In one embodiment, the air discharging parts 150-1 to 150-N are installed as many as the unit areas of the air embossing part 120 to discharge air injected by the air embossing parts 120 corresponding to each unit area If the airbag is bulky, it may be separately formed on the outside and connected to the other side of the air embossing unit 120 through a connection pipe such as a hose or the like.

The weight detecting units 160-1 to 160-M are installed between the main body 110 and the air embossing unit 120 such as a piezoelectric sensor and a digital scales and are provided to the air embossing unit 120 (Or measures) the partial body weight of the scoliosis patient and informs the controller 170 of the detected partial body weight.

In one embodiment, the weight sensing units 160-1 to 160-M are installed in the air embossing unit 120 by a certain number of unit areas (or a certain ratio (for example, two times) (Or measuring) each of the partial body weights of the scoliosis patient by the air embossing unit 120 corresponding to each unit area (or each area corresponding to a certain ratio of the number of unit areas) To the control unit 170.

The control unit 170 receives power from the main body 110 and reads the initial air pressure value from the memory unit 180. The control unit 170 receives the air pressure notified from the air pressure sensing units 140-1 to 140- An initial air injection control signal for causing air to be injected into the air embossing unit 120 until the read initial air pressure value is generated and input to the air injection units 130-1 to 130-N, When the scoliosis patient sits in the air embossing unit 120, the partial body weights informed from the weight sensing units 160-1 to 160-M are received and the partial body weights inputted are analyzed, (Or the degree of tilting of the body), reads the calibration air pressure values corresponding to the detected center of the scoliosis patient body from the memory unit 180, and detects the air pressure sensing units 140-1 to 140-N And receives the air pressure A correction air injection control signal for causing air to be injected into the air embossing portion 120 until the read correction air pressure values are obtained or an exhaust control signal for allowing the air injected into the air embossing portion 120 to be discharged is generated To the air injection units 130-1 to 130-N or the air discharge units 150-1 to 150-N.

In one embodiment, the controller 170 generates an initial air injection control signal in response to an operation button on / off (that is, an initial operation button is turned on) notified from the main body 110, To 130-N.

In one embodiment, the control unit 170 receives a partial weight from the weight detecting units 160-1 to 160-M in accordance with an operation button on / off (that is, turning on the analysis driving button) notified from the main body 110 (Or the degree of tilting of the body) of the scoliosis patient in a sitting state can be grasped.

In one embodiment, the controller 170 stores information on a scoliosis posture pattern (i.e., an asymmetric posture pattern) corresponding to the detected center of the scoliosis patient's body (or the degree of tilting of the body) And the read sculptural posture pattern information may be displayed on a screen through a display means such as an LCD or the like through a display means (not shown in the drawings for convenience of explanation).

In one embodiment, the controller 170 generates a calibration air injection control signal in response to an operation button on / off (that is, the calibration operation button is turned on) notified from the main body 110, To 130-N, or may generate an emission control signal to be input to the air discharge units 150-1 to 150-N.

In one embodiment, the control unit 170 reads information about the calibration air pressure values corresponding to the calibrated level corresponding to the detected center of the scoliosis patient's body (or the degree of tilting of the body) from the memory unit 180 A calibration air injection control signal for inputting the air pressure notified from the air pressure sensing units 140-1 to 140-N and for injecting air into the air embossing unit 120 according to information about the read correction air pressure values, Or the air embossing unit 120 is generated and input to the air injecting units 130-1 to 130-N or the air discharging units 150-1 to 150-N The height of each unit area of the air embossing unit 120 can be adjusted according to the condition of the scoliosis patient.

In one embodiment, the controller 170 stores information on a scoliosis posture pattern (i.e., an asymmetric posture pattern) corresponding to the detected center of the scoliosis patient's body (or the degree of tilting of the body) And stores the read spinal scoliosis posture pattern information in the memory unit 180 for each scoliosis patient (and for each date). In addition, the controller 170 reads out the scoliosis pattern information stored for each scoliosis patient and the date from the memory unit 180 to grasp the treatment progress of the scoliosis patient, and determines the treatment level corresponding to the detected treatment progress Reads the information on the corresponding correction air pressure values from the memory unit 180, receives the air pressure notified from the air pressure sensing units 140-1 to 140-N, and, based on the read information of the corrected air pressure values The air injection unit 130-1 to 130-C generates a discharge control signal for discharging the correction air injection control signal for causing the air to be injected into the air embossing unit 120 or the air injected to the air embossing unit 120, N or the air discharging units 150-1 to 150-N, the height of each unit area of the air embossing unit 120 can be adjusted according to the progress of the treatment of the scoliosis patient.

The memory unit 180 stores programs and data necessary for controlling the operation of the control unit 170. The memory unit 180 stores the programs and data necessary for controlling the operation of the air conditioner 170 so that all of the air embossing units 120 have the same height, The initial pressure value (i.e., the initial air pressure value) of the air injected into the part 120 is preset and stored. Also, according to the body center (or the degree of tilting of the body) when the scoliosis patient is seated, Corresponding calibration air pressure values to be calibrated in a normal symmetrical posture are preset and stored.

In one embodiment, the memory unit 180 stores information on the scoliosis posture pattern (i.e., the asymmetric posture pattern) corresponding to the center of the scoliosis patient's body (or the degree of tilting of the body) For example, information capable of displaying a scoliosis posture pattern on the screen) may be preset and stored.

In one embodiment, the memory unit 180 divides a plurality of patient ratings according to the state of the scoliosis patient (i.e., the body center of the scoliosis patient (or the degree of tilting of the body)), A corresponding calibration level may be set in advance and information about the calibration air pressure values corresponding to the respective calibration levels (for example, calibration air pressure values to be changed for each of the steps for each predetermined time) may be preset and stored.

In one embodiment, the memory unit 180 may store the scoliosis posture pattern information for each scoliosis patient by date, and may also divide a plurality of treatment classes according to the progress of treatment of scoliosis patients, A corresponding treatment level may be set in advance, and information about the calibration air pressure values corresponding to the respective treatment levels (for example, calibration air pressure values to be changed in each step for each stage by a predetermined time) may be preset and stored.

The scoliosis posture correcting cushion 100 having the above-described configuration is configured such that the body 110 is placed on a chair or a desk and a plurality of air injecting units 130-1 to 130- Or a cushion or a cushion-shaped auxiliary device for controlling the pressure and the volume of injection air to a plurality of air embossing parts 120 by driving a plurality of air discharging parts 150-1 to 150-N, By allowing the symmetry and posture correction of the vertebrae to be performed in a sitting position for patients who spend a lot of time in a scoliosis patient (for example, an office worker or a teenager), it can be easily used for all scoliosis patients with various symptoms, The application range is infinite, and accessibility and treatment exposure time can be made long.

The scoliosis posture correcting cushion 100 having the above-described configuration is configured such that when the scoliosis patient sits in the air embossing unit 120, the control unit 170 notifies the weight detecting units 160-1 to 160- (Or body tilt) of the scoliosis patient in the partial weight of the scoliosis patient, and the scoliosis posture with various patterns is analyzed by the scoliosis patient, and the analyzed various patterns of the posture of the scoliosis patient A cushion or a cushion-shaped cushion or a cushion-shaped cushion for adjusting the height of each air section of the air embossing unit 120 by adjusting the pressure and the volume of the air injected to the plurality of air embossing units 120 As an orthosis, by correcting the unbalanced postures of patients with scoliosis in a sitting position, it is easy to make a therapeutic and economical approach to time, To be exposed to a therapeutic approach, it can treat scoliosis efficiently.

In the scoliosis posture correction cushion 100 having the above-described configuration, the control unit 170 analyzes the treatment progress of the scoliosis patient, analyzes the treatment level corresponding to various treatment progresses by the scoliosis patient, A cushion for adjusting the height of the air embossing unit 120 for each unit area by adjusting the pressure and the volume of injection air to the plurality of air embossing units 120 in order to treat an asymmetric posture according to the treatment level As a cushion type orthosis, it is possible to maximize the utilization of the scoliosis patients by having the ability to adjust according to the condition and progress of the scoliosis patients, and to make continuous correction according to the symptom improvement of the scoliosis patients, . In addition, patients with scoliosis who are living in a more convenient way to achieve a therapeutic approach and maximize the effectiveness of treatment .

3 is a flowchart illustrating a method of operating a scoliosis posture correcting cushion according to an embodiment of the present invention.

3, in the memory unit 180 for storing programs and data necessary for controlling the operation of the controller 170, all of the air embossing units 120 at the initial state before the scoliosis patient sits are at the same height (I.e., an initial air pressure value) of the air injected into the air embossing unit 120 in order to have a predetermined initial air pressure value, and sets the measured initial air pressure value in the memory unit 180 . In addition, correction air pressure values for correcting the normal symmetric posture corresponding to the center of the body (or the inclination of the body) in a sitting state of the scoliosis patient (i.e., (For example, pressure values for the air that has been supplied to the air in advance), and sets and stores the measured calibration air pressure values in the memory unit 180 (S301).

In the above-described step S301, information on a scoliosis posture pattern (i.e., an asymmetric posture pattern) corresponding to the center of the scoliosis patient's body (or the degree of tilting of the body) in a sitting state may be set in advance, For example, the scoliosis posture pattern may be preset as information that can be displayed on a screen through a display means such as an LCD or the like and stored in the memory unit 180.

In the above-described step S301, a plurality of patient ratings are divided according to the state of the scoliosis patient (i.e., the body center of the scoliosis patient (or the degree of inclination of the body)), and the corresponding correction level The calibration air pressure values corresponding to the respective calibration levels can be set in advance. For example, the calibration air pressure values to be changed for each step by the predetermined time period for each calibration level may be previously tested And the measured calibration air pressure values may be set in the memory unit 180 and stored.

In the above-described step S301, the scoliosis posture pattern information for each patient of scoliosis can be stored in the memory 180 according to the date, and a plurality of treatment classes can be divided according to the progress of the scoliosis patient, The treatment level corresponding to the treatment level may be set in advance and the information about the correction air pressure values corresponding to each treatment level may be set in advance. For example, in each treatment level, Air pressure values may be measured in advance through a test or the like, and the measured calibration air pressure values may be stored in the memory unit 180.

After the above-described step S301, a power switch (not shown) provided in the main body 110 having a plurality of weight detecting units 160-1 to 160-M and a plurality of air embossing units 120 The main body 110 (i.e., the power supply circuit or the module) receives the external commercial power according to the turning on of the power switch, A plurality of air injection units 130-1 to 130-N, a plurality of air pressure sensing units 140-1 to 140-N, a plurality of weight sensing units 160-1 to 160-M, (170)) and supplies the converted power.

The air pressure sensing units 140-1 to 140-N connected to the air embossing unit 120 (or the air injecting units 130-1 to 130-N) supply power from the main body 110 (Or measures) the pressure of the air injected into the air embossing unit 120 and informs the control unit 170 of the sensed air pressure. The control unit 170 receives power from the main body 110 and receives the air pressure notified from the air pressure sensing units 140-1 to 140-N (S302).

If a scoliosis patient, a protector, or a therapist (or therapist) turns on an operation button (for example, an initial operation button) provided in the main body 110 in the above-described step S302, ) (That is, the keypad circuit or module), the control unit 170 may be informed of the on-state of the initial drive button. The control unit 170 may receive the air pressure notified from the air pressure sensing units 140-1 to 140-N according to the turning on of the initial operation button notified from the main body 110. [

The control unit 170 reads the initial air pressure value from the memory unit 180 (S303), and if the air pressure detected in the above-described step S302 is equal to the initial air pressure value read in the corresponding step S303 An initial air injection control signal for injecting air into the air embossing unit 120 is generated and input to the air injecting units 130-1 to 130-N.

The air injection units 130-1 to 130-N connected to one side of the air embossing unit 120 receive power from the main body 110 and receive injection control signals , Initial air injection control signal) to the air embossing unit 120 (S304). Accordingly, the weight sensing units 160-1 to 160-M are installed on the lower part of the main body 110, and the air injection units 130-1 to 130-N are connected to one side The air embossing unit 120 receives the initial air from the air injecting units 130-1 to 130-N and the air pressure sensed in the step S302 becomes the initial air pressure value read in the corresponding step S303, .

When the scoliosis patient sits on the air embossing unit 120 after the air embossing unit 120 has the same height or a similar height through the above-described step S304, the body part 110 and the air embossing unit 120 The weight detecting units 160-1 to 160-M detect (or measure) the partial body weights of the scoliosis patients (i.e., the weights of the hip portions of the scoliosis patient) And informs the controller 170 of the detected partial body weight. In step S305, the control unit 170 receives partial body weights notified from the weight detection units 160-1 to 160-M.

In the case of the weight detecting units 160-1 to 160-M installed at a certain ratio (for example, twice) of the number of unit areas of the air embossing unit 120 in the step S305 described above, (Or measure) each of the partial body weights of the scoliosis patients by the air embossing units 120 corresponding to the respective regions corresponding to a certain ratio of the number of regions, and informs the control unit 170 of the detected partial body weights .

If a scoliosis patient, a protector or a manager (or a therapist) turns on an operation button (for example, an analysis drive button) provided in the main body 110 in step S305, the main body 110 ) (That is, the keypad circuit or module), the control unit 170 may be informed of the ON of the analysis drive button. The control unit 170 may receive partial weight notified from the weight detecting units 160-1 to 160-M according to the turning on of the analysis driving button notified from the main body 110. [

At the same time as the above-described step S305, the control unit 170 analyzes the partial body weights inputted in the above-described step S305, and grasps the center of the scoliosis patient's body (or the inclination of the body) in the sitting state (S306) .

In the above-described step S306, the controller 170 determines whether or not the scoliosis posture pattern (i.e., the asymmetric posture pattern) corresponding to the center of the scoliosis patient body (or the tilt degree of the body) Information from the memory unit 180 and display the read sculptural posture pattern information on a screen through a display means such as an LCD or the like through a display means (not shown in the drawings for convenience of explanation).

In the above-described step S306, the controller 170 determines whether or not the scoliosis posture pattern (i.e., the asymmetric posture pattern) corresponding to the center of the scoliosis patient body (or the tilt degree of the body) Information from the memory unit 180 and store the read sculptural posture pattern information in the memory unit 180 for each scoliosis patient (and for each date).

While performing the above-described step S306, the controller 170 continues to receive the air pressure notified from the air pressure sensing units 140-1 to 140-N (S307) as in the above-described step S302, and in step S306 And reads the calibration air pressure values corresponding to the center of the scoliosis patient's body from the memory 180 (S308).

If a scoliosis patient, a caregiver or an administrator (or a therapist) turns on an operation button (for example, a calibration driving button) provided in the main body 110 in step S307, the main body 110 ) (That is, the keypad circuit or module), the controller 170 may be informed of the on-off of the calibration drive button. The control unit 170 may receive the air pressure notified from the air pressure sensing units 140-1 to 140-N according to the turning on of the calibration driving button notified from the main body 110. [

In the above-described step S307, in the case of the air pressure sensing parts 140-1 to 140-N installed as many as the number of the unit areas of the air embossing part 120, the number of the air embossing parts 120 (Or measuring) the pressure of the air and notify the controller 170 of the sensed air pressure.

In the above-described step S308, the controller 170 stores information about the calibration air pressure values corresponding to the calibration level corresponding to the center of the scoliosis patient's body (or the degree of tilting of the body) obtained in the above-described step S306, (180).

In the above-described step S308, the control unit 170 reads out the scoliosis pattern information stored for each scoliosis patient and for each date from the memory unit 180, grasps the treatment progress of the scoliosis patient, From the memory unit 180, information about the correction air pressure values corresponding to the treatment level corresponding to the treatment level.

The control unit 170 controls the air embossing unit 120 (step S307) until the air pressure sensed in step S307 is the corrected air pressure values read in step S308 (or the calibration air pressure values corresponding to the calibration level) ) Or a discharge control signal for discharging the air injected into the air embossing unit 120 to generate air injection units 130-1 to 130-N or air discharge units 150-1 to 150-N).

In one embodiment, the controller 170 controls the amount of air to be supplied to the air embossing unit 120 until the air pressure sensed in step S307 is the calibration air pressure values corresponding to the calibration levels read in step S308 described above The air injection unit 130-1 to 130-N or the air discharge unit 150-N may generate a discharge control signal for discharging the air injected into the air embossing unit 120, 1 to 150-N), it is possible to adjust the elevation of each unit area of the air embossing unit 120 according to the state of the scoliosis patient.

In one embodiment, the controller 170 controls the amount of air to be supplied to the air embossing unit 120 until the air pressure detected in step S307 described above is the correction air pressure values corresponding to the treatment level read in step S308 described above The air injection unit 130-1 to 130-N or the air discharge unit 150-N may generate a discharge control signal for discharging the air injected into the air embossing unit 120, 1 to 150-N), the height of each unit area of the air embossing unit 120 can be adjusted according to the progress of the treatment of scoliosis patients.

The air injection units 130-1 to 130-N inject the calibration air into the air embossing unit 120 according to the injection control signal (i.e., the calibration air injection control signal) input from the control unit 170. [ At the same time, the air discharge units 150-1 to 150-N connected to the other side of the air embossing unit 120 receive power from the main body 110, And discharges the air injected into the air embossing unit 120 according to the control signal (S309). The air embossing portion 120 having the air discharging portions 150-1 to 150-N on the other side receives the correcting air from the air injecting portions 130-1 to 130-N, The air pressure detected in step S307 becomes the corrected air pressure values read in step S308 described above, and the scoliosis correction is performed.

In the case of the air embossing unit 120 divided into a plurality of zones (for example, four zones) in the step S309, the air injecting units 130-1 to 130- N or injected air is discharged through the air discharging units 150-1 to 150-N, the height of the air embossing unit 120 can be adjusted for each zone unit.

In the above-described step S309, in the case of the air injection units 130-1 to 130-N installed as many as the number of the unit areas of the air embossing unit 120, the number of the air embossing units 120 You can also inject air. Also, in the case of the air discharging units 150-1 to 150-N provided for the number of unit areas of the air embossing unit 120, the air injected by the air embossing units 120 corresponding to each unit area is discharged You can give it.

The operation method of the scoliosis posture correcting cushion 100 performing the above-described operation enables the orthodontic treatment and comfortable seat life of the patients complaining of scoliosis to be continued, and the asymmetry of the spine And to improve the patient's academic and work capacity. In addition, it is possible to adjust the height to correspond to all scoliosis patterns in consideration of various points of central movement of the trunk according to degree or symptom of scoliosis, So that it is possible to carry out height adjustment, and can perform the advice of the expert or the height adjustment as desired by the user.

The operation method of the scoliosis posture correcting cushion 100 for performing the above-mentioned operation is, for example, dividing the scoliosis posture correcting cushion 100 into four regions to adjust the height of each region and adjust the height Can be adjusted. In addition, the operation method of the scoliosis posture correction cushion (100) is performed by taking the students' life pattern into consideration and continuously performing the scoliosis correction through the scoliosis posture correction cushion (100) The effect can be improved, and the body center can be evaluated while the patient is sitting on the cushion, and the treatment can be continued according to the progress of the treatment.

The embodiments of the present invention are not limited to the above-described apparatuses and / or methods, but may be implemented by a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded, And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100: scoliosis posture correction cushion
110:
120: air embossing part
130-1 to 130-N:
140-1 to 140-N:
150-1 to 150-N:
160-1 to 160-M:
170:
180:

Claims (10)

A main body part in the form of a cushion or a cushion for converting an external commercial power source into a necessary power source according to the on /
A plurality of air embossing parts formed on the body part to receive air;
A plurality of air injecting parts supplied with power from the main body part and injecting air into the air embossing part according to an injection control signal;
A plurality of air pressure sensing units receiving power from the main body and sensing a pressure of air injected into the air embossing unit;
A plurality of weight sensors for sensing partial weight of the scoliosis patient when power is supplied from the main body part and the scoliosis patient sits in the air embossing part;
An initial air pressure value for making the air embossing portion to be the same height in an initial state before a patient with scoliosis, and a correction air amount for correcting a normal symmetrical posture in accordance with the center of the body when the scoliosis patient is seated A memory unit for presetting and storing pressure values;
And a control unit for receiving the power from the main body and analyzing the partial body weights detected by the body weight sensing unit to grasp the center of the scoliosis patient body in a sitting state and correcting air pressure values corresponding to the center of the scoliosis patient body An air injection control signal for causing air to be injected into the air embossing unit until the air pressure values read from the memory unit and reading the air pressure sensed by the air pressure sensing unit are generated and input to the air injection unit A control unit; And
And an air discharging unit that receives power from the main body and discharges the air injected into the air embossing unit according to a discharge control signal input from the controller,
Wherein,
The control unit generates a discharge control signal for discharging the air injected into the air embossing unit until the corrected air pressure values read by the air pressure sensing unit become the read calibration air pressure values and inputs the generated discharge control signal to the air discharge unit Scoliosis posture correction cushion.
The apparatus of claim 1,
And a controller for reading the initial air pressure value from the memory unit by receiving power from the main body unit and for injecting air into the air embossing unit until the initial air pressure value read out from the air pressure sensing unit An initial air injection control signal is generated and input to the air injection unit.
delete delete The memory device according to claim 1,
A plurality of patient ratings are divided according to the state of the scoliosis patient, and a calibration level corresponding to each patient grade is set in advance, and information on the calibration air pressure values corresponding to each calibration level is set in advance and stored Scoliosis posture correction cushion.
6. The apparatus of claim 5,
The control unit reads information on the calibration air pressure values corresponding to the calibration level corresponding to the detected center of the scoliosis patient body from the memory unit and, based on the information on the calibration air pressure values that read the air pressure sensed by the air pressure sensing unit A control unit for generating a control air injection control signal for causing the air to be injected into the air embossing unit and inputting the control air injection control signal to the air injection unit or generating a discharge control signal for discharging air injected into the air embossing unit, And the cushion is inserted into the cushion of the scoliosis posture correction cushion.
The memory device according to claim 1,
The scoliosis posture pattern information of each scoliosis patient is stored by date, and a plurality of treatment classes are divided according to the progress of the scoliosis patients, the corresponding treatment levels are set in advance for each treatment class, Wherein information about the calibration air pressure values is preset and stored.
8. The apparatus of claim 7,
Information on the scoliosis posture pattern corresponding to the detected center of the scoliosis patient body is read from the memory unit and the read scoliosis posture pattern information is stored in the memory unit for each scoliosis patient and date, And the information on the correction air pressure values corresponding to the treatment level corresponding to the determined treatment progress is read from the memory part by reading the scoliosis posture pattern information stored in the memory part, And a correction air injection control signal for causing the air to be injected into the air embossing unit according to the information about the correction air pressure values read out from the air pressure sensing unit is input to the air injection unit , So that the air injected into the air embossing portion is discharged Wherein the control unit is configured to generate a discharge control signal for inputting the discharge control signal to the air discharging unit.
Converting the external commercial power supply into a necessary power supply and supplying the external power supply according to the on / off state of the power switch;
Sensing a pressure of air injected into a plurality of air embossing units formed on an upper portion of the main body by receiving power from the main body unit;
When a scoliosis patient sits on the air embossing part, receiving a power from the body part and detecting a plurality of weight sensing parts of the scoliosis patient;
Analyzing the partial body weights detected by the body weight sensing unit to determine the center of the scoliosis patient body in a sitting state;
Reading the calibration air pressure values corresponding to the center of the vertebrae patient body received by the controller from the main body unit;
Generating an air injection control signal for causing air to be injected into the air embossing unit until the control unit obtains the read correction air pressure values and inputting the air injection control signal to a plurality of air injection units; And
And injecting air into the air embossing unit in response to the injection control signal, wherein the air injecting unit receives power from the main body unit and injects air into the air embossing unit.
10. The method of claim 9,
The control unit reads the initial air pressure value by receiving power from the main body unit, and controls the initial air injection control for allowing the air to be injected into the air embossing unit until the sensed air pressure becomes the read initial air pressure value Further comprising the step of generating a signal and inputting the signal to the air injection unit.

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