阅读说明：本技术 脊椎侧凸校正装置 (Scoliosis correction device ) 是由 文良圭 李井宇 于 2018-10-24 设计创作，主要内容包括：本发明涉及如下的装置,即,通过可以上下及左右调节的踏板来调节身体的均衡,由此校正脊椎侧凸,全自动调节踏板的倾斜角度,因此,可以调节成微细的角度,从而提供符合使用人员的特性的定制角度来通过准确地起立姿势及起立运动校正脊椎侧凸,踏板可以向左右倾斜,因此,与脊椎侧凸的校正一同校正如O型腿的腿部不均衡。(The present invention relates to a device for correcting a scoliosis by adjusting the balance of a body using a pedal which can be adjusted up and down and left and right, and adjusting the inclination angle of the pedal in a fully automatic manner, thereby adjusting the inclination angle to a fine angle, thereby providing a customized angle according to the characteristics of a user to correct a scoliosis by accurately setting up a posture and a setting-up motion, and for correcting a leg imbalance such as an O-leg along with correction of a scoliosis by tilting the pedal in the left and right direction.)

1. A scoliosis correction device, comprising:

a pair of leg support parts for measuring the weight of a user, the weight distribution and the foot pressure;

a supporter adjusting part hinged with the front end of the leg supporter part and forming a spherical groove on the lower surface;

an angle adjusting part which comprises a main cylinder, wherein one end of the main cylinder is inserted into the spherical groove of the bracket adjusting part, and the bracket adjusting part is pushed to adjust the angle of the foot bracket part through the up-down lifting adjustment of the front end of the foot bracket part; and

and a control part for controlling the angle adjusting part by judging the scoliosis and the posture imbalance of the user based on the weight, the weight distribution and the foot pressure measured by the foot support part.

2. The apparatus for correcting a scoliosis according to claim 1, wherein said angle adjusting unit further comprises an auxiliary cylinder fixed to a side surface of the leg unit at an outer side of said main cylinder.

3. The apparatus for correcting a scoliosis according to claim 2, wherein the auxiliary cylinder is disposed perpendicularly to the main cylinder.

4. The scoliosis correction device of claim 3,

the master cylinder includes a push head inserted into the spherical groove of the holder adjusting part,

the above-mentioned push head includes:

a first external thread formed on an outer surface of a front end of the pushing head; and

a second external thread formed on the exterior face of the mid-section.

5. The scoliosis correction device of claim 4,

the inlet of the spherical groove includes a first internal thread corresponding to the first external thread of the push head,

and a second internal thread corresponding to the second external thread is included inside.

6. The scoliosis correction apparatus of claim 5, wherein the upper surface of the leg support portion comprises at least one ceramic ball.

7. The apparatus for correcting a scoliosis according to claim 6, comprising a fixing part to which the leg rest part, the leg adjusting part, the angle adjusting part and the control part are fixed at a lower end, wherein the fixing part comprises a load sensor for measuring a weight of a user in addition to the weight of the leg rest part, the leg adjusting part, the angle adjusting part and the control part.

8. The scoliosis correction device of claim 7, comprising:

a stereo camera extending from the support part along the vertical direction of the ground, scanning the body of the user and measuring the central point of each skeleton; and

and a laser irradiator for irradiating laser light directed to the center of each bone of the user and laser light directed to the center position of each bone as a correction reference to guide the body of the user to make a reference posture.

9. The scoliosis correction device of claim 8, comprising:

a handle moving up and down and left and right on the upper end of the column part and rotating with the column part as a reference; and

and a display connected to the handle, moving up and down according to the up and down movement of the handle, and visually transmitting the items measured, determined and instructed by the control unit to the user.

10. The apparatus for correcting a scoliosis according to claim 9, wherein the leg supporter part comprises a plurality of acupressure protrusions protruded toward an upper part of the leg supporter part by moving up and down.

Technical Field

The present invention relates to a scoliosis correction device, and to a device for correcting scoliosis by adjusting body balance by which vertical and horizontal adjustments are possible.

Background

When viewed from the front, the normal spine of the human body is a straight line, and when viewed from the side, the cervical vertebrae and the lumbar vertebrae are curved forward (anterior curvature), and the thoracic vertebrae and the anterior vertebrae are curved backward (posterior curvature).

As the time for contemporary people to sit and work increases day by day, the likelihood of spinal curvature will also increase due to mis-posture or habituation. In particular, the bones of teenagers in their growth stage are more flexible than those of adults and thus are greatly affected by posture. If the spine is bent in a C-shape or S-shape so that the body is inclined or twisted from side to side, such a case is called scoliosis.

In the early stages, such scoliosis does not present subjective symptoms, and therefore, it is difficult to judge by itself. As scoliosis occurs, muscles, ligaments and nerves around the spine are compressed, so that it is judged by the symptoms of lumbago, shoulder stiffness and headache, and if the symptoms progress seriously, the spine is extended to the ribs and pelvis to deform, thereby compressing the heart and lungs and causing the abnormal function of the heart and lungs. In some patients, severe pain is also encountered during sleep, and if the inter-vertebral cartilage space is reduced, fatigue is easily felt due to imbalance between bones and bones, the same posture cannot be maintained for a long time, and headache and shoulder pain are encountered together. In neurology, imbalances in hormones and digestive function will also result, which in the case of juvenile patients, can lead to allergies, inattention and growth disorders.

As described above, if a scoliosis occurs, it is necessary to correct the scoliosis, and in order to correct the scoliosis, korean utility model No. 0482054 discloses a scoliosis correcting device in which a user can adjust an inclination angle by himself or herself, and can perform a movement including stretching or a lumbar movement, thereby stretching the spine and accurately correcting the posture.

However, this type of spine-side protrusion corrector has a problem that it is difficult for a user to finely adjust the inclination angle in each step by himself/herself, and in addition, customized correction according to the body type cannot be performed.

Disclosure of Invention

Technical problem

An object of the present invention is to provide a scoliosis correction apparatus that can correct a scoliosis by accurately correcting a posture by fully automatically adjusting an inclination angle of a pedal so that a user can stretch a spine.

Another object of the present invention is to provide a scoliosis correcting apparatus for accurately correcting an unbalance of a lower body such as an O-shaped leg by tilting a pedal to the left and right together with a tilting angle of the pedal.

Technical scheme

In order to achieve the above object, the present invention comprises: a pair of leg support parts for measuring the weight of a user, the weight distribution and the foot pressure; a bracket adjusting part hinged with the front end of the foot bracket part and forming a spherical groove on the lower surface; the angle adjusting part comprises a main cylinder, one end of the main cylinder is inserted into the spherical groove of the bracket adjusting part, and the bracket adjusting part is pushed to adjust the angle of the foot bracket part through the up-down lifting adjustment of the front end of the foot bracket part; and a control unit for controlling the angle adjustment unit by determining the scoliosis and the posture imbalance of the user based on the body weight, the body weight distribution, and the foot pressure measured by the foot support unit.

The angle adjusting part also comprises an auxiliary cylinder which is fixed on the side surface of the foot bracket part at the outer side of the main cylinder.

The auxiliary cylinder is arranged vertically to the main cylinder.

The master cylinder includes a push head inserted into the spherical groove of the holder adjusting portion, and the push head includes: a first external thread formed on an outer face of a front end of the push head; and a second external thread formed on an exterior face of the middle section.

The inlet of the spherical groove includes a first internal thread corresponding to the first external thread of the push head and a second internal thread corresponding to the second external thread on the inner side.

At least one ceramic ball is included on the upper surface of the leg portion.

The present invention further comprises a fixing part fixing the leg rest part, the leg adjusting part, the angle adjusting part and the control part at a lower end thereof, the fixing part including a load sensor to measure a weight of a user except for the weight of the leg rest part, the leg adjusting part, the angle adjusting part and the control part.

The invention comprises the following steps: a stereo camera extending from the support part along the vertical direction of the ground, scanning the body of the user and measuring the central point of each skeleton; and a laser irradiator irradiating laser light for the center of each bone of the user and laser light for the center position of each bone as a correction reference to guide the body of the user to make a reference posture.

The invention comprises the following steps: a handle moving up and down and left and right on the upper end of the column part and rotating with the column part as a reference; and a display connected to the handle, moving up and down according to the up and down movement of the handle, and visually transmitting the items measured, judged and instructed by the control unit to the user.

The leg rest portion further includes a plurality of finger-pressure protrusions protruding toward an upper portion of the leg rest portion by moving up and down.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the present invention, the inclination angle of the pedal can be fully automatically adjusted, and thus can be adjusted to a fine angle, thereby providing a customized angle according to the characteristics of a user to correct the scoliosis by accurately setting up the posture and the standing motion.

Further, according to the present invention, since the pedal can be tilted left and right, the leg imbalance of the O-leg is corrected together with the correction of the scoliosis.

Drawings

Fig. 1 is a perspective view of a scoliosis correction apparatus of the present invention.

Fig. 2 is a side view of the scoliosis correction device of the present invention.

Fig. 3 is a cross-sectional view of a foot support portion according to another embodiment of the present invention.

Fig. 4 is a cross-sectional view of a foot support portion according to another embodiment of the present invention.

Fig. 5 is an explanatory view showing the combination of the push head and the spherical groove of the present invention.

FIG. 6 is a side view of a scoliosis correction apparatus according to yet another embodiment of the present invention.

FIG. 7 is a perspective view of another embodiment of the scoliosis correction apparatus of the present invention.

FIG. 8 is a perspective view of a scoliosis correction apparatus according to another embodiment of the present invention.

FIG. 9 is a perspective view of a scoliosis correction apparatus according to another embodiment of the present invention.

Detailed Description

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

However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various different forms, and the embodiments are provided to complete the disclosure of the present invention and to provide those skilled in the art with the scope of the invention. Reference numerals in the drawings denote the same structural elements.

Fig. 1 is a perspective view of a scoliosis correction apparatus of the present invention, and fig. 2 is a side view of the scoliosis correction apparatus of the present invention.

Referring to fig. 1 and 2, the present invention includes: a pair of foot rest portions 1100 for measuring the weight of the user, the weight distribution, and the foot pressure; a supporter adjustment part 1200, the rear end of which is hinged with the front end of the leg supporter part 1100 and the lower surface of which forms a spherical groove 1210; an angle adjusting part 1300 including a main cylinder 1310, one end of which is inserted into the spherical groove of the stand adjusting part 1200 to push the stand adjusting part 1100, whereby the front end of the stand part 1100 is lifted up and down to adjust the angle of the stand part 1100; and a control unit 1400 for determining the scoliosis and the posture imbalance of the user based on the body weight, the body weight distribution, and the foot pressure measured by the leg unit 1100, and controlling the inclination angle of the leg unit 1100 by the angle adjustment unit 1300.

The leg rest 1100 is a plate-shaped member that comes into contact with the foot of the user, and measures the weight as the load applied from the user, and the load and foot pressure applied from each foot (left and right sides) when coming into contact with the foot of the user. The foot pressure is used to determine the contact surface and pressure applied from each sole of the user.

To this end, the foot rest portion 1100 is preferably an arc-shaped member. In the case of the plane member, the area not in contact with the foot of the user is increased, and on the contrary, in the case of the arc shape, the area in contact with the arch of the foot of the user is maximized, so that the judgment for a wider area can be performed. And, as the area additionally contacted with this increases, the friction will also rise, and thus, the sole deformed based on the angle of the foot rest portion can be prevented from being pushed.

Fig. 3 and 4 are cross-sectional views of a foot rest portion 1100 according to another embodiment of the present invention.

Referring to fig. 3 and 4, the foot rest portion 1100 may include at least one ceramic ball 1110 in a convex hemispherical shape on an upper surface contacting a sole of a user's foot. The ceramic ball 1110 emits Far Infrared rays (Far Infrared Ray) and brings a warming effect due to a resonance phenomenon of the body. That is, if the wavelength of far infrared rays contacts with water, vibration is caused, and 70% or more of the human body is formed of water, so that blood circulation is promoted by the vibration of far infrared rays, thereby bringing about a warm-blooded effect.

The ceramic ball 1110 is fixed to the upper surface of the leg unit 1100 and can rotate at the same position. The frictional heat generated by the rotation of the ceramic balls 1110 at the surface contacting the sole of the foot increases the release rate of the far infrared rays released from the ceramic balls 1110, thereby having a greater effect.

The ceramic balls 1110 serve as reference points for positioning the feet of the user on the upper surface of the leg unit 1100. For example, when one ceramic ball 1110 is formed, it is possible to serve as a guide line for indicating the position of a specific toe or heel of a user, and when a plurality of ceramic balls 1110 are formed, the foot needs to be located within a range corresponding to the ceramic balls 1110, and thus, resonance phenomenon can be caused at a plurality of portions of the sole of the foot.

Among them, a plurality of fine protrusions are formed on the upper surface of the leg rest portion 1100. The plurality of fine protrusions may be raised and lowered, and the positions of the respective reflection areas based on the sizes of feet may be determined based on the feet of the user measured and scanned at the foot rest 1100, and the protrusions may be raised to perform finger pressure on the respective reflection areas of the soles of the feet. In a state where a user stands up on the leg rest portion 1100, the plurality of projections do not rise simultaneously within a range where the posture is not changed so as not to lose the object of the present invention, but rise within a predetermined range, and in one reflection area, the projection of the reflection area located at the most close position rises. That is, the same principle as that of the police law which is generally used is used.

Also, the rear end of the supporter adjustment portion 1200 is hinge-coupled to the front end of the leg supporter portion 1100, and includes a ball-shaped groove 1210 at the lower end.

The spherical groove 1210 is a position into which a main cylinder 1310 of the angle adjusting unit 1300, which will be described later, is inserted and fixed, and includes a second internal thread 1211a at an inlet of the spherical groove 1210 and a first internal thread 1211b at the innermost side.

One end of the angle adjusting part 1300 is inserted into the spherical groove of the holder adjusting part 1200 to push the holder adjusting part 1200. When the stand adjusting part 1200 is pushed, the front end of the leg stand part 1100 is lifted, and thus the inclination angle of the leg stand part 1100 is changed according to the degree of pushing of the angle adjusting part 1300.

Fig. 5 is an exemplary view illustrating the combination of the push head 1311 and the spherical groove 1210 of the present invention. Referring to fig. 5, the angle-adjusting part 1300 is inserted into the spherical groove 1210, and includes a push head 1311 having the same shape as the spherical groove 1210. The push head 1311 has a shape corresponding to the spherical groove 1210 described above, and the maximum outer diameter of the push head 1311 is the same as the inner diameter of the entrance of the spherical groove 1210.

To this end, a first male screw 1311a corresponding to the first female screw 1211b of the ball-shaped groove 1210 is formed at the front end of the push head 1311, and a second male screw 1311b corresponding to the second female screw 1211b of the ball-shaped groove 1210 is included at the middle section.

The pushing head 1311 of the main cylinder 1310 is not simply pushed toward the inside of the spherical groove 1210, but is rotated and inserted into the spherical groove 1210 when positioned at the entrance of the spherical groove 1210. That is, the second external screw 1311b located at the middle section of the push head 1311 is rotated in threaded engagement with the second internal screw 1211b of the spherical groove 1210. If the second male screw 1311b is screwed into the second female screw 1211b, the holder adjustment part 1200 and the angle adjustment part 1300 according to the present invention are fixed, and when the push head 1311 is continuously rotated, the engagement with the second female screw 1211b is released and the ball-shaped groove 1210 is inserted.

FIG. 6 is a side view of a scoliosis correction device according to another embodiment of the present invention.

Referring to fig. 6, in contrast, the angle adjusting part 1300 of the present invention further includes an auxiliary cylinder 1320 positioned outside the main cylinder 1310 to fix a side of the leg rest part 1100.

The auxiliary cylinder 1320 is disposed in a direction perpendicular to the main cylinder 1310, and the auxiliary cylinder 1320 is connected to the foot rest portion 1100, unlike the main cylinder 1310. The auxiliary cylinder 1320 can prevent breakage by dispersing a load applied to the footrest section 1100.

To this end, the lower surface of the leg rest portion 1100 includes the same spherical groove as the rest adjusting portion 1200. Like the supporter adjusting part 1200, the ball-shaped groove of the leg supporter part 1100 is a position where the auxiliary cylinder 1320 is inserted and fixed, and a thread is formed at an inlet and an innermost side of the ball-shaped groove. The screw thread corresponds to the screw thread of the front end and the middle section of the auxiliary cylinder 1320, and the method of fixing and coupling the auxiliary cylinder 1320 and the footrest section 1100 is the same as the method of fixing and coupling the footrest adjusting section 1200 and the angle adjusting section 1300, and thus, the description thereof will be omitted.

The auxiliary cylinder 1320 is fixed to the lower surface side of the leg unit 1100, and when the auxiliary cylinder 1320 descends, the edge of the leg unit 1100 is inclined toward the ground. When the assist cylinder 1320 is raised, the edge of the leg unit 1100 is raised in the opposite direction to the ground surface and is inclined inward. The unevenness of the leg portion such as the O-shaped leg is corrected by adjusting the height of the side face.

The controller 1400 determines the scoliosis and posture of the user based on the body weight, the distribution of the body weight, and the foot pressure measured by the leg unit 1100, and finally corrects the posture of the user by adjusting the inclination angle of the leg unit 1100 by controlling the angle adjuster 1300.

As an example, the control unit 1400 stores the distribution of the right and left body weights and the foot pressure measured by the foot rest unit 1100 as first data, and causes the angle adjustment unit 1300 to operate slowly. When the angle adjustment unit 1300 slowly operates to control the angle of the leg unit 1100, the control unit 1400 continuously stores the left and right weight distribution and foot pressure of the user as the second data and the third data. The stored result is compared with the inclination angle of the angle adjusting unit 1300 while adjusting the inclination angle, and the moment when the user's right and left weight distribution and foot pressure suddenly change is detected. The moment of detection is a critical point at which the posture of the user can be maintained, and thus, the control part 1400 stops the operation of the leg unit 1100 according to the inclination angle, maintains the stopped state, or adjusts and corrects the posture of the user through a repetitive process of decreasing the inclination angle and increasing it again.

FIG. 7 is a perspective view of a scoliosis correction apparatus according to another embodiment of the present invention.

Referring to fig. 7, the present invention further includes a fixing part 1500 fixing the leg rest part 1100, the rest adjusting part 1200, the angle adjusting part 1300, and the control part 1400 at the lower end. In addition, the weight of the user may be measured through the fixing part 1500 instead of the weight of the user through the leg rest part 1100 according to the present invention. In the case where the leg rest portion 1100 performs a plurality of functions in the same area, the fixing portion 1500 can measure the weight of the user due to the increase in the lifting volume. This is a principle of measuring only the weight of the user standing on the leg unit 1100, in addition to the weight of the leg unit 1100, the leg adjustment unit 1200, the angle adjustment unit 1300, and the control unit 1400, which are located at the upper end of the fixing unit 1500.

In addition, in order to prevent an erroneous result due to the inclination of the spine-side protrusion correcting device, which is an object of the present invention, when the ground is not flat, the fixing part 1500 of the present invention further includes a gyro sensor inside. Therefore, the inclination of the ground can be judged through the gyroscope sensor, and a more accurate result can be calculated through adjusting the inclination.

FIG. 8 is a perspective view of a scoliosis correction apparatus according to another embodiment of the present invention.

Referring to fig. 8, the present invention further includes a body portion 1600 extending from the fixing portion 1500 in a vertical direction of the ground. The cylinder portion 1600 includes: a stereo camera 1610 for scanning the body of the user; and a laser irradiator 1620 configured to irradiate a reference point with laser light for the reference posture so as to induce the reference posture of the body of the user.

The stereo Camera 1610 photographs the body of a user whose subject is 2 shots by what is generally called a stereo Camera (stereo Camera), and simultaneously obtains 2 pictures to find a reference point through each skeleton of the body photographed by stereo Vision of the acquired image. The above-mentioned reference points are not acquired at one time, but tracking is continuously performed so that the central points of the respective bones of the human body are continuously located on the same line as the human body if the reference points are acquired.

The laser irradiator 1620 includes: a first laser connected to the center point of each bone of the user measured by the camera to irradiate the laser; and a second laser for irradiating the body of the user with laser light by determining the weight, the distribution of the weight, and the foot pressure of the user determined by the control unit and the body of the user determined by the stereo camera 1610, and irradiating the body of the user with laser light in a target posture to be corrected at the same time. Therefore, the user visually recognizes the imbalance of his body by 2 laser beams irradiated to his body, and performs an action of spontaneously correcting the posture so that the 2 laser beams are positioned on the same line.

FIG. 9 is a perspective view of a scoliosis correction apparatus according to another embodiment of the present invention.

Referring to fig. 9, the present invention further includes: a handle 1630 that moves up and down and left and right on the upper end of the cylinder 1600 and rotates around the cylinder 1600; and a display 1640, which is located at the upper end of the handle 1630, moves up and down according to the up-and-down movement of the handle 1630, and visually transmits items measured, determined, and instructed by the control unit 1400 and the bones of the body measured by the stereo camera 1610 to the user.

The grip 1630 is used as an auxiliary unit when it is difficult for a user to maintain balance due to a steep inclination of the foot stand section 1100 or when the user needs to make a steep posture correction due to a steep inclination. Also, the grip 1630 may be rotated to the left and right to release the body imbalance and used for auxiliary purposes such as stretching. In a preferred embodiment, the handle 1630 is rotated parallel to the ground with the cylinder 1600 as the center line, and is rotated toward the body of the user with the cylinder 1600 as the center according to the characteristics of the user, so that the arm of the user holding the handle 1600 can be positioned on the same line.

The display 1640 is connected to the upper end of the handle 1630 and moves up and down according to the up and down movement of the handle 1630. However, when the rotation is performed in the left-right direction, the display 1640 does not react. The measured and recorded weight, weight distribution, and foot pressure of the user are visually displayed, and the skeleton of the user measured by the stereo camera 1610 of the column 1630 is visually displayed.

While the invention has been described with reference to the drawings and examples, those skilled in the art to which the invention pertains will appreciate that various modifications and changes may be made without departing from the scope of the invention as defined in the appended claims.