CA3178061A1 - Scoliosis brace - Google Patents

Abstract

The present invention relates to a scoliosis brace capable of restoring the normal curvature of the spine to be restored, and comprises: a first support part for supporting the lumbar region of the body; a first connecting part of which one end is coupled to the upper end of the first support part, and of which the other end encompasses one axilla so as to be extended toward the chest region; a second support part of which the upper end is coupled to the other end of the first connecting part, and which supports the chest and abdominal regions; and a second connecting part of which is one end coupled to the lower end of the second support part, and of which the other end encompasses the waist of the other side thereof so as to be coupled to the lower end of the first support part.

Description

[DESCRIPTION]
[Invention Title]
SCOLIOSIS BRACE
[Technical Field]
The present invention relates to a scoliosis brace capable of restoring curvature of a spine to be normal.
[Background Art]
In general, scoliosis refers to a condition in which a spine is curved sideways, rotated, and deformed as shown in FIG. 1. When an angle at which the spine is curved sideways is about 200 to 40 , a brace worn to pressurize a flank region as indicated by arrows in FIG. 1 is preferred for a treatment instead of a surgery.
Meanwhile, most of conventional scoliosis braces (e.g., Milwaukee type braces, Boston type braces, and tiso type braces) have a container-like structure having a frame made of a hard plastic material. Thus, the container-like brace tightly covers the entire chest region so that a user who wears the brace cannot even pick up objects on a floor while sitting down. In this case, the user has various difficulties when the user wears the brace, such as breathing difficulties and feeling bloated after a meal.
Due to characteristics of the scoliosis brace, the brace has to be worn for almost 24 hours for obtaining an effect, and thus the user feels very pain because of sweat rashes that appear when wearing this type of brace all day, even in winter. In particular, adolescent who have to wear such a brace for 24 hours may be desperate for the future, leading to severe depression.
Even though such a brace is worn for a long time despite these difficulties, it is hard to correct a position of the spine with a strength of the hard plastic. Such a brace pressurizes a curved region of the spine with the same intensity, the brace seems effective in an early stage, but when the brace is worn for a longtime, the brace serves only as a supporter.
A band-type brace, which is developed to compensate for the obvious shortcomings, continues to press the curved region of the spine with a hard band, such that it is more effective in reducing the degree of curvature of the spine than the conventional braces.
However, the band-type brace causes great discomfort to users in their daily lives because of a structure covering from the shoulder to the thigh. For example, a band, which crosses four times from the shoulder to the back, is fixed by two buttons provided at the buttock and two buttons provided at a portion between the navel and the reproductive organ. Thus, whenever the users go to the bathroom, they feel uncomfortable because of repetition of tying and untying the band.
Furthermore, the users cannot wear tight clothing including tops and bottoms because the band is fixed up to the thigh and feel uncomfortable when walking.
As described above, the users take a large amount of time and effort to wear the band-type brace and are cumbersome when wearing the band-type brace, such that the users are unwilling to wear such a band-type brace for 24 hours.
[Disclosure]
[Technical Problem]
The present invention has been devised to solve the above-described problems, and an object of the present invention is to provide a scoliosis brace that is easily worn.
Another object of the present invention is to provide a scoliosis brace capable of adjusting a length of a support part and a degree of compression according to a degree of curvature of the spine or a body region.
[Technical Solution]
The object of the present invention can be accomplished by providing a scoliosis brace including: a first support part configured to support a lumbar region of a body; a first connecting part having one end coupled to an upper end of the first support part and

2 an opposite end extending toward a chest region while encompassing one side of an axilla; a second support part having an upper end coupled to the opposite end of the first connecting part and configured to support chest and abdominal regions;
and a second connecting part having one end coupled to a lower end of the second support part and an opposite end coupled to a lower end of the first support part while encompassing an opposite side of a waist.
According to one feature of the present invention, the first support part may include a 0 _1 )th support part and a (1-2)th support part each of which has a plurality of fastening holes formed therethrough and which are coupled to each other in a longitudinal direction, and a length of the first support part may be adjustable by a fastening member which is screw-coupled into the fastening holes of the (1-1)th support part and the (1-2)th support part.
According to another feature of the present invention, the scoliosis brace may further include a first connecting member coupled between the first support part and the first connecting part and having a plurality of fastening holes formed therethrough.
According to still another feature of the present invention, the scoliosis brace may further include a first compression band having one end coupled to an upper end part of the first support part and an opposite end coupled to an upper end part of the second support part while encompassing an other side of the axilla.
According to still another feature of the present invention, the scoliosis brace may further include a second compression band having one end coupled to a lower end part of the first support part and an opposite end coupled to a lower end part of the second support part while encompassing one side of the waist.
According to still another feature of the present invention, a locking hook may be provided on the opposite end of the first compression band, and a locking part may be formed on the second support part so that the locking hook is correspondingly coupled to the locking part.

3 According to still another feature of the present invention, a first coupling member may be provided on an outer peripheral surface of the first compression band, and a second coupling member may be provided on an opposite end of the first compression band extending through the locking hook so that the second coupling member is correspondingly coupled to the first coupling member.
[Advantageous Effects]
The scoliosis brace according to the present invention can treat scoliosis by pressurizing a curved region of a lumbar through a band having both ends connected to a pair of support parts, respectively.
In addition, the scoliosis brace according to the present invention can be easily worn by using a detachable band and allow free of activity when wearing, so that it does not cause cumbersomeness to a user.
[Description of Drawings]
FIG. 1 is a schematic view showing a condition of a spine that is curved due to scoliosis.
FIG. 2 is a perspective view of a scoliosis brace according to one embodiment of the present invention.
FIG. 3 is an exploded perspective view of FIG. 2.
FIG. 4 shows states of use of a first support part according to one embodiment of the present invention.
FIG. 5 shows states of use of a first coupling member according to one embodiment of the present invention.
FIG. 6 shows states of use of a locking hook according to one embodiment of the present invention.
FIG. 7 is a schematic view showing a front side of a body wearing the scoliosis brace according to one embodiment of the present invention.
FIG. 8 is a schematic view showing a back side of the body wearing the scoliosis brace according to one embodiment of the present invention.

4 FIG. 9 is a flowchart of an automatic storage system of the scoliosis brace according to one embodiment of the present invention.
[Best Mode]
[Mode for Invention]
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments are provided only to help one of ordinary skill in the art to which the present invention pertains to easily understand and carry out the present invention, and thus it should be understood that the protection scope of the present invention is not limited to the embodiments. In addition, in describing various embodiments of the present invention, like reference numerals denote components with identical technical features.
FIG. 2 is a perspective view of a scoliosis brace according to one embodiment of the present invention, and FIG. 3 is an exploded perspective view of FIG. 2.
As shown in FIGS. 2 and 3, a scoliosis brace 100 according to one embodiment of the present invention includes a first support part 200 supported on a back region of a body, a second support part 300 supported on a chest region of the body, and first and second connecting parts 410 and 420 configured to connect the first support part 200 and the second support part 300 and pressurize a side region of the body.
The first support part 200 is made of a metal material and serves to support a lumbar region of the body, and includes a (1-1)th support part 210 and a (1-2)th support part 220 in a form of a rectangular bar as a whole. The (1-1)th support part 210 and the (1-2)th support part 220 are coupled to each other in a longitudinal direction, and a plurality of fastening holes 230 are formed through the (1-1)th support part 210 and the (1-2)th support part 220. In this case, the plurality of fastening holes 230 are formed in a plurality of rows along the longitudinal direction of each of the (1-1)th support part 210 and (1-2)th support part 220, and screw grooves are formed in inner peripheral surfaces of the fastening holes 230 so that a fastening member such as a bolt B can be screw-coupled.
FIG. 4 shows states of use of the first support part according to one embodiment of the present invention. As shown in FIG. 4, a user may overlap one end of the (1-1)th support part 210 with one end of the (1-2)th support part 220 to communicate with each of the fastening holes 230, and then fastens the fastening member such as the bolt B, thereby coupling the (1-1)th support part 210 and the (1-2)th support part 220 to each other. In this case, a length in which the (1-1)th support part 210 is overlapped with the (1-2)th support part 220 is adjusted, such that the entire length of the first support part 220 may be adjusted according to a body size of each individual.
Referring back to FIGS. 2 and 3, the second support part 300 is made of a metal material and serves to support the chest region and an abdominal region of the body, and the second support part 300 may be disposed in symmetrical with the first support part 200. The second support part 300 includes a (2-1)th support part and a (2-2)th support part 320 in a form of a rectangular bar as a whole. The (2-1)th support part 310 and the (2-2)th support part 320 are coupled to each other in a longitudinal direction, and a plurality of fastening holes 330 are formed through the (2-1)th support part 310 and the (2-2)th support part 320. In this case, the plurality of fastening holes 330 are formed in a plurality of rows along the longitudinal direction of each of the (2-1)th support part 310 and (2-2)th support part 320, and screw grooves are formed in inner peripheral surfaces of the fastening holes 330 so that a fastening member such as a bolt B can be screw-coupled.
That is, as an example of the first support part 200 described with reference to FIG.
4, the user overlaps one end of the (2-1)th support part 310 with the (2-2)th support part 320 to communicate with each of the fastening holes 330, and then fastens the fastening member such as the bolt B, thereby coupling the (2-1)th support part and the (2-2)th support part 320 to each other. In this case, a length in which the (2-1)th support part 310 is overlapped with the (2-2)th support part 320 is adjusted, such that the entire length of the second support part 300 may be adjusted according to a body size of each individual.
The first support part 200 supported on the lumbar region of the body and the second support part 300 supported on the chest region and the abdominal region of the body may be coupled to each other by a plurality of connecting parts that connect the first support part 200 and the second support part 300 to each other.
For example, one end of the first connecting part 410 may be coupled to an upper end of the first support part 200 and the other end may extend to the chest region while encompassing one side of an axilla, such that the first connecting part 410 may be coupled to the upper end of the second support part 300. In addition, one end of the second connecting part 420 may be coupled to a lower end of the second support part 300 and the other end may extend to the lumbar region while encompassing the other side of a waist, such that the second connecting part 420 may be coupled to the lower end of the first support part 200.
The first and second connecting parts 410 and 420 include a support plate 430 made of a flexible material and having a belt shape, an elastic layer 440 put over the inside of the support plate 430, and an outer sheath 450 coupled to encompass outer peripheries of the support plate 430 and the elastic layer 440.
For example, the support plate 430 may be made of a material such as a metal or plastic that may be bent according to a shape of the body, and the elastic layer 440 may be made of a material that reduces impacts, such as cotton, sponge, or foam.
In addition, the outer sheath 450 may be made of soft natural fiber or synthetic fiber capable of absorbing sweats, and may be made of material of cloth, leather, or synthetic resin, if necessary The first connecting part 410 and the second connecting part 420 may be directly coupled to the first support part 200 or the second support part 300 by the fastening member such as the bolt B. As another example, as shown in the drawing, the first connecting part 410 and the second connecting part 420 may be coupled to the first and second support parts 200 and 300, respectively through a separate connecting member.
In this case, the connecting member has a form of a rectangular plate in which a plurality of fastening holes are formed therethrough, and screw grooves are formed in inner peripheral surfaces of the fastening holes to facilitate coupling between the first and second support parts 200 and 300 and the first and second connecting parts 410 and 420, and also serve to extend the entire length of the first and second connecting parts 410 and 420.
FIG. 5 shows states of use of a first connecting member according to one embodiment of the present invention, in which a first connecting member 510 is coupled between the (1-1)th support part 210 and the first connecting part 410. In this case, one end of the first connecting part 410 may be rivet-coupled to one end of the first connecting member 510, and the other end of the first connecting member may be coupled to an upper end of the (1-1)th support part 210 by the fastening member such as a bolt.
In addition, a second connecting member 520 may be coupled between the first connecting part 410 and the (2-1)th support part 310, the other end of the first connecting part 410 may be rivet-coupled to one end of the second connecting member 520, and the other end of the second connecting member 520 may be coupled to an upper end of the (2-1)th support part 310 by the fastening member such as a bolt.
In addition, a third connecting member 530 may be coupled between the (1-2)th support part 220 and the second connecting part 420, one end of the second connecting part 420 may be rivet-coupled to one end of the third connecting member 530, and the other end of the third connecting member 530 may be coupled to a lower end of the (1-2)th support part 220 by the fastening member such as a bolt.
In addition, a fourth connecting member 540 may be coupled between the second connecting part 420 and the (2-2)th support part 420, the other end of the second connecting part 420 may be rivet-coupled to one end of the fourth connecting member 540, and the other end of the fourth connecting member 540 may be coupled to a lower end of the (2-2)th support part 320 by the fastening member such as a bolt.
In this case, a coupling position of each connecting part for each support part is adjusted, such that it is needless to say that the entire length of each connecting part extending between the first and second support parts 200 and 300 may be adjusted.
Referring back to FIGS. 2 and 3, a first compression band 600 is coupled to connect the (1-1)th support part 210 and the (2-1)th support part 310. In this case, the first compression band 600 may include a plurality of compression bands that are vertically spaced apart from each other at a predetermined distance.
For example, as shown in the drawing, the first compression band 600 may include a (1-1)th compression band 610 and a (1-2)th compression band 620 that are vertically spaced apart from each other at a predetermined distance, one ends the (1-1)th compression band 610 and the 1-2 compression band 620 are coupled to one end of the (1-1)th support part 210 and the other ends are coupled to the other end of the (2-1)th support part 310 while encompassing the other end of the axilla.

In this case, the first compression band 600 may include a hook part 630 coupled to the (1-1)th support part 210 by a fastener such as a bolt, a connection ring 640 having one side rotatably coupled to the hook part 630, a first band part 650 having one end, which passes through the other end of the connection ring 640, stitch-coupled and the other end extending to a side opposite to the connection ring 640, and a locking hook 660 provided on the other end of the first band part 650, and a through-hole 661 is formed in one side of the locking hook 660 to pass through the other end of the first band part 650.
In this case, the hook part 630 may be made of a material of leather, synthetic fiber, or synthetic resin, and the connection ring 640 and the locking hook 660 may be made of a material of metal or plastic having excellent rigidity. In addition, the first band part 650 may be made of a flexibility material having elasticity, such as fiber or synthetic resin, a first coupling member 670 is provided on an outer peripheral surface of the first band part 650, and a second coupling member 680 is provided on an outer peripheral surface of the other end of the first band part 650 so that the second coupling member 680 is coupled to the first coupling member 670. In case of the embodiment shown in the drawing, although a Velcro tape is used as the first and second coupling members 670 and 680 by way of example, this is merely an example of the present invention, and it is obvious that other types of male and female coupling members, such as snap buttons, may be applied, if necessary.
Meanwhile, a second compression band 700 is coupled to connect the (1-2)th support part 220 and the (2-2)th support part 320. The second compression band 700 may include a plurality of compression bands vertically spaced apart from each other at a predetermined distance, and extends in a direction opposite to the second connecting part 420 as described above.
[51]

For example, as shown in the drawing, the second compression band 700 may include a (2-1)th compression band 710 and a (2-2)th compression band 720 vertically spaced apart from each other at a predetermined distance, and one ends of the (2-1)th compression band 710 and the (2-2)th compression band 720 are coupled to one end of the (1-2)th support part 220, and the other ends are coupled to the (2-2)th support part 320 while encompassing one side of the waist.
The second compression band 700 may be made of a material the same as that of the first compression band 600 as described above. For example, the second compression band 700 may include a hook part 730, a connection ring 740, a second band part 750, and a locking hook 760. In this case, a through-hole 761 is formed in one side of the locking hook 760 to pass through the other end of the second band part 750, and a first coupling member 770 is provided on an outer surface of the second band part 750. In addition, a second coupling member 780 is provided on an outer surface of the other end of the second band part 750 so that the second coupling member 780 is coupled to the first coupling member 770.
A plurality of locking parts 340 are formed on outer peripheral surfaces of the (2-1)th support part 310 and the (2-2)th support part 320 so that the locking hooks 660 and 760 of the first and second compression bands 600 and 700 are coupled to the locking parts 340. A locking part 340 may be made of a material the same as that of the hook parts 630 and 730 of the first and second compression bands 600 and 700.
For example, the locking part 340 may be folded in half to form a locking hole 341 in one side thereof, such that a portion of the other end of the locking hole 341 may be coupled to each of the 2-1 support part 310 and the (2-2)th support part 320 by the fastener such as a bolt.
FIG. 6 shows states of use of the locking hook according to one embodiment of the present invention, in which the user inserts the locking hooks 660 and 670 of the first and second compression bands 600 and 700 into the locking hole 341 of the locking part 340, so as to easily mount the first and second compression bands 600 and 700.
In this case, the first and second compression bands 600 and 700 pressurize an axilla region or a waist region of the body on a side opposite to the first and second connecting parts 410 and 420, and press a convexly curved region of the lumbar.
FIG. 7 is a schematic view showing a front side of the body wearing the scoliosis brace according to one embodiment of the present invention, and FIG. 8 is a schematic view showing a back side of the body wearing the scoliosis brace according to one embodiment of the present invention.
As shown in FIGS. 7 and 8, when the user wears the scoliosis brace 100 according to one embodiment of the present invention, the first support part 200 supports the lumbar region of the body, and the second support part 300 comes into close contact with the chest region and the abdominal region of the body.
In this case, both ends of the first connecting part 410 are coupled to upper ends of the (1-1)th support part 210 and the (2-1)th support part 310, respectively, while encompassing a left axilla, and both ends of the second support part 420 are coupled to lower ends of the (1-2)th support part 220 and the (2-2)th support part 320 while encompassing a right waist.
The first compression band 600 is coupled between the (1-1)th support part 210 and the (2-1)th support part 310 while encompassing a right axilla on a side opposite to the first connecting part 410, and the second compression band 700 is coupled between the (1-2)th support part 220 and the (2-2)th support part 320 while encompassing a left waist on a side opposite to the second connecting part 420. In this case, the compression is continuously applied to the right axilla and the left waist region by an elastic force of the first and second compression bands 600 and 700, thereby pressing the curved region of the lumbar.
FIG. 9 is a flowchart of an automatic storage system of the scoliosis brace according to one embodiment of the present invention, in which specifications and shapes of various frames such as the support parts and connecting parts of the scoliosis brace 100 may be automatically generated and stored in the following order.
First, an X-ray is attached to a body modeling generated using pre-processing data without any size distortion (S10). In this case, through an optical character recognition (OCR) technology, a Cl spine region is positioned at a top of the body modeling, and an L4 spine region is positioned at a bottom of the body modeling.
Next, the lowermost portion of a front center frame of the scoliosis brace 100 is positioned at an L5 spine region, and the uppermost portion of a rear center frame of the scoliosis brace 100 is positioned at the Cl spine region (S20).
Next, a custom frame is generated according to a body curvature, and then the system is terminated (S40).
The embodiments of the present invention have been described. However, it should be understood that the present invention may be modified in various forms by one of ordinary skill in the art to which the present invention pertains within the scope of the appended claims of the present invention.
[Industrial Applicability]
The scoliosis brace according to the present invention can be easily worn and allow free of activity when wearing so that it does not cause cumbersomeness to a user, and can treat scoliosis by pressurizing the curved portion of the lumbar through the band.

Claims (7)

[CLAIMS]

1. A scoliosis brace comprising:
a first support part configured to support a lumbar region of a body;
a first connecting part having one end coupled to an upper end of the first support part and an opposite end extending toward a chest region while encompassing one side of an axilla;
a second support part having an upper end coupled to the opposite end of the first connecting part and configured to support chest and abdominal regions;
and a second connecting part having one end coupled to a lower end of the second support part and an opposite end coupled to a lower end of the first support part while encompassing an opposite side of a waist.

2. The scoliosis brace of claim 1, wherein the first support part includes a (1-1)th support part and a (1-2)th support part each of which has a plurality of fastening holes formed therethrough and which are coupled to each other in a longitudinal direction, and wherein a length of the first support part is adjustable by a fastening member which is screw-coupled into the fastening holes of the (1-1)th support part and the (1-2)th support part.

3. The scoliosis brace of claim 1, further comprising a first connecting member coupled between the first support part and the first connecting part and having a plurality of fastening holes formed therethrough.

4. The scoliosis brace of claim 1, further comprising a first compression band having one end coupled to an upper end part of the first support part and an opposite end coupled to an upper end part of the second support part while encompassing an opposite side of the axilla.

5. The scoliosis brace of claim 4, further comprising a second compression band having one end coupled to a lower end part of the first support part and an opposite end coupled to a lower end part of the second support part while encompassing one side of the waist.

6. The scoliosis brace of claim 4, wherein a locking hook is provided on the opposite end of the first compression band, and a locking part is formed on the second support part so that the locking hook is correspondingly coupled to the locking part.

7. The scoliosis brace of claim 6, wherein a first coupling member is provided on an outer peripheral surface of the first compression band, and a second coupling member is provided on an opposite end of the first compression band extending through the locking hook so that the second coupling member be correspondingly coupled to the first coupling member.

The present invention relates to a scoliosis brace capable of restoring the normal curvature of the spine to be restored, and comprises: a first support part for supporting the lumbar region of the body; a first connecting part of which one end is coupled to the upper end of the first support part, and of which the other end encompasses one axilla so as to be extended toward the chest region; a second support part of which the upper end is coupled to the other end of the first connecting part, and which supports the chest and abdominal regions; and a second connecting part of which is one end coupled to the lower end of the second support part, and of which the other end encompasses the waist of the other side thereof so as to be coupled to the lower end of the first support part.