AN ADJUSTABLE LIMB STABILIZATION DEVICE

Abstract

An adjustable limb stabilization device relates to an adjustable limb stabilization device for supporting a body part. More specifically the present invention is directed to an orthosis adapted to accommodate a predetermined orientation for a body part relative to a surface. an adjustable limb stabilization device comprising of a lateral slab 1, a first mechanical fastener 2 adapted to tighten and loosen the adjustable limb stabilization device and a connector assembly 3 adapted to pivotally adjoin the lateral slab 1 for supporting an injured limb. The connector assembly 3 may be a continuously molded connecting membrane, a hinge, a crease, or any other suitable component. Moreover, a fastener mechanism connects two or more said stabilization device 100 as per requirement.

Claims

1. An adjustable limb stabilization device 100 characterised by: a lateral slab 01 comprises an elastic hollow tube structure filled with curable entrant infusion material hardens said adjustable device 100 after curing process and a lateral slab 01 fasten on the objects by means of mechanical fastener 2 and a connector assembly 03; Wherein, i. a lateral slab 01 comprises hollow tube structure 04; ii. at least one mechanical fastener 02 adapted to tighten and loosen the device 100 and connected at one end of the lateral slab 01; iii. a connector assembly 03 comprises flexible straps containing hook and loop releasable fasting element.

2. The adjustable limb stabilization device 100 as claimed in claim 1, wherein a lateral slab is made of flexible material consisting of silicone rubber, latex rubber, synthetic rubber or any combination thereof adapted for patient comfort.

3. The adjustable limb stabilization device 100 as claimed in claim 1, wherein objects are any body parts of human body which requires external support.

4. The adjustable limb stabilization device 100 as claimed in claim 1, wherein entrant infusion material can be selected from a group consisting of low viscosity epoxy material that includes epoxy resins, acrylate fillers and activators, polyurethane, polymer or any combination thereof.

5. The adjustable limb stabilization device 100 as claimed in claim 1, wherein an adjustable limb stabilization device with stabilizing process of entrant infusion material by means of external light source or thermal curing at room temperature or chemical reaction curing.

6. The adjustable limb stabilization device 100 as claimed in claim 1, wherein a lateral slab is flat unfolded geometry with varied configuration sizes i.e. design and shape to result in the relief, fixing, stabilization and/or functional restriction of the limb and can be applied by the user in a simple way.

7. The adjustable limb stabilization device 100 as claimed in claim 1, wherein entrant infusion material can be introduced under pressure into customizable interlaced structure having an isolated layer with hollow tube structure before or after applying lateral slab to an injured limb.

8. The adjustable limb stabilization device 100 as claimed in claim 1, wherein an adjustable limb stabilization device by means of providing improved support system for an injured limb which is flexible, non-opaque, and non-allergic and user friendly.

9. The adjustable limb stabilization device 100 as claimed in claim 1, wherein more than one adjustable limb stabilization device is connected by means of any mechanism.

10. An adjustable limb stabilization device 100 comprises device fastener mechanism 500 connects more than one adjustable limb stabilization device 100 are connected with each other and a lateral slab 01 fasten on the objects by means of mechanical faster 2 and a connector assembly 03; Wherein, i. cap strip 510 consisting of eyelet 05; ii. socket strip 520 consisting of hollow stud 06; iii. eyelet 05 of cap strip 510 and hollow stud 06 of socket strips 520 are locked together and connects more than one adjustable limb stabilization device 100.

11. The adjustable limb stabilization device 100 as claimed in claim 8, wherein size and number of cap strips 510 and socket strip 520 vary as per requirement.

12. The adjustable limb stabilization device 100 as claimed in claim 1, wherein more than one adjustable limb stabilization device is connected by means of device fastener mechanism.

13. The adjustable limb stabilization device 100 as claimed in claim 8, wherein expanded adjustable limb stabilization device 200 to human body B wherein one adjustable limb device 100 and second adjustable limb device 110 are connected by means of device fastener mechanism 500.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0026] FIG. 1: Depicts top-view of an adjustable limb stabilization device according to present invention.

[0027] FIG. 2: Depicts front-view of an adjustable limb stabilization device according to present invention.

[0028] FIG. 3: Depicts side-view of an adjustable limb stabilization device according to present invention.

[0029] FIG. 4: Depicts isometric-view of an adjustable limb stabilization device according to present invention.

[0030] FIG. 5: Depicts top-view of an adjustable limb stabilization device without connector assembly according to present invention.

[0031] FIG. 6: Depicts bottom-view of an adjustable limb stabilization device without connector assembly according to present invention.

[0032] FIG. 7: illustrate cross-sectional view of an adjustable limb stabilization device having hollow tubing.

[0033] FIG. 8: discloses an application of an adjustable limb stabilization device to the human body.

[0034] FIG. 9: discloses an embodiment wherein two or more said limb stabilization device are connected by means of fastener mechanism.

[0035] FIG. 10: discloses a device fastener mechanism.

[0036] FIG. 10A: discloses exploded view of two limb stabilization device are connected with each other.

[0037] FIG. 11: illustrate an embodiment of the present invention which is extendable as per requirement.

DETAILED DESCRIPTION OF THE INVENTION

[0038] Present invention eliminates the disadvantages of prior art orthopaedic casts, cast material, orthopaedic support methods and devices and to provide an adjustable limb stabilization device for stabilizing an injured limb. The present invention provides an improved support system having user friendly properties like flexibility, non-opaqueness and skin friendly for an injured limb.

[0039] The principle embodiment of the invention is to provide an adjustable limb stabilization device 100 comprising of a lateral slab 1, a first mechanical fastener 2 adapted to tighten and loosen the adjustable limb stabilization device and a connector assembly 3 adapted to pivotally adjoin the lateral slab 1 for supporting an injured limb. The connector assembly may be a continuously molded connecting membrane, a hinge, a crease, or any other suitable component.

[0040] Another principal embodiment of the present invention is to provide an adjustable limb stabilization device 100 is able to joint together by means of fastener mechanism as per requirement.

[0041] One of the embodiments of an invention is to provide an adjustable limb stabilization device 100 comprising of a lateral slab 1 is made of flexible material consisting of silicone rubber, latex rubber, synthetic rubber or any combination thereof adapted for patient comfort. Lateral slab can be customizable interlaced structure having an isolated layer with hollow tube structure 04. The advantages of the present invention are numerous and significant. Because of the lateral slab 1 can be made of silicone rubber, latex rubber, synthetic rubber or any combination thereof, it can be clear so that the portion of the body to be surrounded can be viewed during the initial fitting of the cast.

[0042] One of the embodiments of an invention is to provide an adjustable limb stabilization device comprising of a lateral slab 1 is flat unfolded geometry with varied configuration sizes i.e. design and shape to result in the relief, fixing, stabilization and/or functional restriction of the limb and can be applied by the user in a simple way. The design pattern of the lateral slab 1 is preferably net-like in appearance to permit biaxial stretching both vertically and horizontally. Alternatively, the design pattern can be either a lattice-like pattern or quadrille to permit biaxial stretching along diagonal axes.

[0043] One of the embodiments of an invention is to provide an adjustable limb stabilization device 100 comprising of a lateral slab 1 is capable to have at least one entrant infusion material. Entrant infusion material can be selected from a group consisting of low viscosity epoxy material that includes epoxy resins, acrylate fillers and activators, polyurethane, polymer or any combination thereof. Entrant infusion material can be introduced under pressure into customizable interlaced structure having an isolated layer with hollow tube structure 04 before or after applying lateral slab 1 to an injured limb. In accordance with the method of the present invention, a portion of the body to be held immobile is surrounded with lateral slab 1 with the help of connector assembly 3 and the lateral slab is filled with the entrant infusion material which is flowable and hardenable material and releasably retained in place until the material hardens and the volume of the nonhardening fluid can be adjusted. The lateral slab 1 allows variable adjustment of the support to the limb and which is self-equilibrating. When the hardenable material finally hardens it will give uniform circumferential pressure to the fracture site thus providing pressure which is always automatically equilibrated and remains so even while providing ventilation. The uniform circumferential hydrostatic pressure keeps the bone or bones in place while healing and uniformity is important to avoid pressure spots leading to sores.

[0044] One of the embodiments of an invention is to provide an adjustable limb stabilization device 100 comprising of a first mechanical fastener 2 is loop portion of a hook and loop fastener for tightening and loosening the adjustable limb stabilization device for locking the lateral slab 1 with body part. Hook and loop fasteners are now commercially available with firm yet stretchable loop portions of various thicknesses and a broad range of elastic properties. The elastic properties provided by the stretchable loop portion make it possible for an adjustable limb supporting device to be effectively wrapped as few as one turn around a part of the body while maintaining contact of lateral slab 1 with the skin to be treated. For example, a single loop handle can be connected to the lateral slab 1 adjacent to the first and second straps. Or else two loop handles are provided, one extending between an intermediate portion of the lateral slab 1 and the first strap and the other extending between the intermediate portion of the lateral slab 1 and the second strap or the loop handles are secured to the lateral slab 1 so as to provide the most effective leverage for the user for lifting the limb supporting device. The length of the lateral slab 1 varies not only dependent upon the size of the person, but also whether the first and second straps are to be connected to the body parts to be treated. The connector assembly of the device according to present invention can be constructed of nylon webbing, a hook-and-loop material known as Velwrap™, and D-rings with sewable tabs. As a result of the use of the hook-and-loop material, the first and second straps can be appropriately adjusted in size to fit the body parts to be treated.

[0045] One of the embodiments of an invention is to provide an adjustable limb stabilization device 100 comprising of a connector assembly 3 are flexible straps containing both hook and loop releasable fastening elements and that is capable of attaching to lateral slab 1. Referring to FIG. 5 and FIG. 6 which depicts the top and bottom view of the device without connector assembly. For example, the limb supporting device used for leg may use an upper strap for encircling an upper portion of the leg (nearer the torso) and a lower strap for encircling a lower portion of the leg (nearer the foot) interconnecting with the lateral slab 1 configured into a loop-like structure.

[0046] One of the embodiments of an invention is to provide an adjustable limb stabilization device 100 with stabilizing process of entrant infusion material by means of external light source or thermal curing at room temperature or chemical reaction curing. For example, lateral slab 1 can be filled with fast hardening clear epoxy and wrapped around the arm of a patient. An adjustable limb supporting device is held in the wrapped position and covered by black coloured tape and is allowed to be adjusted to body part for five minutes. After that the black coloured tape is removed. After removing the tape, the lateral slab is exposed to daylight and will be cured thermally at room temperature. The curing process can be expedited using any kind of light source.

[0047] One of the embodiments of an invention is to provide an adjustable limb stabilization device 100 by means of providing improved support system for an injured limb which is flexible, non-opaque, and non-allergic and user friendly. In addition, present invention offers a beneficial combination of advantages for use in exercise and sports activities by simultaneously providing muscular-skeletal support, flexibility, comfort, ease of adjustment by providing ventilation due to its aesthetic design to the body part under treatment. Present invention is an improvement over the prior limb supporting methods by providing substantial orthopaedic support with a limited number of wraps, an adjustable device is more durable as materials for connecting assembly than thin elastic based products commonly available, both pressure and silicone therapies may be applied concomitantly and therefore eliminating a separate and/or repeated process of fitting more than one material individually, patient compliance may be improved because continued and repeated, even long term, comfortable use of the device is possible without loss of support from the lateral slab 1 while in placement and in use, the device according to present invention resists slippage, migration and unintended movement while in use and the device according to present invention does not adhere to the skin nor does it significantly pull hair or fur when it is removed from use. Furthermore, the present invention provides the added benefit of a supporting device that supplies even pressure to the body across the area being treated. A strip of a complimentary hook portion of the hook and loop fastener provides quick and simple closure of the wrap about the body part while maintaining effective wrap placement of the device even during strenuous activity and/or flexing of the body.

[0048] FIG. 7 of the present invention discloses a cross sectional view of an adjustable limb device wherein, hollow tubing 4 structure of said device is filled with curable composite material. FIG. 8 of the present invention discloses an adjustable limb device 100 is apply to human body B at fracture limb.

[0049] FIG. 9 of the present invention discloses an embodiment wherein device fastener mechanism 500 comprises cap strips 510 and socket strips 520 which connects two or more adjustable limb device with each other. Size and number of cap strips 510 and socket strip 520 vary as per requirement. For an example in FIG. 9, one adjustable limb device 100 and second adjustable limb device 110 are connected by means of device fastener mechanism 500.

[0050] FIG. 10 of the present invention discloses a device fastener mechanism 500 comprises more than one cap strips 510 comprises more than one eyelet 05 and socket strips 520 comprises more than one hollow stud 06. Eyelet 05 of cap strip 510 and hollow stud 06 of socket strips 520 are locked. The word “Eyelet” discloses herein as a solid or hollow cylinder object having small diameter than hollow stud 06 wherein said eyelet 05 can lock into hollow stud 06 by applying force onto said eyelet 05. The word “hollow stud” discloses herein as a hollow cylindrical object having larger diameter than eyelet 05 and lock eyelet 05 into a hollow cylinder structure of said stud 06. FIG. 10A of the present invention illustrate an exploded view wherein one adjustable limb device 100 and second adjustable limb device 110 are connected by means of device fastener mechanism 500. Further, the position of eyelet and hollow stud may be vice-versa said it is very obvious to change the position of eyelet and hollow stud means eyelet 05 can attached with socket strips 520 and also hollow stud 06 can be attached with cap strip 510, too for person skilled in the art.

[0051] FIG. 11 of the present invention discloses an application of expanded adjustable limb stabilization device 200 to human body B wherein one adjustable limb device 100 and second adjustable limb device 110 are connected by means of device fastener mechanism 500.

[0052] One of the embodiments of an invention is to provide an adjustable limb stabilization device to allow a physician or patient to do monitoring as well dressing of the wound without removing the device in case of accidental injuries.

[0053] The invention has been described with reference to the illustrated preferred embodiments. The invention is not unduly limited by this disclosure of the preferred embodiment described, instead it is intended that the invention be defined as their equivalents.