CN104739558A - An orthopedic surgery product and a manufacturing method thereof - Google Patents

An orthopedic surgery product and a manufacturing method thereof Download PDF

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Publication number
CN104739558A
CN104739558A CN201510088725.5A CN201510088725A CN104739558A CN 104739558 A CN104739558 A CN 104739558A CN 201510088725 A CN201510088725 A CN 201510088725A CN 104739558 A CN104739558 A CN 104739558A
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China
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intermediate layer
composite
edge
layer
body part
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CN201510088725.5A
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CN104739558B (en
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马克·约瑟夫
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Exos Co Ltd
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Exos Co Ltd
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Priority claimed from CN201080017895.XA external-priority patent/CN102421394B/en
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Abstract

The invention provides a manufacturing method of an orthopedic surgery product used for supporting body parts of patients. The orthopedic surgery product comprises a composite material. The composite material comprises an inner layer, an outer layer and a middle polymer layer. The method includes heating the composite material to allow the temperature of the middle layer to be higher than the minimum shapeable temperature; directly connecting a first edge of the composite material to the second edge of the composite material and allowing the temperature of the middle layer to be higher than the minimum shapeable temperature, thus facilitating formation of a three-dimensional structure, wherein the three-dimensional structure and a corresponding body part are conformal, the three-dimensional structure comprises at least two separate components which are separately formed by the composite material, and each component is provided with an edge different from one of the first and second edges; and connecting the separate components to form the three-dimensional structure. The orthopedic surgery product can be customized to fit a patient in site.

Description

Orthopedics's product and manufacture method thereof
The application is the divisional application of Chinese patent application No.201080017895.X, and the applying date of this female case is on February 23rd, 2010, and denomination of invention is " composite for custom fitted products ".
Related application: the application is the U. S. application 12/710 submitted on February 22nd, 2010, the U. S. application 12/436 that on May 5th, 252 and 2009 submits to, the part continuation application of 089, and require according to 35 U.S.C.119 (e) to enjoy the U.S. Provisional Application No.61/155 submitted on February 24th, 2009, the rights and interests of 138.
Background technology
1. technical field
The present invention relates to customization molding product scope, be specifically related to the field of compound material for orthopedics's product.
2. background technology
Often be necessary by formed product be customization shape and make it fit.A debatable especially field is in the use of protectiveness and muscle skeleton supportive device (such as in medical science art of orthopedic surgery, sports medical science, protectiveness health equipment, veterinary purpose and other purposes used those).These devices need to provide support in various degree and protection, but tight and comfortable laminating health.Such as following article all can benefit from the improvement of constructing technology and material: the supportive device used in the fixing and positioner used in the bracing or strutting arrangement used in orthopedics's casts (orthopedic cast) of fit molding, orthopedics's brace (orthopedic brace), sports medical science, radiotherapy and veterinary, and protectiveness health equipment and the fit article of other rigidity.
Usually bring form orthopedics's casts and brace by being wound around the glass fibre being perfused with barras on health, wherein said resin is activated by water and hardens.The Gypsum Fibrosum that they also can be activated by water and tissue layer are formed.Polycaprolactone material such as BSM Medical provides also can be used for brace.With hot water, this casts and splint material are heated to the suitable maximum temperature of skin, about 160 degrees Fahrenheits.These materials allow casts or brace around body area, go up formed in situ at bedding and padding (padding) and elastic fabric (stockinette) and obtain.These current materials are in and are sufficiently heated 1) they have the ductility and 2 that are enough to molding around health) this material time of not scalding the temperature of patient or doctor is limited.
Casts, clamping plate, brace and other products need to be shaped to complicated shape.Such as, often need thumb herringbone casts or clamping plate for the support of defect of thumb.These are difficult to customization molding and are applicable to specific user.Their usually piecemeal molding, and be connected to clamping plate or casts body, this produces more weak support.Fit is always uncomfortable especially, and this causes compliance issues.Other somatic damage may need the shape being difficult to realize and implement relative complex with high costs.
Brace is difficult to the shape being shaped to customization especially.Brace usually needs to be flexible to allow body part (such as knee joint, ankle, wrist and other mobilizable body part) bending.Meanwhile, brace need be rigidity to prevent weak body part injured.Therefore, most of existing brace is complicated machinery, and it is difficult to manufacture and be more difficult to custom fit.
Orthopedics's product such as casts, clamping plate, brace and protectiveness equipment and other products are not only difficult to use conventional material to be shaped to complicated shape, and they also usually cannot accomplish well fit to patient.Because these products are made with mechanical mechanism usually, or being connected or combining with binding agent with such as hook and ring, or not moldable, so they can not customize molding for patient.Lacking custom fit causes uncomfortable, and this affects the compliance of product, purposes and effectiveness.
Summary of the invention
The invention provides unique composite, it can easily be customized to applicable body part, is shaped to complicated shape, but at room temperature has again high rigidity and high strength.This flat composite sheet is relatively thin, can cut into definite shape, heats and sews up subsequently, forms complicated 3D shape.Then, the product completed by heating also cosily molding on health, thus accurately can be applicable to and body support position.
A preferred embodiment provides a kind of composite formed by rigid polymer material intermediate layer, and described polymeric material intermediate layer can thermoforming at the temperature of about 200 degrees Fahrenheits.This layer is clipped between high resiliency extension layer of web material and/or froth bed.Gained composite can be heated until intermediate layer is extending, and skin provides heat insulation, carries out cutting, sews up and the stability of molding, make this composite more durable in addition and keep warm and soft simultaneously.
Fabric and froth bed also allow material-to-be-heated in heat and plastic time easily through sewing machine, and provide the seam durability that plastics cannot provide separately.These tissue layer can have ductility, and this allows intermediate layer three dimensional molded, but the elasticity of fabric makes soft heating object keep compression and along with its cooling and hardening and molding on health.In addition, this elastic layer provides the memory that plastics can not have separately, makes the article when reheating reply its original shape to be again applicable to health.
In a preferred embodiment, this composite also or can substitute this interlayer or in addition comprise heat barrier foam layer in the one or both sides of one of fabric sandwich.For the protectiveness comfort liner of health when this foam makes this composite easily can process in a heated state and be provided in wearing.Because the foam of relative low density is when sewing up and to protecting hands and health not to be heated, so this extends the temperature range of available thermoformable material during health molding.In addition, heat-proof quality extend the composite tool malleable time, thus allowed more time sewn seams and by article for health molding.
The composite of a preferred embodiment of the present invention, after being stitched into basic 3D shape, can be heated and owing to being shaped to more complicated shape by the ductility in intermediate layer that heats and the elasticity of composite bed.This product this basic configuration can sell use.Or, by the space to save storage and transport of this product flattened.Then, finished product can be reheated the temperature higher than 140 degrees Fahrenheits by consumer, can extend and around complex surface (such as but not limited to health) closely fit molding.
This material extending and around surface forming not sagging deflections, this is because the fabric extended and froth bed provide memory and retentivity.This easily and to provide material quickly fit closely around the comfortable of surface.Once material cooled, then it forms the supportive structure of rigidity.Intermediate layer plastic material can have different thickness and hardness, with provide required support, protection and bending amount for intended purpose.
The composite of a preferred embodiment of the present invention has following key feature: different from many rigid materials, it can be heated to extending state and sew up to make lower shrinkage, tool ductility, complexity, comfortable and noticeable seam with standard sewing machine, is very similar to and sews up fabrics in general coat.Fabric and/or froth bed cause being very similar to conventional extension fabric by the behavior of the composite heated and allow material in the normal fashion by use in sewing machine machine or manually operate.
The heat-proof quality of outer froth bed extends material and keeps temperature and plastic time, makes the sewing having sufficient time to sew up long seam and complexity, protects hands to be unduly heated simultaneously.This product can Repeat-heating arbitrary number of times to complete stitching, molding and manufacture process.In addition, because the shape that this composite portions is sewn and operates to make shape height meet it to be sewed up, so this composite can diversity extend.This makes three-dimensional objects to manufacture simply, and this is very difficult before, if not the rigid portion of cooling cannot be sewed up.After the cooling period, intermediate supports layer material has become rigidity, further strengthen by 3D shape, thus become very firm and there is supportive.Stiff Block links together by seam in a continuous fashion that sew up, which reduces the point load seen in other connected mode (such as rivet, binding agent or machinery are fixing) and fatigue.
The artistic outward appearance that the fabric of a preferred embodiment and froth bed also provide the comfortableness of health and brought by the fabric printed or weave.This froth bed also provides resiliency, thus by reducing the pressure point in motor process and when applying weight, makes final fit shaped article more comfortable.This froth bed can also be thermoformable at the temperature identical with intermediate polymer layer, makes them pass through change thickness along with applying pressure thus increase extra shape and profile in molding process.These froth beds also have different thickness, density and composition, to provide the resiliency of varying level as required.The combination of this composite and hot suturing skill provides the feature of many ideals and uniqueness.
By hereafter to detailed description of preferred embodiments, claim and accompanying drawing, these and other feature of the present invention will be shown.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of orthopedics's brace that the composite of a preferred embodiment of the present invention is formed.
Fig. 2 is the side cross-sectional, view of Fig. 1 composite.
Fig. 3 is the schematic diagram illustrating view of Fig. 1 composite.
Fig. 4 is the side cross-sectional, view of the composite with circular edge.
Fig. 5 is the orthopedics's brace schematic diagram be arranged on arm formed by composite.
Fig. 6 is the schematic diagram of the brace with different close mechanism.
Fig. 7 is the schematic diagram of different close mechanism.
Fig. 8 is the elevational sectional view of display overlapping edge.
Fig. 9 is by the schematic diagram of the different orthopedics brace of this composite material forming.
Figure 10 is by the schematic diagram of the cervical orthosis of this composite material forming.
Figure 11 is by the schematic diagram of the cervical orthosis of this composite material forming.
Figure 12 is by the schematic diagram of the clamping plate of this composite material forming.
Figure 13 is the schematic diagram of the clamping plate of molding with it patient.
Figure 14 is the schematic diagram of another kind of clamping plate.
Figure 15 is the schematic diagram of the clamping plate of molding with it patient.
Figure 16 is the schematic diagram of leg splint.
Figure 17 is another width schematic diagram of leg splint.
Figure 18 is the schematic diagram preparing stand-by clamping plate.
Figure 19 is the schematic diagram of the heating clamping plate of molding with it patient.
Figure 20 is the schematic diagram of the clamping plate around patient's compression.
Figure 21 is the schematic diagram of the clamping plate be molded around patient.
Figure 22 is by the schematic diagram of the protectiveness shoulder pad of this composite material forming.
Figure 23 is by the schematic diagram of the protectiveness shin guard assembly of this composite material forming.
Figure 24 is the schematic diagram of the protectiveness shin guard assembled.
Figure 25 is the schematic diagram of protective glove.
Figure 26 is the schematic diagram of the protective glove assembled.
Figure 27 is the schematic diagram at protective glove molded on hand.
Figure 28 is the schematic diagram of the heating unit for this composite.
Figure 29 is the sectional view of this heating unit.
Figure 30 is the schematic diagram of the heating unit of heating.
Figure 31 is the side cross-sectional, view of microwave heating unit.
Figure 32 is the side cross-sectional, view of the microwave heating unit of heating.
Figure 33 is the schematic diagram of two assemblies be stitched together.
Figure 34 is the side cross-sectional, view sewed up by two of this composite material forming assemblies.
Figure 35 is the specific side cross-sectional, view sewing up two assemblies connected.
Figure 36 is the schematic diagram of the stitching of permission two component activity.
Figure 37 is the schematic diagram of the stitching allowing assembly to set level.
The schematic diagram of two assemblies that the schematic diagram that Figure 38 is is cut open.
Figure 39 is the schematic diagram of two assemblies be stitched together.
The schematic diagram of two assemblies sewed up when Figure 40 is heating.
Figure 41 is the schematic diagram sewing up the assembly forming complicated shape.
Figure 42 is the schematic diagram sewing up the assembly forming herringbone brace.
Figure 43 is the schematic diagram of continuous loop fabric (unbroken loop fabric) outer field brace.
Figure 44 is the schematic diagram that can connect close mechanism.
Figure 45 is the schematic diagram of the connected close mechanism be assembled on brace.
Figure 46 is the schematic diagram of the brace that patient has assembled with it.
Figure 47 is the close up view that can connect close mechanism assembly.
Figure 48 is the side view of this assembly.
Figure 49 is the side view of this assembly opposite side.
Figure 50 is the schematic diagram that can connect a kind of structure of close mechanism.
Figure 51 is the schematic diagram that can connect close mechanism another kind structure.
Figure 52 is the schematic diagram that can connect close mechanism another kind structure.
Figure 53 is the schematic diagram that can connect close mechanism another kind structure.
Figure 54 is the schematic diagram that can connect close mechanism another kind structure.
Figure 55 is the schematic diagram of another kind of close mechanism.
Figure 56 is the side cross-sectional, view of this close mechanism assembly.
Figure 57 is the schematic diagram illustrating view of close mechanism on brace.
Figure 58 is the schematic diagram having assembled brace.
Figure 59 is the schematic diagram of patient's brace with it.
Figure 60 is the schematic diagram of another kind of close mechanism.
Figure 61 is the schematic diagram of another kind of close mechanism.
Figure 62 is the schematic diagram of this close mechanism another kind structure.
Figure 63 is the schematic diagram of another kind of close mechanism.
Figure 64 is another view of this close mechanism.
Figure 65 is the schematic diagram of another kind of close mechanism.
Figure 66 is the schematic diagram of another kind of close mechanism.
Figure 67 is the schematic diagram of another kind of close mechanism.
Figure 68 is the schematic diagram of the brace with unbroken loop fabric portions.
Figure 69 is the schematic diagram of another kind of close mechanism.
Figure 70 is the schematic diagram of the close mechanism be assembled on brace.
Figure 71 is the schematic diagram that back brace can connect close mechanism.
Figure 72 is the schematic diagram of the connected close mechanism of diverse location on brace.
Figure 73 is the schematic diagram that leg splint can connect close mechanism.
Figure 74 is the schematic diagram of this close mechanism of diverse location place on clamping plate.
Detailed description of the invention
The preferred embodiments of the invention shown in Fig. 1-74.Should it is expressly understood that, only provide illustrative embodiment for illustration purposes herein, it is not meant to be and limits invention required for protection inadequately.Exemplary describes the present invention in the orthopedics's product for fixing and body support position.It should be understood that the present invention expects for the product of other type, include but not limited to medical science, motion, protectiveness equipment, veterinary and other type Use.
Following term is defined as follows in this article.Brace (brace) is for device that is auxiliary or restriction body kinematics.Casts (cast) material is molded as the protectiveness shell protected when it heals fracture or fracture limbs.Clamping plate (splint) are fixing or the bone of stabilization of impaired, joint, limbs or spinal column medical apparatus.Orthosis (orthoses) is for supporting, assist, locate, prevent or correct deformity or improving the external orthopedic equipment of body movement partial function.Retention time (dwell time) is defined as described composite and has enough ductility to allow the time of formed product.Target temperature is defined as about 165 degrees Fahrenheit to 250 degrees Fahrenheits, preferably about 200 degrees Fahrenheits.For purposes of the present invention, to be defined as material highly extending and compressible and may be molded to 3D shape to form the state of complicated shape around body part and other object by becoming flexible, on four direction for ductility.But become the slightly more plastic and flexible material without the above-mentioned feature of high level and be not regarded as that there is ductility.For purposes of the present invention, if application on human skin scald be defined as material be heated to 200 to 220 degrees Fahrenheits or higher time the heat transfer degree that reaches make to be applied to health by by the material heated, then make cannot easily by hand operated and the result causing the rubescent and/or body skin foaming of pain for the discomfort of pain.
summary
Fig. 1 illustrates an example of orthopedic product such as forearm fracture brace, and the present invention can use thereon.Should it is expressly understood that, other type products comprises the brace of other type, clamping plate, casts and other products.The descriptive brace 10 of the present embodiment comprises internal layer 20, middle support layer 30 and outer 40, as shown in Figures 2 and 3.These three layers provide unique function separately, when being combined into one joint product, produce unique and outstanding product.Hereafter describe these three layers respectively in detail to be molded or formation integrated composite compressed together.Apply closed 60 before use, it makes the health care provider not being subject to special training easily this brace is shaped to suitable shape, and is fixed to it patient by this brace.Gained brace is for much more comfortable patient, and it can increase the compliance that patient uses it.Gained brace has the many additional benefit being better than the previous system that context is discussed.
The integral system of this preferred embodiment makes brace can provide with pre-layering, preformed or blank form, and provides with the size according to desired use, such as, for supporting wrist, arm, knee joint, neck or other body part.Then, this system easily customizes for particular patient, as discussed below.In a preferred embodiment, this system also allows patient to adjust brace as required, to adapt to swelling or other problem.This adjustable also allows brace to customize for the particular body portion that will support.
With xeothermic, brace system is heated, make it become thermoformable, thus molding in several minutes.At the temperature of about 160 degrees Fahrenheit to 250 degrees Fahrenheits (target temperature), this brace system is extending thus be easy to molding, but still can keep rigidity to a certain degree, thus does not exceed the excess flow of the glass transition temperature of this material.Then, this system can be placed in it patient, and can not scald patient in this process or cause the discomfort of patient.Highdensity hot intermediate plastic layer and health separate by the inner foam layer of relative low density.Than foam, there is more highdensity skin and in fact can transfer heat to skin quickly by foam cooling than foam, protect skin at the temperatures used from scald thus.Then, system is shaped to definite required form, thus makes particular patient easily and do not use following method with needing special skills.
The time that the system of a preferred embodiment is designed to allow brace to have ductility is controlled.In this article, this is called " retention time " of brace.Because this is the time that brace accurately must be molded on a patient body by doctor or technical staff, so this time is the crucial time.This preferred embodiment by selecting intermediate layer material, temperature that the density/caliper of intermediate layer material, intermediate materials have ductility and internal layer and outer field heat insulation quality control retention time.In addition, the temperature that user can be heated to according to article carrys out adjusted retention time, and higher temperature obtains longer retention time.
In the preferred embodiment, retention time is subject to the control of following condition: the thickness in the initial temperature of intermediate layer heating, selected intermediate layer material, intermediate layer and the insulative properties of density and skin and internal layer.This preferred embodiment uses rigidity intermediate layer material, its or about 200 degrees Fahrenheits and be low to moderate about 160 degrees Fahrenheits temperature under there is ductility.The forming temperature scope of these materials self can not make material have ductility usually within the sufficient time, and can cause serious discomfort or damage to patient.These materials can cool within the disengaging thermal source several seconds.Low-density heat barrier foam internal layer and outer field encapsulating are the important innovations increasing retention time, and allow to change retention time by the way, are isolated by the heat of patient and internal layer danger simultaneously.
Composite for product is radioparent.This permission carries out X-ray and other imaging process when not removing this product to patient.This is for checking that the state of agglutination has saved a large amount of time and expense.
This composite and can carry out molding, stitching and other operation to material and forms complicated shape by heating material, and it be ductile shape simultaneously, then makes it cool and retain this new shape with rigid form.
This composite also can be made into " base " form, then formed in situ, thus produce needed for shape and custom fit.This allows motility and customization, and does not need a large amount of product inventories.
material
The complex of this preferred embodiment comprises soft inner foam layer 20, and it is by suppress or molded or other manufacture method is assembled into middle support layer 30.Inner foam layer 20 provides the comfort being close to skin.It can protect the skin of patient from the friction in intermediate layer 30 and heat, and waterproof (not absorbing).This layer can at target temperature compacted under, accurately fit with what provide the minimum details of patient.The specific foaming composition of this layer is low-density with heat radiation as mentioned above, and patient is preserved from when hot brace is placed in around health at first.In other preferred embodiments, foam can not have ductility, but can compress thus cosily fit tightly around body area.Foam provides resiliency and increases the comfortableness and compliance that use.Foam is in the preferred embodiment hole-closing structure, but if do not need water proofing property, then replacement scheme can be that perforate is to provide respiration capability.This layer can also have foam formulations, to receive and to distribute therapeutic chemical addition agent such as antimicrobial, skin lotion or other medicines and chemicals.In addition, visco-elastic memory foam can be used for this layer, to be accurately applicable to health.
In the preferred embodiment, internal layer 20 can including but not limited to such as llowing group of materials: the barrier fabric layer of layer of closed-cell foam, open cell foam layer, gel or flexible polymer layer, barrier fabric, multilamellar or superposition or any other have the thermal insulation layer of resiliency.This layer provides in order to the buffering of patient comfort and in order to keep the heat insulation characteristics of intermediate layer heat to increase the working time of forming materials, and provides the stayed surface of sew application.The line that this stayed surface is sewn seams provides fixed mechanism, and provides smooth surface for not sticked together being moved by the composite heated by stitching devices.In addition, this layer make by the extending composite that heats and stitching devices body heat insulation, thus keep the sufficiently long extending time to carry out complicated stitching step.The metal surface that the base of most of stitching devices is normally large and thick, it can dispel the heat from non-insulated material rapidly within the several seconds.Be heated to about 200 degrees Fahrenheit time, this layer of coefficient of sliding friction is about 1 or less, means that it can slip over metal surface and not by undue power or viscosity.
This internal layer 20 is in the preferred embodiment formed by foamed materials, such as, formed by multiple crosslinked polyethylene (" PE ") and ethylene-vinyl acetate (" EVA ") foam or other suitable material.This material has ductility under target temperature.But, the higher temperature lower mould of about 300 degrees Fahrenheits that this layer also can realize in the fabrication process.This makes in the fabrication process this Material compression to be molded as various ways, near outer field edge by heated sealant, encapsulates intermediate layer thus.Available multi-medicament or antimicrobial treatment process this layer.
Layer that also can be additional other in internal layer inside, to provide antimicrobial property.Also other curative properties can be added in the layer that these are other.This layer can be foam, fabric, adhesive-bonded fabric or other suitable material.
The intermediate layer 30 of this preferred embodiment is thin thermo-formable polymeric plastic material, and it becomes plastic under target temperature, but at room temperature has suitable rigidity.This layer provides the support of a great deal of to body part.As required, by changing the composition of polymeric material, the flexibility and rigidity that have in various degree can be transformed into.Also change this feature by material thickness or by boring a hole or shearing.This layer can be molded as has different-thickness, tapered edges, rib, hole and feature, and it provides desired stiffness, intensity and the flexibility of predetermined healing needed for object.
The intermediate layer 30 of this preferred embodiment is formed by the special hot thermoplastic polymer material comprising special characteristic.At the temperature of about 165 degrees Fahrenheit to 200 degrees Fahrenheits, this material is easy to molding, and the temperature below 130 degrees Fahrenheits has rigidity.This material preferably has lower glass transition temperatures, and it allows slowly to become from the state with ductility to have rigidity.Material thickness is preferably about 0.025 inch to about 0.125 inch.When measuring according to ASTM D2240, this material has the hardness higher than Shore 70A, preferably about Shore 65D to about 80D.This material has enough structural strengths, and it has high impact, the expansion of low breach and durability.Such as, without restriction, the material of this preferred embodiment has the hot strength of 6000-9000psi (ASTM D638), preferably 7500psi, the extension at break of 5% and 270,000-340, the bending modulus of 000psi, preferably 308,000psi (ASTM D5023).The proportion of preferred material is about 1-1.5 gram/cc (ASTM D79).
The intermediate layer 30 of another preferred embodiment is preferably by polrvinyl chloride (" PVC ") sheet material, amorphous polyethylene terephthalate (" RPET ") or PVC foam such as Sintra tMor Komatex tMformed.Other preferred material includes but not limited to polycaprolactone and caprolactone.Also can use such as low-density or high density polyethylene (HDPE) (" HDPE ") and similar material.But thermoformable under also can being used in the temperature lower than 250 degrees Fahrenheits is at room temperature other material of rigidity.
In a preferred embodiment, outer 40 are formed by Stretch material, and it is easy to the memory stretched, maintenance recovers original shape, has high strength and durability.This material includes but not limited to: the material of woven nylon spandex blend, Woven polyester spandex blend, nylon fabrics, polyester or other design due to braiding and the fiber that stretches and rubbery.Spandex is the general phrase of spandex.In one embodiment, preferred material comprises the blend of nylon or polyester and spandex.In addition, the preferred material of this embodiment be heated to about 200 degrees Fahrenheit time do not become sticky, be easy to along surface sliding when being heated to this temperature.When being heated to the temperature of about 200 degrees Fahrenheits, the coefficient of sliding friction of this layer is about 1 or less, means that it can slide along metal surface, and does not have excessive power or viscosity.
In a further preferred embodiment, skin comprises Stretch material mentioned above and another froth bed, this froth bed has many features of internal layer in a preferred embodiment, provides the thermal insulation for intermediate layer when it is included in the brace formed around body part.In addition, it provides aesthetic property for brace, and provides the protection to intermediate layer friction.For for rigidity and may coarse porose intermediate layer durable and comfortable coating is provided.In the preferred embodiment, this skin is by formation of foam, and such as polyurethane foam, foam rubber or eva foam, it can be molded at higher than the temperature of target temperature.This allows skin thermoforming in the fabrication process, and it has release characteristic, rib, depression or ornamental shape, and has the edge of relative internal layer sealing at the temperature being significantly higher than target temperature.This feature is unaffected in patient's forming process.In the preferred embodiment, outer not thermoforming under target temperature, but stretch with the shape adapting to intermediate layer.Because its not thermoforming, elastically wrap or the marking of compressed pipe so can not stay, and keep the level and smooth and attractive in appearance of outward appearance.If do not need these characteristics, then it is thermoformable under target temperature.
Outer froth bed can also be rigid foam to provide extra support and environmental conservation, attractive in appearance and provide some to support in thermoforming process.When by this skin compared with Typical abrasive Gypsum Fibrosum or glass fibre brace skin time, the remarkable improvement of comfort level, outward appearance, attractive in appearance, durability and ease for use can be experienced.In addition, fabric, synthetic leather or other ornamental coating can be added on the outside of this layer, for object that is attractive in appearance or durability.In addition, also can apply the fabric being known as unbroken loop, it has the surface such as Velcro being suitable for common hook and look fasteners tM.This permission is closed, extra support thing, many parts brace and other device can use hook strip fastener at once to connect.
This composite can comprise the hole penetrating three layers, thus forms the hole 12 of not commensurability and shape, thus provide ventilative, molding character, path to wound or conduit etc.Be molded into the needs of body part according to brace, this some holes also allows intermediate layer to expand and shrinks.Integration brace also can bore a hole to produce the hole 14 for body part such as thumb, toe etc.It also can bore a hole to receive multiple closed-system adnexa.In most of the cases, this preferred embodiment is wound around once and to a certain extent overlapping around end.This is to adapt to the different health diameter that runs in the product of often kind of size and shape, and this is the characteristic that typical Gypsum Fibrosum and glass fibre brace do not have.Overlap is also the point that closing device is settled, and allows brace open or closed in its environment in use.
the embodiment of substitution material
Middle support layer also can comprise perforation.This allows the layer perforation being easy to comply with health three-dimensional surface to have aperture located adjacent one another, obtains 25% to 50% open open-celled structure.The method produces the substrate framework of surrounding hole, its heat and plastic time, by around little bore deformation, move towards aperture or aperture stretched and open and can molding be easier to.Use this method for punching, harder material thicker in the material being not enough to molding when usually not boring a hole can be used.Due to deformation process mentioned above, make perforation also allow plastic polymer than pantostrat lower temperature compacted under, this for patient comfortable and safe property very important.When cooling and with post type molding, thick dielectric frame becomes very has rigidity, required for most of supportive brace.In addition, alleviate weight by perforation, which increase comfortableness and the compliance of patient.The perforation in these intermediate layers be what to separate for the passage of ventilating and cool object, described passage must penetrate whole layers and larger and far apart.In a preferred embodiment of the invention, described perforation removes the intermediate layer weight of 25% to 60%.When the material in intermediate layer comprises PVC sheet, APET and RPET, these perforation are useful especially.
As an alternative, foamed materials, such as PVC foam (comprises Sintra tMand Komatex tM) and APET can with 20% to 50% air or bubble together with extrude or molded time foam, to replace perforation.Other expanded material can be used, such as rigidity eva foam and other high density foamable polymer.Their purposes depends on desired stiffness needed for often kind of purposes and durability.
Intermediate layer 30 can have different Topological properties, such as, by having the thickness of minimizing in the region of the more resiliencies of needs needing the region of additional stiffness to have the thickness of increase.In another preferred embodiment of the present invention, whole brace system is formed by homogenous material, and its behavior have with above to mode very identical described in multilamellar brace.This material can have layering, its densification become more or less by introducing bubble more or less in foamed materials.The core of material has the density higher than material outer (more bubbles) (less or do not have bubble).This can realize by using foam extruded material, in the fabrication process lather collapse or made it become finer and close by operation.Then, process by heat or alternate manner, surface is raised and bubble expansion, become not finer and close and softer.This also by while coextrusion or the multiple layer of common molded realize, it can foam as different density or the coextrusion material using different composition.Clean effect is the homogenous material sheet material with hard core and the heat insulation exterior section of buffering.Around in the forming process of body part, low-density (the having more foaminess) exterior section of material can isolate the discomfort that interior section causes from the heat of interior section to protect it.This thermal insulation also provides enough retention time to make brace can around body part molding, and elongation center's part has the plastic time.Also can add other layer, to provide extra treatment and aesthetic benefits.
This intermediate layer also can comprise the layer of multiple thermoforming material.These different materials can comprise different rigidity and the feature of thermoforming ability, or they only mediate some region of layer, to increase rigidity or the plasticity in some region, intermediate layer.In addition, other material is inserted to provide required extra rigidity or plasticity in the position that can need in the intermediate layer.
manufacture
The manufacture process of a preferred embodiment uses hot pressing.According to specific products to be formed, be placed on ternary in suitable mould or punch die.Then by have place three (or more) mould/punch die of layer is placed in convection oven, and is heated to 300 degrees Fahrenheits.Subsequently mould/the punch die of heating is placed in stamping machine.Three laminations are made for the shape of mould by closed stamping machine.Stamping machine remains closed until three layers are cooled to be enough to retain its shape.Once composite fully cools, then molded composite products is taken out from mould.The end step can carrying out other to complete product, such as, forms hole, connects close mechanism etc.
Another manufacture process also uses molding process.Intermediate layer 30 is clipped between internal layer 20 and outer 30, under the edge being embedded in these layers in molding process.In this process, all layers are all heated on target temperature.Mould comprises dead line at its outward flange, to cut the foam of internal layer 40 and outer 20 and any tissue layer.In addition, adjacent dead line, compresses layer height with rod.The edge of these layers is crowded together thus the edge of sealed product, and closely and for good and all in conjunction with all layers in molding process.This for brace provide clean soft, circle and thin edge 42, as shown in Figure 4, it is durable, comfortable and be not easy to chafing against skin, and chafing against skin is the FAQs of traditional Gypsum Fibrosum and glass fibre brace.
Or, on the edge exposed, sealing the margin can be carried out with edge adhesive tape.This allows brace to be formed as blank, and carries out custom cut for specific purpose.The edge seal that edge adhesive tape will expose, and form soft edges.This adhesive tape can be soft flimsy material or foam, and the sticking back side of its tool, this back side is easy to the edge putting on brace with hands when needed.
Another preparation process is colded pressing molded, and it generally includes the following step.Tissue layer (if you are using) is laminated to internal layer and/or skin.Then, every layer is carried out to the cross cutting of base and feature.Intermediate layer is positioned within the extrorse internal layer of the back of the body and skin.Three layers are heated to critical molding temperature, and it is higher than target temperature.Being placed in cold stamping die by what heat, wherein layer being suppressed, to cut out the feature in layer, by suppressing excellent sealing the margin.Described layer by mold cools down to form composite.
This embodiment does not need lamination, because each several part is molded together.But this embodiment also can comprise layer 20,30 and 40 laminated together.Skin extends across intermediate layer, to form soft edges 42.Outer field edge can lamination, lamination and molded or be molded as and have heat seal edge and some bonding.
Should it is expressly understood that, also can use other lamination or manufacture process, such as, use heat adhesive, stitching or any method that layer fits together by other.
closed-system
Closed-system 60, for closely being fixed around body part by product, as shown in the figure, and allows compression to a certain degree thus alleviates damage.This system can be placed in the two sides adhesive tape between lamination, the adhesive tape being applied to seam or its periphery or mechanical closure system.These mechanical closure can include but not limited to: hook and look fasteners, snap-fastener, zip, ratchet frenulum, skiing boots type are buckled.In a preferred embodiment, closed-system can be fixing, and by the doctor in charge or technical staff's adjusting elasticity, this is owing to making to be regulated by patient with anti-tamper closing when brace applies.Subsequently, it to readjust by instrument by the doctor in charge or technical staff and opens prevent from regulating closed.If the doctor in charge or technical staff are if required, then this can be closed and be arranged so that patient adjusts pine with finite quantity or tightens brace only, but cannot by its permanent removal.This allows patient to adjust loose brace when discomfort or swelling, and tightens brace when crossing pine, and need not find doctor.In addition, by the doctor in charge or technical staff, this system can be arranged so that patient has the ability regulate and remove brace completely.This can extend the life-span of brace, the damage making it can be used as provisional brace to protect part to heal in strict use procedure.Use this can control and adjustable systems, the doctor in charge or technical staff have suitable selection to all healing phases, and patient can be made can or can not to regulate.
Especially, a kind of connecting elements comprises elasticity and regulates cable system 70, as shown in Figure 5.System 70 uses a series of induction element 72 at the offside of brace system 10.As shown in Figure 5, frenulum 74 ties up to alternate sides by induction element 62, then through latch member 76.Frenulum is strained, makes brace on body part, have suitable elasticity, and be locked in correct position.A kind of alternative strapping system shown in Fig. 6 is similar to component above, but utilizes reels mechanism 78 mechanically to fasten and the frenulum of locking tie-down, and it easily discharges by fine setting and fasten.In this embodiment, retention mechanism 60 comprises rope volume shaft element, such as rope spool connected system disclosed in BOA Technology Inc., in U.S. Patent No. 6, and 289,558; 6,202,953,5,934, (it is all incorporated to herein by reference) and US patent application publication 20080083135 in 599; 20080066346; 20080066345; 20080066272; 20080060168; 20080060167; 20060156517; Description is had in 20030204938 and 20020095750 (they are all incorporated to herein by reference).Rope spool 78 is rollable to fasten frenulum, can vertically pull thus loosen frenulum.Also other retention mechanism be can use, rope lock, cam rope lock, traditional Tie knot, ratchet strapping system and other frenulum method comprised.Use a kind of alternate systems of skiing boots hasp (such as ratchet straps hasp) also can be similar to use in the mode of the hook fabric segments of certain one end with being hereafter described in more detail.For the ability of the doctor in charge or technical staff, these systems can have feature mentioned above, thus prevent patient from carrying out regulating or allow the adjustment carrying out in various degree to component.
Another aspect, the invention provides a kind of strapping system of uniqueness.Strapping system as shown in Figure 7 provides the edge 80 along casts, brace or any other products edge.Edge 80 comprises a series of perforation 82 along edge 80 perpendicular separation.This edge can be fixed by hook and look fasteners, be sewn on product, viscosity is installed or is otherwise connected with product.The bottom at edge comprises around the hook and loop straps around product.Also can use substituting component, such as band and hasp, or other known bindiny mechanism any.
Utilize pin or cone 88, by bore a hole 82 opposite segments insert monofilament lines 86.The end of line 86 terminates in the end that product closes on hook and loop straps.Pull end thus line is tightened up, the edge of product is pulled in together.Once product tightens up around body part or other object, then line 86 is centered around around product, is fixed by hook and loop straps.Rope lock or other mechanism also can be used to fix this line.In the present invention, rope, frenulum or other mechanism also can be used to replace monofilament lines.
The retention mechanism 50 of the brace system 10 of a preferred embodiment allows brace system edges overlapping.The amount of this overlap is about 25% or less of girth.Closed-system is arranged on this lamination as discussed above.Which increase the controllability of brace system, thus increase or reduce the compressibility to injured body part.Integral type brace system 10 can provide sizes, to be applicable to the size of different body parts and body part.As shown in Fig. 8 of this preferred embodiment integral type brace system, by allowing the overlapping opposite edge 24 in brace edge 22, adjustable overlap provides the ability making brace have the further custom fit of particular body portion for particular patient.Retention mechanism 50 allows brace to regulate by increasing or reduce overlapping amount, makes the body part of appropriate patient more closely.
application
brace
But the unique combination of above brace feature provides the brace of lightweight structural rigidity, it is easy to customization thus for patient's formed in situ, and does not need special training or technical ability.Gained brace has patient's compliance, can carry out the compliance regulating to increase use as required.Controllability also can reduce soft tissue injury.Dry heater can be used to make this brace molding, so many thermals source can be used.Protection patient is from the injury of the brace heated in forming process or discomfort.This brace is waterproof and durable, can repeatedly use and molding.Material (major part is polymer) used provides the radiability of height, therefore to have a physical examination position by x-ray, and do not need to remove brace, by contrast glass fibre and Gypsum Fibrosum normally ray impermeable.Likely use regenerated polymer when building intermediate layer, this can affect container for drink industry.
The integral type brace system of this preferred embodiment can relatively flat shape or substantially with the shape of concrete body part (such as wrist, ankle, knee joint or other body part) and provide with general size (such as large, medium and small).In some cases, this brace also can preforming with roughly suitable body position, in order to test size or when needs more labyrinth.Then, this system can be heated and customize molding, with the specific applicable body part that will support.As mentioned above, adjustable overlap also has contribution to this custom fit.Then, this integral type brace system can be applicable to body part with form that is comfortable but tool rigidity.
Fig. 1,5,6 and 9-11 shown in the example of the preferred embodiment of the invention that uses in brace type.This purposes has special advantage, because the responsive especially and outer shape tool between people and people of body region is for this reason very different.The advantage that the durability characteristics that this purposes has material therefor is brought, because they compare under body weight effect be not easy fatigue and cracking.In addition, the ability of the tension force be tending towards in this region of swelling is regulated to have special advantage.
Dry heat source can be used to carry out thermoforming to integral type brace system 10, to substitute current used typical water activated material.A shortcoming of these typical materials is that body part and most wound relevant with damage are got wet in brace installation process.After brace is installed, they keep moistening many hours usually, make skin discomfort, rub and be easier to by microbial infection, at this moment need most aseptic exactly.The example of the preferred embodiments of the invention keeps dry in brace installation process, only provides the drying heating of of short duration and comfortable body part.Start to heal infecting and infecting not easily by microorganism under the environment of drying.In this dry environment, the antimicrobial treatment introduced in brace can be more effective.
Brace system is also plastic and be fixed to body part, and does not need a large amount of training, because it is prefabricated and does not build patient with it.Most of work of these prefabricated braces are carried out in preparation factory, save valuable hospital and clinic time, add significant advantage.This brace system is also waterproof, light weight and comfortable, because this increasing the compliance of patient when using this system.The durability of polymer plastic used is than glass fibre or strong many of Gypsum Fibrosum and resisting fatigue and cracking.This is with adjustment brace elasticated and size or combine to the ability that it is molded again, can allow to use single brace in whole agglutination, and conventional brace will repeatedly go to hospital or clinic to change 1-3 time in the process.
Described brace must hot, soft and pliable and tough in press close to the shape of health, thus the damage best in stable healing.The brace between health and brace with the relaxation mathcing in space can cause less desirable movement.The brace of the best molding of coupling health each details can provide stability, and not tension, in many cases only body contact and do not have pressure.This is the structure of the most comfortable, and it will provide required support still not limit, reduce circulation, nor stimulate.In order to realize this desirable effect, the unique method of this brace for health molding must be introduced.Because the scalable on girth of overlapping openings as shown in Figure 8 formed in brace lateral edge 22,24, thus this brace in heat and plastic time by being applied above the repressive tangential force of worn for long periods comfort level and molding best.Once cool at brace in a moment and become rigid body, then remove this compressing and scalable closes thus provides required brace closing capacity for comfortableness and stability.
casts
The casts of preferred embodiment is similar to brace as above.Main difference (if any) is that middle support layer is formed by the material of rigidity more.This is by providing thicker material simply, or by selecting the material of more high rigidity and tensile strength to realize.Apply casts by following step: first casts is heated to target temperature, be then applied to around body part, and ductile material is pressed into suitable shape around health.Then, strapping system can be strained, to apply the elasticity of appropriate amount and to fix casts.Elasticity on scalable casts, with applicable swelling, itches or the increase of other problem or minimizing.The casts of described composite is waterproof, makes patient can have on it and has a bath or shower, and does not need to use the protection around casts, patient even can have on its swimming.This casts removes easily through the elasticity of strapping system being loosened, and therefore casts saw is optional.
Clamping plate
In a preferred embodiment, this system provides integral type clamp plate system, and it is superior to existing system far away.The system being used as clamping plate of a preferred embodiment of the present invention is shown in Figure 12-17.This clamp plate system shows with cock-up splint, but should it is expressly understood that, it can be used for the clamping plate situation of any type, such as but not limited to foot clamping plate, neck clamping plate, leg splint, arm splint etc.The clamp plate system 90 of the present embodiment comprises interior comfortable bed course 20, middle support layer 30 and outer durable bed course 40, as shown in Figure 2.Three layers provide unique function separately, produce unique and superior clamping plate when being integrally combined formula clamping plate.These three layers described in further detail separately are hereinafter molded or are laminated to together clamping plate to form an integral.Gained clamping plate, concerning more comfortable patient, can increase the compliance that patient uses it.Compared to the existing system that context is discussed, the clamping plate of gained have other benefits many.Should it is expressly understood that, also can use the extra play outside these three layers as herein described.
The clamp plate system of this preferred embodiment makes clamping plate can lamination, preforming in advance or take blank form, and to provide according to the size of required purposes, such as, for supporting wrist, arm, knee joint, neck or other body part.Then, this system is easy to customize for particular patient as mentioned below.In a preferred embodiment, this system also allows clamping plate to be undertaken regulating to adapt to swelling or other problem by patient as required.This controllability also allows clamping plate to customize for supported particular body portion.
Clamp plate system is heated, preferably with xeothermic (although also can use hot water), makes it become thermoformable, with molding in several minutes.The clamp plate system of this preferred embodiment is plastic at the temperature of 160 degrees Fahrenheit to 250 degrees Fahrenheits (target temperature), be easy to molding, but the rigidity that still can maintain to a certain degree, not become excessive fluid (as the glass transition temperature exceeding this material reaches).Use other material also can use other target temperature range.Then this system can be placed in it patient, and not scald patient in this process or cause the discomfort of patient.Highdensity hot intermediate plastic layer and health separate by the inner foam layer of relative low density.Have and in fact make foam cool quickly to skin heat trnasfer than foam than the more highdensity skin of foam, protect it thus at the temperatures used from scald.Subsequently, use hereinafter described method by this preferably xeothermic system easily for the exact shape be shaped to needed for this particular patient, and do not need special technical ability.
Purposes
The example of dissimilar clamping plate is shown in Figure 12-17.Figure 12 middle clamp plate 90 has flat customization profile, in order to utilize " L " shape top 92 clamping arm or wrist.To be heated once clamping plate and by molding (as described in greater detail below), L shape top 92 is molded as the wrist and thumb that cosily support patient, as shown in figure 13.
Another example for the clamping plate supporting wrist or arm damage shows in Figure 14,15.Base clamping plate 94 comprise larger top 96, form hole 98 wherein.These clamping plate are heated and by molding, to customize applicable patient, the thumb of patient are stretched out by hole 98.
Another example of the clamping plate of this preferred embodiment shows in figure 16.These clamping plate 100 are intended for clamping Leg-wheeled robot.These clamping plate are included in the slit 102 that every side, clamping plate bottom is formed, and its hinge be used as in molding process makes the bottom of clamping plate to enclose to sway, thus produces foot or the root of clamping plate.
Another kind of clamping plate show in fig. 17.These clamping plate 104 have the unbroken loop fabric of compacting on outer 40.This makes two of clamping plate other parts can be connected with each other with pre-determined configurations by unbroken loop fabric 106 part.Therefore, complicated shape can be produced with quick simple method as required.
Clamping plate are used
Described clamping plate must hot, soft and plastic in press close to the shape of health, thus make damage stablize best when restoring.The lax brace between health and clamping plate with space can cause less desirable movement.The clamping plate of the best molding of coupling health each details can provide stability, and not tension, in many cases only body contact and do not have pressure.This is the structure of the most comfortable, and it will provide required support still not limit, reduce circulation, nor stimulate.In order to realize this desirable effect, the unique method of this brace molding for health must be introduced.These clamping plate in heat and plastic time by being applied above the repressive tangential force of worn for long periods comfort level and molding best.Oppressive force can cause clamping plate 10 to be complied with and molding.Once after clamping plate in a moment cool and become rigidity, then remove this compressing, and scalable closes and thinks and comfortable and stablely provide required jaws close amount.
The method for optimizing of compacting uses elastic webbing 112, and as depicted in figures 18-20, it can be wrapped in around hot and plastic clamping plate after mounting at once fast.This elastic webbing can be fabric or rubberized material, and it has for the suitable width of specific cleat style, thickness and elasticity, and its length is enough wound around around whole clamping plate.Change pressure can be brought described in pulling when being wound around.This process will guarantee that each part of clamping plate is for health molding, and does not produce space.Should be expressly understood, although this process is generally used for apply pressure to wound, apply in cooling procedure pressure with temporarily form heat and the clamping plate of plastic state then to remove be unique process.
In a preferred embodiment as shown in Figure 18,19, hook fastener band 110 is fixed on the lower end of clamping plate 108, or whole surperficial 40 can comprise unbroken loop fabric.Then, elastic webbing 112 can be fixed to element 110, initially to fix described band.This elastic webbing will engage with hook retaining element naturally.This makes clamping plate and health to be fixed or multiple clamping plate fragment linked together many selections.This allows to form complicated structure.
Then, be wound around elastic webbing 112 around clamping plate closely, as shown in Figure 19,20, make the intermediate layer 20 of heat be suitable for health, as shown in Figure 20,21.Then, form rigidity supporting structure along with clamping plate cooling and remove elastic webbing.
But provide the clamping plate of lightweight structural rigidity with the unique combination of train wheel bridge feature, it is easy to customization thus for patient's formed in situ, and does not need special training or technical ability.Gained clamping plate have patient's compliance, can carry out the compliance regulating to increase use as required.Can use and xeothermicly make this clamping plate molding, so many thermals source can be used.Protection patient is from heating the injury of clamping plate in forming process or producing uncomfortable.These clamping plate are waterproof and durable, can repeatedly use and molding.Material (major part is polymer) used provides the radiability of height, therefore to have a physical examination position by x-ray, and do not need to remove clamping plate, by contrast glass fibre and Gypsum Fibrosum normally ray impermeable.Likely use regenerated polymer as part or all of component when building intermediate layer, it has advantage environmentally.
The integral type clamp plate system of this preferred embodiment can relatively flat shape or substantially with the shape of concrete body part (such as wrist, ankle, knee joint or other body part) and provide with general size (such as large, medium and small).In some cases, these clamping plate also can preforming thus be roughly applicable to body part, with test size or when needs more labyrinth adopt.Then, this system can be heated and customize molding, to be specifically applicable to the body part that will support.
Dry heat source can be used to carry out thermoforming to integral type clamp plate system 10, to substitute current used typical water activated material.A shortcoming of these typical materials is that body part and most wound relevant with damage are got wet in clamping plate installation process.After clamping plate are installed, they keep moistening many hours usually, make skin discomfort, rub and be easier to by microbial infection, at this moment need most aseptic exactly.The example of the preferred embodiments of the invention keeps dry in clamping plate installation process, only provides the drying heating of of short duration and comfortable body part.Under the environment of drying, start healing be not easy to by microbial infection and infect.In this dry environment, the antimicrobial treatment introduced in clamping plate can be more effective.
Clamp plate system is also plastic and be fixed to body part, and does not need a large amount of training, because it is prefabricated and does not build patient with it.Most of work of these prefabricated clamping plate are carried out in preparation factory, save valuable hospital and clinic time, add significant advantage.This clamp plate system is also waterproof, light weight and comfortable, because this increasing the compliance of patient when using this system.The durability of polymer plastic used is than glass fibre or strong many of Gypsum Fibrosum and resisting fatigue and cracking.
Clamping plate purposes
In use, integral type clamp plate system 10 is supplied to individual, orthopedic specialist, doctor, technical staff, emergency medical service technician or other entity with the form of suit.Suitable suit type and size is selected for the body part that will support.As discussed below, dry heat source is put on clamping plate 10, until clamping plate are enough plastic to allow its molding.This should be 160 degrees Fahrenheit to 300 degrees Fahrenheit (target temperature), preferably 200 degrees Fahrenheits.In the preferred embodiment, the temperature of clamping plate remains on temperature required such as 200 degrees Fahrenheit about 5 to 10 minutes.Dry heat source can be baking oven, microwave or hot bag as described below, inner heating arrangements or heat release thermal source.
Once clamping plate are enough warm and plastic, about 5-10 minute, then remove it from thermal source, is additional on clamping plate by elastic bandage.
Then, clamping plate are directly put on body part, as shown in figs. 18-21.Form the low-density polymeric foam heat radiation of internal layer 40, any misery making individuality not be subject to coming in the torrid zone or discomfort.In the preferred embodiment, these clamping plate were plastic in about 3 to 10 minutes.This allows time enough to make clamping plate around body part molding.Utilize elastic webbing 112 to provide pressure, thus specific for the whole clamping plate of body part molding, as shown in figs. 18-21.Pressure uniform is applied on whole clamping plate 10 by elastic webbing 90.The elastic pressure binder that elastic webbing 90 can be elastic ribbon or be formed by nylon/textile, rubber, polyurethane, spandex or other suitable material any.
In forming process, also can reduce or orientated damage.The retention time of clamping plate should be enough to allow molding and distortion occur.
Thermoformable layer and the combination of uniform pressure of plastic, heating make clamping plate for body part molding.Intermediate layer provides main shape and support.If be made up of thermoforming material, then internal layer is also by molding thus around body part with fit.In the preferred embodiment, skin is not thermoforming, but the shape along with intermediate layer is extended.Because it is not thermoforming, it can not leave the marking of elastic webbing, and will retain the level and smooth and attractive in appearance of outward appearance.If do not need these characteristics, then this layer can be thermoformable under target temperature.
Veterinary
This composite also can be used in particular for veterinary purpose, especially for horse.To larger animal such as horse and other domestic animal and wild animal, provide stationary support very difficult.Composite is as described above light weight and high strength, and has customization and be applicable to the ability of limbs, and casts/clamping plate/brace can be easy to be customized to fit, and does not cause undue interference to animal.It also can be shaped to complicated shape (as described in more detail below) in position, and making does not need to transport animal.It also can up-sizing, or according to the needs for less animal minification.
Protectiveness is equipped
In a preferred embodiment, this system provides the plastic protectiveness change system of customization, and it is far superior to existing system.This protectiveness equipment can be used for such as sporting devices, such as shin guard, wrister etc.; Military and law enforcement protection is equipped, for the protection of working space and for any purposes that other needs customization molding to protect.
The purposes example of the material of a preferred embodiment of the present invention is shoulder protector 120, as shown in figure 22.This shoulder protector comprises multiple part, and it is cut, heating and be stitched together subsequently (hereafter in greater detail in method).Then, to the part heating of assembling, customize with the health of applicable user, thus provide protection for shoulder regions.
Another example of this composite purposes is the shin guard used in many sports and law enforcement and Military Application, to protect the shank of people and knee from damage.As shown in Figure 23,24, multiple part 128,130,132 is formed by composite, is then heated and sew up to have thin profile and closely fit product to produce, and it also accurately can mate with health with post-heating.Use the boomerang and hot sewn seams introducing knee cap and foot protector with multiple part.
Figure 25-27 illustrates the gloves for protection used in physical culture, law enforcement or military affairs, and it has many parts internal structure of the complexity be made up of preferred embodiment composite, and described composite is stitched together when heat.This display how to use standard sewing machine method by small curved edge part heat and plastic time be stitched together.This is impossible for being used alone rigidity plastics.The glove completed can be heated to 200 degrees Fahrenheits and be worn on hand.Then, the flexible hands of wearer and finger to the desired location that the most often uses, such as, grasp ice stick, shield or bat, keep this shape until article cooling, thus provide custom fit and have the fit product of three-dimensional of strong supportive.In addition, standard material and method is used to be difficult to realize this process.Protect product and other purposes many for purposes of riding, industry and building equipment, old people, also can produce the protectiveness equipment of other type.
The protectiveness change system of this preferred embodiment makes protectiveness equip can lamination, preforming in advance or take blank form, and to provide according to the size of required purposes, such as, for supporting wrist, arm, knee joint, neck or other body part.Then, this system is easy to customize for specific user as mentioned below.In a preferred embodiment, this system also allows protectiveness equipment to be regulated by user as required.This controllability also allows protectiveness equipment to customize for supported particular body portion.
Protectiveness change system is heated, preferably with xeothermic (although also can use hot water), thus becomes thermoformable, in order to molding in several minutes.The protectiveness change system of this preferred embodiment is plastic at the temperature of 160 degrees Fahrenheit to 250 degrees Fahrenheits (target temperature); be easy to molding; but the rigidity that still can maintain to a certain degree, instead of excessive fluid (as the glass transition temperature exceeding this material reaches).Use other material also can use other target temperature range.Then this system can be placed in it patient, and not scald patient in this process or cause the discomfort of patient.Highdensity hot intermediate plastic layer and health separate by the inner foam layer of relative low density.Have and in fact make foam cool quickly to skin heat trnasfer than foam than the more highdensity skin of foam, protect it thus at the temperatures used from scald.Subsequently, use hereinafter described method by this preferably xeothermic system easily specific aim be shaped to the exact shape needed for this specific user, and do not need special technical ability.
Heating system
In a preferred embodiment, the present invention is also provided for heating the thermal source of clamping plate to target temperature as described above, thus makes system for body part molding.A preferred embodiment of described thermal source comprises heating bag 150 as shown in Figure 28,29, and it is easy to store and transport.This heating bag comprises outer thermal insulation layer 152, the opposed heating element heater of sheet form 1274 and lining bag 156, preferably outside durable and inner adhesion, and it loads heating element heater and thermal insulation layer.This heating element heater can be made up of heating wire or heating foil or other electricity activation design.Heating bag 150 is easy to open, and to hold clamping plate, and closes in heating process.Bag is closed thus is kept heat by closed-system such as shackle, slide fastener.Heating element heater is connected with power supply, power supply or be 110-240 VAC standard plug in order to gang socket, or be 12V transformator or 12V DC battery or vehicle power, and accurately keep target temperature by thermostat or heat controller.Heating bag also can comprise optional temperature probe, and it monitors the temperature be applied in brace system.
In use, integral type clamp plate system 10 is placed in the box between opposed electrical heating elements.This box is activated, causes heating element heater to heat clamping plate 10.Once clamping plate are fully heated to target temperature and enough plastic, just removed to use around body part and molding.
This thermal source box is easy to transport, and can be used in hospital, clinic, training chest or even process the place of damage.Do not need special baking oven or chemical reaction.
Another thermal source of a preferred embodiment of the present invention uses inner heating arrangements, and it is contained in integral type clamping plate.This can be the power grid on one or both sides, intermediate layer.This grid is connected with providing the power supply of electric current, thus intermediate layer is heated to target temperature.Once the molding of clamping plate completes, then close current, clamping plate cool fast.Because it is contained in clamping plate, so eliminate the demand to external heating device.
Another thermal source of a preferred embodiment of the present invention utilizes heat release thermal source 160 as shown in figure 30.There is the number of chemical reaction producing heat, such as carbon/air, alkali/water, air cell etc.When two or more element exposes each other, the chemical reaction produced causes discharging heat.Typical common application is carbon/air rubber capsule, and it is used as the pocket heater for cold snap, and alkali/water container, and it is for " ready meal " of army.Similar system is used to heat the clamping plate of preferred embodiment to target temperature by being joined by heating chemical product in the plastic bag in space or sack that have and enough insert clamping plate.After chemical reaction occurs, clamping plate are heated, take out and use.The advantage of this system damages often to occur in field, and doctor or doctor there cannot electricity consumptions.This method provide the quick of the heating clamping plate of the mode of providing for oneself and simple method, and utilize method mentioned above to use.
Other heater comprises convection oven, baking box, radial burner thermal source, infrared heater and microwave oven.Convected air baking oven can be used.Also can use damp and hot, thermoforming clamping plate are used as in the previous for example.The type heating needs clamping plate to immerse hot water tank, until it reaches target temperature.
Heating system for another type of the present invention utilizes microwave oven.Usually, microwave oven is not at specified temp homogeneous heating.The heating system 170 of description as shown in Figure 31,32 for using the purposes of microwave oven, but also can use other thermal source, such as, immerse hot water and other thermal source.In the preferred embodiment, heating system 10 comprises the first obturator 172.Obturator 172 has opening 174 and sealing mechanism 176, the sliding shoe that the bag closed of such as zip is used, and it forms waterproof sealing on obturator.Or, can during fabrication with obturator described in other component sealing of inner sealing.In the preferred embodiment, obturator 172 is bags, such as plastic bag, is made up of thin polypropylene or other similar material.The size of obturator 172 makes it can load to be heated and object that is molding.
Second obturator 180 is inserted in the first obturator 172.Second obturator also has the opening 184 of band containment member 186.Second obturator can be similar with the first obturator, the plastic bag such as formed by polypropylene or other material.Two obturators should be waterproof, and can bear the temperature higher than 220 degrees Fahrenheits.
Heating system 10 also comprises adsorbing material 188, such as sponge, paper or nonwoven layers, and it is interior still outside the second obturator 180 that it is inserted into the first obturator 20.These sheets 188 use water-wet before use.Can by described moistening in advance, or take out from obturator 172, inserted again in the first obturator by user's moistening.Or, can water be provided and not provide adsorbing material.
In a preferred embodiment, the unit of the first obturator 172, adsorbing material 188 and the single integration of the second obturator 180 formation connected to each other.Adsorbing material is connected between two obturators.
Heating system 170 can be provided by following form: user provides the heating system of object, or be packaged in around object that manufacturer provides.In any one situation, to be heated and object 10 that is molding is inserted in the second obturator 180, is sealed in wherein by containment member 186.In advance or at this moment sheet 188 described in moistening, is inserted into outside the second obturator 180 of sealing in the first obturator 172.First obturator 172 is sealed by containment member 176.
Then, the obturator of assembling is placed in thermal source, such as common microwave stove.In some instances, if the size that dimension of object to be formed can hold than common microwave oven is large, then larger microwave oven may be needed.Then, microwave oven is opened to top grade.Heating operation duration depends on size and the other factors of the power of stove, object and obturator, but furnaceman does to become steam to the water in suction sheet 10.Steam guarantees that temperature in obturator is in about 212 degrees Fahrenheits.Relatively short time and the obturator of flexible relative can make steam superheating minimize, thus make temperature not be significantly higher than 212 degrees Fahrenheits.
Because obturator is in about 212 degrees Fahrenheits, the object in the second obturator also will be about 212 degrees Fahrenheits.In this process, the second obturator 180 makes this object keep dry.Remain on time that this temperature range fully grows with after guaranteeing thoroughly to be heated to this temperature at object, heating system 170 is withdrawn from stove or thermal source.
If object is provided in the obturator from manufacturer, then manufacturer can provide the heating time of obturator and the explanation of temperature range.Otherwise user can carry out testing thus find best time and temperature range.
Once object is thoroughly heated, then the first obturator sealing is opened, allow taking-up second obturator.Then, the second obturator sealing can be opened, allow to take out object.Subsequently, be suitable shape by forming objects, or be customized to another object applicable.
Should it is expressly understood that, also can use other thermal source outside microwave oven.Such as, can heating system be inserted in water-heating container, to produce similar process.Also other thermal source can be used, such as heat release thermal source.
Heating system also can comprise other embodiment.Such as, single obturator can be used to replace double-enclosure system.Object is inserted the single obturator with moistening adsorbent layer, heat as mentioned above.In obturator from the steam of heating adsorption oxidant layer by heating objects to about 212 degrees Fahrenheits.Object may become moistening in this embodiment.
Complicated molding
Composite as above has the special application producing complicated shape product.Usually, complex product is formed by the separation assembly linked together.Otherwise the molded or manufacture of product needed complexity, it is often infeasible.The process be connected by separation assembly is preferably by stitching (time feasible).Sew up through being usually used in single flat sheet being formed complicated 3D shape.Can form crack in flat sheet, it is assembled and the shape be stitched together in formation product and hinge subsequently.But, even if it is not impossible for being linked together by plastic assembly by stitching, be also usually very difficult, because the pin be difficult to sewing up penetrates plastics, if particularly plastics have rigidity and high strength.In addition, be sewn on plastics and produce perforation, it can cause product to be torn.
As shown in figure 33, even if to be harmonious that two rigid materials at edge are stitched together be not impossible be also very difficult by having profile.The edge that two profiles are harmonious can not contact each other closely.For most of sew application, the power needed for 3D shape that edge junction is combined cannot obtain rigid material to be deformed into cause profile to be harmonious.Therefore, before little two rigid materials to be sewed up, for have profile be harmonious very much shape very rigidity material be impossible.
This problem is resolved by this preferred embodiment.In use, can to cut, molding, stitching and operate composite 10 by other mode, become complicated 3D shape.Heating composite, until intermediate layer 30 becomes ductility.To become ductility at the temperature that outer (combination of fabric, buffer compartment hot material or bi-material or similar material) raises at environment, and keep the stability of intermediate layer 30 when ductility state, prevent its excessive tensile.Skin also can be intermediate layer and provides intensity, tears during to prevent it in molding, stitching or to cut.Stretchable skin prevents it to be not intended to the structure of being out of shape when heating for ductility layer provides.They also to provide permission easily by sewing machine and the stitching allowing assembly to be formed by the material firmly connected is surperficial.They also prevent intermediate layer from excessively cooling fast owing to contacting with the large metallic region of sewing device.When being heated to above 220 degrees Fahrenheit, skin has low-friction coefficient.For the object of this application, the character representation with low-friction coefficient is non-sticky or non-tack.
Should it is expressly understood that, although composite mentioned above uses intermediate heat moulding material and insulated foam coating and the outer tissue layer that can stretch, claimed invention comprises other embodiment using different materials combination.Such as, this composite can omit fluid insulation, uses the Stretch material be directly connected with intermediate layer.In addition, composite is implemented scheme and can be omitted Stretchable fabric.
Be important to note that, compared to attempting sewing up the thermopolymer plastic layer not having fabric and froth bed to cover, composite bed as above provides dramatic benefit.Skin has low-friction coefficient, different from the polymer plastic of fusing, makes composite will slip over sewing machine surface, otherwise it can cling the polymeric adhesive surface of fusing.Polymer plastic layered suture is combined and can bores a hole on material, cause reduction under tension and tear.The stuetch fabrics material 40 of preferred embodiment as shown in Figure 2 comprises trickle strong fiber, and it not only provides intensity when composite heating and molding when being additional to composite, also provides level and smooth low friction to sew up surface.Sewing needle can pass between trickle strong fiber, makes it injury-free, thus provides safe stitching, even intermediate layer heating and when penetrating weaken and ductile state under.These trickle strong fibers also can prevent the hole in intermediate layer in cooling and tear after becoming rigidity, because they combine and form one.Once material cooled is rigid state, in fact the intermediate layer of ductility is combined with toe-in.
Once composite is heated to ductility temperature, then it can molding and stitching simply.Composite can be cut at ambient temperature, more easily cut at elevated temperatures.Then, these pattern forms can be stitched into complex three-dimensional forms.Once composite is sewed up, the assembly of connection just can be reheated, thus when it is applied on health by being stretched into one-step shaping.Seam also can flatten.
An example of composite sewing process is shown in Figure 34.Two assemblies 190,192 of composite 10 are shown in Figure 34 with sectional view adjacent to each other.By two device heats to the relatively soft and ductile temperature of intermediate polymer layer.Tissue layer 40 and thermal insulation layer 20 allow heating material slip over sew up surface and adhesion.The seam of two assemblies is sewed up by sewing machine, is preferably zigzag stitch as shown in FIG. 34 and 35.This seam is also by producing with under type: assembly 190 and 192 is overlapping, sews up with other common more complicated stitch in single or multiple common stitch directly or sewn product.Figure 35 illustrates another kind of available suturing skill.Two-layer 190 of composite and 192 can place face-to-face, and use zigzag stitch to sew up, it is in the side across-layer of Z-shaped, then passes air at opposite side.Once complete stitching, the assembly of connection can be heated again, make stitching open as shown in Figure 6, partially open and open completely as shown in figure 37.This process is particularly useful for being linked together by complicated shape with multiple stitching, such as but not limited to the wrist thumb brace shown in Figure 42.Stitching step 210 stitching of mode shown in Figure 35-37 connects two-layer.They are sewed up face-to-face, then open when adding thermosetting flush joint as shown in figure 37 and closing.Otherwise, consider the small size of molded aperture and operate the limited areal provided for sewing machine, this stitching has been difficult to especially.
Substantially, once composite is heated to the temperature that intermediate layer is ductility, then can to its be similar to stuetch fabrics operation thus formed needed for shape and fit coating.Then, once its cool to room temperature, the rigidity gained shape due to intermediate layer and three dimensional form is the structure of very rigidity, so the curved surface of described three dimensional form provides structural strength.This provides the composite of the uniqueness with wide range of application.
The product of final molding can repeatedly heat again, can be operated, connects, sews up and be shaped to complicated shape, and is applicable to complicated surface such as health.The plastic material self of heat tends to stretch and do not return to original shape.When heating, sewing up due to it and be applied to health or operate, so its scalded skin.They can become very has viscosity, and is difficult to process.Unique composite 10 can stretch, suppresses and bend to very complicated shape when heating.The tissue layer 40 stretched causes the composite heated to stablize around complicated shape, and strains around this shape, produces fit closely.Intermediate layer also can be formed by polymeric blends, and described mixture alterable is to realize different rigidity.In addition, the thickness in intermediate layer also alterable to provide different rigidity.
Composite of the present invention has special purposes in medical application particularly orthopedic applications.Such as, herringbone brace is usually for the treatment of thumb and wrist injury.Thumb wrist herringbone brace is a type of orthopedics's bracing or strutting arrangement, and it is for fixing thumb and wrist, allows other finger freely movable simultaneously.It is for providing support for following: defect of thumb (ligament is unstable, sprain, muscle sprain and fracture of ossiculum or bone splits), warrener (gamekeeper) thumb, slider's thumb, osteoarthritis, de Quervain's disease (de Quervain ' s syndrome), after thumb is sprained, Post operation uses and hands/thumb casts removes.
Herringbone brace is difficult to completely fit for patient, usually carrys out original position customization by assembling multiple material and produces.Some pre-manufactured product for this purposes also can use, but more not general.As shown in figure 42, herringbone brace has complicated shape, because it must support and maintain thumb, wrist and arm appropriate relation each other, and its girth scalable and closely fit to prevent activity.The brace producing this feature in position needs intricately assembling each several part on health, and be usually made up of glass fibre casts material or polycaprolactone sheet material, it is manually cutting, molding and assembling on health.It is appropriate location attachment or fixing standard criterion that elastic webbing and shackle close.The brace of this feature is not sewed up, and needs much knowledge, practice and time (about 30 minutes) to build.The prefabricated brace of this type is sewed up from multiple different soft fabric, elastic fabric, not stuetch fabrics or frenulum usually, sometimes comprises soft foam/fabric laminated.Then, the rib of Hardening or rigid support thing that is prefabricated or tool ductility are inserted in the article of stitching.Sew up and usually carry out on soft material instead of rigid backing material, because it is too difficult rigid material to be stitched into fit desired three dimensional shape.Sometimes, soft fabric is sewn onto rigid material, but this is from that the rigid material block of complexity is stitched into 3D shape is each other very different.In two kinds of situations above, result be the soft and rigidity be connected by troublesome mode, stretch and do not stretch and the complex combination of frenulum material, and provide multiple parts of wearing undesirable product.
The composite of a preferred embodiment makes herringbone brace can be made up of single composite, and described material is stitched together by clean smooth joint, forms basic shape.Simple or complicated enclosed member such as shackle, strapping system or other device can be sewn directly on hot and plastic durability composite.Then, can to the product heating completed, molding at once and be directly customized to fit for patient due to its draftability and plasticity.Result provide much more can dress article, it is for thin, supportive, perfect fit, waterproof and non-adsorbed, radiolucent, light weight and be coated with soft with coloury fabric.Compared with original position product, the work needed for operator, knowledge and time will be lacked many.Compared to stent preform, result is custom fit more, more flexible and simple, and dress is more comfortable.Heating and use needed for composite products about 5 minutes of a preferred embodiment with to use other pre-manufactured product very nearly the same.
As shown in figure 38, the structure of thumb wrist brace 200 cuts from two blank of the composite 10 with profile and hole 202.Flat sheet composite portions can die-cut, with shears, computer operation cutter, laser, water spray or other mode of production cut.Described part is heated to the ductile temperature in intermediate layer.Such as, hot pressing, baking oven, thermolamp or other heater can be used this composite to be heated to 180 to 200 degrees Fahrenheit 30 seconds to 3 minutes.At such a temperature, the ductility of this material can keep the sufficiently long time, thus allows described part to be stitched together by standard sewing machine.Zigzag can be used to sew up the block of edge edge ground connecting end portion overstriking.Zigzag is sewed up and also be can be used for described part being sewed up face-to-face along edge, is folded subsequently and opens, thus form flat stitching when still keeping heat.The method is particularly useful for the edge sewing up little sharp keen camber line, such as, thumb wrist herringbone brace shown in Figure 42, itself otherwise cannot sew up mutually with rigid sheet.If need, this material can Repeat-heating to allow further stitching, connection and forming process.Key notices that process described in this section can not the polymer plastic sheet material of independent heating be carried out, because it rubs because surface viscosity causes and sewing machine clamps not by sewing-machine foot and pay-off, and stitch can be bored a hole and be made polymer weaken.The outer fabric of lamination and foam make internal layer stablize, and minimizing rubs and is provided for the durability of stitching.
By heating the brace completed, make around patient's molding and make it be cooled to the custom fit rigid shape supporting patient articular, the brace completed that Figure 42 is shown is customized to patient fit.As required, described brace can Repeat-heating to realize cosily fit to patient.
Figure 22 shows another product using preferred embodiment to produce.This protectiveness shoulder pad uses three parts come from flat composite cutting, and it is heated to be has plasticity and is sewed up by each several part edge edge with zigzag stitch.Result is the product of shoulder shape substantially, but when reheating 200 degrees Fahrenheits and being applied to shoulder, is stretched thus be ideally suitable for health, and not having pressure point or relaxation area.Even if it is not impossible for being sewed up by these rigid sheet article as known technology, is very difficult yet.In addition, it does not had heat barrier foam layer can throw into question due to discomfort for health molding.There is outside stuetch fabrics layer together with intermediate polymer layer and thermoforming interior layer allows simple molding, and do not apply large pressure.The simple elastic frenulum applied when heat can make part accurately for health molding.
Another example of the composite purposes of a preferred embodiment of the present invention is the shin guard used in many sports and law enforcement and Military Application, to protect the shank of people and knee from damage.As shown in figure 23, multiple part is formed by composite, is then heated, and sews up to produce thin profile and closely fit product, and it can be also accurately suitable with health with post-heating.Use the boomerang and hot sewn seams introducing knee cap and foot protector with multiple part.
Closed-system can be connected
The closed-system 250 of this preferred embodiment can be connected to the expection site of many different products.The product used in this illustrative embodiment is brace 10 (although can use other orthopedics's product any such as casts and non-orthopedics product), it has lateral edges 22,24, such as CO-PENDING application 12/013, casts disclosed in 449, it is incorporated to herein by reference.The skin of the brace of this preferred embodiment comprises the layer 260 of unbroken loop fabric, and such as, Velcro USA shown in Figure 43 issues this skin can be formed by unbroken loop fabric 260 completely, shown in the preferred embodiment of Figure 43.
Unbroken loop tissue layer 260 adhesiveness can connect, is molded, sews up or be otherwise connected on casts.Or the part that this tissue layer also can be used as the integration of outer 40 connects.Also can use other that the method on product is fixed or be molded into unbroken loop tissue layer.
Can connecting fastening mechanism, as shown in figure 44, comprise frenulum 270, it has corresponding joint and the hook element of fixing unbroken loop fabric, and it is fixed to the basal surface of retention mechanism 280.In this embodiment, retention mechanism 280 comprises rope volume shaft element, the rope spool connected system that such as BOA Technology Inc. issues, in U.S. Patent No. 6, and 289,558; 6,202,953,5,934, (it is all incorporated to herein by reference) and U.S. Patent Application Publication 20080083135 in 599; 20080066346; 20080066345; 20080066272; 20080060168; 20080060167; 20060156517; Description is had in 20030204938 and 20020095750 (they are all incorporated to herein by reference).Rope spool 280 is rollable to fasten frenulum, can vertically pull thus loosen frenulum.Also other retention mechanism be can use, rope lock, cam rope lock, traditional Tie knot, ratchet strapping system and other frenulum method comprised.Use a kind of alternate systems of skiing boots hasp (such as ratchet straps hasp) also can be similar to use in the mode of the hook fabric segments of certain one end with being hereafter described in more detail.
Also use in this preferred embodiment as shown in figure 44 and there are a series of elongate band 274 that frenulum fixed by hook.These parts 274 are arranged on selected location at certain intervals along casts or other products edge, and extend on edge.These parts engage with the unbroken loop fabric 260 on product and are fixed thereon.Then, there is the end doubling of the band 274 of ring surface 276, thus hook surface is bonded on the basic hook of band 274 on the surface, thus form the ring of elongate flexible member 290, as described in more detail below.
Subsequently, by being engaged with the complete circumferential layer 260 on casts by clasp joint crossed belt 270, retention mechanism such as rope spool 280 is connected to suitable position, as shown in figure 45.By with bring hook component to engage also pilot tape 274 to be connected with complete circumferential layer 40 in desired location.Flexible elongate member such as rope or frenulum 290 subsequently can through ring 276 and around rope spools.Then, frenulum 290 can be strained by rotating rope spool, thus the edge of casts is pulled in together.Should it is expressly understood that, term frenulum also comprises rope, line or any other and is applicable to elongated flexible member of the present invention.Tangential force on the shackle of ring 276 and on the hook joint element of tissue layer 260 and band 270 and 274 provides the power firmly engaged by shackle, because hook and look fasteners is tended on tangentially very firm.
It should also be clear that understanding, unbroken loop as herein described can be corresponding hook element, with replace described the hook element that replaces by unbroken loop tissue layer.
Then, the product of assembling can be placed in body part, such as, example shown in Figure 46.Supporter 10 slides along body part, rotates rope spool 280 to fasten frenulum 290 by ring 276, thus makes the overlapping edge around body part become tight, until supporter is fixed on correct position on body part.Or, when not having closed-system at correct position, brace or casts can be applied to body part, original position can be installed by closed-system as required subsequently.
Fixing band 274 shown in Figure 47-49 can be easy to the induction element forming rope or frenulum 290.Fixing band 274 comprises the end section with unbroken loop, and it is for engaging with the hook on fixing band.End section doubling, with in conjunction with hook, thus forms ring or induction element 276, in order to guide frenulum 290.
Attachable strapping system is set by many modes, to meet specific needs.Such as, as shown in figure 50, strapping system can be connected and comprise retention mechanism 280 in hook strip 270, and in relative position parallel connected five guide hook strap 274.Another kind is as shown in figure 51 set using three and guides fixing band 274, and it has retention mechanism 280.The guiding fixing band 274 being set using two intervals as in figure 52, it is opposite with retention mechanism 280.
Strapping system can be connected and also can be arranged to angled orientation, required for complicated shape product.The example shows in Figure 53 and 54.Frenulum 290 will pull and the hook that is connected of unbroken loop surface relative to the tension force of induction element 276 on pilot tape 274, no matter and angle, thus band is fixed to product, is pulled to closedown as required.This motility of induction element 276 orientation allows to close at different angles and pulls, thus realizes several closed procedures all at once.
Alternate embodiment
Alternate embodiment shown in Figure 55-59.This embodiment can use the band 300,302 of two materials by connected system, it has hook element at dorsal part.Retention mechanism 280 is by binding agent, stitching or be attached to one of band 300 by any alternate manner.Two ribbons 304,306 such as nylon wire, fabric or other material any are connected with the inward flange of band 300,302.Ribbon 304,306 forms perforation along the edge of band 300,302, allows frenulum 290 to insert wherein by using sewing needle or cone, thus frenulum is inserted ribbon perforation 308 with any required frenulum pattern, as shown in Figure 58.Hole 308 is shown in Figure 55, and it is formed in the perforation at interval along in the length of ribbon 304,306 by pin and rope, passes and penetrate to form frenulum pattern to allow frenulum.The sectional view of Figure 56 shows the frenulum 290 penetrating ribbon 306, and it is attached to band 302.
Then, simply the connecting elements assembled in advance is connected to desired position on product, as shown in Figure 57,58 by being engaged with unbroken loop 260 on product 10 by the hook of each bottom side of band 300,302.Then, the product assembled completely and connecting elements can be slipped into correct position, fasten frenulum 290 by retention mechanism 280 thus it is fixed.Product is not only fixed on health by the tension force on frenulum 290, as shown in Figure 58, also the hook on band 300,302 and product pressed on ring 260 is fixed together.Then, the side of bindiny mechanism 302 can be lifted from unbroken loop surface, allow to be convenient to enter and leave shown device.
Another embodiment of described connected system is shown in Figure 60.This embodiment is similar to and is mentioned abovely used in the embodiment that its bottom side has two parallel bands 310,312 of hook element.But this embodiment uses plastics (or metal) induction element 314 along band 310,312 edge conjunction.Induction element 314 is connected with described being with by binding agent, stitching or any alternate manner.Retention mechanism 280 is also fixed on one of described band as mentioned above.Then, described frenulum is wound around around induction element 314, and band 310,312 to be risen to the bait the engagement of loops on element and product and being fixed on product by described band.
Another embodiment of connected system shows in Figure 61,62.This system class is similar to and is mentioned abovely used in the embodiment that its dorsal part with the retention mechanism 60 fixing with one of described band has two parallel bands 320,322 of hook element.But, the induction element 324 that this embodiment uses the net along band 320,322 marginating compartments to be formed.This is net guided is fixed on described band by binding agent, stitching or any alternate manner.Frenulum 290 inserts with described frenulum pattern through guiding.Engage with the ring 260 on product with 320,322 by described band element of rising to the bait and be fixed on the opposite edges of product.Product is fixed on tension force also fixation hook and the ring of the frenulum of health.
In another embodiment, rope locking 340 can be used for substituting before embodiment in the rope rotating shaft that describes.Manual tension frenulum 290 is also fixed by the cam member in rope locking 340.Rope locking is installed on fixing band 270, as shown in Figure 63,64, or as Figure 64, shown in 65 by stitchings, binding agent, be molded or other fixing means any be installed on as described in one of be with.As mentioned above, fixing band 274 is guided to can be used for the frenulum 290 being inserted through guiding 276 and rope locking 340.Then, band 270,274 can be set and be fixed in product by being engaged with the ring 260 on product by the hook element on band 270,274.Subsequently, product is placed on health, pulls frenulum 290 by rope locking 340, until product is fixed on correct position by enough tension force, and the described hook brought is engaged completely with the ring on product.Cam on rope locking 340 is by the frenulum of fixed tensioning, until the time such as discharged.
The alternate embodiment of rope blocking element 340 shows in Figure 66-67.The purposes of the rope blocking element 340 that described embodiment is listd under showing and having, that is: there is the relative band 320,322 as shown in Figure 64 and plastic guide 324, there is parallel band 300,302 and ribbon 304,306, frenulum is allowed to insert through ribbon to form guiding as above, and there is the parallel band 350,352 of band grommet 354, frenulum inserts through grommet.
Another alternate embodiment is shown in Figure 68.Unbroken loop fabric portions 42 is strategically placed in desired location, and as shown in figure 26, wherein part 42 is attached to the edge 22,24 of brace.Then, band 270,274 can be positioned and be attached to the position of these unbroken loop parts 42 simply.
Another embodiment that can connect closed-system shows in Figure 69,70.This embodiment uses ratchet latch member 350.The band 352 with a series of spaced teeth 354 be installed on there is multiple hook element on the downside of it band 356 on.Ratchet hasp 358 be installed on also there is multiple hook element on the downside of it band 360 on.Band 360 with ratchet hasp 358 is connected on the edge 24 of brace, and the band 356 with band 352 is connected on relative edge 22 by hook element and unbroken loop fabric 260.This brace is installed on the health of patient, is used for fastening by the ratchet of hasp 358 to band 352.The tie-down of brace and band can cause the ring of the further fluid-tight engagement brace of hook.The present invention can use other change and embodiment, as described in the accompanying claims, to provide the retention mechanism outside spool and rope locking, and exceeds induction element as herein described.Other setting of connected system is also contained in the invention of claim.Embodiment as herein described only provides with the object illustrated, in order to explain claim, is not meant to be the scope of restriction claim.
Other example of connecting elements purposes is shown in Figure 71-72.An example is the application of connecting elements on back brace 370, as shown in Figure 71,72.Back brace 370 comprises at least part of of the unbroken loop 260 being attached to back brace near opposing edges.Can connect fastening system and be installed on brace 370 near opposing edges at first, described system has the opposite band 300,302 at its bottom side buckle element, the guiding 304,306 formed by the ribbon being fixed on band 300,302 edge, and retention mechanism 60.Then, brace can be adjusted size to be applicable to less people, as shown in Figure 72, by discharging the tension force of frenulum 290, remove band 300,302 from this brace, cut a part for brace 370 and readjust the position of band 302 along the length of brace, brace is significantly diminished.This closed-system that can readjust position arranges product with allowing customization, such as this system, because it can easily remove, allows brace to be customized to fit, excise with varying sized or arrange especially, as required closed-system is applied to different positions again subsequently.Closed-system also by lift and again unbroken loop part 370 connection side part 300 or 302 thus allow be easy to turnover.
Another embodiment of claim purposes shows in Figure 73,74.In this embodiment, fastening system can be connected and be arranged on legs and feet brace 380.Fastening system has retention mechanism 280, and it is arranged on the top of brace 380 by the hook element of band 270, and described hook element engages with the unbroken loop 260 on brace, guides the fixing band 274 spaced apart along the top of brace 380.Frenulum 290 tensioning, with the top around lower limb stabilizing brace, and leaves foot section relatively non-tensioning in order to comfortable, or can add second in bottom and can connect fastening system.Figure 74 shows, and this fastening system resets the foot's also tensioning making brace.
The system of this uniqueness allows to use minimum manufacturing capacity original position to produce product.This product may be molded to required shape, then connecting elements can be fixed on desired location, thus provides Full Featured product.This system, in copending Patent application 12/013,449 and 12/181, the product of orthopedics disclosed in 272 has specific purposes.These products use unique product, its comprise heat-insulating foam material and fabric (such as unbroken loop fabric) around thermoformable internal layer.This composite makes product can molding around body part customization, it is by heating products, is placed by the product of heating and apply pressure to customize shaped article to realize around body part.Connecting elements of the present invention provides other purposes by allowing fastening system original position to connect, thus provides the additional customized to product.
In one embodiment of the invention, orthopedics's product is provided with the form of blank or the part shaped article with unbroken loop fabric face.Then, base is cut also roughly molding to be suitable for body part to be supported.Then, by guiding as above or unbroken loop on other securing member and product fixes fastening system is connected to product.Subsequently, also incompatiblely closing device is connected, such as rope rotating shaft, rope locking, hasp or other device by the hook on device and the ring on product being connected.Afterwards, frenulum, band or other tension adjusting device can be directed across fastening system as above and fixture.Subsequently, described device is fastened around body part with fixture by fastening as mentioned above.
The above-mentioned unique combination of casts feature is that orthopedics's product provides connected system, and described orthopedics product can easily be customized to for patient positions's molding and not need special training or technical ability.Products obtained therefrom has patient's compliance, can regulate as required, to increase use compliance.Controllability also can reduce soft tissue injury.
The connected fastening system of this preferred embodiment can be provided for relatively flat profile or the orthopedics's product being essentially particular body portion profile (such as wrist, ankle, knee joint or other body part) and stock size (such as large, medium and small).As mentioned above, scalable overlap also contributes to this custom fit.
Claimed the invention provides unique product and the method for generation and use custom fitted products, and described product can easily produce in position and assemble.This composite provides unique product, and it may be tailored to provides fixing and the product of comfortable fit.Described composite easily can be shaped to complicated shape.Should it is expressly understood that, above-mentioned embodiment for illustration of property object, instead of restriction claim scope.
Following content corresponds to the original claims of parent application:
1., for a composite for plastic orthopedics product, described material comprises:
With the ground floor of the first surface type of permanent attachment of the second layer;
With the third layer of the opposing face type of permanent attachment of the described second layer;
Described ground floor is formed by the low-density heat-insulating foam material at the temperature of about 200 degrees Fahrenheits with low-friction coefficient;
The thermoplastic forming the described second layer has the hardness of the Shore 65D-80D scope according to ASTM D2240, according to the hot strength of the 6000-9000psi scope of ASTM D638; According to the elongation at break of 5% of ASTM D638, according to 270 of ASTM D5023, the bending modulus of 000-340,000psi, the described second layer at the temperature of 160 degrees Fahrenheits to about 200 degrees Fahrenheits be ductility and be rigidity at the temperature of about 130 degrees Fahrenheits; And
The stretched heat-barrier material forming described third layer has low-friction coefficient at the temperature of about 200 degrees Fahrenheits, makes described material not adhesiving metal surface.
2. the composite of 1, wherein said composite comprises:
The ductility state property feature of at least 8 minutes is kept to during the temperature of about 200 degrees Fahrenheits in initial heating.
3. the composite of 1, wherein when described composite be heated to about 200 degrees Fahrenheit time, described composite has the coefficient of sliding friction of about 1 or less.
4. the composite of 1, wherein said composite when be heated to about 200 degrees Fahrenheit time can slide on the metal surface when there is no excessive force.
5. the composite of 1, wherein said composite also comprises:
The 4th layer of unbroken loop fabric, the type of permanent attachment at least partially of itself and described third layer.
6. the composite of 1, wherein said composite also comprises:
The 4th layer of unbroken loop fabric, the type of permanent attachment at least partially of itself and described third layer; With
Closed bindiny mechanism, it has the hook element for engaging described unbroken loop fabric, in order to described closed bindiny mechanism is fixed to described composite.
7. the composite of 1, wherein said composite also comprises:
The orthopedics's brace formed by described composite.
8. the composite of 1, wherein said composite also comprises:
The orthopedics's casts formed by described composite.
9. the composite of 1, wherein said composite also comprises:
The orthopedics's clamping plate formed by described composite.
10. the composite of 1, wherein said composite also comprises:
The orthopedics's orthosis formed by described composite.
The composite of 11. 1, wherein said composite also comprises:
The orthopedics's orthosis formed by described composite.
The composite of 12. 1, wherein said composite also comprises:
The orthopedics's veterinary products formed by described composite.
13. 1 kinds make the system of formed product by heat, and described system comprises:
There is the first obturator of opening;
For sealing the mechanism of the described opening of described first obturator;
For holding the second obturator of product to be formed;
Described second obturator is arranged in described first obturator;
Opening on described second obturator receiving described product to be formed;
For sealing the mechanism of the described opening of described second obturator;
Sorbent material between described first obturator and described obturator, wherein said sorbent material contains moisture, described product to be formed is placed in described second obturator, and the adsorbent layer of described first obturator, described second obturator and described moisture content is heated to the temperature at least about 212 degrees Fahrenheits, the water transform of described adsorbent layer is made to be steam.
The system of 14. 13, wherein said first obturator comprises:
The bag formed by thin plastic material.
The system of 15. 13, wherein said second obturator comprises:
The bag formed by thin plastic material.
The system of 16. 13, wherein said sorbent material comprises:
Adsorbent ply of paper.
The system of 17. 13, wherein said sorbent material comprises:
Sponge-like material.
The system of 18. 13, wherein said sorbent material comprises:
Nonwoven material layer.
The system of 19. 13, wherein said system comprises:
Treat the object by applying heat and molding;
The described them impervious provided is in described second obturator; And
Described second obturator is sealed in described first obturator together with described sorbent material.
The system of 20. 13, wherein uses microwave oven to described system heating.
21. 1 kinds of methods utilizing composite to produce complex three-dimensional forms, described composite have stretchable heat insulation ground floor, with the second layer of described ground floor type of permanent attachment and the heat insulation third layer of buffering with described second layer type of permanent attachment, the wherein said second layer at the temperature lower than 130 degrees Fahrenheits for rigidity and at the temperature higher than 130 degrees Fahrenheits, become ductility; Wherein said method comprises the following steps:
Described composite is heated to 220 degrees Fahrenheits at the most;
Described composite is cut into pattern block;
Sewed up as 3-D. formed body by described by the pattern block heated;
Reheat the 3-D. formed body of described stitching; With
Make described 3-D. formed body molding around body part further, make describedly to be stretched by the object materials that heats, bending and compression, with further accurately for body contour molding.
22. 1 kinds can connect fastening system, and described system comprises:
Be attached at least one unbroken loop part of product;
First connecting elements, it has the multiple hook elements for engaging described unbroken loop part;
Be attached to the retention mechanism of described first connecting elements;
At least one second connecting elements, it has the multiple hook elements for engaging described unbroken loop part;
Be attached to the induction element of each described second connecting elements; With
Elongated flexible member, it is inserted through each described induction element and engages described retention mechanism.
The connected fastening system of 23. 22, wherein said retention mechanism comprises:
Rope rotating shaft mechanism.
The connected fastening system of 24. 23, wherein said first retention mechanism comprises:
Frenulum lockable mechanism.
The connected fastening system of 25. 22, wherein said first retention mechanism comprises:
Ratchet buckle mechanism.
The connected fastening system of 26. 22, wherein said induction element comprises:
There is a part for the material of unbroken loop, described unbroken loop be fixed on described second connecting elements and the described hook element engaging described second connecting elements to form guided rings.
The connected fastening system of 27. 22, wherein said system comprises:
Also comprise described first connecting elements of induction element described at least one.
The connected fastening system of 28. 22, wherein said system comprises:
Second connecting elements, it comprises single connecting elements; With the multiple induction elements being attached to described single second connecting elements.
The connected fastening system of 29. 22, wherein said system comprises:
First ribbon, it is connected with the edge on described first connecting elements, forms induction element with the described edge along described first connecting elements; With
Second ribbon, it is connected with the edge on described second connecting elements, form induction element with the described edge along described second connecting elements, the described elongated flexible member being inserted through each described induction element is sewed up and engages described retention mechanism and formed by using pin or cone by it.
The connected fastening system of 30. 22, wherein said elongated flexible member comprises:
Extend through the rope of described induction element and described fixing retention mechanism.
The connected fastening system of 31. 22, wherein said elongated flexible member comprises:
Extend through the monofilament lines of described induction element and described fixing retention mechanism.
The connected fastening system of 32. 22, wherein said retention mechanism comprises:
Extend through described induction element and be fixed to the frenulum of described retention mechanism.
The connected fastening system of 33. 22, wherein said retention mechanism comprises:
Extend through described induction element and be fixed to the band of described retention mechanism.

Claims (49)

1. one kind manufactures the method for the orthopedics's product for supporting body area, described orthopedics product comprises composite, described composite comprises: internal layer, skin and Polymer interlayers, described intermediate layer and described internal layer and skin coextend substantially, described intermediate layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range, and described method comprises:
Heat described composite, make described intermediate layer higher than described minimum can forming temperature;
First edge of described composite is directly connected in the second edge of described composite, simultaneously described intermediate layer higher than described minimum can forming temperature, to form three dimensional structure, the corresponding part of described three dimensional structure and described body part is conformal, wherein said three dimensional structure comprises at least two assemblies separated that the described composite of each freedom is formed, and wherein each assembly has and forms edge one of different in described first edge and described second edge; With
The assembly separated described in connection is to form described three dimensional structure.
2. method according to claim 1, wherein said connection comprises the second edge the first edge of described composite being sutured in described composite, and described intermediate layer is stitched together by along described first edge and described second edge.
3. method according to claim 1, wherein said three dimensional structure is included in described composite and produces and pass the perforation of described composite, and described composite limits described first edge and described second edge.
4. a method, comprising:
Manufacture composite and enable user obtain described composite, described composite comprises:
Be arranged in the face of body part and there is the internal layer of circumference;
Be arranged to avoid described body part and the skin with circumference, described outer field described circumference is similar to the described circumference of described internal layer; With
There is the intermediate layer of circumference, the described circumference in described intermediate layer and described internal layer and described outer field described circumference coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range
Wherein said composite comprises at least two can close edge;
Manufacture shutoff device and enable user obtain described shutoff device; With
Be supplied to user to the explanation producing orthopedics's product, comprise:
Heat described composite, make described intermediate layer higher than described minimum can forming temperature;
To produce in described composite and through the perforation of described composite, described composite limits edge that the first profile is harmonious and the edge that the second profile is harmonious, and the edge that described profile is harmonious is applicable to orientating as substantially adjacent each other;
The edge that described first profile is harmonious is directly connected in the edge that described second profile is harmonious, simultaneously described intermediate layer higher than described minimum can forming temperature, to form three dimensional structure, the corresponding part of described three dimensional structure and described body part is conformal;
Described composite is formed in around described body part, simultaneously described intermediate layer higher than described minimum can forming temperature; With
Can edge be closed and can edge be closed described in directly not connecting at least two described in closing with described shutoff device selectivity.
5. method according to claim 4, the described explanation being wherein directly connected in about the edge be harmonious by described first profile the edge that described second profile is harmonious also comprises about the following description: the edge that described first profile is harmonious is sutured in the edge that described second profile is harmonious, and described intermediate layer is stitched together by the edge that the edge that is harmonious along described first profile and described second profile are harmonious.
6., for orthopedics's product at body support position, comprising:
Shutdown system, comprising:
There is the first connecting elements of multiple hook element;
Be attached to the retention mechanism of described first connecting elements;
There is the second connecting elements of multiple hook element;
Be attached to the induction element of each described second connecting elements; With
Elongated flexible member, it is inserted through each described induction element and engages described retention mechanism; With
Composite, comprising:
Be arranged in the face of described body part and there is the internal layer of circumference;
Be arranged to avoid described body part and the skin with circumference, described outer field described circumference is similar to the described circumference of described internal layer, and described skin comprises at least one part of being arranged to engage with hook material part as hook and loop fastening system; With
There is the intermediate layer of circumference, the described circumference in described intermediate layer and described internal layer and described outer field described circumference coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range
Wherein, by multiple hook elements of described first connecting elements and described second connecting elements, described first connecting elements and described second connecting elements are coupled at least one part outer field described of described composite releasedly, to produce adjustable orthopedics's product with readjusting position.
7. orthopedics according to claim 6 product, wherein said skin comprises the material being arranged to engage with the hook material part as hook and loop fastening system.
8. orthopedics according to claim 6 product, wherein said retention mechanism be selected from rope reels mechanism, frenulum-lockable mechanism or ratchet buckle mechanism one or more.
9. orthopedics according to claim 6 product, wherein said induction element comprises: a part with the material of unbroken loop, described unbroken loop be fixed to described second connecting elements and the described hook element engaging described second connecting elements to form guided rings.
10. orthopedics according to claim 6 product, also comprises the induction element being attached to described first connecting elements.
11. orthopedics according to claim 6 products, wherein said system comprises:
First ribbon, it is connected with the edge on described first connecting elements, forms induction element with the described edge along described first connecting elements; With
Second ribbon, it is connected with the edge on described second connecting elements, form induction element with the described edge along described second connecting elements, it passes through to use pin or cone are sewed up by the described elongated flexible member being inserted through each described induction element and engage described retention mechanism and formed.
12. orthopedics according to claim 6 products, wherein said elongated flexible member is selected from: extend through the rope of described induction element and described fixing retention mechanism and extend through described induction element and be fixed to the frenulum of described retention mechanism.
13. 1 kinds, for orthopedics's product at body support position, comprising:
Composite, comprising:
Internal layer, it limits the region be arranged in the face of described body part;
Skin, the region avoiding described body part is arranged in its restriction, and described outer field described region is similar to the described region of described internal layer; With
Intermediate layer, described intermediate layer and described internal layer and described outer field described region coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, and described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range;
The edge that at least two profiles being applicable to orientating as described composite substantially adjacent are each other harmonious;
For the device that the edge be harmonious by least two profiles described in described composite directly connects, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus forms three dimensional structure, and the corresponding part of described three dimensional structure and described body part is conformal;
Can close edge for be applicable to orientating as described three dimensional structure substantially adjacent each other when described orthopedics product is placed on described body part at least two, described edge of closing is different from the edge that described profile is harmonious; With
Edge can be closed and the device at edge directly described in connection, can not be closed at least two described in closing for selectivity.
14. orthopedics according to claim 13 products, wherein said intermediate layer and described internal layer and described outer global formation.
15. orthopedics according to claim 13 products, wherein said three dimensional structure is selected from: casts, brace or clamping plate.
16. 1 kinds, for orthopedics's product at body support position, comprising:
Comprise the shutdown system of adhesive tape; With
Composite, comprising:
Be arranged in the face of described body part and there is the internal layer of circumference;
Be arranged to avoid described body part and the skin with circumference, described outer field described circumference is similar to the described circumference of described internal layer, and described skin comprises at least one part being arranged to engage with described adhesive tape; With
There is the intermediate layer of circumference, the described circumference in described intermediate layer and described internal layer and described outer field described circumference coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range
Wherein, described adhesive tape is configured to be attached to described outer field at least one part described, around the appropriate section described composite being fixed to described body part, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus formation three dimensional structure, the corresponding part of described three dimensional structure and described body part is conformal.
17. orthopedics according to claim 16 products, wherein said adhesive tape is double-sided adhesive tape, wherein, described internal layer and described skin comprise at least one part being arranged to engage with described double-sided adhesive tape separately, and wherein, described double-sided adhesive tape is configured to be attached to lap, described lap is described internal layer and the described outer field lap being arranged to the described part engaged with described double-sided adhesive tape described composite to be fixed to described body part, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus formation three dimensional structure, the corresponding part of described three dimensional structure and described body part is conformal.
18. 1 kinds of methods being applied for orthopedics's product at body support position, described method comprises: heating composite makes it soft and plastic, and described composite comprises:
Be arranged in the face of described body part and there is the internal layer of circumference,
Be arranged to avoid described body part and the skin with circumference, described outer field described circumference is similar to the described circumference of described internal layer,
There is the intermediate layer of circumference, the described circumference in described intermediate layer and described internal layer and described outer field described circumference coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range, and
For the device that the edge be harmonious by least two profiles of described composite directly connects, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus forms three dimensional structure, and the corresponding part of described three dimensional structure and described body part is conformal;
Described composite is formed in around described body part, simultaneously described intermediate layer higher than described minimum can forming temperature;
By elastic webbing being wrapped in around described composite, described composite is compressed on around described body part when described intermediate layer cooling; With
Direct connection can close edge.
19. methods according to claim 18, wherein said elastic webbing is fabric or rubberized material, and it has suitable width, thickness and elasticity, and its length is enough wound around around whole gained three dimensional structure.
20. 1 kinds of suits for orthopedics's product, described orthopedics product is used for body support position, and described suit comprises:
Composite, comprising:
Internal layer, it limits the region be arranged in the face of described body part;
Skin, the region avoiding described body part is arranged in its restriction, and described outer field described region is similar to the described region of described internal layer; With
Intermediate layer, described intermediate layer and described internal layer and described outer field described region coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, and described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range;
The edge that at least two profiles being applicable to orientating as described composite substantially adjacent are each other harmonious; With
For the device that the edge be harmonious by least two profiles described in described composite directly connects, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus forms three dimensional structure, and the corresponding part of described three dimensional structure and described body part is conformal;
Elastic webbing, it is arranged to be wrapped in around gained three dimensional structure and by gained three dimensional structure when described intermediate layer cooling be compressed on around described body part.
21. suits according to claim 20, also comprise inner heating arrangements, and described inner heating arrangements is configured to heat described intermediate layer to the temperature in target temperature range or the temperature higher than target temperature range.
22. suits according to claim 20, also comprise heat release thermal source, and described heat release thermal source is configured to heat described intermediate layer to the temperature in target temperature range or the temperature higher than target temperature range.
23. suits according to claim 20, also comprise heating bag, and described heating bag is configured to receive described composite to heat described intermediate layer.
24. suits according to claim 23, wherein, described heating bag is configured to be placed in heating system.
25. suits according to claim 23, wherein, described heating bag comprises heating element heater and insulator, and is configured to the described composite that heats wherein.
26. 1 kinds of veterinary orthopaedic surgery products, for supporting the body part of the animal except people, described veterinary orthopaedic surgery product comprises:
Composite, comprising:
Internal layer, it limits the region be arranged in the face of described body part;
Skin, the region avoiding described body part is arranged in its restriction, and described outer field described region is similar to the described region of described internal layer; With
Intermediate layer, described intermediate layer and described internal layer and described outer field described region coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, and described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range;
The edge that at least two profiles being applicable to orientating as described composite substantially adjacent are each other harmonious; With
For the device that the edge be harmonious by least two profiles described in described composite directly connects, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus formation three dimensional structure, the corresponding part of the described body part of described three dimensional structure and animal is conformal.
27. veterinary orthopaedic surgery products according to claim 26, wherein said animal is horse.
28. veterinary orthopaedic surgery products according to claim 27, wherein the described body part of animal is horse limbs.
29. 1 kinds, for orthopedics's product at body support position, comprising:
Composite, comprising:
Internal layer, it limits the region be arranged in the face of described body part;
Skin, the region avoiding described body part is arranged in its restriction, and described outer field described region is similar to the described region of described internal layer; With
Intermediate layer, described intermediate layer and described internal layer and described outer field described region coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, and described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range;
The edge that at least two profiles being applicable to orientating as described composite substantially adjacent are each other harmonious; With
For the device that the edge be harmonious by least two profiles described in described composite directly connects, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus forms three dimensional structure, and the corresponding part of described three dimensional structure and described body part is conformal,
Wherein said three dimensional structure is selected from shoulder protector, shin guard, glove, lower limb brace, foot brace, cervical orthosis, back brace, arm casts and knee cap plate.
30. orthopedics according to claim 29 products, wherein said three dimensional structure is shoulder protector.
31. orthopedics according to claim 29 products, wherein said three dimensional structure is shin guard.
32. orthopedics according to claim 29 products, wherein said three dimensional structure is glove.
33. orthopedics according to claim 29 products, wherein said three dimensional structure is lower limb brace.
34. orthopedics according to claim 29 products, wherein said three dimensional structure is foot brace.
35. orthopedics according to claim 29 products, wherein said three dimensional structure is cervical orthosis.
36. orthopedics according to claim 29 products, wherein said three dimensional structure is back brace.
37. orthopedics according to claim 29 products, wherein said three dimensional structure is arm casts.
38. orthopedics according to claim 29 products, wherein said three dimensional structure is knee cap plate.
39. 1 kinds for heating and apply the system of orthopedics's product, described orthopedics product be used for body support position, described system comprises:
Composite, comprising:
Internal layer, it limits the region be arranged in the face of described body part;
Skin, the region avoiding described body part is arranged in its restriction, and described outer field described region is similar to the described region of described internal layer; With
Intermediate layer, described intermediate layer and described internal layer and described outer field described region coextend substantially, and described intermediate layer is clipped between described internal layer and described skin, described intermediate layer comprises polymeric layer, and described polymeric layer is thermoformable and be substantially rigid at the temperature of the minimum plastic temperature lower than 130 degrees Fahrenheits in target temperature range;
The edge that at least two profiles being applicable to orientating as described composite substantially adjacent are each other harmonious; With
For the device that the edge be harmonious by least two profiles described in described composite directly connects, described intermediate layer is higher than described minimum plastic temperature simultaneously, thus forms three dimensional structure, and the corresponding part of described three dimensional structure and described body part is conformal; With
Be arranged to the heating system heating described intermediate layer.
40. according to system according to claim 39, and wherein said heating system is selected from heating bag, heat release thermal source, convection oven, baking box, radial burner thermal source, infrared heater, microwave oven, convected air baking oven and damp and hot.
41. systems according to claim 40, wherein said heating system is heating bag.
42. systems according to claim 40, wherein said heating system is heat release thermal source.
43. systems according to claim 40, wherein said heating system is convection oven.
44. systems according to claim 40, wherein said heating system is baking box.
45. systems according to claim 40, wherein said heating system is radial burner thermal source.
46. systems according to claim 40, wherein said heating system is infrared heater.
47. systems according to claim 40, wherein said heating system is microwave oven.
48. systems according to claim 40, wherein said heating system is convected air baking oven.
49. systems according to claim 40, wherein said heating system is damp and hot.
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US11607347B2 (en) 2015-08-04 2023-03-21 Openm Inc. Thermoplastic cast
CN105326589A (en) * 2015-12-16 2016-02-17 孟祥鹏 Intelligent artificial limb
CN106038028A (en) * 2016-05-13 2016-10-26 南京鑫博维新材料技术有限公司 Fixation apparatus applicable to fracture or radiotherapy
CN105796224B (en) * 2016-05-17 2018-05-04 安阳市翔宇医疗设备有限责任公司 A kind of lower limb ankle-foot orthosis takes shape dress to put
CN105796224A (en) * 2016-05-17 2016-07-27 安阳市翔宇医疗设备有限责任公司 Shaping device of lower-limb ankle foot orthosis
CN106420142A (en) * 2016-06-07 2017-02-22 孙雁群 Traditional Chinese medicine small splint component and traditional Chinese medicine small splint device provided with traditional Chinese medicine small splint component
CN106038029A (en) * 2016-07-04 2016-10-26 青岛科技大学 Shape memory medical splint
CN106176017A (en) * 2016-07-20 2016-12-07 衡水天健医疗器材有限公司 A kind of carpal joint fixing band
CN106983592A (en) * 2017-05-08 2017-07-28 广东工业大学 A kind of medical knee joint clamping plate
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CN107715184A (en) * 2017-10-12 2018-02-23 向谷兮 Adjustable External distraction appliance and its material prescription, manufacture craft and application method
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CN107890391B (en) * 2017-11-18 2020-08-04 安徽玉然经编科技有限公司 Memory type medical bandage for fracture fixation
CN109044583A (en) * 2018-07-02 2018-12-21 上海黑焰医疗科技有限公司 A kind of low temperature thermoplastic rehabilitation brace and preparation method thereof
CN111449817A (en) * 2020-04-21 2020-07-28 合肥瑞欣康复用品用具有限责任公司 Production process and production line of orthotics
CN111449817B (en) * 2020-04-21 2022-02-22 合肥瑞欣康复用品用具有限责任公司 Production process and production line of orthotics

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