• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Adhesive elastic bandage, comprising an elastic fabric (1) made of cotton and elastomer yarns to which an adhesive layer is attached, said fabric is formed by a structure of weft threads (2) and warp threads (3) set with satin or twill weave of at least 3 and up to 7, and where the weft threads (2) of the fabric have a density of up to 25 passes/cm. And those of warp (3) of up to 15 threads/cm. Preferably, the weft yarns (2) are 100% cotton, therefore inelastic, and those of warp (3) of cotton and elastomer, where the cotton comprises up to 98%. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2558021A2
    申请号:ES201400624
    申请日:2014-07-29
    公开日:2016-02-01
    发明作者:Francisco José SELVA ZARZO
    申请人:Francisco José SELVA ZARZO;
    IPC主号:
    专利说明:

    OBJECT OF THE INVENTION
    The invention, as expressed in the statement of the present specification, refers to an adhesive elastic bandage, which provides, to the function to which it is intended, several advantages and novelty features that will be described in detail below and which suppose an improvement of the current state of the art.
    More particularly, the object of the invention focuses on an adhesive elastic bandage, of the type used primarily in neuromuscular bandage, although it is also used in rigid or support bandages, the fabric of which presents an innovative elastic weft and warp structure that the It makes it more stable and mechanically resistant, allowing, in addition, the greatest possible elongation of the elastic fibers or threads that make up the mentioned fabric thereof. FIELD OF APPLICATION OF THE INVENTION
    The field of application of the present invention is framed within the textile sector, focusing specifically on the field of industry dedicated to the manufacture of elastic bandages, and more particularly, adhesive bandages for bandage in the field of physiotherapy, rehabilitation and medicine. BACKGROUND OF THE INVENTION
    As known, the neuromuscular bandage, kinesiologic taping or kinesiotaping, consists of elastic cotton strips with an acrylic adhesive used to treat muscle injuries of athletes and other physical disorders sticking on the skin of the patient in the area to be treated. It is a type of elastic cotton bandage, capable of stretching with respect to its initial length. As a result, if the bandage is applied to a patient with a stretch greater than normal length, it will recede after being applied and will create a tension on the skin that can act on the underlying musculature. This elastic property allows a greater range of motion compared to traditional bandages and can be left for long periods of time.
    The bandage that concerns here, then, is an effective bandage to prevent or treat neuromuscular problems and its particularity is that it adheres to the skin to help prevent injuries of muscles, skeletal, nerves, fascia, blood and lymphatic circulatory system, visceral system , helping to correct the patient's pathological posture.
    The application of this bandage is also very useful in pathologies of the central nervous system and peripheral nervous system, as well as in pathologies or malformations in neonates or children.
    Also, its application in sports is very effective, in addition to preventing and treating injuries, it is used to stabilize the movements of different muscle groups during workouts or competitions, helping to improve posture and combat fatigue.
    Well, the problem that the bandage recommended here comes to solve is the fact that, currently, the bandages used in neuromuscular bandage have a structure in their tissue of the type called ligament-taffeta. In this type of structure, the thread zigzags continuously to each evolution, both in the sense of the weft and the warp, so the amount of friction that occurs between the warp and weft threads at each point Of inflection, it prevents the thread from developing all its elastic capacity.
    This incapacity, in addition to limiting the possibilities and benefits of the bandage, since the bandage limits the movement, especially if it is wide and can create pathology if it is also repetitive (runner), it also makes it impossible to standardize reliably the method of placing it to ensure optimal tension, by not allowing to know the elastic (temporary) and plastic (permanent) lengthening of the bandage, to take it into account with respect to the lengthening of the human skin in the area to apply the bandage .
    It would therefore be desirable to have a bandage that allows to know exactly its characteristics and mechanical properties, thus facilitating the reproducibility of the research studies that are carried out, impossible so far with the existing bands, being the development of such type of sell the essential objective of the present invention. EXPLANATION OF THE INVENTION
    The elastic adhesive bandage that the present invention proposes is thus configured as a novelty within the scope of the bandages, the characterizing details distinguishing it from what is already known conveniently included in the final claims that accompany the present specification of the same.
    Specifically, what the invention proposes, as already noted above, is an adhesive bandage preferably applicable to prevent or treat neuromuscular problems that, unlike existing bandages, has a structure in its tissue that, in addition to greater stability and mechanical resistance, provides the greatest possible elongation of the same avoiding limiting any body movement.
    For this, the fabric structure of the bandage of the invention is openwork, with satin or twill ligament of 3, satin or twill can be used up to 7 with densities of about 13 threads / cm in the direction of the warp and 22 passes / cm in the weft direction to achieve different elongations, being able to reach, respectively, up to 15 threads in the warp and 25 in the weft, but in any case, reducing friction.
    Said type of satin or twill ligament allows the possibility of generating coarse (floating threads on the surface of the fabric) and, therefore, the fabric is not so stiffened by the friction produced by the inflection points, thus providing the greatest elasticity power. to the band.
    In addition, as the length of the hem increases, greater freedom of movement of the thread is achieved. Therefore, as the size of the hem increases, its elasticity power increases, although at the same time its mechanical resistance capacity is also reduced.
    It is important to mention that, preferably but not limited to, the weave of the proposed bandage fabric is composed of 100% cotton threads, therefore inelastic and arranged transversely to the warp threads.
    and the warp, which are the longitudinal threads of the fabric, is composed of cotton and elastomer threads, where cotton reaches 98% of said threads and the
    The elastomer can represent 5%, although it is usually only between 2 and 3%.
    This composition causes the bandage to stretch only longitudinally, which helps stimulate skin receptors in a localized, clear and precise way, without limiting the movement of the bandaged body segment.
    Optionally, however, it is also contemplated that the weft may have threads with elastomer, producing a fabric with longitudinal and transverse elasticity to be able to stretch the bandage in all planes of movement on the skin. This can help improve, above all, facial and circulatory treatments, either blood or lymphatic.
    In short, what is achieved with the recommended band is an improved band whose structure, composition, characteristics and defined mechanical properties, allows different applications with it to be beneficial and measurable to be able to carry out scientific studies with a correct methodology.
    It is important to know the composition and characteristics of the bandages that are used to prevent or treat neuromuscular problems, as well as their mechanical properties, in order to perform specific tests that help create valid and scientific application protocols, thus improving the rigor of the studies.
    Another of the advantages provided by the bandage of the invention, thanks to its particular structure, is that it allows to perform an elastic elongation equal to that performed by human skin, since said bandage is not intended to fix or limit body movements, but quite the opposite, helping the body to normalize. With the information that can be extracted from the proposed bandage, the tension produced by said bandage on the skin is clarified, since it has sufficient characteristics and mechanical properties to be able to match or exceed the elongation performed by the skin. With the current bandages the total lengthening of the bandage (elastic and plastic) is valued, making movement difficult with the application made, without knowing it.
    Likewise, said structure provides the bandage with the toughness (kg / mm) or energy absorption capacity, sufficient to withstand the different tensions to which it can be subjected, without damaging the skin on which it adheres.
    Finally, the bandage structure of the invention makes it possible to withstand enough force so that the elastic elongation thereof is as wide as possible and, thus, help to withstand the tensions produced by body movements performed with the bandage attached.
    Finally, it should be mentioned that, optionally, the bandage has a certain pre-elongation, useful for applications where little bandage elongation is needed and, thus, can be carried out correctly.
    Said pre-elongation keeps in tension the fibers or threads of the structure of the bandage, specifically the warp threads that, as indicated, are those that preferably have elasticity, so, when said threads lose said tension, they will maintain contractile capacity, producing wrinkles in the bandage that help reduce pain and improve blood and lymphatic circulation.
    To achieve said pre-elongation, the bandage is adhered to a paper that supports this pre-elongation.
    The described elastic adhesive bandage represents, therefore, an innovation of structural and constitutive characteristics unknown until now, reasons that together with its practical utility, provide it with sufficient foundation to obtain the privilege of exclusivity that is requested. DESCRIPTION OF THE DRAWINGS
    To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, this descriptive report is attached, as an integral part thereof, of a set of drawings, in which with character Illustrative and not limiting, the following has been represented:
    Figures 1 and 2 show a schematic front and profile view, respectively, of an enlarged fragment of the tissue of a bandage with a taffeta ligament structure, showing what constitutes the current state of the art.
    Figures 3 and 4 show a schematic, front and profile view, respectively, of an enlarged fragment of the adhesive elastic bandage fabric, object of the invention, showing the satin or twill ligament structure it presents, ligament structure satin or twill of 3 in the example shown.
    Figures 5 and 6 also show a schematic, front and profile view, respectively, of an enlarged fragment of the adhesive bandage fabric, according to the invention, in this case with an example of a satin or twill ligament structure of . PREFERRED EMBODIMENT OF THE INVENTION
    In view of the aforementioned figures, and in accordance with the numbering adopted, an example of the fabric of the already known bandages and two non-limiting examples of the structure of the fabric contemplated by the recommended bandage, which is distinguished, can be observed in the parts and elements indicated and described in detail below.
    Thus, as seen in said figures, the bandage in question, which in a known manner comprises an elastic fabric (1) made of cotton and elastomeric threads to which an adhesive layer is attached, said fabric being formed by a structure of weft threads (2) and warp threads (3), it is distinguished because said structure consists of an openwork structure with satin or twill ligament of at least 3, as shown in the example shown in Figures 3 and 4, Y which can be an openwork structure with satin ligament or twill of 5, as shown in the example of figures 5 and 6, or an openwork structure with satin ligament or twill of up to 7, providing greater resilience
    In contrast, as can be seen in Figures 1 and 2, the structure of the fabric (1 ') of weft threads (2') and warp (3 ') of the currently existing bandages is made of taffeta weave. which causes a much greater friction between the threads due to the greater number of inflection points that limit the elasticity of the threads.
    It should also be noted that the weft threads (2) of the fabric of the recommended bandage have a density of up to 25 passes / cm and up to 15 threads / cm of the warp (3).
    Also, preferably, the weft threads (2) are threads made of 100% cotton, therefore inelastic, while the warp threads (3) are threads made of cotton and elastomer, where cotton comprises up to 98% of the themselves and the elastomer, at least 5%, preferably between 2 and 3%.
    The bandage is incorporated on a paper that, optionally, adheres with a pre
    5 elongation determined to keep the threads with elastomer with a small tension, this option being especially useful for applications in which little elongation of the bandage is needed.
    Finally, setialar that the adhesive layer is preferably a thin layer of resin
    10 synthetic acrylic base without latex, with great adhesion power especially on the skin and cotton with which the threads of the fabric are made.
    Describing sufficiently the nature of the present invention, as well as the way of putting it into practice, it is not considered necessary to extend its explanation so that
    15 Any expert in the field understands its scope and the advantages that derive from it, stating that, within its essentiality, it may be implemented in other embodiments that differ in detail from that indicated by way of example, and which will also achieve the protection that is sought as long as it is not altered, changed or modified its fundamental principle.
    权利要求:
    Claims (7)
    [1]
    1.-ADHESIVE ELASTIC SELL that, applicable to prevent or treat neuromuscular problems and comprising an elastic fabric (1) made of cotton and elastomeric threads to which an adhesive layer is attached, is characterized in that said fabric is formed by a thread structure weft (2) and warp threads (3) openwork with satin or twill ligament of at least 3.
    [2]
    2.-ADHESIVE ELASTIC SELL, according to claim 1, characterized in that the structure of weft (2) and warp (3) threads is openwork with satin or twill ligament of up to 7.
    [3]
    3.-ADHESIVE ELASTIC SELL, according to claim 1 or 2, characterized in that the weft threads (2) of the fabric have a density of up to 25 passes / cm.
    [4]
    4.-ADHESIVE ELASTIC SELL, according to any of claims 1-3, characterized in that the warp threads (3) of the fabric have a density of up to 15 threads / cm.
    [5]
    5.-ADHESIVE ELASTIC SELL, according to any of claims 1-4, characterized in that the weft threads (2) are threads made of 100% cotton, therefore inelastic, and the warp threads (3) are threads made of cotton and elastomer, where cotton comprises at least 95% thereof and the elastomer, the remaining 5%.
    [6]
    6.-ADHESIVE ELASTIC SELL, according to claim 5, characterized in that the warp threads (3) are threads made of cotton and elastomer, wherein the elastomer is between 2 and 3%.
    [7]
    7.-ADHESIVE ELASTIC SELL, according to any of claims 1-6, characterized in that it is incorporated on a paper to which it adheres with a certain pre-elongation.
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    同族专利:
    公开号 | 公开日
    ES2558021B1|2016-12-22|
    ES2558021R1|2016-03-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    ES2648804A1|2016-07-05|2018-01-08|Francisco SELVA SARZO|Adhesive fascial sale |US4207885A|1979-03-07|1980-06-17|Carolon Company|Woven elastic compression bandage|
    US5133199A|1990-12-10|1992-07-28|The Kendall Company|Conformable stretch bandage|
    TW290498B|1995-07-19|1996-11-11|Andover Coated Products Inc|Elastic bandage|
    DE102005033720A1|2005-07-15|2007-01-18|Karl Otto Braun Kg|In the warp direction, longitudinally elastic bandage|
    法律状态:
    2016-12-22| FG2A| Definitive protection|Ref document number: 2558021 Country of ref document: ES Kind code of ref document: B1 Effective date: 20161222 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201400624A|ES2558021B1|2014-07-29|2014-07-29|Adhesive elastic bandage|ES201400624A| ES2558021B1|2014-07-29|2014-07-29|Adhesive elastic bandage|
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