• 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:
    A manufacturing process of a shoe sole and sole thus obtained that comprises a monobloc body of an injected thermoplastic characterized in that it integrates inside at least one padded region of a material consisting of an expanded polyurethane granule mixed with an elastomer of liquid polyurethane reinforced with silica nanofibers; and where both the injected thermoplastic of the sole and the material of the cushioned regions are cured and molded together. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2797531A1
    申请号:ES201930663
    申请日:2019-07-18
    公开日:2020-12-02
    发明作者:
    申请人:Porta Canto Antonio Ramon;
    IPC主号:
    专利说明:

    [0002] PROCESS OF MANUFACTURING A SOLE FOR FOOTWEAR AND THE PRODUCT SO OBTAINED
    [0004] The object of the present invention is a sole for footwear with a plastic material sole that comprises super-expanded thermoplastic polyurethane granules in the upper and / or heel, as well as its manufacturing process. This process makes the sole very light, elastic by recovering the original shape after being compressed, with a cushioned effect, low density, flexible and durable.
    [0006] STATE OF THE PRIOR ART
    [0008] In the current state of the art, different soles are known with an object similar to that of the invention. Thus, document CN208114105U discloses an insole formed from glued granules of expanded polyurethane, being arranged together with other plastic materials in a localized manner in the insole. On the other hand, the BASF® firm markets a product called INFINERGY® that, when formed, gives rise to a light and elastic material, in such a way that it recovers its original shape after being compressed. One of its possible applications is the sole for sports shoes. Document EP2649896A2 refers to an insole where the upper and heel are inserted expanded thermoplastic polyurethane and where the other areas are formed with other polymeric materials that are not TPU (expanded thermoset polyurethane). Finally, documents US2012329892A1, CN104760675A, ES2325663T3 and CN108851339A describe different structures of soles and / or insoles that use thermoplastic polyurethane.
    [0010] For all these reasons, the need to design a manufacturing process for a sole or insole for footwear has been detected, as well as the insole itself that is light, elastic when recovering the original shape after being compressed, with a cushioning effect, low density, flexible and durable. This object is achieved by means of the invention as defined in the independent claims. Particular embodiments of the invention are defined in the dependent claims.
    [0011] EXPLANATION OF THE INVENTION
    [0012] As indicated in the wording of the present specification, the object of the invention is a sole for footwear that comprises a monobloc body of an injected thermoplastic characterized by integrating inside at least one padded region of a consistent material in a granule of expanded polyurethane mixed with a liquid polyurethane elastomer reinforced with silica nanofibers; and where both the injected thermoplastic of the sole and the material of the cushion regions are cured and molded together.
    [0014] In a particular embodiment of the invention, the expanded polyurethane granules have a size between 8-12 mm. In another particular embodiment, the proportion of silica nanofibers with respect to the total weight of the liquid polyurethane is less than 1% w / w. In yet another particular embodiment of the sole of the invention, the ratio between the expanded polyurethane granules and the liquid polyurethane reinforced with silica nano fibers is 70% - 30% w / w.
    [0016] In a second aspect of the invention, the manufacturing process of a sole for footwear according to the present invention, comprises a first step of injecting a first thermoplastic compound into a bicomponent mold to form the shape of the sole; and where once the sole itself has been injected, a second compound consisting of an expanded polyurethane granule mixed with a liquid polyurethane elastomer reinforced with silica nanofibers is injected; and where later, the mold is closed and the whole is pressed until the complete cure of the compounds that make up the sole.
    [0018] In a particular embodiment of the manufacturing process, the second compound consisting of an expanded polyurethane granule mixed with a liquid polyurethane elastomer reinforced with silica nanofibers is applied in the raw and uncured mold, adapting to the shape of the sole defined by the first thermoplastic compound.
    [0020] The sole for footwear object of the invention has the particularity of having in certain areas a padding of a material composed of certain amounts of polyurethane crosslinked by catalysis and super expanded thermoplastic granules. This compound has the characteristic of being light, of very low density and elastic, since it has the ability to regain its original shape after being compressed very quickly, making it ideal for making padded areas, midsoles and heels, as well as to combine with other materials for the manufacture of soles or components for sports and / or street shoes, providing a shock-absorbing effect and very high flexibility to manufacture extremely comfortable everyday shoes.
    [0022] Thanks to the material used in the manufacture of the sole, it has the ability to generate energy inverse to the movement of the foot when walking produced by inability to recover, which facilitates movements when walking, generates less fatigue and produces less muscle and bone wear. In the feet. In addition, it is a very durable material, easily recyclable, very stable to UV rays and resistant to hydrolysis, making it very resistant to daily and continuous use.
    [0024] Throughout the description and claims, the word "comprises" and its variants are not intended to exclude other technical characteristics, additives, components or steps. For those skilled in the art, other objects, advantages and characteristics of the invention will be derived in part from the invention and in part from the practice of the invention. The following examples and drawings are provided by way of illustration and are not intended to restrict the present invention. Furthermore, the invention covers all possible combinations of particular and preferred embodiments indicated herein.
    [0026] BRIEF DESCRIPTION OF THE DRAWINGS
    [0028] A series of drawings that help to better understand the invention and that expressly relate to an embodiment of said invention, which is illustrated as a non-limiting example thereof, will now be described very briefly.
    [0030] Figure 1 shows a schematic view of a sole according to the present invention, where a monobloc body (1) that forms a sole according to the state of the art and in which at least one padded region is integrated (2).
    [0032] EXPLANATION OF A DETAILED MODE OF EMBODIMENT OF THE INVENTION
    [0034] The object of the present invention, as indicated in the wording of the present specification is a sole 1 - as well as its manufacturing process - which has the particularity of comprising internal regions 2 where a compound consisting of a granule of expanded polyurethane of approximately 8-12 mm in diameter mixed with a liquid polyurethane elastomer modified with silica nanofibers in a proportion less than 1% w / w with respect to the total liquid polyurethane in this practical example, and which has the particularity of providing the compound with more improved physical and mechanical properties. In particular, the use of silica nanofibers improves the formation of external polar chains, Oross link and the molecular structure of the resulting compound, providing the compound with a large amount of ultra-strong free chemical bonds that provide them with great resistance to friction and compression forces. .
    [0036] The resulting compound (ie the expanded polyurethane granule plus a liquid polyurethane elastomer reinforced with silica nanofibers) is a hybrid composite formed by a thermoplastic (the expanded polyurethane granules) and a thermosetting compound (the liquid polyurethane elastomer reinforced) with a variable proportion according to need and that in a practical example is quantified as 70% w / w of expanded polyurethane granule and 30% w / w of liquid polyurethane elastomer modified with silica nanofibers.
    [0038] Therefore, by varying the percentage of expanded polyurethane granule and silica-reinforced liquid elastomer, the resulting hardness of the composite can be varied. Thus, the higher the amount of expanded polyurethane granule, the final result is a softer compound in the same way that the lower the percentage of granule and the higher the elastomer, the compound has a higher hardness (for example, 60% w / w of expanded polyurethane granule and 40% w / w liquid polyurethane elastomer modified with silica nanofibers). This therefore translates into a greater or lesser resistance to compression depending on the parameters of the percentages varying, resulting in greater or lesser hardness.
    [0040] The liquid polyurethane can be compact or foamed, with more or less foaming, as higher or lower densities of the finished product are necessary. This compound results in greatly improved mechanical properties, among which are its great resistance to compression and its immediate recovery.
    [0042] The use of the compound thus described in the sole of the invention is carried out by configuring padded pieces inserted inside the internal part of the different models of soles, part of the front or upper area, the middle or shoulder area, or the upper area. rear or heel, preparing by mechanical means the compound described above and placing this compound in a mold at an approximate temperature of 80 ° C, but where this temperature will depend on the parameters of temperature and internal working time of the mold for mass production of the sole.
    [0044] Thus, the first particularity of the invention is that the pad pieces 2 of the indicated compound are not added later, but are elements that are manufactured and molded with the same sole in a single block 1. Indeed, in the mold for manufacturing The sole will be injected with both the sole material and the compound described above, which will catalyze and cure within the same mold, resulting in a highly comfortable one-piece sole.
    [0046] More specifically, to manufacture the sole of the invention, a bicomponent mold is used similar to a mold for a bicolor sole where, firstly, the injection is carried out with a screw-piston system or by extrusion of the sole itself. said, generally made of thermoplastic polyurethane or other plastic material.
    [0048] Once the sole has been injected, the mold is opened and the resulting composition is applied through a mobile PU injector head composed of a polyurethane granule tank combined with the liquid PU mixture reinforced with silica nanofibers. On the preformed sole. Subsequently, the mold is closed and the sole-compound set is pressed for 2 or 3 minutes. This period of time, as well as the temperature (approximately 80 ° C) depend on the type of mold and other conditions of the manufacturing process well known to those who are skilled in the art.
    [0050] The result of the process, once the sole is extracted from the bicomponent mold, is a one-piece sole 1 and fully finished with the padded areas 2 included without the need for external insertions after injecting the sole.
    [0052] This is possible because the malleable compound that is applied in the second part of the bicomponent mold (the composition described) is applied raw and uncured, adapting perfectly to the internal shape of the previously injected sole that has been designed in the process. of machining the mold for this purpose. Therefore, once the mold is closed and subsequently opened, the finished sole is obtained with all the external parts for treading and internal parts with the padding completely finished and ready to carry out the assembly work in the footwear production line.
    权利要求:
    Claims (6)
    [1]
    1.- A sole for footwear that comprises a monobloc body (1) of an injected thermoplastic characterized in that it integrates inside at least one padded region (2) of a material consisting of an expanded polyurethane granule mixed with an elastomer of liquid polyurethane reinforced with silica nanofibers; and where both the injected thermoplastic of the sole and the material of the cushion regions are cured and molded together.
    [2]
    2. The sole according to claim 1, wherein the expanded polyurethane granules have a size between 8-12 mm.
    [3]

    [4]
    Four.
    [5]
    5.
    [6]
    6.- The process of claim 5 where the second compound consisting of an expanded polyurethane granule mixed with a liquid polyurethane elastomer reinforced with silica nanofibers is applied in the raw mold and uncured, adapting to the shape of the defined sole by the first thermoplastic compound.
    类似技术:
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    CN103561603B|2017-09-08|Fluid-filled chamber with tension member
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    CN105361345A|2016-03-02|Co-molded 3d elements
    US20190387838A1|2019-12-26|Article of footwear having a midsole with multiple portions and method of making the same
    KR20180128477A|2018-12-03|How to make shoe sole
    ES2797531B2|2021-04-06|Manufacturing procedure of a sole for footwear and product thus obtained
    US20220053871A1|2022-02-24|Shoe, in particular sports shoe, and method for producing same
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    KR20220032614A|2022-03-15|footwear
    US20160302519A1|2016-10-20|Article of Footwear Having a Midsole and Methods of Making the Same
    US20210120912A1|2021-04-29|Shoe, in particular a sports shoe
    WO2014184195A1|2014-11-20|Cushioned sole
    US20170273394A1|2017-09-28|Shoe having a transversal air passageway and manufacturing method thereof
    CN113710118A|2021-11-26|Method for manufacturing footwear and footwear
    CA2761200A1|2012-06-03|Method for fabricating a footwear sole
    同族专利:
    公开号 | 公开日
    ES2797531B2|2021-04-06|
    EP3766369A1|2021-01-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20140223673A1|2013-02-13|2014-08-14|Adidas Ag|Methods for manufacturing cushioning elements for sports apparel|
    US20150366289A1|2013-10-28|2015-12-24|Taylor Made Golf Company, Inc.|Golf shoe outsoles|
    EP3172980A1|2015-11-30|2017-05-31|Matthias Hartmann|Method for producing a sole for a shoe|
    US20170341326A1|2016-05-24|2017-11-30|Adidas Ag|Method for the manufacture of a shoe sole, shoe sole, and shoe with pre-manufactured tpu article|
    CN109463845A|2018-12-17|2019-03-15|安踏(中国)有限公司|A kind of sole and its preparation method and application of damping rebound|
    US5308420A|1993-02-22|1994-05-03|Yang Kuo Nan|EVA insole manufacturing process|
    DE10342857A1|2003-09-15|2005-04-21|Basf Ag|Expandable thermoplastic polyurethane blends|
    EP1979401B1|2006-01-18|2010-09-29|Basf Se|Foams based on thermoplastic polyurethanes|
    BRPI0715344A2|2006-08-03|2013-11-26|Schering Plough Healthcare|GEL SHEET|
    WO2009060251A1|2007-11-09|2009-05-14|David Fu|Footwear article|
    EP2571389A2|2010-05-18|2013-03-27|Montrail Corporation|Multiple response property footwear|
    DE102012206094B4|2012-04-13|2019-12-05|Adidas Ag|Soles for sports footwear, shoes and method of making a shoe sole|
    CN104760675A|2015-04-01|2015-07-08|大连华工创新科技股份有限公司|E-TPU lifesaving clothing|
    US20190126580A1|2017-10-31|2019-05-02|Saucony, Inc.|Method and apparatus for manufacturing footwear soles|
    CN208114105U|2018-04-19|2018-11-20|泉州西米露新材料科技有限公司|A kind of E-TPU puffed rice insole|
    CN108851339A|2018-06-27|2018-11-23|泉州邦尼生物科技有限公司|Shock-absorbing ventilating insole and preparation method thereof|
    法律状态:
    2020-12-02| BA2A| Patent application published|Ref document number: 2797531 Country of ref document: ES Kind code of ref document: A1 Effective date: 20201202 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201930663A|ES2797531B2|2019-07-18|2019-07-18|Manufacturing procedure of a sole for footwear and product thus obtained|ES201930663A| ES2797531B2|2019-07-18|2019-07-18|Manufacturing procedure of a sole for footwear and product thus obtained|
    EP20382626.8A| EP3766369A1|2019-07-18|2020-07-13|Manufacturing procedure for a sole for footwear and product thus obtained|
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