会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明公开
    • SHOCK-ABSORBING STRUCTURE FOR SOLE SIDE SURFACE AND SHOES IMPLEMENTING SAME
    • STOSSDFIFENDE STRUKTURFÜRSOHLENFLÄCHENUND SCHUHE DAMIT
    • EP3061363A1
    • 2016-08-31
    • EP13896072.9
    • 2013-10-21
    • ASICS CorporationTaica Corporation
    • FUJITA, HisanoriMIKUNI, ManabuNASUNO, Hiroshi
    • A43B13/18
    • A43B13/186A43B13/125A43B13/141A43B13/181A43B13/185A43B21/26
    • The present invention addresses a problem to develop a novel shock absorbing structure which realizes stability while absorbing strong impact at a time of landing and a kicking-out time by bending and a tensile force of a shock absorbing member itself of a gel or the like, and also provides an excellent effect in reduction in weight and an aspect of cost, and a shoe to which the shock absorbing structure is applied.
      [Solution]
      The present invention is a structure that includes a hard bone portion that extends to an outer side of a sole side face at a time of pressure reception, and an elastic soft skin portion provided at an outer side of the hard bone portion, and absorbs impact at a time of landing and the like, wherein at least a part of the hard bone portion is provided along a sole side face, and the hard bone portion and the elastic soft skin portion have a structure in which at a time of pressure reception, the hard bone portion undergoes bending deformation in a vertical section so as to extend to a lateral side of the sole, and by receiving the deformation, the elastic soft skin portion undergoes elastic deformation so as to bulge to the lateral side of the sole to absorb a received pressure load, and thereafter, with decompression, the elastic soft skin portion undergoes elastic deformation so as to contract to an inner side of the sole this time, and with this, the hard bone portion is also restored to an initial state.
    • 本发明解决了开发一种新颖的冲击吸收结构的问题,其在着陆时实现稳定性同时吸收强烈冲击,通过弯曲引起踢出时间和凝胶等的减震构件本身的张力, 并且还提供了减轻重量和成本方面的优异效果,以及应用冲击吸收结构的鞋。 [解决方案]本发明是一种结构,其包括在受压时延伸到鞋底侧面的外侧的硬骨部分和设置在硬骨部分的外侧的弹性软皮部分, 并且在着陆等时吸收冲击,其中硬骨部分的至少一部分沿着鞋底侧面设置,并且硬骨部分和弹性软皮肤部分具有这样的结构: 压力接收时,硬骨部分在竖直部分中经历弯曲变形,以便延伸到鞋底的侧面,并且通过接受变形,弹性柔软的皮肤部分经历弹性变形,以便膨胀到鞋底的侧面 吸收接受的压力负荷,然后在减压下,弹性软皮部分经历弹性变形,以便此次收缩到鞋底的内侧,由此硬骨部分是 也恢复到初始状态。
    • 5. 发明公开
    • CUSHION STRUCTURE AND SHOES USING SAME
    • 靠垫结构和鞋子使用相同
    • EP3114952A1
    • 2017-01-11
    • EP14884904.5
    • 2014-03-06
    • ASICS CorporationTaica Corporation
    • MITSUI, ShigeyukiMIKUNI, ManabuNASUNO, Hiroshi
    • A43B7/32A43B13/18
    • A43B13/186A43B3/128A43B5/00A43B7/1465A43B13/122A43B13/188
    • The present invention addresses a problem to develop a novel shock absorbing structure which exhibits high shock absorbing performance peculiar to a soft material and a repulsion characteristic compatibly while exposing a most of an outer periphery of the soft material to outside when the shock absorbing structure is incorporated into a sole of a shoe, for example, and a shoe to which the shock absorbing structure is applied.
      [Solution]
      A shock absorbing structure of the present invention is formed by including a column member, a ring member that is provided by being fitted onto the column member and has elasticity, a first pressure receiving portion that is connected to an upper end of the column member, and a second pressure receiving portion that is connected to a lower end of the column member, wherein the column member tilts with respect to at least one of the first and second pressure receiving portions with pressure reception, and is restored with decompression, and the ring member is caused to undergo bulging deformation to an outer circumferential side direction from an inner circumferential side by tilting of the column member.
    • 本发明解决了开发一种新型减震结构的问题,该减震结构在结合冲击吸收结构时将软材料的外周的大部分暴露于外部,同时表现出柔软材料特有的高冲击吸收性能和相容的排斥特性 例如鞋子的鞋底以及应用了减震结构的鞋子。 解决方案本发明的冲击吸收结构体通过包括柱构件,通过装配到柱构件上并具有弹性而设置的环构件形成,第一受压部连接到柱构件的上端 柱部件;以及第二受压部,其连接于所述柱部件的下端,其中,所述柱部件通过受压而相对于所述第一受压部及所述第二受压部中的至少一方倾斜地进行减压复原, 并且通过柱构件的倾斜使得环构件从内周侧向外周侧方向发生鼓起变形。
    • 6. 发明公开
    • METHOD FOR LIQUID SURFACE ACTIVATION OF TRANSFER FILM, HYDROGRAPHIC METHOD AND HYDROGRAPHIC DEVICE IMPLEMENTING SAME
    • 方法转移膜表面活化,水文方法和设备HYDRO GRAPHIC
    • EP2789475A1
    • 2014-10-15
    • EP11876867.0
    • 2011-12-08
    • Taica Corporation
    • YOSHII YouichiroSUZUKI EijiIYANAGI KatsumiUSHIWATA Sakae
    • B44C1/175
    • B44C1/1758B44C1/175
    • An object is to develop a new activation method and a liquid pressure transfer technique, which are on the premise that a transfer film is supplied to the surface of a transfer liquid and then is activated, capable of continuously performing a precise transfer. According to the present invention, in forming an appropriate transfer pattern on the surface of an object by pressing the object from the upper side of a transfer tank, in the transfer tank, a pre-activation guide mechanism that holds both sides of a transfer film, which is supplied with the center position matching the center of the transfer tank, at horizontally equivalent positions of the transfer tank and guides the transfer film to an activation area is disposed. Accordingly, the film is urged to swell up in the thickness direction of the film while the transfer film is held, and, in the activation area, the transfer film is coated with an activating agent in a state in which the guide action of the transfer film using the pre-activation guide mechanism is cancelled.
    • 一个目的是开发一种新的活化法和液压转印技术中,这些都对前提做了转印膜供给到转印液体的表面上,然后被激活时,能够连续地执行精确的传输。 。根据本发明,在通过从转印槽的上侧按压上述目的,在转印槽上形成的物体的表面上的适当的转印图案,一个活化前引导机构做保持的转印膜的bothsides ,所有这一切都被供给具有匹配转印槽的中心的中心位置,在转印槽的水平等同位置和引导转印膜以在激活区域被设置。 因此,膜被推动而转印膜被保持在薄膜的厚度方向膨胀起来,并在活化区域中,转印膜在哪个活化剂中的状态转移的导向作用涂有 使用活化前引导机构影片被取消。
    • 7. 发明公开
    • SURFACE TREATMENT AGENT FOR HYDRAULIC TRANSFER, AND HYDRAULIC TRANSFER METHOD AND HYDRAULIC TRANSFER PRODUCTS USING SAME
    • 表面处理剂用于输液压传动的过程和电力传输的产品,
    • EP2664461A1
    • 2013-11-20
    • EP12749456.5
    • 2012-02-15
    • Taica Corporation
    • MIYAKAWA, KenichiAZUMA, Shunichi
    • B44C1/175
    • C09D123/28B44C1/1758C08G18/6275C08G18/721C08G18/725C08G18/7664C08G18/7671C08G18/776C08G18/7831C08G18/792C09D11/00C09D123/26C09D175/04Y10T428/24802Y10T428/24851Y10T428/31551Y10T428/31587C08L75/04
    • There is provided are a surface treatment agent for hydraulic transfer that is capable of performing hydraulic transfer decoration with high adhesion onto an olefin-type substrate with poor adhesion, which is an object to be transferred, in a hydraulic transfer method; and the hydraulic transfer method and hydraulic transfer products using the same. They are provided by a surface treatment agent for hydraulic transfer to a polyolefin-type substrate to be used in a hydraulic transfer method for forming a decorative layer, by coating an activator to a dried print pattern on a water-soluble film to recover adhesion of said print pattern, and then by hydraulic transferring said print pattern onto the surface of a surface treatment layer of the polyolefin-type substrate treated with the surface treatment agent, characterized in that said surface treatment agent for hydraulic transfer is consisted of a resin composition including a modified polyolefin (a), a polyfunctional isocyanate (b) and a solvent (c), and a blending ratio of the polyfunctional isocyanate (b) relative to the modified polyolefin (a) is 0.005 to 0.5, in weight ratio, (b/a), together with the hydraulic transfer method and hydraulic transfer products using the same, etc.
    • 本发明提供有表面处理剂对液压转印所做的是能够以高的粘附进行水压转印装饰到具有粘合性差烯烃型衬底的,在所有这是待传递物体,在液压转印法; 和液压转印方法和液压转印制品使用相同的。 它们通过表面处理剂用于液压转印到在用于形成装饰层的液压转印方法中使用的聚烯烃型衬底,通过活化剂的涂层干燥的印刷图案上的水溶性薄膜,以回收粘附提供 上述印刷图案,然后通过到具有上述表面处理剂,在所述表面处理剂为水压转印为特征的处理的聚烯烃类基材的表面处理层的表面液压转印环在所述印刷图案由一种树脂组合物,包括 改性聚烯烃(a),多官能异氰酸酯(b)和溶剂(C)和多官能异氰酸酯的混合比(b)相对于所述改性聚烯烃(a)为0.005〜0.5,以重量比计,(b / a)中,一起与液压转印方法和液压转印制品使用相同的等
    • 9. 发明公开
    • METHOD FOR COLLECTING LIQUID SURFACE RESIDUAL FILM, LIQUID PRESSURE TRANSFER METHOD USING SAME, COLLECTION DEVICE THEREFOR, AND LIQUID PRESSURE TRANSFER DEVICE USING SAME
    • 佛罗里达州
    • EP2495109A1
    • 2012-09-05
    • EP10826768.3
    • 2010-10-27
    • Taica Corporation
    • YOSHII, YouichiroSUZUKI, EijiUSHIWATA, Sakae
    • B44C1/175B41F16/00
    • B44C1/175B41F16/006B44C1/1758Y10T137/0318Y10T137/85978
    • It is an object to develop a novel method for collecting a liquid surface residual film and a method for transferring liquid pressure having a relatively simple structure at a low cost without adversely affecting a transfer film existing at a transfer position.
      The present invention relates to a method for collecting a liquid surface residual film floating on the surface of the liquid after transfer, and a transfer tank includes a film holding mechanism, provided at inner sides of both right and left side walls, for holding both sides of the transfer film and conveying the transfer film to an immersion area, and when a film, that is no longer needed after the transfer, is collected, dividing means divides the liquid surface residual film so as to split the liquid surface residual film in a longitudinal direction of the transfer tank before the object is removed from the transfer liquid, and the divided films are moved closer to the both side walls of the transfer tank. At the side wall portions, an action of holding the film by the film holding mechanism is cancelled, and from this cancelled portion, the divided liquid surface residual films are discharged out of the transfer tank.
    • 本发明的目的是开发用于收集液面残留膜的新颖方法和以低成本转移具有相对简单结构的液压的方法,而不会对存在于转印位置的转印膜产生不利影响。 本发明涉及一种用于收集在转印后液面漂浮的液面残留膜的方法,并且转印罐包括设置在左右两侧壁的内侧的胶片保持机构,用于保持两侧 的转印膜,并将转印膜输送到浸渍区域,并且当收集转印后不再需要的膜时,分割装置分割液面残留膜,以将液面残留膜分割成 在将物体从转印液体中取出之前转印罐的纵向方向,并且分离的膜移动到更接近转印罐的两个侧壁。 在侧壁部分,由胶片保持机构保持胶片的动作被取消,并且从该取消部分分离的液面残留膜从转印罐中排出。
    • 10. 发明公开
    • METHOD OF HYDRAULIC TRANSFER, PRODUCT OF HYDRAULIC TRANSFER, AND COATING AGENT FOR HYDRAULIC TRANSFER FILM
    • 水轮发电机组油气变压器液压传动系统
    • EP2425987A1
    • 2012-03-07
    • EP10769823.5
    • 2010-04-30
    • Taica Corporation
    • IKEDA, WataruTOMIKI, Akiko
    • B44C1/175
    • B44C1/1752B44F7/00C09D11/101
    • A method of applying a surface decorative layer on a surface of an article by water pressure transfer in which transfer film 316 which has a print pattern 340 comprising a first area 312A having an ink layer and a second area 312B having no ink layer and has no whole surface pattern fixture layer formed thereon has an activating agent 320 applied onto the surface of the transfer film 316 to activate the ink and to collect a surplus portion of the activating agent in a convex form in the second area, and the water pressure transfer is performed while making a concave-convex reversal of the convex collection portions 320C of the activating agent in the second area 312B have a concave-convex reversal made on the surface of the article 10, the convex collection portions of the activating agent are shrunk and protruded when the print layer is hardened whereby a three-dimensional unevenness is imparted onto the surface of the article and the activating agent includes first photo-polymerization monomer of three or more functional groups, second photo-polymerization monomer of two functional groups and photo-polymerization initiator, said first and second photo-polymerization monomers being blended so as to be a whole volume shrinkage ratio of 10 to 20 % and a viscosity of 100 to 500 CPS..
    • 通过水压转印在表面装饰层上施加表面装饰层的方法,其中具有包括具有油墨层的第一区域312A和不具有油墨层的第二区域312B的印刷图案340的转印膜316 在其上形成的整个表面图案固定层具有施加到转印膜316的表面上的活化剂320,以激活墨水并且在第二区域中以凸形形式收集活化剂的剩余部分,并且水压转印 在第二区域312B中的活化剂的凸状收集部320C进行凹凸反转的同时,在制品10的表面上具有凹凸反转,活化剂的凸状收集部收缩并突出 当印刷层硬化从而在制品的表面上施加三维不均匀性时,活化剂包括第一次光聚合 在三官能团以上的单体,两官能团的第二光聚合单体和光聚合引发剂中,将所述第一和第二光聚合单体混合成整体体积收缩率为10〜20%,将 粘度为100〜500 CPS ..