| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN201610286862.4 | 2007-02-16 | CN105946253A | 2016-09-21 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 2 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN201310130012.1 | 2007-02-16 | CN103206168A | 2013-07-17 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 3 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN200710080283.5 | 2007-02-16 | CN101025074B | 2013-05-22 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 4 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN201310130012.1 | 2007-02-16 | CN103206168B | 2016-06-01 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 5 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN201310130024.4 | 2007-02-16 | CN103174376B | 2016-06-01 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 6 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN201310130024.4 | 2007-02-16 | CN103174376A | 2013-06-26 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 7 | 具有增加的耐气候老化性的玻璃纤维加强型塑料产品、系统及方法 | CN200710080283.5 | 2007-02-16 | CN101025074A | 2007-08-29 | 詹姆斯·文森特·高谢尔; 阿利森·斯特赖特·克拉珀; 胡安·安东尼奥·里韦拉; 哈罗德·卡尔·皮拉内奥 |
| 本发明涉及攀登产品,其包含使用经上色、图案化、涂漆的遮盖物产品或结合标注诸如公司名称和徽标的标注方法装饰的扶手及经设计以耐受UV辐射暴露而仅有最小外观改变的树脂配方,所述攀登产品形成针对应用的特定外观、增强耐气候老化性能且促进处理效率。一种一无填充剂树脂与经涂覆遮盖物系统的组合,其用于形成一用于攀登产品的具有自含颜色、图案、图片、徽标或其组合的协合耐气候老化表面。一种用于生产组件的系统。各种方法,系统,一种梯子扶手。 | ||||||
| 8 | Method of making a rigid structure | EP90303312.4 | 1990-03-28 | EP0390535B1 | 1995-08-30 | Symons, Michael Windsor |
| 9 | Light-curing hollow structure and curing method thereof | JP2001208091 | 2001-07-09 | JP3615161B2 | 2005-01-26 | 哲也 中村 |
| 10 | Photo-curing hollow structure and method for curing the same | JP2001208091 | 2001-07-09 | JP2003020821A | 2003-01-24 | NAKAMURA TETSUYA |
| PROBLEM TO BE SOLVED: To provide a photo-curing hollow structure which minimizes deviation of a photo-curing resin due to the gravity thereof, to thereby form a predetermined shape according to an object. SOLUTION: The photo-curing hollow structure is formed of an inner bag layer 2 into which fluid is injected, a base layer 3 superposed on the periphery of the inner bag layer 2 and impregnated with the photo-curing resin, and a cover layer 4 superposed on the periphery of the base layer 3 and having translucency. When the photo- curing hollow structure is not used, the whole structure is stored in a storage bag or a case having flexibility and light blocking effect. In service, however, it is taken out of the storage bag or the case, and by injecting the fluid into the inner bag layer, the whole structure is inflated. Then, the base layer 3 is cured by direct sunlight or artificial illuminant light transmitted through the cover layer 4, whereby the hollow structure is molded into a hollow molded product of the predetermined shape. According to the photo-curing hollow structure, the base layer 3 is comprised of a composite member 9 as a reinforced fiber layer impregnated with the photo-curing resin, and a lattice net 10 superposed on the composite member 9, for preventing flow of the photo-curing resin. | ||||||
| 11 | Fiberglass reinforced plastic products having increased weatherability, system and method | US13857731 | 2013-04-05 | US10077600B2 | 2018-09-18 | Richard M. Kelly |
| Climbing products containing rails decorated using veil products colored, patterned, painted or in combination with marking methods such as company names and logos and resin formulation designed to withstand exposure to UV radiation with minimal change in appearance which create specific appearances for applications, enhance weathering performance, and facilitate processing efficiency. A combination of a filler free resin and coated veil systems to create a synergistic weather resistance surface with self contained color, pattern, picture, logo or combination of said same for climbing products. A system for producing components. Various methods, system, a ladder rail. | ||||||
| 12 | Fiberglass reinforced plastic products having increased weatherability, system and method | US11699254 | 2007-01-29 | US09266289B2 | 2016-02-23 | James Vincent Gauchel; Allison Stright Clapper; Juan Antonio Rivera; Harold Carl Piraneo |
| Climbing products containing rails decorated using veil products colored, patterned, painted or in combination with marking methods such as company names and logos and resin formulation designed to withstand exposure to UV radiation with minimal change in appearance which create specific appearances for applications, enhance weathering performance, and facilitate processing efficiency. A combination of a filler free resin and coated veil systems to create a synergistic weather resistance surface with self contained color, pattern, picture, logo or combination of said same for climbing products. A system for producing components. Various methods, system, a ladder rail. | ||||||
| 13 | Fiberglass Reinforced Plastic Products Having Increased Weatherability, System and Method | US13857731 | 2013-04-05 | US20130213739A1 | 2013-08-22 | Richard M. Kelly |
| Climbing products containing rails decorated using veil products colored, patterned, painted or in combination with marking methods such as company names and logos and resin formulation designed to withstand exposure to UV radiation with minimal change in appearance which create specific appearances for applications, enhance weathering performance, and facilitate processing efficiency. A combination of a filler free resin and coated veil systems to create a synergistic weather resistance surface with self contained color, pattern, picture, logo or combination of said same for climbing products. A system for producing components. Various methods, system, a ladder rail. | ||||||
| 14 | Blow Molded Plastic Interconnection Having a Receiving Section and a Locking Section | US12193828 | 2008-08-19 | US20100044152A1 | 2010-02-25 | Daid J. Lipniarski |
| A blow-molded plastic female interconnection system has a receiving section and a locking section. The receiving section receives a male interconnect. The receiving section has a floor aperture shaped to allow the corresponding male interconnect be pushed into the locking section. The floor aperture can have various shapes depending on the shape of the male interconnect. Within the receiving section is a locking projection on the receiving section's back wall and the locking projection has a bottom section that defines a portion of the ceiling of the locking section which has no back wall. When the male interconnect is being pushed into the locking section, the locking projection deforms due to the locking sections no back wall. When the male interconnect is below the locking projection, the locking projection bottom section is positioned on the male interconnect to securely interconnect the male and female units. | ||||||
| 15 | Photo-curing hollow structure | US10747161 | 2003-12-30 | US07175894B2 | 2007-02-13 | Tetsuya Nakamura |
| The present invention comprises a fluid-injectable internal bag layer, a base-material layer superposed on an external periphery of the internal bag layer and impregnated with a photo-curing resin, and an outer layer superposed on an external periphery of the base-material layer and having transparency. The base-material layer is formed of a composite member serving as a reinforcing fiber layer impregnated with the photo-curing resin, and a grid net superposed on the composite member and preventing flow of the photo-curing resin. | ||||||
| 16 | Photo-curing hollow structure and method of curing the same | US10747161 | 2003-12-30 | US20040175521A1 | 2004-09-09 | Tetsuya Nakamura |
| The present invention comprises a fluid-injectable internal bag layer, a base-material layer superposed on an external periphery of the internal bag layer and impregnated with a photo-curing resin, and an outer layer superposed on an external periphery of the base-material layer and having transparency. The base-material layer is formed of a composite member serving as a reinforcing fiber layer impregnated with the photo-curing resin, and a grid net superposed on the composite member and preventing flow of the photo-curing resin. | ||||||
| 17 | Blow molded railing section | US09877090 | 2001-06-11 | US20020023406A1 | 2002-02-28 | Fredrick M. Pettit; Laurie D. Higgins |
| The railing section includes an integral component defining an upper rail, a lower rail and a series of spindles or balusters or other screening or blocking structure therebetween which forms a structural connection between said rails. These components are interconnected by hollow cavities which can receive a reinforcing material. The railing section is preferrably made by blow molding and the upper and lower rails can receive structural members interior to the rails to improve the strength of the railing section. | ||||||
| 18 | Process for manufacturing a composite material ladder and ladder obtained with said process | US09844536 | 2001-04-27 | US20020003062A1 | 2002-01-10 | Alfonso Branca |
| A process for manufacturing ladders comprises the following steps: arranging a plurality of rungs (2) of a material comprising a plurality of reinforcing fibers (2a) associated with a binding resin (2b) and each having at least one coupling portion (2c); arranging at least one primary upright length (3), preferably of a material comprising a plurality of reinforcing fibers (3a) associated with a binding resin (3b); mechanically linking the coupling portions (2c) of the rungs (2) to corresponding engagement regions (3c) of the primary upright length (3). The linking step involves bringing at least one of the binding resins (2b, 3b) to the fluid phase at least close to the engagement regions (3c) and/or the coupling portions (2c). The binding resins (2b, 3b) are thermoplastic polymeric materials and the step of bringing the binding resins (2b, 3b) to the fluid phase takes place by melting of the binding resins (2b, 3b). The binding resins (2b, 3b) are chemically similar to each other and they are preferably identical with each other. | ||||||
| 19 | Method of making a wall-rung | US22852162 | 1962-10-05 | US3374532A | 1968-03-26 | HEINRICH ZENHAUSERN |
| 20 | Fiberglass Reinforced Plastic Products Having Increased Weatherability, System and Method | US15043147 | 2016-02-12 | US20160160563A1 | 2016-06-09 | James Vincent Gauchel; Allison Stright Clapper; Juan Antonio Rivera; Harold Carl Piraneo |
| Climbing products containing rails decorated using veil products colored, patterned, painted or in combination with marking methods such as company names and logos and resin formulation designed to withstand exposure to UV radiation with minimal change in appearance which create specific appearances for applications, enhance weathering performance, and facilitate processing efficiency. A combination of a filler free resin and coated veil systems to create a synergistic weather resistance surface with self-contained color, pattern, picture, logo or combination of said same for climbing products. A system for producing components. Various methods, system, a ladder rail. | ||||||
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