| 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 | 具有抗拉构件的仿形流体填充室的制造方法 | CN201180023228.7 | 2011-04-07 | CN103025188A | 2013-04-03 | 道格拉斯·艾伦·贝耶; 本杰明·约瑟夫·孟菲尔斯 |
| 流体填充室可以包括上阻挡物部分、下阻挡物部分和抗拉构件。抗拉构件的上抗拉层可以被固定到上阻挡物部分,且抗拉构件的下抗拉层可以被固定到下阻挡物部分。上阻挡物部分和下阻挡物部分可以具有第一区和第二区。第一区可以是延伸到室中的凹进部分,且第二区可以是从室向外延伸的突出部分。第一区的至少一部分可以不与上阻挡物部分和下阻挡物部分结合。因此,可以改变室的一种或多种性质,比如柔性、硬度、刚度、拉伸响应、压缩性或力衰减性能。 | ||||||
| 2 | 具有抗拉构件的仿形流体填充室的制造方法 | CN201510097353.2 | 2011-04-07 | CN104705906A | 2015-06-17 | 道格拉斯·艾伦·贝耶; 本杰明·约瑟夫·孟菲尔斯 |
| 本发明涉及具有抗拉构件的仿形流体填充室的制造方法。流体填充室可以包括上阻挡物部分、下阻挡物部分和抗拉构件。抗拉构件的上抗拉层可以被固定到上阻挡物部分,且抗拉构件的下抗拉层可以被固定到下阻挡物部分。上阻挡物部分和下阻挡物部分可以具有第一区和第二区。第一区可以是延伸到室中的凹进部分,且第二区可以是从室向外延伸的突出部分。第一区的至少一部分可以不与上阻挡物部分和下阻挡物部分结合。因此,可以改变室的一种或多种性质,比如柔性、硬度、刚度、拉伸响应、压缩性或力衰减性能。 | ||||||
| 3 | 具有抗拉构件的仿形流体填充室的制造方法 | CN201510097353.2 | 2011-04-07 | CN104705906B | 2017-12-05 | 道格拉斯·艾伦·贝耶; 本杰明·约瑟夫·孟菲尔斯 |
| 本发明涉及具有抗拉构件的仿形流体填充室的制造方法。流体填充室可以包括上阻挡物部分、下阻挡物部分和抗拉构件。抗拉构件的上抗拉层可以被固定到上阻挡物部分,且抗拉构件的下抗拉层可以被固定到下阻挡物部分。上阻挡物部分和下阻挡物部分可以具有第一区和第二区。第一区可以是延伸到室中的凹进部分,且第二区可以是从室向外延伸的突出部分。第一区的至少一部分可以不与上阻挡物部分和下阻挡物部分结合。因此,可以改变室的一种或多种性质,比如柔性、硬度、刚度、拉伸响应、压缩性或力衰减性能。 | ||||||
| 4 | 具有抗拉构件的仿形流体填充室的制造方法 | CN201180023228.7 | 2011-04-07 | CN103025188B | 2015-10-07 | 道格拉斯·艾伦·贝耶; 本杰明·约瑟夫·孟菲尔斯 |
| 流体填充室可以包括上阻挡物部分、下阻挡物部分和抗拉构件。抗拉构件的上抗拉层可以被固定到上阻挡物部分,且抗拉构件的下抗拉层可以被固定到下阻挡物部分。上阻挡物部分和下阻挡物部分可以具有第一区和第二区。第一区可以是延伸到室中的凹进部分,且第二区可以是从室向外延伸的突出部分。第一区的至少一部分可以不与上阻挡物部分和下阻挡物部分结合。因此,可以改变室的一种或多种性质,比如柔性、硬度、刚度、拉伸响应、压缩性或力衰减性能。 | ||||||
| 5 | METHOD OF MANUFACTURING A CONTOURED FLUID-FILLED CHAMBER WITH A TENSILE MEMBER | EP11722211.7 | 2011-04-07 | EP2568843A1 | 2013-03-20 | BEYE, Douglas, Alan; MONFILS, Benjamin, Joseph |
| A fluid-filled chamber may include an upper barrier portion, a lower barrier portion, and a tensile member. An upper tensile layer of the tensile member may be secured to the upper barrier portion, and a lower tensile layer of the tensile member may be secured to the lower barrier portion. The upper barrier portion and the lower barrier portion may have first areas and second areas. The first areas may be indentations extending into the chamber, and the second areas may be protrusions extending outward from the chamber. At least a portion of the first areas may be unbonded with the upper barrier portion and the lower barrier portion. Accordingly, one or more properties of the chamber, such as a flexibility, stiffness, rigidity, tensile response, compressibility, or force attenuation property, may be altered. | ||||||
| 6 | METHOD OF MANUFACTURING A CONTOURED FLUID-FILLED CHAMBER WITH A TENSILE MEMBER | EP11722211.7 | 2011-04-07 | EP2568843B1 | 2018-06-06 | BEYE, Douglas Alan; MONFILS, Benjamin Joseph |
| A fluid-filled chamber may include an upper barrier portion, a lower barrier portion, and a tensile member. An upper tensile layer of the tensile member may be secured to the upper barrier portion, and a lower tensile layer of the tensile member may be secured to the lower barrier portion. The upper barrier portion and the lower barrier portion may have first areas and second areas. The first areas may be indentations extending into the chamber, and the second areas may be protrusions extending outward from the chamber. At least a portion of the first areas may be unbonded with the upper barrier portion and the lower barrier portion. Accordingly, one or more properties of the chamber, such as a flexibility, stiffness, rigidity, tensile response, compressibility, or force attenuation property, may be altered. | ||||||
| 7 | Method Of Manufacturing A Contoured Fluid-Filled Chamber With A Tensile Member | US12778921 | 2010-05-12 | US20110277916A1 | 2011-11-17 | Douglas Alan Beye; Benjamin Joseph Monfils |
| A fluid-filled chamber may include an upper barrier portion, a lower barrier portion, and a tensile member. An upper tensile layer of the tensile member may be secured to the upper barrier portion, and a lower tensile layer of the tensile member may be secured to the lower barrier portion. The upper barrier portion and the lower barrier portion may have first areas and second areas. The first areas may be indentations extending into the chamber, and the second areas may be protrusions extending outward from the chamber. At least a portion of the first areas may be unbonded with the upper barrier portion and the lower barrier portion. Accordingly, one or more properties of the chamber, such as a flexibility, stiffness, rigidity, tensile response, compressibility, or force attenuation property, may be altered. | ||||||
| 8 | Adhesive applying mechanisms | US56357266 | 1966-07-07 | US3304563A | 1967-02-21 | JOHN FINO MICHAEL |
| 9 | Heel breasting method | US32171463 | 1963-10-04 | US3276058A | 1966-10-04 | HARRINGTON JOHN A; BROERSMA ROBERT J; RUNNELLS JR DAVID L; JOHNSON CLARENCE L |
| 10 | Pressure pad assembly for shoe press | US10437161 | 1961-04-20 | US3090056A | 1963-05-21 | WERNER LORENZ |
| 11 | Machines for trimming and skiving heel breast covering flaps | US67984657 | 1957-08-23 | US2937388A | 1960-05-24 | CLIFFORD BARTON GEORGE |
| 12 | Art of making shoes | US2127025 | 1925-04-07 | US1782759A | 1930-11-25 | KELLY JOHN A |
| 13 | Manufacture of shoes | US65915023 | 1923-08-24 | US1740448A | 1929-12-24 | BAZZONI LEWIS J |
| 14 | Heel breasting and pressing machine | US33595229 | 1929-01-29 | US1738533A | 1929-12-10 | HARTWELL BENJAMIN F |
| 15 | Wood-heel-breast-flap layer | US70705624 | 1924-04-17 | US1576998A | 1926-03-16 | ATTILIO SEBASTIANI |
| 16 | Heel binder | US49682221 | 1921-08-30 | US1424609A | 1922-08-01 | WILLIAM WOOD EDWARD |
| 17 | Method of Manufacturing A Contoured Fluid-Filled Chamber With A Tensile Member | US13907141 | 2013-05-31 | US20130333827A1 | 2013-12-19 | Douglas A. Beye; Benjamin J. Monfils |
| A fluid-filled chamber may include an upper barrier portion, a lower barrier portion, and a tensile member. An upper tensile layer of the tensile member may be secured to the upper barrier portion, and a lower tensile layer of the tensile member may be secured to the lower barrier portion. The upper barrier portion and the lower barrier portion may have first areas and second areas. The first areas may be indentations extending into the chamber, and the second areas may be protrusions extending outward from the chamber. At least a portion of the first areas may be unbonded with the upper barrier portion and the lower barrier portion. Accordingly, one or more properties of the chamber, such as a flexibility, stiffness, rigidity, tensile response, compressibility, or force attenuation property, may be altered. | ||||||
| 18 | Method of manufacturing a contoured fluid-filled chamber with a tensile member | US12778921 | 2010-05-12 | US08470113B2 | 2013-06-25 | Douglas Alan Beye; Benjamin Joseph Monfils |
| A fluid-filled chamber may include an upper barrier portion, a lower barrier portion, and a tensile member. An upper tensile layer of the tensile member may be secured to the upper barrier portion, and a lower tensile layer of the tensile member may be secured to the lower barrier portion. The upper barrier portion and the lower barrier portion may have first areas and second areas. The first areas may be indentations extending into the chamber, and the second areas may be protrusions extending outward from the chamber. At least a portion of the first areas may be unbonded with the upper barrier portion and the lower barrier portion. Accordingly, one or more properties of the chamber, such as a flexibility, stiffness, rigidity, tensile response, compressibility, or force attenuation property, may be altered. | ||||||
| 19 | Back part molding machine with improved cement activating means | US48846165 | 1965-09-20 | US3360815A | 1968-01-02 | FORMA JAMES L |
| 20 | Backpart molding machines | US37769264 | 1964-06-24 | US3325840A | 1967-06-20 | BARTON GEORGE C; STAPLETON PETER L |
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