IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0282099
(2005-11-18)
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등록번호 |
US-7578006
(2009-09-08)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Louis Garneau Sports Inc.
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
23 인용 특허 :
7 |
초록
A cycling hand glove includes a main glove element having a palm surface; and a palm pad provided on the palm surface and having at least one aeration aperture therein exposing at least one of the main glove element and the hand of the cyclist inserted into the hand glove.
대표청구항
▼
What is claimed is: 1. A cycling hand glove comprising: a main glove element having perforation units defined therein and including a palm surface; and a palm pad provided on the palm surface, extending above a section of the main glove element, and having an outer layer and a padding layer extendi
What is claimed is: 1. A cycling hand glove comprising: a main glove element having perforation units defined therein and including a palm surface; and a palm pad provided on the palm surface, extending above a section of the main glove element, and having an outer layer and a padding layer extending between the outer layer and the main glove element, the palm pad having at least one uncovered aeration aperture therein exposing at least one of the perforation units of the main glove element and the hand of the cyclist inserted into the hand glove and extending continuously through the padding layer and the outer layer, a recessed border uniquely surrounding each of the at least one uncovered aeration aperture, the recessed border being formed of a compressed portion of the padding layer and a corresponding portion of the outer layer abutting the compressed portion, and a cushioning section being formed of an uncompressed portion of the padding layer that surrounds the recessed border, the outer layer matching the shape of the padding layer in the palm pad. 2. A cycling hand glove as claimed in claim 1, wherein the at least one aeration aperture exposes a section of the main glove element and the exposed section of the main glove element comprises mesh material with perforations therein. 3. A cycling hand glove as claimed in claim 1, wherein the at least one aeration aperture is defined by an inner edge of the palm pad with a closed figure shape. 4. A cycling hand glove as claimed in claim 1, wherein the cushioning section has a thickness ranging between 1 and 13 millimeters. 5. A cycling hand glove as claimed in claim 1, wherein the at least one aeration aperture comprises a plurality of aperture and the aeration apertures represent up to 50% of the surface of the palm pad including the aeration apertures. 6. A cycling hand glove as claimed in claim 1, wherein the at least one aeration aperture comprises a plurality of aperture and the aeration apertures represent between 10 and 40% of the surface of the palm pad including the aeration apertures. 7. A cycling hand glove as claimed in claim 1, wherein the diameter of the at least one aeration aperture ranges between 1 and 20 millimeters. 8. A cycling hand glove as claimed in claim 1, wherein the palm pad comprises at least one recessed moisture escape channel extending therein between at least one of the at least one aeration aperture and the exterior of the palm pad. 9. The cycling hand glove as claimed in claim 1 wherein the recessed border is thermoformed within a cushioning pad extending across the cushioning section and the recessed border. 10. A method to manufacture an athletic glove, the method comprising: mounting a cushioning pad having a cushioning section over a main body of the athletic glove, the cushioning pad including an outer layer and a padding layer extending between the outer layer and the main body, the padding layer having a thickness t1 in the cushioning section; thermoforming at least one recess section within the cushioning pad by applying heat and line pressure to the cushioning pad, the padding layer of the cushioning pad having a thickness t2, in the at least one recess section, thinner than the thickness t1 of the cushioning pad in the cushioning section, the padding layer defining at least one depression and at least one protuberance in the outer layer; and providing at least one perforation through the at least one recess section of the cushioning pad and the outer layer so as to expose the main body of the athletic glove when the cushioning pad is mounted thereto, the at least one perforation being uncovered by the outer layer. 11. A method as claimed in claim 10, comprising cutting the at least one perforation in the cushioning pad. 12. A method as claimed in claim 10, providing a recessed moisture exchange channel in the cushioning pad, the recessed moisture exchange channel extending between the at least one recess section and the exterior of the cushioning pad. 13. A method as claimed in claim 12, comprising thermoforming the moisture exchange channel by applying heat and line pressure on the cushioning pad between the at least one recess section and the perimeter of the cushioning pad. 14. An athletic glove comprising a glove body having a palm portion comprising an upper section and a lower section, the upper section being adjacent to fingers and the lower section being adjacent to a wrist when the glove is worn by a user, the palm portion having a mesh material having perforation units defined therein, and a cushion pad mounted to the mesh material of the palm portion, the cushion pad having an outer layer and a cushion extending between the outer layer and the mesh material, the cushion pad having at least one recess section uniquely surrounded by a cushioning section of the cushion pad, the recess section including a portion of the cushion in a compressed state and a corresponding portion of the outer layer abutting the compressed portion of the cushion, and the cushioning section including an uncompressed portion of the cushion, and an uncovered aeration aperture defined through the at least one recess section, extending continuously through the cushion and the outer layer, and exposing the perforation units of the mesh material, the outer layer corresponding in shape to the padding layer in the cushion pad. 15. The athletic glove of claim 14 wherein the at least one recess section is thermoformed within the cushion pad. 16. The athletic glove of claim 14 further comprising at least one recess channel defined within the cushion pad and interconnecting the at least one recess section with a perimeter of the cushion pad. 17. The athletic glove of claim 16 wherein the at least one recess channel is thermo formed within the cushion pad. 18. The athletic glove of claim 14 wherein the cushion is sandwiched between an outer polymer film and an inner polymer film. 19. The athletic glove of claim 14 wherein the cushion pad is mounted to the glove body by stitching. 20. The athletic glove of claim 14 wherein the cushion pad is in the lower section of the palm portion. 21. An athletic glove comprising: a main glove element, having perforation units defined therein, including a palm surface including an upper section, a lower section, and a central palm section extending between the lower and the upper sections, the upper section being adjacent to fingers and the lower section being adjacent to a wrist when the glove is worn by a user; a lower section cushion pad mounted to the main glove element in the lower section; and an upper section cushion pad mounted to the main glove element in the upper section, the central palm section being cushion pad free, the lower and upper section cushion pads having an outer layer and a padding layer extending between the outer layer and the main glove element, at least one of the lower and upper section cushion pads having at least one recess section surrounded by a cushioning section of the cushion pad, the recess section including a portion of the padding layer in a compressed state and a corresponding portion of the outer layer abutting the compressed portion of the padding layer, and the cushioning section including an uncompressed portion of the padding layer, and an uncovered aeration aperture uniquely defined through the at least one recess section, extending continuously through the cushion and the outer layer, and exposing at least one of the perforation units of the main glove element and a hand inserted into the glove, the padding layer defining at least one depression and at least one protuberance in the outer layer. 22. The athletic glove of claim 21 wherein the at least one recess section is thermoformed within the at least one cushion pad including the aeration aperture. 23. The athletic glove of claim 21 further comprising at least one recess channel defined within the at least one cushion pad including the aeration aperture and interconnecting the at least one recess section with a perimeter of the cushion pad. 24. The athletic glove of claim 23 wherein the at least one recess channel is thermoformed within the at least one cushion pad including the aeration aperture. 25. A glove, comprising: a glove material including a palm surface having air and moisture permeable perforations defined therein; and a cushioning pad, attached to the palm surface and being formed of an outer layer and a padding layer interposed between the outer layer and the palm surface, the cushioning pad including pads, in which the padding layer is uncompressed, and perimeter forming and at least one moisture escape channel recesses, in which the padding layer is compressed, wherein: an area of the pads is delimited by the perimeter forming recess and the at least one moisture escape channel recess, which is disposed within the perimeter, and each moisture escape channel recess is formed to define at least one aeration aperture within a region of which the air and moisture permeable perforations are uncovered by any component of the cushioning pad. 26. The glove according to claim 25, wherein the recesses are thinner than the pads. 27. The glove according to claim 25, wherein each moisture escape channel recess communicates with the perimeter forming recess.
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