IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0444633
(1999-11-22)
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발명자
/ 주소 |
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출원인 / 주소 |
- Kimberly-Clarke Worldwide, Inc.
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대리인 / 주소 |
Gage, Thomas H.Kubicki, M. Michael
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인용정보 |
피인용 횟수 :
29 인용 특허 :
175 |
초록
▼
A disposable absorbent article includes a fastening system that can be repeatedly fastened, unfastened and refastened. The fastening components have interior corners near the leg openings and disposed toward the longitudinal and transverse center of the absorbent article that are recessed to avoid p
A disposable absorbent article includes a fastening system that can be repeatedly fastened, unfastened and refastened. The fastening components have interior corners near the leg openings and disposed toward the longitudinal and transverse center of the absorbent article that are recessed to avoid possible irritation of the wearer's skin.
대표청구항
▼
A disposable absorbent article includes a fastening system that can be repeatedly fastened, unfastened and refastened. The fastening components have interior corners near the leg openings and disposed toward the longitudinal and transverse center of the absorbent article that are recessed to avoid p
A disposable absorbent article includes a fastening system that can be repeatedly fastened, unfastened and refastened. The fastening components have interior corners near the leg openings and disposed toward the longitudinal and transverse center of the absorbent article that are recessed to avoid possible irritation of the wearer's skin. esponse to energizing said winding; a housing comprising a first member having a guide track, said housing further having a unitary, second member defining a cavity adapted to receive said winding, said housing cavity having a length at least as long as said winding length, said housing second member further having an opening at one end and adapted to receive said housing first member wherein said first member guide track extends at least partially into said winding magnetic field generation area, said housing second member further having a guide track aligned with the first member guide track; an armature slidingly received in said housing first member guide track, said armature being adapted to slide along said first member guide track in response to a magnetic field generated in said magnetic field generation area; and a push member slidingly received in said housing second member guide track and positioned to be engaged by said armature and to slide along said second member guide track in response to engagement by said armature, wherein said armature has an engagement face and said push member has an engagement face positioned to be engaged by said armature engagement face, wherein the width of said push member engagement face is at least 40% of the width of said armature engagement face, and wherein the area of said push member engagement face is approximately 41% of the area of said armature engagement face. 9. A motor for a medication pump, comprising: an energizable winding having a length and defining a magnetic field generation area adjacent said winding wherein a magnetic field is generated in said magnetic field generation area in response to energizing said winding; a housing comprising a first member having a guide track, said housing further having a unitary, second member defining a cavity adapted to receive said winding, said housing cavity having a length at least as long as said winding length, said housing second member further having an opening at on end and adapted to receive said housing first member wherein said first member guide track extends at least partially into said winding magnetic field generation area, said housing second member further having a guide track aligned with the first member guide track; an armature slidingly received in said housing first member guide track, said armature being adapted to slide long said first member guide track in response to a magnetic field generated in said magnetic field generation area; and a push member slidingly received in said housing second member guide track and positioned to be engage by said armature and to slide along said second member guide track in response to engagement by said armature, wherein said armature has a stem portion which is slidingly received in said first member guide track and a head portion which has an engagement face positioned to engage said push member, wherein said armature head portion is wider than said armature stem portion and has a length equal to at least 10% of said winding length. 10. The motor of claim 9, wherein said armature head portion has a length which is approximately 20% of said winding length. 11. A motor for a medication pump, comprising: an energizable winding having a length and defining a magnetic field generation area adjacent said winding wherein a magnetic field is generated in said magnetic field generation area in response to energizing said winding; a housing comprising a first member having a guide track, said housing further having a unitary, second member defining a cavity adapted to receive said winding, said housing cavity having a length at least as long as said winding length, said housing second member further having an opening at one end and adapted to receive said housing first member wherein said first member guide track extends at least partially into said winding magnetic field generation area, said housing second member further having a guide track aligned with the f irst member guide track; an armature slidingly received in said housing first member guide track, said armature being adapted to slide along said first member guide track in response to a magnetic field generated in said magnetic field generation area; and a push member slidingly received in said housing second member guide track and positioned to be engaged by said armature and to slide along said second member guide track in response to engagement by said armature, wherein said armature has a stem portion which is slidingly received in said first member guide track and a head portion which has an engagement face positioned to engage said push member wherein said armature head portion has a cross-sectional area between 35 and 63% larger than the cross-sectional area of said armature stem portion. 12. The motor of claim 11, wherein said armature head portion has a cross-sectional area which is approximately 45% larger than the cross-sectional area of said armature stem portion. 13. A motor for a medication pump, comprising: an energizable winding having a length and defining a magnetic field generation area adjacent said winding wherein a magnetic field is generated in said magnetic field generation area in response to energizing said winding; a housing comprising a first member having a guide track, said housing further having a unitary, second member defining a cavity adapted to receive said winding, said housing cavity having a length at least as long as said winding length, said housing second member further having an opening at one end and adapted to receive said housing first member wherein said first member guide track extends at least partially into said winding magnetic field generation area, said housing second member further having a guide track aligned with the first member guide track; an armature slidingly received in said housing first member guide track, said armature being adapted to slide along said first member guide track in response to a magnetic field generated in said magnetic field generation area; and a push member slidingly received in said housing second member guide track and positioned to be engaged by said armature and to slide along said second member guide track in response to engagement by said armature, wherein said armature stem portion has an engagement surface and said first member guide track has an engagement surface positioned to engage said armature stem portion engagement surface and each engagement surface has a surface roughness of 8-12 microns. 14. A motor for a medication pump, comprising: an energizable winding having a length and defining a magnetic field generation area adjacent said winding wherein a magnetic field is generated in said magnetic field generation area in response to energizing said winding; a housing comprising a first member having a guide track, said housing further having a unitary, second member defining a cavity adapted to receive said winding, said housing cavity having a length at least as long as said winding length, said housing second member further having an opening at one end and adapted to receive said housing first member wherein said first member guide track extends at least partially into said winding magnetic field generation area, said housing second member further having a guide track aligned with the first member guide track; an armature slidingly received in said housing first member guide track, said armature being adapted to slide along said first member guide track in response to a magnetic field generated in said magnetic field generation area; and a push member slidingly received in said housing second member guide track and positioned to be engaged by said armature and to slide along said second member guide track in response to engagement by said armature, wherein said armature has an engagement face and said push member has an engagement face positioned to be engaged by said armature engagement face, wherein the widt
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