IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0183109
(2002-06-26)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Bridgeport Fittings, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
36 인용 특허 :
5 |
초록
▼
By providing two integrated components, an outer housing and an inner sleeve member, with the inner sleeve member being securely mounted to the outer housing in a manner which prevents its separation from the housing, an efficient, easily manufactured and assembled cable connector is realized. In th
By providing two integrated components, an outer housing and an inner sleeve member, with the inner sleeve member being securely mounted to the outer housing in a manner which prevents its separation from the housing, an efficient, easily manufactured and assembled cable connector is realized. In the preferred embodiment, the inner sleeve member is press fitted into the housing in order to provide the desired secure, integrated affixation of these components. Furthermore, the inner sleeve member is constructed in a generally hollow cylindrical shape with at least two arm members integrally formed therewith, each of which angularly slopes inwardly from the cylindrical wall of the sleeve member, and comprises a distal end portion which is angularly disposed relative to the arm member in at least one direction and preferably in two directions.
대표청구항
▼
By providing two integrated components, an outer housing and an inner sleeve member, with the inner sleeve member being securely mounted to the outer housing in a manner which prevents its separation from the housing, an efficient, easily manufactured and assembled cable connector is realized. In th
By providing two integrated components, an outer housing and an inner sleeve member, with the inner sleeve member being securely mounted to the outer housing in a manner which prevents its separation from the housing, an efficient, easily manufactured and assembled cable connector is realized. In the preferred embodiment, the inner sleeve member is press fitted into the housing in order to provide the desired secure, integrated affixation of these components. Furthermore, the inner sleeve member is constructed in a generally hollow cylindrical shape with at least two arm members integrally formed therewith, each of which angularly slopes inwardly from the cylindrical wall of the sleeve member, and comprises a distal end portion which is angularly disposed relative to the arm member in at least one direction and preferably in two directions. 1. Extendible solar generator having an extendible solar cell structure, and an extendible support array structure which has a first cross member and is connected with a stowage housing for the solar cell structure, wherein the support array structure is extendible independently of the solar cell structure and has guiding devices for extending the solar cell structure after the extension of the support array structure has taken place, wherein the guiding devices include a second cross member which is connected with the solar cell structure and is longitudinally arranged with respect to the support array structure, and first guiding cables, and wherein the first cross member and the second cross member are connected at their ends by the first guiding cables. 2. Solar generator according to claim 1, wherein the first cross member is constructed as part of a lid unit and the second cross member is constructed as an intermediate bottom of the stowage housing for the solar cell structure. 3. Solar generator according to claim 2, wherein the stowage housing is constructed such that part elements of the extendible support array structure in a closed condition of the stowage housing are braced under prestress between the first cross member and the second cross member. 4. Solar generator according to claim 1, wherein the solar cell structure is connected with additional guiding cables mounted between the second cross member and the stowage housing. 5. Solar generator according to claim 2, wherein the solar cell structure is connected with additional guiding cables mounted between the second cross member and the stowage housing. 6. Solar generator according to claim 3, wherein the solar cell structure is connected with additional guiding cables mounted between the second cross member and the stowage housing. 7. Solar generator according to claim 1, wherein the solar cell structure is arranged in several individual layers above one another and elastic separating foils are arranged between the individual layers. 8. Solar generator according to claim 2, wherein the solar cell structure is arranged in several individual layers above one another and elastic separating foils are arranged between the individual layers. 9. Solar generator according to claim 3, wherein the solar cell structure is arranged in several individual layers above one another and elastic separating foils are arranged between the individual layers. 10. Solar generator according to claim 4, wherein the solar cell structure is arranged in several individual layers above one another and elastic separating foils are arranged between the individual layers. 11. Solar generator according to claim 3, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements. 12. Solar generator according to claim 4, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements. 13. Solar generator according to claim 7, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements. 14. Solar generator according to claim 10, wherein the su pport array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements. 15. Solar generator according to claim 11, wherein the part elements consist of an elastic material. 16. Solar generator according to claim 12, wherein the part elements consist of an elastic material. 17. Solar generator according to claim 13, wherein the part elements consist of an elastic material. 18. Solar generator according to claim 14, wherein the part elements consist of an elastic material. 19. Solar generator according to claim 11, wherein the part elements consist of a carbon fiber material. 20. Solar generator according to claim 12, wherein the part elements consist of a carbon fiber material. 21. Solar generator according to claim 13, wherein the part elements consist of a carbon fiber material. 22. Solar generator according to claim 14, wherein the part elements consist of a carbon fiber material. 23. Solar generator according to claim 11, wherein the part elements are constructed as tube elements. 24. Extendible solar generator having an extendible solar cell structure, and an extendible support array structure which has a first cross member and is connected with a stowage housing for the solar cell structure, wherein the support array structure is extendible independently of the solar cell structure and has guiding devices for extending the solar cell structure after the extension of the support array structure has taken place, wherein the guiding devices include a second cross member which is connected with the solar cell structure and is longitudinally arranged with respect to the support array structure, and first guiding cables, wherein the first cross member and the second cross member are connected at their ends by the first guiding cables, wherein the first cross member is constructed as part of a lid unit and the second cross member is constructed as an intermediate bottom of the stowage housing for the solar cell structure, wherein the stowage housing is constructed such that part elements of the extendible support array structure in a closed condition of the stowage housing are braced under prestress between the first cross member and the second cross member, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements, and wherein a first of the part elements is connected at a first end with an end of a second of the part elements and at a second end with ends of third, fourth and fifth part elements. 25. Solar generator according to claim 24, wherein the part elements consist of an elastic material. 26. Solar generator according to claim 24, wherein the part elements consist of a carbon fiber material. 27. Extendible solar generator having an extendible solar cell structure, and an extendible support array structure which has a first cross member and is connected with a fly stowage housing for the solar cell structure, wherein the support array structure is extendible independently of the solar cell structure and has guiding devices for extending the solar cell structure after the extension of the support array structure has taken place, wherein the guiding devices include a second cross member which is connected with the solar cell structure and is longitudinally arranged with respect to the support array structure, and first guiding cables, where in the first cross member and the second cross member are connected at their ends by the first guiding cables, wherein the solar cell structure is connected with additional guiding cables mounted between the second cross member and the stowage housing, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements, and wherein a first of the part elements is connected at a first end with an end of a second of the part elements and at a second end with ends of third, fourth and fifth part elements. 28. Extendible solar generator having an extendible solar cell structure, and an extendible support array structure which has a first cross member and is connected with a stowage housing for the solar cell structure, wherein the support array structure is extendable independently of the solar cell structure and has guiding devices for extending the solar cell structure after the extension of the support array structure has taken place, wherein the solar cell structure is arranged in several individual layers above one another and elastic separating foils are arranged between the individual layers, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements, and wherein a first of the part elements is connected at a first end with an end of a second of the part elements and at a second end with ends of third, fourth and fifth part elements. 29. Extendible solar generator having an extendible solar cell structure, and an extendible support array structure which has a first cross member and is connected with a stowage housing for the solar cell structure, wherein the support array structure is extendible independently of the solar cell structure and has guiding devices for extending the solar cell structure after the extension of the support array structure has taken place, wherein the guiding devices include a second cross member which is connected with the solar cell structure and is longitudinally arranged with respect to the support array structure, and first guiding cables, wherein the first cross member and the second cross member are connected at their ends by the first guiding cables, wherein the solar cell structure is connected with additional guiding cables mounted between the second cross member and the stowage housing, wherein the solar cell structure is arranged in several individual layers above one another and elastic separating foils are arranged between the individual layers, wherein the support array structure comprises several mutually connected part elements, the part elements being formed by tube elements which are reversibly deformable such that a change of a cross-sectional surface of the part elements takes place perpendicularly to their longitudinal dimension and the part elements are connected with one another at their ends by elastic elements, and wherein a first of the part elements is connected at a first end with an end of a second of the part elements and at a second end with ends of third, fourth and fifth part elements. 30. Extendible solar generator having an extendible solar cell structure, and an extendible support array structure which has a first cross member and is connected with a stowage housing for the solar cell structure, wherein the support array structure is extendible independently of the solar cell structure and has guiding devic
※ AI-Helper는 부적절한 답변을 할 수 있습니다.