IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0072647
(2008-02-27)
|
등록번호 |
US-8109776
(2012-02-07)
|
발명자
/ 주소 |
- Hughes, David Charles
- Augustia, Thomas
- Makal, John Mitchell
- Gebhard, Sr., Michael John
|
출원인 / 주소 |
- Cooper Technologies Company
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
191 |
초록
▼
Stiff and soft materials each provide certain advantages when used in the manufacture of separable insulated connectors, such as elbow and T-body connectors. Utilizing a shell or an insert that includes one section made from a stiff material and one section made from a soft material can provide a se
Stiff and soft materials each provide certain advantages when used in the manufacture of separable insulated connectors, such as elbow and T-body connectors. Utilizing a shell or an insert that includes one section made from a stiff material and one section made from a soft material can provide a separable insulated connector that capitalizes on the advantages associated with both types of materials. The stiff materials and soft materials can be placed strategically on the shell or insert of the separable insulated connector to maximize the advantages of each material. For example, the stiff material can be used to form a section of the separable insulated connector where strength and durability is most desirable, and conversely, the soft material can be used to form a section of the connector where flexibility is desirable.
대표청구항
▼
1. A separable insulated connector, comprising: an external shell for grounding said connector, wherein said shell comprises at least one of a conductive material and a semi-conductive material, wherein said shell comprises a first portion comprising a first material,a bushing entrance for connectio
1. A separable insulated connector, comprising: an external shell for grounding said connector, wherein said shell comprises at least one of a conductive material and a semi-conductive material, wherein said shell comprises a first portion comprising a first material,a bushing entrance for connection to an energy distribution component, the bushing entrance comprising at least a part of said first portion,a second portion comprising a second material that is more flexible than said first material, anda cable entrance for receiving a cable, the cable entrance comprising at least a part of said second portion;an insert disposed within said external shell, wherein said insert comprises at least one of a conductive material and a semi-conductive material, wherein said insert is a faraday cage; andinsulating material directly disposed between said external shell and said insert such that an interior surface of the external shell covers substantially an entire outer surface of the insulating material, wherein said insulating material is non-conductive, wherein said insulating material prevents a voltage breakdown between said shell and said insert. 2. The separable insulated connector of claim 1, wherein said first material comprises a mixture comprising ethylene propylene dienemonomer rubber and carbon black, and wherein said second material comprises a mixture comprising ethylene propylene dienemonomer rubber and carbon black. 3. The separable insulated connector of claim 1, wherein said separable insulated connector comprises an elbow connector. 4. The shell of claim 1, wherein said separable insulated connector comprises a T-body connector. 5. The separable insulated connector of claim 1, wherein said first portion abuts said second portion. 6. The separable insulated connector of claim 1, wherein said first portion overlaps with said second portion. 7. The separable insulated connector of claim 1, wherein said first material has a tensile stress measurement from about 1% to about 15% higher than a tensile stress measurement of said second material. 8. The separable insulated connector of claim 1, wherein said first material has an elongation measurement from about 1% to about 40% lower than an elongation measurement of said second material. 9. The separable insulated connector of claim 1, wherein said first material has a durometer measurement from about 5% to about 25% higher than a durometer measurement of said second material. 10. The separable insulated connector of claim 1, wherein said first material has a modulus measurement from about 10% to about 60% higher than a modulus measurement of said second material at a 50%, 75%, and 100% elongation percentage. 11. A separable insulated connector, comprising: an external shell for grounding said connector, wherein said shell comprises at least one of a conductive material and a semi-conductive material;a single insert disposed within said external shell, wherein said insert comprises a first portion comprising a first semi-conductive material, anda second portion comprising a second semi-conductive material that is more flexible than said first material, wherein said insert is a faraday cage; andinsulating material directly disposed between said external shell and said insert, wherein said insulating material is non-conductive, wherein said insulating material prevents a voltage breakdown between said shell and said insert. 12. The separable insulated connector of claim 11, wherein said first material comprises a mixture comprising ethylene propylene dienemonomer rubber and carbon black, wherein said second material comprises a mixture comprising ethylene propylene dienemonomer rubber and carbon black, andwherein said semi-conductive insert comprises a conductive or semi-conductive material. 13. The separable insulated connector of claim 11, wherein said semi-conductive insert is configured to be inserted within a shell for said separable insulated connector. 14. The separable insulated connector of claim 11, wherein said separable insulated connector comprises an elbow connector. 15. The semi-conductive insert of claim 11, wherein said separable insulated connector comprises a T-body connector. 16. The separable insulated connector of claim 11, wherein said semi-conductive insert comprises a faraday cage. 17. A separable insulated connector, comprising: an external shell for grounding said connector, wherein said shell comprises at least one of a conductive material and a semi-conductive material;a semi-conductive insert disposed within said external shell, wherein said semi-conductive insert is a faraday cage; andinsulating material directly disposed between said external shell and said semi-conductive insert such that an interior surface of the external shell covers substantially an entire outer surface of the insulating material, wherein said insulating material is non-conductive, wherein said insulating material prevents a voltage breakdown between said shell and said insert,wherein at least one of said external shell, said semi-conductive insert, and said insulating material comprises a first portion, a bushing entrance for connection to an energy distribution component, the bushing entrance comprising at least a part of said first portion, a second portion, and a cable entrance for receiving a cable, the cable entrance comprising at least a part of said second portion,wherein said first portion comprises a first material, andwherein said second portion comprises a second material that is more flexible than said first material. 18. The separable insulated connector of claim 17, wherein said insulating material comprises ethylene propylene dienemonomer rubber. 19. The separable insulated connector of claim 17, wherein said insulating material is bonded to said shell and said insert. 20. The separable insulated connector of claim 17, wherein said first material comprises a mixture comprising ethylene propylene dienemonomer rubber and carbon black, wherein said second material comprises a mixture comprising ethylene propylene dienemonomer rubber and carbon black, andwherein said insert comprises a semi-conductive material. 21. The separable insulated connector of claim 17, wherein said separable insulated connector comprises an elbow connector. 22. The separable insulated connector of claim 17, wherein said separable insulated connector comprises a T-body connector. 23. The separable insulated connector of claim 17, further comprising: a cable adapter; anda probe;wherein said cable adapter is located in said second portion, andwherein said probe is located in said first portion.
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