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In a first embodiment, an elastomeric connector may include conductive and nonconductive portions and a guide that at least partially surrounds the connector and transfers compression in at least two directions. In a second embodiment, an elastomeric connector includes conductive portions at least p

In a first embodiment, an elastomeric connector may include conductive and nonconductive portions and a guide that at least partially surrounds the connector and transfers compression in at least two directions. In a second embodiment, an elastomeric connector includes conductive portions at least partially surrounded by a nonconductive portion that is at least partially surrounded by conductive material connectible to ground to shield. In a third embodiment, an elastomeric connector may include multiple conductive portions and a nonconductive portion. One of the conductive portions may be separated from a first other in a cross section of a first connection surface and a second one of the others outside the cross section. At least one of the conductive portions may be connected to at least one of the others within the connector. In a fourth embodiment, a sealing component may include conductive and nonconductive elastomeric material.

대표청구항 ▼

1. An elastomeric connector system, comprising: an elastomeric connector comprising: at least one conductive elastomeric material portion extending between at least a first connection surface and a second connection surface; andat least one nonconductive elastomeric material portion; andat least one

1. An elastomeric connector system, comprising: an elastomeric connector comprising: at least one conductive elastomeric material portion extending between at least a first connection surface and a second connection surface; andat least one nonconductive elastomeric material portion; andat least one guide element that at least partially surrounds the elastomeric connector and transfers compression, in multiple directions along the elastomeric connector, from the first connection surface to the second connection surface; wherein:the at least one nonconductive elastomeric material portion isolates the at least one conductive elastomeric material portion from the at least one guide element;the at least one guide element is conductive and is coupled to a ground; andthe at least one guide element acts as a shield for the at least one conductive elastomeric material portion. 2. The elastomeric connector system of claim 1, wherein the at least one guide element comprises a hollow tube. 3. The elastomeric connector system of claim 1, wherein the at least one guide element guides the elastomeric connector around at least one component that is positioned between the first connection surface and the second connection surface. 4. The elastomeric connector system of claim 1, wherein the elastomeric connector is compressed between a first contact of a first component that contacts the first connection surface and a second contact of a second component that contacts the second connection surface. 5. The elastomeric connector system of claim 1, wherein the elastomeric connector is at least one of formed prior to insertion in the at least one guide element or formed at least partially inside the at least one guide element. 6. The elastomeric connector system of claim 1, wherein: the at least one conductive elastomeric material portion comprises at least a first conductive elastomeric material portion, a second conductive elastomeric material portion; and a third conductive elastomeric material portion;the first conductive elastomeric material portion is separated from the second conductive elastomeric material portion by the at least one nonconductive elastomeric material portion in a cross section of the first connection surface; andthe first conductive elastomeric material portion is separated from the third conductive elastomeric material portion by the at least one nonconductive elastomeric material portion in an area not within the cross section of the first connection surface. 7. The elastomeric connector system of claim 1, wherein at least one of: the first conductive elastomeric material portion is connected to the second conductive elastomeric material portion within the elastomeric connector; orthe first conductive elastomeric material portion is connected to the third conductive elastomeric material portion within the elastomeric connector. 8. An elastomeric connector comprising: a first conductive elastomeric material portion extending between at least a first connection surface and a second connection surface;a second conductive elastomeric material portion extending between the first connection surface and the second connection surface;a third conductive elastomeric material portion extending between the first connection surface and a second connection surface; andat least one nonconductive elastomeric material portion;wherein: the first conductive elastomeric material portion is separated from the second conductive elastomeric material portion by the at least one nonconductive elastomeric material portion in a cross section of the first connection surface;the first conductive elastomeric material portion is separated from the third conductive elastomeric material portion by the at least one nonconductive elastomeric material portion in an area not within the cross section of the first connection surface; andthe second conductive elastomeric material portion surrounds the first conductive elastomeric portion, the third conductive elastomeric portion, and the at least one nonconductive elastomeric material portion in at least one plane. 9. The elastomeric connector of claim 8, wherein at least one of: the first conductive elastomeric material portion is connected to the second conductive elastomeric material portion within the elastomeric connector; orthe first conductive elastomeric material portion is connected to the third conductive elastomeric material portion within the elastomeric connector. 10. The elastomeric connector of claim 8, wherein the elastomeric connector is operable as a sealing component to seal at least a first component to a second component. 11. The elastomeric connector of claim 10, wherein the first conductive elastomeric material portion, the second conductive elastomeric material portion, and the third conductive elastomeric material portion are separated from an external environment by the at least one nonconductive elastomeric material portion when the elastomeric connector seals the first component to the second component. 12. The elastomeric connector of claim 8, wherein the second conductive elastomeric material portion is operable to shield the first conductive elastomeric portion and the third conductive elastomeric portion when connected to a ground. 13. A sealing component system, comprising: at least one conductive elastomeric material portion; andat least one nonconductive elastomeric material portion;wherein:the sealing component is operable to seal at least a first component to a second component; andthe at least one conductive elastomeric material portion is separated from an external environment by the at least one nonconductive elastomeric material portion when the sealing component seals the first component to the second component. 14. The sealing component system of claim 13, wherein the at least one conductive elastomeric material portion electrically connects a first contact of the first component to a second contact of the second component when the sealing component seals the first component to the second component. 15. The sealing component system of claim 13, wherein the sealing component comprises an o-ring. 16. The sealing component of claim 13, wherein the at least one conductive elastomeric material portion extends between at least a first connection portion and a second connection portion. 17. The sealing component system of claim 16, wherein: the at least one conductive elastomeric material portion comprises at least a first conductive elastomeric material portion, a second conductive elastomeric material portion; and a third conductive elastomeric material portion;the first conductive elastomeric material portion is separated from the second conductive elastomeric material portion by the at least one nonconductive elastomeric material portion in a cross section of the first connection portion; andthe first conductive elastomeric material portion is separated from the third conductive elastomeric material portion by the at least one nonconductive elastomeric material portion in an area not within the cross section of the first connection portion. 18. The sealing component system of claim 17, wherein at least one of: the first conductive elastomeric material portion is connected to the second conductive elastomeric material portion within the elastomeric connector; orthe first conductive elastomeric material portion is connected to the third conductive elastomeric material portion within the elastomeric connector. 19. The sealing component system of claim 13, further comprising the first component and the second component. 20. A method of electrically coupling two components, the method comprising: placing an elastomeric connector at least partially within at least one guide element that is conductive, the at elastomeric connector comprising: at least one conductive elastomeric material portion extending between at least a first connection surface and a second connection surface; andat least one nonconductive elastomeric material portion that isolates the at least one conductive elastomeric material portion from the at least one guide element;coupling the at least one guide element to a ground such that the at least one guide element acts as a shield for the at least one conductive elastomeric material portion;electrically connecting a first component to a second component by contacting the first component to the first connection surface and the second component to the second connection surface; andtransferring compression of the elastomeric connector associated with contact of the first component to the first connection surface from the first connection surface through the elastomeric connector in at least two directions to the second connection surface utilizing the at least one guide element. 21. A method for electrically coupling and sealing two components, the method comprising: sealing a first component to a second component utilizing a sealing component that includes at least one elastomeric conductive portion and at least one elastomeric nonconductive portion such that the at least one elastomeric conductive portion is separated from an external environment by the at least one elastomeric nonconductive portion; andcompressing the sealing component between the first component and the second component to form an electrical connection between the first component and the second component utilizing the at least one elastomeric conductive portion.