Non-contact capacitive datalink for a downhole assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01V-003/00
G01V-011/00
E21B-017/02
출원번호
US-0333664
(2011-12-21)
등록번호
US-9007233
(2015-04-14)
발명자
/ 주소
Sugiura, Junichi
출원인 / 주소
Schlumberger Technology Corporation
대리인 / 주소
Streinz, Christopher
인용정보
피인용 횟수 :
9인용 특허 :
22
초록▼
Aspects of this invention include a downhole assembly having a non-contact, capacitive coupling including first and second transceivers deployed in corresponding first and second downhole tool members. The capacitive coupling is disposed to transfer electrical signals between the first and second tr
Aspects of this invention include a downhole assembly having a non-contact, capacitive coupling including first and second transceivers deployed in corresponding first and second downhole tool members. The capacitive coupling is disposed to transfer electrical signals between the first and second transceivers. In one exemplary embodiment, the capacitive coupling is configured to transfer data and power between a substantially non-rotating tool member and a rotating tool member, for example, the shaft and blade housing in a steering tool. Exemplary embodiments of this invention provide a non-contact, high-speed data communication channel between first and second members of a downhole assembly. Moreover, exemplary embodiments of the invention also provide for simultaneous non-contact transmission of electrical power between the first and second tool members.
대표청구항▼
1. A downhole assembly comprising: first and second downhole members;a non-contact, capacitive coupling device including first and second capacitively coupled transceivers and a dielectric gap therebetween, the first transceiver deployed in the first member and the second transceiver deployed in the
1. A downhole assembly comprising: first and second downhole members;a non-contact, capacitive coupling device including first and second capacitively coupled transceivers and a dielectric gap therebetween, the first transceiver deployed in the first member and the second transceiver deployed in the second member, the first and second transceivers disposed to transfer an electrical signal between the first and second members;wherein the first and second transceivers are deployed in corresponding first and second electrically insulative transceiver housings, the first transceiver housing being deployed in the first downhole member and the second transceiver housing being deployed in the second downhole member; andwherein a portion of each of the first and second insulative housings form the dielectric gap between the transceivers. 2. The downhole assembly of claim 1, wherein the electrical signal comprises at least one member selected from the group consisting of electrical power and data. 3. The downhole assembly of claim 1, wherein the first and second transceivers comprise first and second co-axial, electrically conductive cylinders. 4. A threaded downhole connector comprising: a first threaded member disposed to be threadably connected with a second threaded member;a non-contact, capacitive coupling device including first and second capacitively coupled transceivers and a dielectric gap therebetween, the first transceiver deployed in the first threaded member and the second transceiver deployed in the second threaded member, the capacitive coupling device disposed to transfer an electrical signal between the first and second threaded members;wherein the first and second transceivers are deployed in corresponding first and second electrically insulative transceiver housings, the first transceiver housing being deployed in the first threaded member and the second transceiver housing being deployed in the second threaded member; andwherein a portion of each of the first and second insulative housings form the dielectric gap between the transceivers when the connector is made up. 5. The downhole connector of claim 4, wherein the electrical signal comprises a data signal. 6. The downhole connector of claim 4, wherein the first and second transceivers comprise first and second co-axial, electrically conductive cylinders. 7. The downhole connector of claim 4, wherein the first and second transceivers are electrically insulated from the corresponding first and second threaded members. 8. The downhole connector of claim 4, wherein the first and second insulative housings contact one another when the connector is made up. 9. The downhole connector of claim 4, further comprising first and second electronic transceiver circuits, the first transceiver circuit electrically connected to the first transceiver and the second transceiver circuit electrically connected to the second transceiver, the first and second transceiver circuits disposed to transfer the electrical signal between the transceivers. 10. The downhole connector of claim 9, wherein each of the first and second transceiver circuits comprises a data transceiver circuit, each of the data transceiver circuits disposed to transmit and receive data between the transceivers. 11. A string of downhole tools connected end to end, the string comprising the downhole connector of claim 4 deployed between adjacent ones of the tools, the string further including a plurality of tools being selected from the group consisting of drill collars, pipes, cross-overs, stabilizers, motors, bent-subs, MWD tools, LWD tools, steering tools, rotary steerable tools, vertical drilling tools, reamers, near-bit stabilizers, and drill bits. 12. A downhole tool assembly comprising: first and second threaded members configured to be threaded to one another;a first substantially cylindrical transceiver deployed in the first threaded member, the first transceiver including a first electrically insulative housing and a first electrically conductive transceiver element deployed therein, the first housing insulating the first transceiver element from the first member;a second substantially cylindrical transceiver deployed in the second threaded member, the second transceiver including a second electrically insulative housing and a second electrically conductive transceiver element, the second housing insulating the second transceiver element from the second member; andwherein (i) the first transceiver is substantially coaxial in the second transceiver and (ii) the first and second insulative housings contact one another forming a dielectric gap between the first and second transceiver elements when the first threaded member is threadably connected to the second threaded member.
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이 특허에 인용된 특허 (22)
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Hall,David R.; Hall, Jr.,H. Tracy; Pixton,David S.; Dahlgren,Scott; Sneddon,Cameron; Fox,Joe; Briscoe,Michael A., Inductive coupler for downhole components and method for making same.
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