Mud pulse telemetry apparatus with a pressure transducer and method of operating same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-047/12
E21B-047/18
E21B-047/06
E21B-034/06
출원번호
US-0652445
(2013-12-17)
등록번호
US-9714569
(2017-07-25)
국제출원번호
PCT/CA2013/050982
(2013-12-17)
국제공개번호
WO2014/094160
(2014-06-26)
발명자
/ 주소
Logan, Aaron W.
Liu, Jili
Switzer, David A.
Logan, Justin C.
출원인 / 주소
Evolution Engineering Inc.
대리인 / 주소
Seed Intellectual Property Law Group LLP
인용정보
피인용 횟수 :
0인용 특허 :
70
초록▼
A pressure measurement apparatus for a downhole measurement-while-drilling tool comprises a feed through connector and a pressure transducer. The feed through connector comprises a body with opposing first and second ends, at least one electrical interconnection extending axially through the body an
A pressure measurement apparatus for a downhole measurement-while-drilling tool comprises a feed through connector and a pressure transducer. The feed through connector comprises a body with opposing first and second ends, at least one electrical interconnection extending axially through the body and out of both ends, and a pressure transducer receptacle in the first end and a communications bore extending from the receptacle to the second end. The pressure transducer is seated in the receptacle such that a pressure at the first end can be measured, and comprises at least one electrical contact that extends from the pressure transducer through the communication bore and out of the second end. The pressure transducer can take pressure measurements for predicting wear of a primary seal in a motor subassembly of the tool, detect a pressure-related battery failure event, and control operation of a dual pulse height fluid pressure pulse generator.
대표청구항▼
1. A fluid pressure pulse telemetry tool comprising: (a) a fluid pressure pulse generator;(b) a motor subassembly comprising a motor, a pulse generator motor housing that houses the motor, and a driveshaft extending from the motor out of the pulse generator motor housing and coupling with the pressu
1. A fluid pressure pulse telemetry tool comprising: (a) a fluid pressure pulse generator;(b) a motor subassembly comprising a motor, a pulse generator motor housing that houses the motor, and a driveshaft extending from the motor out of the pulse generator motor housing and coupling with the pressure pulse generator;(c) an electronics subassembly coupled to the motor subassembly and comprising electronics equipment, and an electronics housing that houses the electronics equipment; and(d) a pressure measurement apparatus comprising: (i) a feed through connector comprising a body with a first end and an opposite second end, at least one electrical interconnection extending axially through the body and out of the first and second ends, pressure transducer receptacle in the first end, and a communications bore extending from the receptacle to the second end; and(ii) a pressure transducer seated in the receptacle such that a pressure at the first end can be measured, and at least one electrical contact that extends from the pressure transducer through the communication bore and out of the second end, wherein:the feed through connector is located between the motor subassembly and electronics subassembly such that a fluid seal is established therebetween;the interconnection is electrically coupled to the electronics equipment and the motor; andthe pressure transducer faces the motor subassembly and is communicative with the electronics equipment. 2. The telemetry tool as claimed in claim 1 wherein the pulse generator motor housing further comprises an end with an annular shoulder in which the pressure measurement apparatus is seated. 3. The telemetry tool as claimed in claim 2, further comprising a feed through seal extending between the feed through connector body and the annular shoulder such that a fluid seal is established therebetween. 4. The telemetry tool as claimed in claim 1 wherein the pressure measurement apparatus further comprises an annular flange extending around the feed through connector body and comprising at least one flange bore for receiving a fastener therethrough, the pulse generator motor housing further comprises an end with a rim configured to mate with the flange, and at least one rim bore configured to align with the flange bore and receive the fastener such that the pressure measurement apparatus is fastened to the pulse generator motor housing. 5. The telemetry tool as claimed in claim 4, further comprising an annular seal located between the flange and the rim such that a fluid seal is established therebetween. 6. The telemetry tool as claimed in claim 5 wherein the feed through connector body is provided with at least one open channel aligned with the flange bore such that the fastener can extend along the channel and through the flange bore. 7. The telemetry tool as claimed in claim 1, further comprising a collet comprising inner threads and an annular shoulder extending around the inner surface, and wherein the pressure measurement apparatus further comprises an annular flange extending around the feed through connector body and which contacts the annular shoulder to seat the pressure measurement apparatus in the collet, and wherein an end of the fluid generator motor housing comprises external threads that threadingly mate with the inner threads of the collet such that pressure measurement apparatus is secured relative to the end of the fluid generator motor housing. 8. The telemetry tool as claimed in claim 1, wherein the pressure measurement apparatus further comprises a receptacle seal extending between the pressure transducer and receptacle and establishing a fluid seal therebetween. 9. The telemetry tool as claimed in claim 1, wherein the pressure transducer is removably mounted in the receptacle and the apparatus further comprises a retention clip removably mounted in the receptacle for securing the pressure transducer in place when seated in the receptacle. 10. An electronics subassembly for a downhole measurement-while-drilling tool, the electronics subassembly comprising: (a) an electronics housing;(b) a pressure measurement apparatus mounted inside the electronics housing such that a first compartment and a second compartment are defined inside the electronics housing on either side of the pressure measurement apparatus, and wherein the pressure transducer faces the first compartment to measure a pressure in the first compartment, and wherein the pressure measurement apparatus comprises: (i) a feed through connector comprising a body with a first end and an opposite second end, at least one electrical interconnection extending axially through the body and out of the first and second ends, pressure transducer receptacle in the first end, and a communications bore extending from the receptacle to the second end; and(ii) a pressure transducer seated in the receptacle such that a pressure at the first end can be measured, and at least one electrical contact that extends from the pressure transducer through the communication bore and out of the second end;(c) a battery pack in the first compartment and electrically coupled to the electrical interconnection; and(d) electronics equipment in the second compartment and electrically coupled to the electrical interconnection and with the pressure transducer contact, the electronics equipment including a controller and a memory having program code executable by the controller to: read pressure measurements from the pressure transducer, determine whether the read pressure measurements exceed a threshold component failure pressure, and initiate a component failure action when the measured pressure exceeds the threshold component failure pressure. 11. The electronics subassembly as claimed in claim 10 wherein the component failure action comprises logging a component failure flag in the memory. 12. The electronics subassembly as claimed in claim 10 wherein the component failure action comprises electrically decoupling the battery pack from the electronics equipment. 13. The electronics subassembly as claimed in claim 10 wherein the component failure action comprises sending a visual or audio indication of a failure event. 14. A method of detecting a component failure in a measurement-while-drilling tool having an electronics subassembly comprising: an electronics housing;a pressure measurement apparatus mounted inside the electronics housing such that a first compartment and a second compartment are defined inside the electronics housing on either side of the pressure measurement apparatus, and wherein the pressure transducer faces the first compartment to measure a fluid pressure in the first compartment and wherein the pressure measurement apparatus comprises: (i) a feed through connector comprising a body with a first end and an opposite second end, at least one electrical interconnection extending axially through the body and out of the first and second ends, pressure transducer receptacle in the first end, and a communications bore extending from the receptacle to the second end; and(ii) a pressure transducer seated in the receptacle such that a pressure at the first end can be measured, and at least one electrical contact that extends from the pressure transducer through the communication bore and out of the second end; anda battery pack in the first compartment electrically coupled to the electrical interconnection of the pressure measurement apparatus;the method comprising: (a) reading pressure measurements from the pressure transducer;(b) determining whether the read pressure measurements exceed a threshold component failure pressure; and(c) initiating a component failure action when the measured pressure exceeds the threshold component failure pressure. 15. The method as claimed in claim 14 wherein the component failure action comprises logging a component failure flag in the memory. 16. The method as claimed in claim 14 wherein the component failure action comprises electrically decoupling the battery pack from the electronics equipment. 17. The method as claimed in claim 14 wherein the component failure action comprises sending a visual or audio indication of a failure event. 18. A fluid pressure pulse generator motor subassembly for a downhole measurement-while-drilling tool, the motor subassembly comprising: (a) a housing;(b) a fluid pressure pulse generator motor inside the housing and comprising a driveshaft extending out of a driveshaft end of the housing, the driveshaft for coupling to a rotor of a fluid pressure pulse generator;(c) a primary seal providing a fluid seal between the driveshaft and the housing;(d) a pressure measurement apparatus mounted in the housing spaced from the driveshaft end and such that the pressure transducer faces the inside of the housing, wherein the pressure measurement apparatus comprises: (i) a feed through connector comprising a body with a first end and an opposite second end, at least one electrical interconnection extending axially through the body and out of the first and second ends, pressure transducer receptacle in the first end, and a communications bore extending from the receptacle to the second end; and(ii) a pressure transducer seated in the receptacle such that a pressure at the first end can be measured, and at least one electrical contact that extends from the pressure transducer through the communication bore and out of the second end;(e) a lubrication liquid fluidly sealed inside the housing by the pulse generator motor housing, primary seal and feed through connector of the pressure measurement device; and(f) electronics equipment electrically communicative with the pressure transducer, and comprising a controller and a memory having program code executable by the controller to:read a pressure measurement from the pressure transducer indicating the pressure of the lubrication liquid, determine whether the read pressure measurement falls below a threshold pressure value, and log a unique flag in the memory when the read pressure measurement falls below the threshold pressure value. 19. The motor subassembly as claimed in claim 18 wherein the memory further comprises program code executable by the controller to transmit a unique signal when the read lubrication liquid pressure falls below the threshold pressure value. 20. The motor subassembly as claimed in claim 18 wherein the memory further comprises program code executable by the controller to deactivate one or more operations of the measurement-while-drilling tool when the read pressure measurement falls below the threshold pressure value. 21. A method for determining seal life wear in a measurement-while-drilling tool having a fluid pressure pulse generator motor subassembly comprising: a housing;a motor inside the housing and comprising a driveshaft extending out of a driveshaft end the housing, the driveshaft for coupling to a rotor of a fluid pressure pulse generator; a primary seal providing a fluid seal between the driveshaft and the housing;a pressure measurement apparatus mounted in housing spaced from the driveshaft end and such that the pressure transducer faces the inside of the housing, and wherein the pressure measurement apparatus comprises: (i) a feed through connector comprising a body with a first end and an opposite second end, at least one electrical interconnection extending axially through the body and out of the first and second ends, pressure transducer receptacle in the first end, and a communications bore extending from the receptacle to the second end; and(ii) a pressure transducer seated in the receptacle such that a pressure at the first end can be measured, and at least one electrical contact that extends from the pressure transducer through the communication bore and out of the second end; anda lubrication liquid fluidly sealed inside the housing by the tubular housing, primary seal and feed through connector of the pressure measurement device;the method comprising:(a) reading a pressure measurement from the pressure transducer indicating the pressure of the lubrication liquid,(b) determining whether the pressure measurement falls below a threshold pressure value, and(c) logging a unique flag when the read pressure measurement falls below the threshold pressure value. 22. The method as claimed in claim 21 further comprising transmitting a unique signal when the read pressure measurement falls below the threshold pressure value. 23. The method as claimed in claim 21 further comprising deactivating one or more operations of the measurement-while-drilling tool when the read pressure measurement falls below the threshold pressure value.
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