Thermoelectric heating, cooling and power generation for direct mount and dual compartment fill remote seal systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01L-019/04
G01L-019/00
B23P-019/04
F16L-023/00
F16L-053/00
G01L-019/06
출원번호
US-0277129
(2016-09-27)
등록번호
US-9752947
(2017-09-05)
발명자
/ 주소
Fadell, Paul Ryan
출원인 / 주소
P I Components Corp.
대리인 / 주소
Westman, Champlin & Koehler, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
18
초록▼
A pressure transmitter assembly for measuring a process pressure of an industrial process includes a pressure sensor configured to sense the process pressure. A process coupling couples the pressure sensor to the industrial process using an elongate housing with a fill fluid capillary. In one exampl
A pressure transmitter assembly for measuring a process pressure of an industrial process includes a pressure sensor configured to sense the process pressure. A process coupling couples the pressure sensor to the industrial process using an elongate housing with a fill fluid capillary. In one example configuration, at least one thermoelectric element is included within the elongate housing to apply heat to, or conduct heat away from, the process coupling in response to an applied electric current or signal, allowing fill fluid to be preheated to facilitate cold startup or calibration, and providing cooling of the process coupling during high temperature operation.
대표청구항▼
1. A process coupling for coupling a process variable transmitter to a process fluid of an industrial process comprising: an elongate housing having a process mount configured to couple to the process fluid and an opposed transmitter coupling configured to couple to the process variable transmitter;
1. A process coupling for coupling a process variable transmitter to a process fluid of an industrial process comprising: an elongate housing having a process mount configured to couple to the process fluid and an opposed transmitter coupling configured to couple to the process variable transmitter;a capillary in the elongate housing which conveys a process pressure at the process mount to the transmitter coupling;at least one thermoelectric element configured to apply heat to, or conduct heat away from, the process coupling in response to an applied electric signal. 2. The process coupling of claim 1, wherein the at least one thermoelectric element is positioned adjacent to the capillary. 3. The process coupling of claim 2, and further comprising a heat sink positioned between the at least one thermoelectric element and the capillary, the heat sink configured to conduct heat energy between the capillary and the at least one thermoelectric element to apply the heat to, or conduct the heat away from, fill fluid in the capillary. 4. The process coupling of claim 3, wherein the heat sink surrounds the capillary along a length of the capillary. 5. The process coupling of claim 3, wherein the heat sink is in contact with the at least one thermoelectric element and the capillary. 6. The process coupling of claim 3, wherein the at least one thermoelectric element comprises a plurality of thermoelectric elements each positioned on an outer surface of the elongate housing. 7. A pressure transmitter assembly for measuring a process pressure of an industrial process, comprising: a pressure sensor configured to sense the process pressure; anda process coupling configured to couple the pressure sensor to the industrial process, the process coupling comprising: an elongate housing having a process mount configured to couple to process fluid of the industrial process and an opposed coupling configured to couple to the pressure sensor;a capillary in the elongate housing extending from a process end adjacent the process mount to a pressure end adjacent the opposed coupling, the capillary having a fill fluid contained therein which conveys the process pressure at the process mount to the opposed coupling;at least one thermoelectric element configured to apply heat to, or conduct heat away from, the process coupling in response to an applied electric signal. 8. The pressure transmitter assembly of claim 7, wherein the at least one thermoelectric element is positioned on the elongate housing adjacent to the capillary. 9. The pressure transmitter assembly of claim 8, and further comprising a heat sink positioned between the at least one thermoelectric element and the capillary, the heat sink configured to conduct heat energy between the capillary and the at least one thermoelectric element to apply the heat to, or conduct the heat away from, the fill fluid in the capillary. 10. The pressure transmitter assembly of claim 9, wherein the heat sink surrounds the capillary along at least a portion of a length of the capillary. 11. The pressure transmitter assembly of claim 9, wherein the heat sink is in contact with the at least one thermoelectric element and the capillary. 12. The pressure transmitter assembly of claim 9, wherein the at least one thermoelectric element comprises a plurality of thermoelectric elements each positioned on the elongate housing. 13. The pressure transmitter assembly of claim 12, wherein the plurality of thermoelectric elements are positioned on opposing sides of the capillary. 14. The pressure transmitter assembly of claim 9, wherein the heat sink and the at least one thermoelectric element are positioned more proximate to the process end than the pressure end such that heat is applied to the fill fluid in the capillary proximate the process end. 15. The pressure transmitter assembly of claim 9, wherein the process coupling includes an isolation diaphragm coupled to the capillary to thereby couple the process pressure applied to the isolation diaphragm to the pressure sensor. 16. The pressure transmitter assembly of claim 7, including a driver circuit configured to provide power to the at least one thermoelectric element. 17. The pressure transmitter assembly of claim 16, including a temperature sensor proximate the process coupling. 18. The pressure transmitter assembly of claim 17, wherein the driver circuit is configured to apply a current to the thermoelectric element in response to a sensed temperature by the temperature sensor. 19. The pressure transmitter assembly of claim 18, wherein the driver circuit is configured to apply current to the thermoelectric element to apply heat to the fill fluid in the capillary. 20. The pressure transmitter of claim 7, and further comprising a battery coupled to one or more of the at least one at least one thermoelectric element and configured to store electrical energy harvested from a process temperature differential for use in providing power for operation of the pressure transmitter.
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이 특허에 인용된 특허 (18)
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Kumley Marvin A. (Dallas OR) Simpson Daniel L. (San Diego CA) Swanson Kurt W. (Kent WA) Beck Bryan L. (Temecula CA), Transducer thermal protection system.
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