Magnetic flow meter with unibody construction and conductive polymer electrodes
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01F-001/58
G01F-001/56
출원번호
US-0807996
(2007-05-31)
등록번호
US-7343817
(2008-03-18)
발명자
/ 주소
Wehrs,David L.
Chinnock,Robert T.
출원인 / 주소
Entegris, Inc.
대리인 / 주소
Patterson, Thuente, Skaar & Christensen, PA
인용정보
피인용 횟수 :
4인용 특허 :
20
초록▼
A magnetic flow metering device and method is disclosed for the measurement of corrosive flow streams. The device utilizes a unibody construction wherein the flow conduit is constructed entirely from an insulative, non-conducting material without resorting to a metallic outer housing. The portions o
A magnetic flow metering device and method is disclosed for the measurement of corrosive flow streams. The device utilizes a unibody construction wherein the flow conduit is constructed entirely from an insulative, non-conducting material without resorting to a metallic outer housing. The portions of the electrodes in contact with the flow stream are made of a suitable conductive polymer material, resistant to the corrosive media. The electrodes also feature shields that are molded into the electrode assembly to reduce background electrical noise. The invention also utilizes an electrical configuration that actively drives the electrode shield circuit (electrodes as well as cabling) to provide a more accurate measurement of the electromotive force.
대표청구항▼
What is claimed is: 1. A magnetic flow meter comprising: a housing formed from an insulative, non-contaminating, chemically inert material, the housing defining a conduit for fluid flow therethrough; a pair of magnetic poles disposed proximate the conduit; a pair of electrodes disposed on either si
What is claimed is: 1. A magnetic flow meter comprising: a housing formed from an insulative, non-contaminating, chemically inert material, the housing defining a conduit for fluid flow therethrough; a pair of magnetic poles disposed proximate the conduit; a pair of electrodes disposed on either side of the conduit, each of the electrodes including a sensing surface comprising a conductive polymer material, wherein the electrode is disposed so that the sensing surface faces into the conduit. 2. The magnetic flow meter of claim 1, wherein each of the electrodes comprises a central conductive member, an annular conductive member concentrically disposed around the central conductive member, and a shield member concentrically disposed around the central conductive member and the annular conductive member. 3. The magnetic flow meter of claim 2, wherein the central conductive member and the annular conductive member are separated by a first interstitial insulative member. 4. The magnetic flow meter of claim 3, wherein each electrode further comprises a signal amplifier communicatively coupled to the central conductive member and the annular conductive member. 5. The magnetic flow meter of claim 4, wherein the signal amplifier comprises an amplifier having an inverting input, a non-inverting input, and an output, and wherein the central conductive sensing member and the annular conductive member are connected to the inverting input and the non-inverting input of the signal amplifier, respectively. 6. The magnetic flow meter of claim 1, wherein the conductive polymer material is selected from the group consisting of polyetheretherketone and a fluoropolymer material. 7. The magnetic flow meter of claim 1, wherein the conductive polymer material comprises a fluoropolymer impregnated with carbon particulates or carbon fibers. 8. The magnetic flow meter of claim 1, wherein the magnetic poles comprise electromagnets that are connected by a magnetic return path, and wherein the housing is adapted to enclose the magnetic return path. 9. The magnetic flow meter of claim 1, wherein the insulative, non-contaminating, chemically inert material is selected from the group consisting of polytetrafluoroethylene (PTFE), polyvinylidine fluoride (PVDF), polyetheretherketone (PEEK), perfluoroalkoxy (PFA), and other fluorocarbon polymers. 10. A magnetic flow meter comprising: an insulative, non-contaminating, chemically inert body portion defining a flow passage therethrough for conveying a fluid; means for generating a magnetic field in the flow passage; and means for detecting an electromotive flux in the flow passage, the means for detecting an electromotive flux comprising a fluid contact portion facing into the flow passage, the fluid contact portion comprising a conductive polymer material. 11. The magnetic flow meter of claim 10, wherein the means for detecting an electromotive flux in the flow passage comprises a pair of electrodes disposed on either side of the flow passage. 12. The magnetic flow meter of claim 11, wherein each of the electrodes comprises a central conductive member, an annular conductive member concentrically disposed around the central conductive member, and a shield member concentrically disposed around the central conductive member and the annular conductive member. 13. The magnetic flow meter of claim 10, wherein the conductive polymer material is selected from the group consisting of polyetheretherketone and a fluoropolymer material. 14. The magnetic flow meter of claim 10, wherein the conductive polymer material comprises a fluoropolymer impregnated with carbon particulates or carbon fibers. 15. The magnetic flow meter of claim 10, wherein the means for generating a magnetic field in the flow passage comprises a pair of magnetic poles disposed proximate the flow passage. 16. A magnetic flow meter comprising: a housing defining a flow passage for conveying a fluid, the flow passage having an inwardly facing wall surface comprising an insulative, non-contaminating, chemically inert material; a pair of magnetic poles disposed proximate the flow passage for generating a magnetic field in the flow passage; a pair of electrodes disposed on either side of the flow passage, each of the electrodes including a sensing surface comprising a conductive polymer material, wherein the electrode is disposed so that the sensing surface faces into the flow passage. 17. The magnetic flow meter of claim 16, wherein each of the electrodes comprises a central conductive member, an annular conductive member concentrically disposed around the central conductive member, and a shield member concentrically disposed around the central conductive member and the annular conductive member. 18. The magnetic flow meter of claim 17, wherein the central conductive member and the annular conductive member are separated by a first interstitial insulative member. 19. The magnetic flow meter of claim 16, wherein the conductive polymer material is selected from the group consisting of polyetheretherketone and a fluoropolymer material. 20. The magnetic flow meter of claim 16, wherein the conductive polymer material comprises a fluoropolymer impregnated with carbon particulates or carbon fibers.
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이 특허에 인용된 특허 (20)
Batey Robert H. (Apollo Beach FL), Apparatus for sensing liquid flow and pressure in a conduit and associated methods.
Collins Timothy R. (Cologne MN) Chinnock Robert T. (Victoria MN) Grant Robert C. (Eden Prairie MN) Hamilton Dean T. (Cologne MN), Capacitive proximity monitoring device for corrosive atmosphere environment.
Bittner Franz (Moers DEX) Poortman Boudewijn J. (Dordrecht NLX) Rademacher-Dubbick Kristian (Duisburg DEX) Roskam Abram K. (Sleeuwijk NLX) Stevens Udo (Duisburg DEX) Tromp Wouter T. (Sliedrecht NLX) , Method of making a sensor for a magnetic inductive flowmeter.
Collins Timothy R. (Cologne MN) Chinnock Robert T. (Victoria MN) Grant Robert C. (Eden Prairie MN) Hamilton Dean T. (Cologne MN), Proximity sensing probe.
Beerling, Freek; Heijnsdijk, Alexander Marnix; Neven, Josef; Nicolas, Christian, Magnetic-inductive flowmeter and method for producing a measuring electrode.
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