Electromagnetic flowmeter for applying a magnetic field and a plurality of frequency components to a fluid
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01F-001/58
G01F-001/56
출원번호
US-0578208
(2005-04-08)
등록번호
US-7434478
(2008-10-14)
우선권정보
JP-2004-116252(2004-04-09)
국제출원번호
PCT/JP05/006937
(2005-04-08)
§371/§102 date
20061006
(20061006)
국제공개번호
WO05/098373
(2005-10-20)
발명자
/ 주소
Yamamoto,Tomoshige
출원인 / 주소
Yamatake Corporation
대리인 / 주소
Blakely, Sokoloff, Taylor & Zafman LLP
인용정보
피인용 횟수 :
4인용 특허 :
0
초록▼
An electromagnetic flowmeter includes a measuring tube through which a fluid flows, electrodes which detect an electromotive force generated by a magnetic field applied to the fluid. An exciting coil applies, to the fluid, a magnetic field asymmetrical to a plane (PLN) which includes the electrodes
An electromagnetic flowmeter includes a measuring tube through which a fluid flows, electrodes which detect an electromotive force generated by a magnetic field applied to the fluid. An exciting coil applies, to the fluid, a magnetic field asymmetrical to a plane (PLN) which includes the electrodes and is perpendicular to the axial direction of the measuring tube. A signal conversion unit extracts a ∂A/∂t component from the resultant electromotive force of the electromotive force. A flow rate output unit removes a variation factor for a span as a coefficient applied to the magnitude of the flow velocity on the basis of the ∂A/∂t component, and calculates the flow rate of the fluid from the result obtained by removing the variation factor. The exciting coil applies the magnetic fields including the plurality of frequency components to the fluid.
대표청구항▼
The invention claimed is: 1. An electromagnetic flowmeter characterized by comprising: a measuring tube through which a fluid to be measured flows; an electrode which is placed in said measuring tube and detects an electromotive force generated by a magnetic field applied to the fluid and a flow of
The invention claimed is: 1. An electromagnetic flowmeter characterized by comprising: a measuring tube through which a fluid to be measured flows; an electrode which is placed in said measuring tube and detects an electromotive force generated by a magnetic field applied to the fluid and a flow of the fluid; an exciting unit which applies, to the fluid, a time-changing magnetic field asymmetrical to a first plane which includes said electrode and is perpendicular to an axial direction of said measuring tube; a signal conversion unit which extracts a ∂A/∂t component irrelevant to a flow velocity of the fluid from a resultant electromotive force of an electromotive force based on the ∂A/∂t component and an electromotive force based on a v��B component originating from the flow velocity of the fluid; and a flow rate output unit which removes a variable factor for a span as a coefficient by which a magnitude V of a flow velocity of the v��B component in the resultant electromotive force is multiplied, on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 2. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit applies the magnetic fields to the fluid with a plurality of exciting frequencies, and said signal conversion unit obtains an amplitude and phase of each of at least two different frequency components of the resultant electromotive force detected by the electrode to extract the ∂A/∂t component. 3. An electromagnetic flowmeter according to claim 2, characterized in that said exciting unit comprises an exciting coil placed at a position spaced apart by an offset from the first plane which includes said electrode and is perpendicular to the axial direction of said measuring tube, and a power supply unit which supplies, to the exciting coil, an exciting current containing two different frequency components of the first frequency and the second frequency, said signal conversion unit obtains amplitudes and phases of two frequency components of the first frequency and the second frequency of the resultant electromotive force detected by the electrode, and extracts an electromotive force difference between the two frequency components as the ∂A/∂t component on the basis of the amplitudes and phases, and said flow rate output unit removes a span variation factor contained in a v��B component in the first frequency component or a v��B component in the second frequency component of the resultant electromotive force detected by the electrode on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 4. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit comprises an exciting coil placed at a position spaced apart by an offset from the first plane which includes said electrode and is perpendicular to the axial direction of said measuring tube, and a power supply unit which supplies, to the exciting coil, an exciting current containing two different frequency components of the first frequency and the second frequency, said signal conversion unit obtains amplitudes and phases of two frequency components of the first frequency and the second frequency of the resultant electromotive force detected by the electrode, and extracts an electromotive force difference between the two frequency components as the ∂A/∂t component on the basis of the amplitudes and phases, and said flow rate output unit removes a span variation factor contained in a v��B component in the first frequency component or a v��B component in the second frequency component of the resultant electromotive force detected by the electrode on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 5. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit applies the magnetic fields having different exciting frequencies from a plurality of exciting coils to the fluid with a plurality of exciting frequencies, and said signal conversion unit obtains an amplitude and phase of each of at least two different frequency components of the resultant electromotive force detected by the electrode to extract the ∂A/∂t component. 6. An electromagnetic flowmeter according to claim 5, characterized in that said exciting unit comprises a first exciting coil placed at a position spaced apart by a first offset from the first plane which includes said electrode and is perpendicular to the axial direction of said measuring tube, a second exciting coil which is placed at a position spaced apart by a second offset from the first plane so as to face the first exciting coil through the first plane, and a power supply unit which supplies exciting currents with the second frequency different from the first frequency to the second exciting coil while supplying the exciting current with the first frequency to the first exciting coil, said signal conversion unit obtains amplitudes and phases of two frequency components of the first frequency and the second frequency of the resultant electromotive force detected by the electrode, and extracts an electromotive force difference between the two frequency components as the ∂A/∂t component on the basis of the amplitudes and the phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in a electromotive sum of the two frequency components of the resultant electromotive force detected by the electrode on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 7. An electromagnetic flowmeter according to claim 5, characterized in that said exciting unit comprises a first exciting coil placed at a position spaced apart by a first offset from the first plane which includes said electrode and is perpendicular to the axial direction of said measuring tube, a second exciting coil which is placed at a position spaced apart by a second offset from the first plane so as to face the first exciting coil through the first plane, and a power supply unit which supplies exciting currents with the second frequency different from the first frequency to the second exciting coil while supplying the exciting current with the first frequency to the first exciting coil, said signal conversion unit obtains amplitudes and phases of two frequency components of the first frequency and the second frequency of the resultant electromotive force detected by the electrode, and extracts an electromotive force sum of the two frequency components as the ∂A/∂t component on the basis of the amplitudes and the phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in a electromotive difference between the two frequency components of the resultant electromotive force detected by the electrode on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 8. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit comprises a first exciting coil placed at a position spaced apart by a first offset from the first plane which includes said electrode and is perpendicular to the axial direction of said measuring tube, a second exciting coil which is placed at a position spaced apart by a second offset from the first plane so as to face the first exciting coil through the first plane, and a power supply unit which supplies exciting currents with the second frequency different from the first frequency to the second exciting coil while supplying the exciting current with the first frequency to the first exciting coil, said signal conversion unit obtains amplitudes and phases of two frequency components of the first frequency and the second frequency of the resultant electromotive force detected by the electrode, and extracts an electromotive force difference between the two frequency components as the ∂A/∂t component on the basis of the amplitudes and the phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in a electromotive sum of the two frequency components of the resultant electromotive force detected by the electrode on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 9. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit comprises a first exciting coil placed at a position spaced apart by a first offset from the first plane which includes said electrode and is perpendicular to the axial direction of said measuring tube, a second exciting coil which is placed at a position spaced apart by a second offset from the first plane so as to face the first exciting coil through the first plane, and a power supply unit which supplies exciting currents with the second frequency different from the first frequency to the second exciting coil while supplying the exciting current with the first frequency to the first exciting coil, said signal conversion unit obtains amplitudes and phases of two frequency components of the first frequency and the second frequency of the resultant electromotive force detected by the electrode, and extracts an electromotive force sum of the two frequency components as the ∂A/∂t component on the basis of the amplitudes and the phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in a electromotive difference between the two frequency components of the resultant electromotive force detected by the electrode on the basis of the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 10. An electromagnetic flowmeter according to claim 1, characterized in that the electrode comprises a plurality of electrodes placed at different places along an axis direction of the measuring tube, and said signal conversion unit obtains an amplitude and phase of the resultant electromotive force detected by at least two electrodes of the resultant electromotive force detected by the plurality of electrodes to extract the ∂A/∂t component. 11. An electromagnetic flowmeter according to claim 10, characterized in that said exciting unit comprises an exciting coil which applies a magnetic field to the fluid and a power supply unit which supplies an exciting current to the exciting coil, said electrode comprises a first electrode placed at a position spaced apart by a first offset from a second plane which include an axis of the exciting coil and is perpendicular to an axial direction of said measuring tube, and a second electrode which is placed at a position spaced apart by a second offset from the second plane so as to face the first electrode through the second plane, said signal conversion unit obtains amplitudes and phases of the first resultant electromotive force detected by the first electrode and the second resultant electromotive force detected by the second electrode, and extracts an electromotive force difference between the first resultant electromotive force and the second resultant electromotive force as the ∂A/∂t component on the basis of the amplitudes and phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in an electromotive force sum of the first resultant electromotive force and the second resultant electromotive force on the basis the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 12. An electromagnetic flowmeter according to claim 10, characterized in that said exciting unit comprises an exciting coil which applies a magnetic field to the fluid and a power supply unit which supplies an exciting current to the exciting coil, said electrode comprises a first electrode placed at a position spaced apart by a first offset from a second plane which include an axis of the exciting coil and is perpendicular to an axial direction of said measuring tube, and a second electrode which is placed at a position spaced apart by a second offset from the second plane so as to face the first electrode through the second plane, said signal conversion unit obtains amplitudes and phases of the first resultant electromotive force detected by the first electrode and the second resultant electromotive force detected by the second electrode, and extracts an electromotive force sum of the first resultant electromotive force and the second resultant electromotive force as the ∂A/∂t component on the basis of the amplitudes and phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in an electromotive force difference between the first resultant electromotive force and the second resultant electromotive force on the basis the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 13. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit comprises an exciting coil which applies a magnetic field to the fluid and a power supply unit which supplies an exciting current to the exciting coil, said electrode comprises a first electrode placed at a position spaced apart by a first offset from a second plane which include an axis of the exciting coil and is perpendicular to an axial direction of said measuring tube, and a second electrode which is placed at a position spaced apart by a second offset from the second plane so as to face the first electrode through the second plane, said signal conversion unit obtains amplitudes and phases of the first resultant electromotive force detected by the first electrode and the second resultant electromotive force detected by the second electrode, and extracts an electromotive force difference between the first resultant electromotive force and the second resultant electromotive force as the ∂A/∂t component on the basis of the amplitudes and phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in an electromotive force sum of the first resultant electromotive force and the second resultant electromotive force on the basis the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor. 14. An electromagnetic flowmeter according to claim 1, characterized in that said exciting unit comprises an exciting coil which applies a magnetic field to the fluid and a power supply unit which supplies an exciting current to the exciting coil, said electrode comprises a first electrode placed at a position spaced apart by a first offset from a second plane which include an axis of the exciting coil and is perpendicular to an axial direction of said measuring tube, and a second electrode which is placed at a position spaced apart by a second offset from the second plane so as to face the first electrode through the second plane, said signal conversion unit obtains amplitudes and phases of the first resultant electromotive force detected by the first electrode and the second resultant electromotive force detected by the second electrode, and extracts an electromotive force sum of the first resultant electromotive force and the second resultant electromotive force as the ∂A/∂t component on the basis of the amplitudes and phases, and said flow rate output unit removes a variation factor for a span contained in a v��B component in an electromotive force difference between the first resultant electromotive force and the second resultant electromotive force on the basis the extracted ∂A/∂t component, and calculates a flow rate of the fluid from a result obtained by removing the variation factor.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허를 인용한 특허 (4)
Yamamoto, Tomoshige, Electromagnetic flowmeter with automatic span correction.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.