The flow sensor serves to measure an electrically conductive fluid flowing in a pipe. It comprises a flow tube designed to be inserted into the pipe for conducting the fluid, the flow tube being electrically nonconductive at least on a fluid-contacting inner side, an electrode arrangement consisting
The flow sensor serves to measure an electrically conductive fluid flowing in a pipe. It comprises a flow tube designed to be inserted into the pipe for conducting the fluid, the flow tube being electrically nonconductive at least on a fluid-contacting inner side, an electrode arrangement consisting of at least two measuring electrodes disposed on the flow tube for picking up a voltage induced in the fluid, and a magnetic field system likewise disposed on the flow tube. The magnetic field system comprises at least two saddle-shaped field coils for producing a magnetic field cutting the fluid during operation of the flow sensor, a respective ferromagnetic pole piece for each of the two field coils, as well as at least one ferromagnetic return path extending around the flow tube upstream of the two field coils and at least one ferromagnetic return path extending around the flow tube downstream of the two field coils for directing the magnetic field around the flow tube. The pole pieces are magnetically coupled to the return paths by means of ferromagnetic coupling elements. Each of the, preferably identically shaped, coupling elements has at least one essentially trough-shaped cover segment which receives a first winding section of the respective associated field coil, lying essentially on a first periphery of the flow tube, or a second winding section of the associated field coil, lying essentially on a second periphery of the flow tube.
대표청구항▼
What is claimed is: 1. An electromagnetic flow sensor for measuring an electrically conductive fluid flowing in a pipe, comprising: a flow tube, designed to be inserted into the pipe, for conducting the fluid, the flow tube being electrically nonconductive at least on a fluid-contacting inner side;
What is claimed is: 1. An electromagnetic flow sensor for measuring an electrically conductive fluid flowing in a pipe, comprising: a flow tube, designed to be inserted into the pipe, for conducting the fluid, the flow tube being electrically nonconductive at least on a fluid-contacting inner side; an electrode arrangement comprising at least two measuring electrodes disposed on the flow tube for picking up a voltage induced in the fluid; and a magnetic field system likewise disposed on the flow tube, said magnetic field system including at least a saddle-shaped first field coil and at least a saddle-shaped second field coil for producing a magnetic field cutting the fluid during operation of the flow sensor, a ferromagnetic first pole piece for said saddle-shaped first field coil and a ferromagnetic second pole piece for saddle-shaped second field coil for directing the magnetic field towards the fluid, and at least a ferromagnetic first return path, extending around the flow tube upstream of the two field coils, and at least a ferromagnetic second return path, extending around the flow tube downstream of the two field coils, for directing the magnetic field around the flow tube, said ferromagnetic first pole piece being magnetically coupled to said ferromagnetic first return path by means of at least a ferromagnetic first coupling element and to said ferromagnetic second return path by means of at least a ferromagnetic second coupling element, and said ferromagnetic second pole piece being magnetically coupled to said ferromagnetic first return path by means of at least a ferromagnetic third coupling element and to the said ferromagnetic second return path by means of at least a ferromagnetic fourth coupling element, wherein each of said ferromagnetic coupling elements comprises at least one essentially trough-shaped cover segment which receives a first winding section of the respective associated saddlle-shaped field coil, lying essentially on a first periphery of the flow rube, or a second winding section of the respective associated saddle-shaped field coil, lying essentially on a second periphery of the flow tube. 2. The electromagnetic flow sensor as claimed in claim 1, wherein at least one of said ferromagnetic coupling elements has a connecting portion which serves to effect magnetic coupling with the respecting associated ferromagnetic pole piece and contacts at least part of the surface of said associated ferromagnetic pole piece. 3. The electromagnetic flow sensor as claimed in claim 1, wherein at least one of said ferromagnetic coupling elements has a connecting portion which serves to effect magnetic coupling with the respective associated ferromagnetic return path and contacts at least part of the surface of said associated ferromagnetic return path. 4. The electromagnetic flow sensor as claimed in claim 1, wherein each of said two saddle-shaped field coils has an essentially rectangular cross section. 5. The electromagnetic flow sensor as claimed in claim 1, wherein said first winding section received by said existing trough-shaped cover segment of said ferromagnetic first coupling element forms a first side of the cross section of said saddle-shaped first field coil, and wherein said first winding section received by said trough-shaped cover segment of said ferromagnetic second coupling element forms a second side of the cross section of said saddle-shaped first field coil. 6. The electromagnetic flow sensor as claimed in claim 1, wherein said trough-shaped cover segments each have at least one essentially circular-arc-shaped edge. 7. The electromagnetic flow sensor as claimed in claim 1, wherein said ferromagnetic coupling elements are also essentially saddle-shaped.
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이 특허에 인용된 특허 (6)
Hansen Henning M. (Nordborg DKX) Jacobsen Hans E. (Nordborg DKX) Hansen Henry (Grsten DKX) Lassithiotakis Konstantin (Langeskov DKX) Pedersen Allan S. (Sonderborg DKX) Nyrup John (Sonderborg DKX), Electromagnetic flow meter.
Murray Jean P. (Minneapolis MN) Bohn David C. (Stillwater Township ; Washington County MN) Bengtson Darroll D. (New Brighton MN), Electromagnetic flowmeter.
Beaulieu,Jean Philippe; Garcia,Jean Luc; Moenner,Jean Pierre, Device for integrating electrodes characterizing the flow of a multiphase fluid in a tubing.
Lucas, Gary P.; Leeungculsatien, Teerachai, Electromagnetic flow meter and method for monitoring fluid flow of a conducting fluid having either a uniform or a non-uniform flow profile.
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