Apparatus and method for determining the position and orientation of a remote object
First Claim
1. An apparatus for determining the position and orientation of a remote object in relation to an observation point comprisingtransmitting means for sending a magnetic field signal,receiving means for receiving and analyzing said magnetic field signal,one of said means being positioned at said observation point and the other being secured on said remote object,said transmitting means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other,a two-phase power source connected separately to each of said coils and operable when energized to produce a magnetic field around the coils,electric means cooperable with said separate two-phase power sources for connecting said coils in pairs to produce a magnetic field rotating about the axis of the third coil,said receiving means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other and responsive to the magnetic field produced by said transmitting means,said receiving coils being connected in pairs to detect the phase relationship and magnitude of the signal induced by the transmitting coils to produce an electric signal indicative of the orientation of said remote body.
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Accused Products
Abstract
An apparatus and method for determining the position and orientation of a remote object in relation to an observation point comprises a transmitter for sending a magnetic field signal and a receiver for receiving and analyzing the magnetic field signal. The transmitter or the receiver is positioned at the observation point and the other is secured on the remote object. The transmitter has three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other and connected to a polyphase power to produce a magnetic field around the coils. The coils are connected and energized in pairs to produce a magnetic field rotating about the axis of the third coil. The receiver has three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other and responsive to the magnetic field produced by the tranmsitter. The receiving coils are connected in pairs to detect the phase relationship and magnitude of the signal to indicate the orientation of the remote body. The transmitter or receiver coils are preferably annular coils wound orthogonally on a homogeneous spherical ferromagnetic core, although other cores may be used such as a hollow cylindrical ferromagnetic core, a ferromagnetic rod core or a ferromagnetic disc core supported in a gimbal mounting with annular coils wound orthogonally thereon.
135 Citations
40 Claims
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1. An apparatus for determining the position and orientation of a remote object in relation to an observation point comprising
transmitting means for sending a magnetic field signal, receiving means for receiving and analyzing said magnetic field signal, one of said means being positioned at said observation point and the other being secured on said remote object, said transmitting means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other, a two-phase power source connected separately to each of said coils and operable when energized to produce a magnetic field around the coils, electric means cooperable with said separate two-phase power sources for connecting said coils in pairs to produce a magnetic field rotating about the axis of the third coil, said receiving means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other and responsive to the magnetic field produced by said transmitting means, said receiving coils being connected in pairs to detect the phase relationship and magnitude of the signal induced by the transmitting coils to produce an electric signal indicative of the orientation of said remote body.
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11. A system for drilling a bore hole comprising
a boring tool having a longitudinal tool axis and including means for advancing the tool through the earth and steering means for directing the motion of the tool relative to its longitudinal axis, transmitting means for sending a magnetic field signal, receiving means for receiving and analyzing said magnetic field signal, one of said means being positioned at an observation point and the other being secured on said boring tool, said transmitting means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other, a polyphase power source connected separately to each of said coils and operable when energized to produce a magnetic field around the coils, electric means for connecting said coils in pairs and cooperable with said separate power sources to produce a magnetic field rotating about the axis of the third coil, said receiving means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other and responsive to the magnetic field produced by said transmitting means, said receiving coils being connected in pairs to detect the phase relationship and magnitude of the signal induced by the transmitting coils to produce an electric signal indicative of the orientation of said boring tool and for operating said steering means to change the direction of movement of said boring tool.
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21. A method determining the orientation of a remote object comprising
providing transmitting means for sending a magnetic field signal, providing receiving means for receiving and analyzing said magnetic field signal, one of said means being positioned at an observation point and the other being secured on said remote object, said transmitting means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other, connecting a two-phase power source separately to each of said coils, connecting said coils selectively in pairs and energizing selected pairs from said polyphase power source to produce a magnetic field rotating about the axis of the third coil without any physial movement of the coils, said receiving means comprising three coils positioned on a ferromagnetic core with their axes mutually orthogonal to each other and responsive to the magnetic field produced by said transmitting means, and connecting said receiving coils in pairs to detect the phase relationship and magnitude of the signal induced by the transmitting coils to produce an electric signal indicative of the orientation of said remote body.
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33. A positional information system comprising
a transmitter for producing a varying electromagnetic field having a set of coils with three mutually orthogonal axes, means for energizing said coils separately in pairs with polyphase alternating current in a phase relationship which generates a resultant field rotating about the axis of the other coil without mechanical movement of the coils, a receiver coil, and means for determining from the receiver coil the phase relationship of the induced signals to the transmitted signals, thereby providing an indication of the positional relationship between the receiver coil and the transmitter.
Specification