Tyre data monitoring systems
First Claim
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1. A vehicle tyre data monitoring system comprising a wheel mounted sensor means adapted to transmit one or more of pressure, temperature, angular velocity, and force vector data for a tyre as a digital serial datagram through a two-wire, electromagnetically coupled, communication channel to a chassis mounted reader means, the communication channel comprising an electromagnetic coupling means adapted to have constant mutual inductance for all stationary or rotating positions of the tyre and to simultaneously supply power to the sensor means and receive the data for processing and subsequent display to a user of the system,wherein the sensor means includes a sensor coil that is mounted annularly on a rim of the wheel and is coiled around a first axis, andwherein the reader means includes a receiver coil that is coiled around a second axis that is noncoincident with the first axis.
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Abstract
A vehicle tyre data monitoring system has a wheel mounted sensor means that is adapted to transmit one or more of pressure, temperature, angular velocity, and force vector data for a tyre as a digital serial datagram through a two-wire communication channel to a chassis mounted reader means. The communication channel is adapted to simultaneously supply power to the sensor means and receive the data for processing and subsequent display to a user of the system.
26 Citations
11 Claims
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1. A vehicle tyre data monitoring system comprising a wheel mounted sensor means adapted to transmit one or more of pressure, temperature, angular velocity, and force vector data for a tyre as a digital serial datagram through a two-wire, electromagnetically coupled, communication channel to a chassis mounted reader means, the communication channel comprising an electromagnetic coupling means adapted to have constant mutual inductance for all stationary or rotating positions of the tyre and to simultaneously supply power to the sensor means and receive the data for processing and subsequent display to a user of the system,
wherein the sensor means includes a sensor coil that is mounted annularly on a rim of the wheel and is coiled around a first axis, and wherein the reader means includes a receiver coil that is coiled around a second axis that is noncoincident with the first axis.
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5. A two-wire communication channel for a vehicle tyre data monitoring system, the channel including electromagnetic coupling means for communicating between a sensor means mounted on a wheel of the vehicle and a reader means mounted on a chassis of the vehicle, and being adapted to transmit one or more of pressure, temperature, angular velocity and force vector data for a tyre as a digital serial datagram from the sensor means to the reader means and to supply power from the reader means to the sensor means, the supply of power being simultaneous with the transmission and reception of the data, wherein the electromagnetic coupling means includes a sensor coil mounted annularly on a rotatable rim for the wheel and a receiver coil mounted on a non-rotating component of a hub for the wheel, the sensor coil and the receiver coil being adapted to maintain a constant mutual inductance therebetween during a complete rotation of the wheel, the sensor and receiver coils providing a non-contacting, two wire communication channel for the data monitoring system,
wherein the sensor coil is coiled around a first axis and the receiver coil is coiled around a second axis that is noncoincident with the first axis.
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6. A vehicle wheel to hub electromagnetic coupling interconnection in a tyre data monitoring system for the transmission thereacross of one or more of pressure, temperature, angular velocity and force vector data for a tyre mounted on the wheel, the electromagnetic coupling interconnection comprising a first part mounted on a rotatable rim of the wheel and adapted to receive the data from a sensor means, and a second part mounted on a non-rotating component of a hub for the wheel, the second part being adapted to maintain a constant air gap distance with the first part when the wheel is mounted on the hub so as to maintain constant mutual inductance between the first part and the second part for allowing the data to be transmitted from the first part to the second part, the second part being further adapted to transmit the data to a reader means mounted on a chassis of the vehicle for processing and subsequent display to a user of the system,
wherein the first part includes a sensor coil that is mounted annularly on the rim and that is coiled around a first axis, and wherein the second part includes a receiver coil that is coiled around a second axis that is noncoincident with the first axis.
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8. A two-wire communication channel for a vehicle tyre data monitoring system, the channel including electromagnetic transforming means for communicating between a sensor means mounted on a wheel of the vehicle and a reader means mounted on a chassis of the vehicle, and being adapted to transmit one or more of pressure, temperature, angular velocity and force vector data for a tyre as a digital serial datagram from the sensor means to the reader means and to supply power from the reader means to the sensor means, the supply of power being simultaneous with the transmission and reception of the data, wherein a first part of the electromagnetic transforming means is mounted annularly on a rim of the wheel and a second part of the electromagnetic transforming means is mounted on a non-rotating component of a hub for the wheel, the first and second parts being divided by an air gap and providing a non-contacting, two wire communication channel for the data monitoring system,
wherein the second part comprises a receiver coil mounted on the non-rotating component of the hub for the wheel, and the first part comprises a sensor coil so mounted annularly on the rim of the wheel as to maintain a constant and sufficiently proximate distance to the receiver coil during rotation of the wheel for electromagnetic induction to occur, and wherein the sensor coil is coiled around a first axis and the receiver coil is coiled around a second axis that is noncoincident with the first axis.
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9. An electromagnetic coupling in a two-wire communication channel for a vehicle tyre data monitoring system, the electromagnetic coupling comprising a first part mounted annularly on a rim of a wheel of the vehicle, and a second part mounted on a non-rotating component of a hub for the wheel, the first part and the second part being adapted to maintain electromagnetic induction therebetween during rotation of the wheel for the transmission of decodable data for the tyre from a sensor means mounted on the wheel to a reader means mounted on the chassis,
wherein the second part comprises a receiver coil mounted on the non-rotating component of the hub for the wheel, and the first part comprises a sensor coil so mounted annularly on the rim of the wheel as to maintain a constant and sufficiently proximate distance to the receiver coil during rotation of the wheel for electromagnetic induction to occur, and wherein the sensor coil is coiled around a first axis and the receiver coil is coiled around a second axis that is noncoincident with the first axis.
Specification
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Current AssigneeNicholas Mangafas
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Original AssigneeNicholas Mangafas
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InventorsCohen, Phillip Albert
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Primary Examiner(s)Lee; Benjamin C
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Assistant Examiner(s)Pham; Lam P
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Application NumberUS10/534,899Publication NumberTime in Patent Office2,044 DaysField of Search340442-448, 731462-1465, 152/152.1US Class Current340/442CPC Class CodesB60C 23/041 Means for supplying power t...B60C 23/0413 Wireless charging of active...B60C 23/043 using transformer type sign...B60C 23/0494 Valve stem attachments posi...
