Non-contacting throttle valve position sensor
First Claim
1. A throttle assembly having a throttle valve position sensor for use with a throttle control valve having a throttle valve shaft rotatably supported in a throttle housing and positionable by a control motor through a geared transmission, the throttle assembly comprising:
- a) a gear, fixed to the throttle valve shaft;
b) a first tapered magnet mounted to the gear and extending perpendicularly to the shaft;
c) a second tapered magnet extending parallel to and spaced from the gear and the first magnet and coupled to the shaft; and
d) a flux density sensor, located between the first and second tapered magnets, for sensing a flux density indicative of a rorational position of the first and second tapered magnets in response to the throttle valve shaft rotation, the first and second tapered magnets adapted to create a variable magnetic field, the magnitude of the variable magnetic field being proportional to the rotational position of the gear.
2 Assignments
0 Petitions
Accused Products
Abstract
A throttle valve position sensor in which a non-contacting, magnetic field sensor is coupled to or integral with a gear wheel of a geared throttle valve control. The sensor provides a more durable sensor. Sensor circuitry can be provided on the lid of the control, along with control motor electrical connections, so that the sensor and control motor can be connected by simple joining in a single operation. The throttle control valve is intended for internal combustion engines for motor vehicles.
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Citations
19 Claims
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1. A throttle assembly having a throttle valve position sensor for use with a throttle control valve having a throttle valve shaft rotatably supported in a throttle housing and positionable by a control motor through a geared transmission, the throttle assembly comprising:
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a) a gear, fixed to the throttle valve shaft;
b) a first tapered magnet mounted to the gear and extending perpendicularly to the shaft;
c) a second tapered magnet extending parallel to and spaced from the gear and the first magnet and coupled to the shaft; and
d) a flux density sensor, located between the first and second tapered magnets, for sensing a flux density indicative of a rorational position of the first and second tapered magnets in response to the throttle valve shaft rotation, the first and second tapered magnets adapted to create a variable magnetic field, the magnitude of the variable magnetic field being proportional to the rotational position of the gear. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A throttle valve position sensor for use with a throttle control valve assembly having a throttle valve shaft rotatably supported in a throttle housing and positionable by a control motor through a geared transmission, the throttle valve position sensor comprising:
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a) a system for creating a variable magnetic field, including a first tapered magnet mounted to a gear of the geared transmission, and extending perpendiculary to the shaft, and a second tapered magnet, extending parallel to and spaced from the gear and the first magnet, and coupled to the shaft, wherein the variable magnetic field system is movable with the gear; and
b) a magnetic field sensor, located between the first and second tapered magnets, for sensing changes in the variable magnetic field that is indicative of the rotational position of the gear, and a flux density sensor, located between the first and second tapered magnets, for sensing a flux density indicative of a rotational position of the first and second tapered magnets in response to the throttle valve shaft rotation, the first and second tapered magnets adapted to create a variable magnetic field, the magnitude of the variable magnetic field being proportional to the rotational position of the gear. - View Dependent Claims (14, 15, 16, 17, 18)
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19. A throttle control device comprising:
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a) a throttle valve secured to a throttle valve shaft that is rotatably supported in a throttle valve housing;
b) a control motor including a drive gear operatively coupled to the throttle valve shaft for adjusting the rotational position thereof;
c) a magnetized portion coupled to the drive gear, wherein the magnetized portion further includes a first tapered magnet mounted to the gear and extending perpendicularly to the shaft, and a second tapered magnet extending parallel to and spaced from the gear and the first tapered magnet, and coupled to the shaft;
d) a flux density sensor, located between the first and second tapered magnets, for detecting the rorational position of the magnetized portion, the flux density indicative of a rotational position of the first and second tapered in response to the throttle valve shaft rotation, the first and second tapered magnets adapted to create a variable magnetic field, the magnitude of the variable magnetic field being proportional to the rotational position of the gear, the sensor including circuitry;
e) a lid coupled to the throttle valve housing, the circuitry being mounted on the lid; and
f) a coupling part formed onto the lid and including electrical connections to the control motor circuitry.
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Specification