Tachogenerator for detecting the rotational speed of a rotating machine part
First Claim
1. A tachogenerator for detecting the rotation speed of a rotating machine part comprising:
- at least one magnetically acting encoder which can rotate with the machine part, said encoder comprising magnetically acting areas subdivided into angle parts spaced a distance apart from each other, said distance between said angle parts defining an angular pitch;
wherein the magnetically acting areas are composed of ferromagnetic material or a magnetic pole ring; and
wherein during rotation said encoder produces a measurement signal;
a sensor for receiving the measurement signal, said sensor having a predetermined measurement resolution corresponding to a required signal frequency, and arranged to be stationary relative to the encoder and separated from said encoder by an air gap which may not remain constant relative to the encoder and magnet sensor;
wherein said measurement signal corresponds to the angular pitch of the encoder and wherein the frequency of the measurement signal corresponds to the rotation frequency of the machine part; and
wherein the angular pitch of the encoder is larger than the predetermined measurement resolution requires;
wherein said sensor comprises at least two magnet sensors (5a, 5b) arranged fixed one behind the other in the rotation direction, relative to the encoder (1), in order to produce at least two mutually phase-shifted measurement signals (US1, US2) which correspond to the angular pitch of the encoder; and
means for linking the measurement signals (US1, US2) emitted by the sensors (5a, 5b) to form an output signal (A), said output signal (A) being at a frequency which is greater than the measurement signals (US1, US2) of the magnet sensors, in order to achieve the predetermined measurement resolution.
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Accused Products
Abstract
In a tachogenerator for detecting the rotation speed of a rotating machine part, in particular that of a vehicle wheel, having a predetermined measurement resolution, having at least one magnetically acting encoder which can rotate with the machine part, has magnetically acting areas which are subdivided in a predetermined sequence into angle parts, in particular teeth composed of ferromagnetic material or a magnetic pole ring, and which, during rotation, produces a measurement signal in at least one magnet sensor which is arranged to be stationary relative to the encoder and is separated from said encoder by an air gap, which measurement signal corresponds to the angular pitch of the encoder and whose frequency corresponds to the rotation frequency of the machine part, in order to produce measurement signals which can be evaluated with an air gap which is not constant, the angular pitch of the encoder is coarser than the predetermined measurement resolution requires, and at least two magnet sensors are provided, which are arranged fixed one behind the other in the rotation direction, relative to the encoder, in order to produce at least two mutually phase-shifted measurement signals which correspond to the angular pitch of the encoder, and means are provided for linking the measurement signals emitted by the sensors to form an output signal, with the output signal being at a frequency which is greater than the measurement signals of the magnet sensors, in order to achieve the predetermined measurement resolution.
29 Citations
36 Claims
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1. A tachogenerator for detecting the rotation speed of a rotating machine part comprising:
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at least one magnetically acting encoder which can rotate with the machine part, said encoder comprising magnetically acting areas subdivided into angle parts spaced a distance apart from each other, said distance between said angle parts defining an angular pitch;
wherein the magnetically acting areas are composed of ferromagnetic material or a magnetic pole ring; and
wherein during rotation said encoder produces a measurement signal;
a sensor for receiving the measurement signal, said sensor having a predetermined measurement resolution corresponding to a required signal frequency, and arranged to be stationary relative to the encoder and separated from said encoder by an air gap which may not remain constant relative to the encoder and magnet sensor;
wherein said measurement signal corresponds to the angular pitch of the encoder and wherein the frequency of the measurement signal corresponds to the rotation frequency of the machine part; and
wherein the angular pitch of the encoder is larger than the predetermined measurement resolution requires;
wherein said sensor comprises at least two magnet sensors (5a, 5b) arranged fixed one behind the other in the rotation direction, relative to the encoder (1), in order to produce at least two mutually phase-shifted measurement signals (US1, US2) which correspond to the angular pitch of the encoder; and
means for linking the measurement signals (US1, US2) emitted by the sensors (5a, 5b) to form an output signal (A), said output signal (A) being at a frequency which is greater than the measurement signals (US1, US2) of the magnet sensors, in order to achieve the predetermined measurement resolution. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A tachogenerator for detecting the rotation speed of a rotating machine part comprising:
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at least one magnetically acting encoder which can rotate with the machine part that has magnetically acting areas which are subdivided in a uniform sequence into angle parts spaced a distance apart from each other, said distance between said angle parts defining an angular pitch;
wherein the magnetically acting areas are composed of ferromagnetic material or magnetic poles, and which, during rotation, produces a measurement signal;
a sensor for receiving said measurement signal, said sensor having a predetermined measurement resolution corresponding to a required signal frequency, and arranged to be stationary relative to the encoder and separated from said encoder by an air gap which may not remain constant relative to the encoder and magnet sensor;
wherein said measurement signal corresponds to the angular pitch of the encoder and wherein the frequency of the measurement signal corresponds to the rotation frequency of the machine part;
wherein said sensor comprises at least two magnet sensors (5a to 5b″
) arranged fixed one behind the other in the rotation direction, relative to the encoder (1), in order to produce at least two mutually phase-shifted measurement signals (US1, US2), which correspond to the angular pitch of the encoder;
wherein the mathematical sign of the measurement signals of said magnet sensors (5a to 5b″
) have a characteristic (K) which behaves at least approximately with mirror-image symmetry with respect to the magnetic field strength (B); and
wherein the angular pitch of the encoder is larger than the predetermined measurement resolution requires; and
a means for linking the measurement signals (US1, US2) emitted by the magnet sensors (5a to 5b″
) to form an output signal (A′
, A″
, A′
″
, AIV), said output signal (A′
, A″
, A′
″
, AIV) being at a lower frequency than the original measurement signals (US1, US2).- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A tachogenerator for detecting the rotation speed of a rotating machine part comprising:
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an encoder which can rotate with the machine part, said encoder comprising a plurality of magnetic poles spaced a fix distance apart from each other, wherein a measurement signal is produced in an area between adjacent magnetic poles;
a means for sensing the measurement signal, wherein said sensor means is stationary relative to the encoder and separated from the encoder by an air gap, said sensor means having a predetermined measurement resolution corresponding to a required measurement frequency;
wherein the frequency of the measurement signal corresponds to the rotation frequency of the machine part; and
wherein the distance between the poles is larger than the predetermined measurement resolution requires;
wherein said sensor means produces at least two mutually phase-shifted measurement signals having frequencies which correspond to the distance between the poles; and
a means for linking the measurement signals to form an output signal having the measurement frequency required by the predetermined measurement resolution. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36)
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Specification