Method and apparatus for measuring strain
First Claim
1. A method of measuring dynamic torque in a rotatable shaft wherein at least a pair of surface acoustic wave generators are disposed on a substrate, and are disposed to distort in response to the torque to be measured such that the distortion serves to alter the frequency control of the surface acoustic wave generator with a consequent change in output frequency comprising the steps of:
- a) locating on a shaft (S) a pair of transducers (T1, T2), each comprising an SAW resonator, mounted as a complementary pair so that for a first direction of rotation (K) of the shaft (S) about an axis (A) a first transducer (T1) is under compression and the second transducer of said pair (T2) is in tension, a signal input (C1) and a signal output (C2,C3) for each transducer, the signal input and signal outputs being located at discrete locations, said discrete locations being one of on and near an outside of the shaft for rotation therewith;
b) causing a driving signal to be applied to the signal input (C1), which is carried out by way of a signal transmitter (P1) coupled to the signal input by one of an inductive, capacitive and radio wave means of low power;
c) detecting at each signal output (C2,C3) at least an output resonant frequency of the corresponding transducer (T1, T2) when driven by the driving signal by way of a signal receiver (P2) coupled to the signal outputs (C2,C3) by way of one of an inductive, capacitive and radio wave means of low power; and
d) processing the output resonant frequency signal from each transducer (T1, T2) to derive information as to the strain generated in the transducers (T1, T2) induced by stress in the shaft (S) due to dynamic torque transmitted by the shaft (S).
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Abstract
A method of, and apparatus for, measuring dynamic torque transmitted by a shaft having an axis of rotation is characterised by the steps of:
1 locating on the shaft (S) a pair of transducers (T, T1, T2), each comprising an SAW resonator, as a complementary pair so that for a first direction of rotation (K) of the shaft (S) about the axis (A) one transducer (T1) is under compression and the other (T2) in tension and for a reverse direction of rotation of the shaft the one transducer (T1) is in tension and the other (T2) in compression, a signal input (C1) and a signal output (C2, C3) for either each transducer or a single signal output for a signal derived from both transducers, the signal input and signal output or outputs being located at discrete locations on or near the outside of the shaft (S) for rotation therewith,
2 causing a driving signal to be applied to the signal input (C1);
3 detecting at each or the signal outlet (C2, C3) at least an output resonant frequency of the transducer (T, T1, T2) when driven by the driving signal; and
4 processing the output resonant frequency signal of each or both transducers to derive information as to the strain generated in the transducer (T1, T2) induced by stress in the shaft (S) due to dynamic torque transmitted by the shaft (S).
The invention further provides for various output signals to be provided relating to dynamic torque with or without temperature compensation and/or representation.
71 Citations
7 Claims
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1. A method of measuring dynamic torque in a rotatable shaft wherein at least a pair of surface acoustic wave generators are disposed on a substrate, and are disposed to distort in response to the torque to be measured such that the distortion serves to alter the frequency control of the surface acoustic wave generator with a consequent change in output frequency comprising the steps of:
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a) locating on a shaft (S) a pair of transducers (T1, T2), each comprising an SAW resonator, mounted as a complementary pair so that for a first direction of rotation (K) of the shaft (S) about an axis (A) a first transducer (T1) is under compression and the second transducer of said pair (T2) is in tension, a signal input (C1) and a signal output (C2,C3) for each transducer, the signal input and signal outputs being located at discrete locations, said discrete locations being one of on and near an outside of the shaft for rotation therewith; b) causing a driving signal to be applied to the signal input (C1), which is carried out by way of a signal transmitter (P1) coupled to the signal input by one of an inductive, capacitive and radio wave means of low power; c) detecting at each signal output (C2,C3) at least an output resonant frequency of the corresponding transducer (T1, T2) when driven by the driving signal by way of a signal receiver (P2) coupled to the signal outputs (C2,C3) by way of one of an inductive, capacitive and radio wave means of low power; and d) processing the output resonant frequency signal from each transducer (T1, T2) to derive information as to the strain generated in the transducers (T1, T2) induced by stress in the shaft (S) due to dynamic torque transmitted by the shaft (S). - View Dependent Claims (2)
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3. Apparatus for measuring dynamic torque transmitted by a shaft having an axis of rotation wherein a pair of transducers, each comprising an SAW resonator, are located relative to a shaft as a complementary pair comprising:
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a pair of transducers (T1, T2) being located on the shaft; a signal input (C1) comprising a signal transmitter (Pl) coupled to the signal input (C1) by one of an inductive, capacitive and radio wave means of low power; a signal output (C2) comprising a signal receiver (P2) coupled to the signal output (C2) by way of one of an inductive, capacitive and radio wave means of low power, each transducer being located at discrete locations, said discrete locations being one of on and near the outside of the shaft (S) for rotation therewith, each transducer (T1, T2) comprising a piezoelectric substrate (13) having mounted on one side a pair of interdigitated electrodes (11,
12), a first electrode (11) of the pair being connected to the signal input (C1);a generator (A1, A2) for applying an input signal at a predetermined frequency (F1, F2) to the signal input (C1); a signal processing mixer (M) for receiving a signal from the signal output (C2); and a processor (R) whereby changes in the output signal arising from strain applied to the substrate (13) can be derived. - View Dependent Claims (4, 5, 6, 7)
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Specification