Surface-acoustic-wave, digitized angular accelerometer
First Claim
1. A sensing element for sensing angular acceleration in terms of the torsional strain it produces comprising:
- a longitudinal strain member in the form of a flat beam, the strain beam being formed from a material the elastic properties of which change in proportion to the amount of torque experienced by the material; and
a longitudinal torsion member in the form of a flat beam the longitudinal axis of which crosses the longitudinal axis of the strain member, said torsion beam being formed with an end mass at each end, the beams being in such orientation to each other that the flat sides of each beam would rotate into the flat sides of the other beam if one of said beams were rotated 90 degrees,said strain member being affixed at each end to a body whose angular acceleration is to be measured,the strain member being affixed to the body in an orientation such that the angular acceleration vector of the body lies along the axis of the strain member.
1 Assignment
0 Petitions
Accused Products
Abstract
An angular accelerometer utilizing a sensing element 10 comprising a strain member 18 and a crosswise torsion member 24, both substantially comprising flat beams 18 and 25, respectively. The strain member 18 is affixed at each end to the object whose angular acceleration is to be measured, the angular acceleration vector lying along the axis of the strain member 18. The torsion member 24 is formed with an end mass 26,26'"'"' at each end. The strain member 18 is formed from a material such as quartz whose elasticity changes in proportion to the torque it experiences. A high-frequency surface acoustic wave is sent along the strain member and the change in its frequency due to the torque in the strain member 18 is measured.
-
Citations
12 Claims
-
1. A sensing element for sensing angular acceleration in terms of the torsional strain it produces comprising:
-
a longitudinal strain member in the form of a flat beam, the strain beam being formed from a material the elastic properties of which change in proportion to the amount of torque experienced by the material; and a longitudinal torsion member in the form of a flat beam the longitudinal axis of which crosses the longitudinal axis of the strain member, said torsion beam being formed with an end mass at each end, the beams being in such orientation to each other that the flat sides of each beam would rotate into the flat sides of the other beam if one of said beams were rotated 90 degrees, said strain member being affixed at each end to a body whose angular acceleration is to be measured, the strain member being affixed to the body in an orientation such that the angular acceleration vector of the body lies along the axis of the strain member. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
-
-
12. An angular accelerometer comprising:
-
a longitudinal strain member in the form of a flat beam, the strain beam being formed from a material the elastic properties of which change in proportion to the amount of torque experienced by the material; and a longitudinal torsion member in the form of a flat beam the longitudinal axis of which crosses the longitudial axis of the strain member, said torsion beam being formed with an end mass at each end, the beams being in such orientation to each other that the flat sides of each beam would rotate into the flat sides of the other beam if one of said beams were rotated 90 degrees, said strain member being affixed at each end to a body whose angular acceleration is to be measured, the strain member being affixed to the body in an orientation such that the angular acceleration vector of the body lies along the axis of the strain member; transmitting transducer means for converting an electrical input signal to an acoustic output signal, said transducer means being located on a flat side of said strain beam; receiving transducer means for converting an acoustic input signal to an electrical output signal, said transducer means being located on a flat side of said strain beam; oscillator means for producing a high-frequency electrical signal to said transmitting transducer means; frequency-difference detection means, coupled to receive the electrical output signal from said receiving transducer means, for producing a signal whose frequency is the difference in frequency between the output signal from the oscillator means and the output signal from the receiving transducer and for counting the frequency of the difference-frequency signal; and display means, connected to receive the output of said detection means, for indicating said frequency difference.
-
Specification