Claims
- 1. An active mount system comprising:
- a resilient mount for supporting a load in compression from a rotary machine supporting base to a supporting structure;
- sensing means for sensing a level of vibrational force transmitted from said load through said resilient mount;
- a means for generating a sinusoidal reference signal in synchronization with the rotary machine;
- control signalling means for transmitting a signal in response to the level of vibrational force sensed by said sensing means; and
- force transducing means for providing a force to attenuate said vibrational force transmitted through said resilient mount in response to said signal from said control signalling means;
- wherein said force transducing means includes an electromagnetic device in parallel with said resilient mount;
- wherein said control signalling means includes a least mean square adaptive filter receiving a reference input from said reference signal generating means and receiving an error signal from said sensing means and generates a corrective signal to said force transducing means.
- 2. An active mount system according to claim 1 wherein said force transducing means is an electromagnetic device in parallel with said resilient mount.
- 3. An active mount according to claim 1 wherein said resilient mount is formed of an elastomeric material.
- 4. An active mount system of claim 3 wherein said elastomeric material is rubber.
- 5. An active mount system according to claim 1 wherein said force transducer means is a piezoelectric device.
- 6. An active mount system according to claim 1 wherein said force transducer means is a magnetorestrictive device.
- 7. An active mount system according to claim 1 wherein said sensing means is a force gauge
- 8. An active mount system according to claim 1 wherein said digital sensing means is an accelerometer.
- 9. An active mount system according to claim 1 wherein said means for generating a sinusoidal reference signal comprises a speed sensor attached to said rotary machinery, said speed sensor generating a preselected number of pulses per rotation of said rotary machinery; and a sine wave generator which generates a sine wave synchronous with said rotary machine in response to said pulses.
- 10. An active mount system according to claim 1 including spring means disposed adjacent said force transducing means and arranged and constructed to allow for movement of said force transducing means when said mount is subject to high shock load.
- 11. An active mount system according to claim 1 wherein said force transducing means is an electromagnetic device having an armature and a stator and further including a spring means disposed adjacent said stator to allow for movement of said stator when said mount is subjected to a high shock load.
- 12. An active mount system comprising:
- a resilient mount for supporting a load in compression from a rotary machine supporting base to a supporting structure;
- sensing means for sensing a level of vibrational force transmitted from said load through said resilient mount;
- control signalling means for transmitting a signal in response to the level of vibrational force sensed by said sensing means; and
- force transducing means for providing a force to attenuate said vibrational force transmitted through said resilient mount in response to said signal from said control signalling means;
- wherein said force transducing means includes an electromagnetic device in parallel with said resilient mount;
- force transducing means for providing a force to attenuate said vibrational force transmitted through said resilient mount in response to said signal from said control signalling means;
Parent Case Info
This application is a continuation-in-part of allowed U.S. application Ser. No. 07/392,197, filed Aug. 10, 1989, now U.S. Pat. No. 5,011,108.
US Referenced Citations (11)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
392197 |
Aug 1989 |
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