Ultrasonic motor

An ultrasonic motor includes a rotor and a rotor accommodated in a housing. The stator includes a piezoelectric element and the housing is secured to a base by screws. The rotor contacts the stator. The piezoelectric element vibrates the stator to rotate the rotor. An insulation plate is located between the stator and the base. An insulation washer is located between the stator and each screw. A rotary shaft is rotatably supported by the housing. The rotary shaft is coupled to the rotor with an insulation collar in between. Therefore, the stator and the rotor are electrically insulated from the housing and the rotary shaft. This arrangement reduces electromagnetic noise, which interferes with other electric devices, such as radios.

If you were to search for Ultrasonic motor using relaxed search criteria, these patents would come up:

What is claimed is:

1. An ultrasonic motor comprising:

a housing;

a stator having a piezoelectric element, wherein the stator is accommodated in and secured to the housing;

a rotor accommodated in the housing, wherein the rotor contacts the stator, and wherein the piezoelectric element vibrates the stator to rotate the rotor; and

a rotary shaft supported by the housing, wherein the rotary shaft is coupled to the rotor to integrally rotate with the rotor;

wherein the housing includes a supporting member to which the stator is secured, and wherein an insulation member is located between the stator and the supporting member, said ultrasonic motor further including a first engaging structure locatedbetween the insulation member and the stator to engage the insulation member and the stator with each other, and a second engaging structure located between the insulation member and the supporting member to engage the insulation member and thesupporting member with each other;

wherein the first engaging structure prevents the insulation member and the stator from moving relative to each other in a plane perpendicular to the axis of the motor and wherein the second engaging structure prevents the insulation member andthe supporting member from moving relative to each other in a plane perpendicular to the axis of the motor; and

wherein the first engaging structure includes a first projection formed on a first side of the insulation member and an opening formed in the stator to receive the first projection and said second engaging structure including a second projectionformed on a second side of the insulation member and an opening formed in the supporting member to receive the second projection.

2. The ultrasonic motor according to claim 1, wherein the first projection and the second projection are axially aligned with each other.

3. The ultrasonic motor according to claim 1, wherein the first projection is one of a plurality of first projections, wherein the first projections are spaced at equal angular intervals.

4. The ultrasonic motor according to claim 1, wherein the second projection is one of a plurality of second projections, wherein the second projections are spaced at equal angular intervals.

5. An ultrasonic motor comprising:

a metal housing secured to a vehicle body frame, said housing including a supporting member;

a stator having a piezoelectric element, wherein the stator is accommodated in and secured to the housing, said stator being secured to said supporting member;

a rotor accommodated in the housing, wherein the rotor contacts the stator, and wherein the piezoelectric element vibrates the stator to rotate the rotor;

a rotary shaft supported by the housing, wherein the rotary shaft is coupled to the rotor to integrally rotate with the rotor,

an insulation member located between the supporting member and the stator for electrically insulating the stator from the housing;

a first engaging structure located between the insulation member and the stator to engage the insulation member and the stator with each other, wherein the first engaging structure includes a first projection formed on a first side of theinsulation member and a first opening formed in the stator to receive the first projection; and

a second engaging structure located between the insulation member and the housing to engage the insulation member and the housing with each other, wherein the second engaging structure includes a second projection formed on a second side of theinsulation member and a second opening formed in the housing to receive the second projection;

wherein the first engaging structure prevents the insulation member and the stator from moving relative to each other in a plane perpendicular to the axis of the motor and wherein the second engaging structure prevents the insulation member andthe supporting member from moving relative to each other in a plane perpendicular to the axis of the motor.

6. The ultrasonic motor according to claim 5, wherein the insulation member is formed with high-strength rigid resin.

7. The ultrasonic motor according to claim 5, wherein the second opening is formed in the supporting member.

8. The ultrasonic motor according to claim 5, wherein the first projection and the second projection are axially aligned with each other.

9. The ultrasonic motor according to claim 5, wherein the first projection is one of a plurality of first projections, wherein the first projections are spaced at equal angular intervals.

10. The ultrasonic motor according to claim 5, wherein the second projection is one of a plurality of second projections, wherein the second projections are spaced at equal angular intervals.

11. An ultrasonic motor comprising:

a stator having a piezoelectric element, wherein the stator is accommodated in and secured to a housing;

a rotor accommodated in the housing, wherein the rotor contacts the stator, and wherein the piezoelectric element vibrates the stator to rotate the rotor;

a rotary shaft supported by the housing, wherein the rotary shaft is coupled to the rotor to integrally rotate with the rotor;

a supporting member, which is part of the housing, to which the stator is secured, wherein an insulation member is located between the stator and the supporting member, and

first engaging structure located between the insulation member and the stator to engage the insulation member and the stator with each other and second engaging structure located between the insulation member and the supporting member to engagethe insulation member and the supporting member with each other;

wherein the first engaging structure prevents the insulation member and the stator from moving relative to each other in a plane perpendicular to the axis of the motor, and wherein the second engaging structure prevents the insulation member andthe supporting member from moving relative to each other in a plane perpendicular to the axis of the motor; and

wherein the first engaging structure includes a first projection formed on a first side of the insulation member and an opening formed in the stator to receive the first projection, and said second engaging structure including a second projectionformed on a second side of the insulation member and an opening formed in the supporting member to receive the second projection.

12. The ultrasonic motor according to claim 11, wherein the first projection and the second projection are axially aligned with each other.

13. The ultrasonic motor according to claim 11 wherein the first projection is one of a plurality of first projections, wherein the first projections are spaced at equal angular intervals.

14. The ultrasonic motor according to claim 11, wherein the second projection is one of a plurality of second projections, wherein the second projections are spaced at equal angular intervals.