Electromagnetically driven rotary motor

US 20060170302A1
Filed: 01/31/2005
Published: 08/03/2006
Est. Priority Date: 01/31/2005
Status: Active Grant

First Claim

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1. An electromagnetic rotary motor comprising:

a generator at a first end, a spring housing at a second end, an outer magnetic housing enclosing an inner rotating magnetic housing between the generator and the spring housing, a shaft integral with the inner magnetic housing, the shaft passing through an opening in the generator, an end portion of the shaft distal from the inner magnetic housing having mounted thereon a north polarization magnet and a south polarization magnet spaced apart from each other;

a magnetic sensor mounted above the end portion of the shaft, the sensor alternating north and south magnetic fields in response to movement of the shaft and sending a D.C. signal to the spring housing to cause an actuating coil to move linearly and cause the inner magnetic housing to rotate.

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Abstract

Electric energy from a battery is employed to shift the permanent magnetic field located in a generator. A spring housing is located distal from the generator. An outer magnet housing enclosing an inner rotating magnetic housing is positioned between the generator and the spring housing. A shaft is integral with and turns with the inner magnetic housing. An end of the shaft distal from the inner magnetic housing passes through the generator and is actuated by a sensor mounted over the shaft end.

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16 Claims

1. An electromagnetic rotary motor comprising:
- a generator at a first end, a spring housing at a second end, an outer magnetic housing enclosing an inner rotating magnetic housing between the generator and the spring housing, a shaft integral with the inner magnetic housing, the shaft passing through an opening in the generator, an end portion of the shaft distal from the inner magnetic housing having mounted thereon a north polarization magnet and a south polarization magnet spaced apart from each other;
  
  a magnetic sensor mounted above the end portion of the shaft, the sensor alternating north and south magnetic fields in response to movement of the shaft and sending a D.C. signal to the spring housing to cause an actuating coil to move linearly and cause the inner magnetic housing to rotate.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The electromagnetic rotary motor according to claim 1 wherein a D.C. battery initially energizes the motor to shift the magnet fields.
  - 3. The electromagnetic rotary motor according to claim 2 wherein the D.C. battery has 120 volts of power.
  - 4. The electromagnetic rotary motor according to claim 2 wherein rotation of the shaft generates energy to recharge the battery.
  - 5. The electromagnetic rotary motor according to claim 1 wherein adjustment bolts are used to adjust the position of a north and south magnet with respect to each other in the magnetic sensor.
  - 6. The electromagnetic rotary motor according to claim 1 wherein electric energy from the sensor energizes multiple springs mounted on corresponding rods, the multiple spring positioned between the spring housing and a drum forming a back wall of the outer magnetic housing.
  - 7. The electromagnetic rotary motor according to claim 6 wherein there are four buffer springs in the spring housing, each spring mounted over one of the mounting rods.
  - 8. The electromagnetic rotary motor according to claim 1 wherein tension on an armature in the spring housing is controlled by a threaded bolt accessed through an opening in the spring housing.

9. An electromagnetic rotary motor comprising:
- a generator housing at a first end, the generator housing having an annular longitudinal passageway containing a north and south magnet spaced apart, a first end of a shaft passing through the passageway, the shaft having a north and south magnet spaced apart around the shaft, a magnetic sensor mounted on the generator housing to view the first end of the shaft, the sensor alternating north and south magnetic fields in response to movement of the shaft;
  
  the sensor sending a D.C. signal to a spring housing containing a movable actuating coil, the spring housing mounted distal from the generator and separated from the generator housing by an outer magnetic housing enclosing an inner rotating magnetic housing actuated by linear movement of the actuating coil, a second end of the shaft integral with the inner rotating magnetic housing.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The electromagnetic rotary motor according to claim 9 wherein multiple spaced apart north and south magnets are mounted in the outer magnetic housing.
  - 11. The electromagnetic rotary motor according to claim 10 wherein a north and south magnet spaced apart is mounted on the inner rotating magnet housing.
  - 12. The electromagnetic rotary motor according to claim 9 wherein the spring housing is connected to a back wall of the outer magnetic housing by multiple threaded mounting rods, each surrounded by a compression spring mounted between a coil plate and the back wall.
  - 13. The electromagnetic rotary motor according to claim 9 wherein an armature containing spaced apart north and south magnets are mounted within the actuating coil mounted within the spring housing.
  - 14. The electromagnetic rotary motor according to claim 9 wherein the north and south magnets are all permanent niobium magnets.

15. An electromagnetic rotary motor comprising:
- a generator housing and a spring housing separated by a fixed outer magnetic housing surrounding a rotating inner rotating magnetic housing;
  
  the generator housing having an annular opening containing north and south magnet spaced apart, a first end of a shaft passing through the annular opening, the shaft having a north and south magnet spaced apart around the shaft, a magnetic sensor mounted on the generator housing to view the first end of the shaft, the sensor alternating north and south magnetic fields in response to movement of the shaft;
  
  the sensor sending an electrical signal to the spring housing, the spring housing containing a movable actuating coil surrounding an armature containing north and south magnets spaced apart, a means for adjusting the armature attached to an outer wall of the spring housing, multiple mounting rods connected to a back wall of the outer magnetic housing, the rod passing through a coil plate and terminating with a washer and nut holding a buffer spring in place over a rear portion of each mounting rod, a front portion of each rod supporting a compression spring positioned between the back wall of the outer magnetic housing and the coil plate; and
  
  linear movement of the actuating coil causing the inner magnetic housing to rotate with a second end of the shaft.
- View Dependent Claims (16)
- - 16. The electromagnetic rotary motor according to claim 15 wherein the magnets are all permanent niobium magnets.

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Current Assignee
Charles S. Watson
Original Assignee
Charles S. Watson
Inventors
Watson, Charles S.

Granted Patent

US 7,233,087 B2
Time in Patent Office

Days
Field of Search
US Class Current

310/209
CPC Class Codes

H02K 53/00 Alleged dynamo-electric per...

Electromagnetically driven rotary motor

First Claim

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Abstract

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16 Claims

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Electromagnetically driven rotary motor

First Claim

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Abstract

15 Citations

16 Claims

Specification

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Solutions

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