ROBERT MAURICE JONES
Pilots at Endsley Rd, Brooksville, FL

7994675, Aug 9, 2011

Sep 29, 2009

12/569890

Robert M. Jones - Brooksville FL, US
Joseph M. Lisiecki - Spring Hill FL, US

H02K 1/30

31015628, 310114

A rotor having a substantially cylindrical configuration for use in a brushless direct current electric motor having a high torque to size ratio. The rotor has an outer peripheral surface. The rotor also has a central rotor shaft and a first and second retaining ends mounted on the central rotor shaft and spaced from one another. The rotor also has a plurality of magnets configured to provide a magnetic flux with a stator disposed around the central rotor shaft. The magnets are radially disposed on the shaft and the rotor also has a sheath. The sheath is crimped around the radially disposed permanent magnets, and holds the magnets around the shaft. The sheath is lightweight and minimizes a gap between the permanent magnets and the stator to provide for an electromagnetic flux between the magnets and the stator windings, and for rotation of the central rotor shaft.

2008001, Jan 24, 2008

Nov 30, 2006

11/607132

Robert M. Jones - Brooksville FL, US
Joseph M. Lisiecki - Springhill FL, US

H01F 7/06

29605

An apparatus for manufacturing an internal wound stator includes a winding arbor configured to receive a conductive wire. The apparatus also has a stator loader with a stator having a generally cylindrical shape with an interior opening and having a plurality of axial slots formed therein. The interior dimension of the stator is larger than the exterior dimension of the winding arbor such that the winding arbor and stator may traverse with respect to one another. The apparatus also has a first movable member configured for moving at least one of the winding arbor and the stator. The apparatus also has a second rotating member configured to rotate at least one of the stator and the winding arbor. The conductive wire is introduced through an interior of the winding arbor. The first movable member is configured to move at least one of the winding arbor and the stator relative to one another to wind the conductive wire in a first longitudinal manner and into a first of the plurality of axial slots. The second rotating member is configured to rotate at least one of the first winding arbor or the stator relative to one another to align the wire relative to a second axial slot of the plurality of axial slots. The first movable member is configured to move at least one of the winding arbor and the stator relative to one another to wind the conductive wire in a second opposite longitudinal manner and into the second axial slot.

2007029, Dec 27, 2007

May 7, 2007

11/800715

Robert Jones - Brooksville FL, US
Joseph Lisiecki - Springhill FL, US

H02K 1/30, H02K 15/03, H02K 7/116

310156280, 310042000, 310083000

A rotor having a substantially cylindrical configuration for use in a brushless direct current electric motor having a high torque to size ratio. The rotor has an outer peripheral surface. The rotor also has a central rotor shaft and a first and second retaining ends mounted on the central rotor shaft and spaced from one another. The rotor also has a plurality of magnets configured to provide a magnetic flux with a stator disposed around the central rotor shaft. The magnets are radially disposed on the shaft and the rotor also has a sheath. The sheath is crimped around the radially disposed permanent magnets, and holds the magnets around the shaft. The sheath is lightweight and minimizes a gap between the permanent magnets and the stator to provide for an electromagnetic flux between the magnets and the stator windings, and for rotation of the central rotor shaft.

8028396, Oct 4, 2011

Jul 9, 2007

11/825847

Robert M. Jones - Brooksville FL, US
Joseph M. Lisiecki - Springhill FL, US

H01S 4/00

295921, 29596, 296021, 29605, 29606, 140 921, 2424323

A method and mechanism for automatic or manual winding of a stator. A fixed arbor serves to support the stator during the winding process, as well as a wire feed point and wire guide. A mechanism moves the stator in a back and forth motion along the major axis of the arbor. Proper axial position of the wire is maintained by the outer surface of the arbor and the axial slot itself. The arbor has a channel that serves to guide the wire, allowing it exit in each of the two possible longitudinal directions along the major axis of the arbor.

2007029, Dec 27, 2007

May 7, 2007

11/800716

Robert Jones - Brooksville FL, US
Joseph Lisiecki - Springhill FL, US

H02K 1/12, H02K 1/27, H02K 3/28

310179000, 310156010, 310254000

An electric machine, such as a brushless direct current motor, includes a number of stator formed as stator sections. The stator sections are longitudinally offset from each other along a common central axis of the electric machine. The stator sections are magnetically independent of one another, but are electrically driven with offset phases typically in a manner similar to a standard multi-phase motor. The stator sections may be further offset with one another in radial position. The structure of the stator sections provides advantages in terms of efficiency, power consumption, torque, and thermal performance, and can be especially advantageous where a battery is used to power the motor, such as in portable hand tools or driving motors for vehicles.

8250733, Aug 28, 2012

Jul 13, 2007

11/827830

Robert M. Jones - Brooksville FL, US
Joseph M. Lisiecki - Springhill FL, US

H02K 15/00, B23P 19/00

29596, 29732

In one embodiment, an apparatus for manufacturing an internal wound stator includes a winding arbor, a stator loader, a first movable member, and a second rotating member. The stator includes an interior opening and multiple axial slots. The interior opening has a diameter larger than an exterior dimension of the winding arbor. The winding arbor includes an interior and a port being at a central portion of the member. The stator loader supports the stator. The first movable member moves port of the winding arbor through the interior opening of the stator along a first axial slot of the axial slots. The second rotating member rotates the stator and the port of the winding arbor with respect to one another to align the port with a second axial slot of the axial slots. The first movable member moves the port through the second axial slot of the stator.

2009001, Jan 15, 2009

Jul 9, 2007

11/825846

Robert M. Jones - Brooksville FL, US
Bruce L. VanHoozen - Brooksville FL, US
Jesse H. Sims - Brooksville FL, US

B60K 17/16, B60K 1/02

180 658, 180 651, 903903

A differential for a vehicle having a suspension includes a first axle shaft, and a second axle shaft. The first axle shaft and the second axle shaft are disposed along a first axis of rotation. A first electric motor is disposed along a second axis of rotation. The second axis of rotation is spaced from the first axis of rotation. A housing is configured to support the first and second axle shafts. The shafts are disposed in a transverse manner through the housing. The first electric motor is also disposed in a transverse manner through the housing. The housing is configured to support the first electric motor as sprung weight, and in a location below the vehicle.

2012018, Jul 19, 2012

Mar 26, 2012

13/429842

Robert M. Jones - Brooksville FL, US
Joseph M. Lisiecki - Spring Hill FL, US

H02K 16/00, H02K 15/085, H02K 15/10, H02K 1/04, H02K 15/08

310 43, 29596

A brushless, liquid or air cooled, direct current motor formed from a three stack stator and three section rotor assembly using an integrated water cooled or air cooled housing and over-molding techniques.

8283827, Oct 9, 2012

Apr 5, 2010

12/754476

Robert M. Jones - Brooksville FL, US
Joseph M. Lisiecki - Springhill FL, US

H02K 16/00, H02K 21/26, H02K 15/12, H02K 9/00

310112, 310114, 310 68 R, 31015647, 310 43, 310 64

A brushless, liquid or air cooled, direct current motor formed from a three stack stator and three section rotor assembly using an integrated water cooled or air cooled housing and over-molding techniques.