Electrically driven track wheels for tracked vehicles
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B62D-055/00
B62D-055/12
B62D-055/08
출원번호
US-0454198
(2006-06-15)
등록번호
US-7343991
(2008-03-18)
발명자
/ 주소
Rittenhouse,Norman
출원인 / 주소
Rittenhouse,Norman
대리인 / 주소
Steinberger,Brian S.
인용정보
피인용 횟수 :
7인용 특허 :
10
초록▼
An electrically driven wheel for a tracked vehicle which includes a driving track wheel with built in cogs and a brushless DC motor having a mounting shaft to connect the wheels to the tracked vehicle. The brushless DC motor is coupled within the driving track wheel to develop rotational torque for
An electrically driven wheel for a tracked vehicle which includes a driving track wheel with built in cogs and a brushless DC motor having a mounting shaft to connect the wheels to the tracked vehicle. The brushless DC motor is coupled within the driving track wheel to develop rotational torque for rotating the driving track wheel and includes a drum, a bank of pole assemblies connected between the drum and the stationary mounting shaft, and electrical wiring for energizing the bank of pole assemblies. In an embodiment, the brushless DC motor includes permanent magnet high multiple pole motors. The electrically driven wheels are part of a drive system for the tracked vehicle. The drive system includes a track module frame, at least two flexible tracks coupled with the electrically driven track wheels, and a controller for controlling the electrically driven track wheels in response to a driver command.
대표청구항▼
I claim: 1. An electrically driven wheel for a tracked vehicle comprising: a driving track wheel having built in cogs on an outer surface for driving a track; a permanent magnet electric motor drive having a stationary mounting shaft running through the brushless DC motor for connecting the electri
I claim: 1. An electrically driven wheel for a tracked vehicle comprising: a driving track wheel having built in cogs on an outer surface for driving a track; a permanent magnet electric motor drive having a stationary mounting shaft running through the brushless DC motor for connecting the electrically driven wheel to a frame of the tracked vehicle, wherein the permanent magnet electric motor drive is coupled within the driving track wheel to develop rotational torque for rotating the driving track wheel allowing efficiency over approximately 95% without traditional heat losses to clutches, gear boxes, differentials, hydraulics, etc., for less heat loss to affect environment by melting frozen tundra, and motor temperature stays very close to ambient; and two end plates covering each end of the driving track wheel enclosing the brushless DC motor therein, wherein the driving track wheel directly transmits thrust loads directly to the mounting shaft. 2. The tracked vehicle of claim 1, wherein the stationary mounting shaft comprises: hollow portion within the stationary mounting shaft for routing electrical wiring and coolant lines to operate the permanent magnet electric motor drive through stationary mounting shaft to allow the permanent magnet electric motor drive to be sealed against an environment and to prevent oil spills or water contamination. 3. The electrically driven wheel of claim 1, wherein the permanent magnet electric motor drive further comprises: a drum having an interior and an exterior surface; a bank of pole assemblies connected between the interior surface of the drum and the stationary mounting shaft; and electrical wiring for energizing the bank of pole assemblies, wherein the electrical wiring is routed through a hollow portion of the stationary mounting shaft between said permanent magnet electric motor drive and a tracked vehicle controller. 4. The electrically driven wheel of claim 1, further comprising: permanent magnet high multiple pole motors for precise track control and synchronization. 5. The electrically driven wheel of claim 3, wherein the bank of pole assemblies comprises: at least three sets of stator windings mounted to the stationary mounting shaft in a three phase arrangement; and at least three rows of magnets connected with the at least three sets of stator windings, each row arranged in a disc to turn with the drum of the permanent magnet electric motor drive. 6. The electrically driven wheel of claim 5, wherein the at least three sets of stator windings further comprise: an offset difference between of the at least three stator windings of 0.0,-6.6 and-13.3 degrees for a 36 pole motor. 7. The electrically driven wheel of claim 5, wherein the at least three sets of stator windings further comprise: an offset difference between of the at least three stator windings of 0.0,-5.0 and-10.0 degrees for a 48 pole motor. 8. The electrically driven wheel of claim 3, wherein the bank of pole assemblies comprises: special permanent magnet material and mounting to permit operations as low as-50 degrees C. and as high as +50 degrees C. 9. The tracked vehicle of claim 1, wherein said permanent magnet electric motor drive is sealed with said end plates and pressurized with inert gas for water protection. 10. The tracked vehicle of claim 1, further comprising: a liquid coolant for cooling and heating said permanent magnet electric motor drive. 11. A drive system for a tracked vehicle comprising: a track module frame for connecting the drive system with a chassis of the tracked vehicle; at least two electrically driven track wheels connected with the track module frame, each one of the at least two electrically driven track wheels includes: a driving track wheel having plural built in cogs on an outer surface for driving the flexible track; and a permanent magnet motor drive having a stationary mounting shaft inside the driving track wheel to develop rotational torque to allow efficiency over approximately 95% without traditional heat losses to clutches, gear boxes, differentials and hydraulics to maintain a motor temperature of approximately ambient, the at least two electrically driven track wheels distribute stress in the flexible track to reduce environmental disturbance; at least two flexible tracks each coupled with two of the at least two electrically driven track wheels, wherein each of the at least two flexible tracks travel around the corresponding electrically driven track wheel; and a controller for controlling the at least two electrically driven track wheels in response to a driver command. 12. The system of claim 11, wherein each of the at least two flexible tracks comprise: plural track cogs on an inner surface of the flexible track to mate with the plural built in cogs on the outer surface of the driving track wheel. 13. The system of claim 11, wherein the electrically driven motor comprises: a hollow shaft within the stationary mounting shaft to route electrical wiring and coolant lines; and end covers enclosing said electrically driven motor within the driving track wheel, wherein a thrust load is transmitted to the stationary mounting shaft. 14. The system of claim 11, wherein the electrically driven motor comprises: permanent magnet high multiple pole motors for precise track control and synchronization. 15. The system of claim 11, wherein the controller comprises: an interface for communicating with a vehicle control electronics; at least four sensors for sensing a position of the at least four electrically driven wheels; and at least four controllers each connected with one of the at least four sensors and a corresponding one of the left and right front and rear electrically driven wheels for energizing the left and right front and rear electrically driven motors in response to a command from the vehicle control electronics. 16. The system of claim 11, wherein said controller comprises: a control system for automatic protection against overload, over current, over speed, too tight turn at high speed and a top speed based on G-loads of rough terrain. 17. The system of claim 11, wherein each one of the at least two flexible tracks include full torque capability in a forward and a reverse direction. 18. The system of claim 11, wherein each of the at least two flexible tracks is selected from one of: low temperature flexibility rubber tracks and steel tracks. 19. A drive system for a tracked vehicle comprising: a track module frame for connecting the drive system with a chassis of the tracked vehicle; at least two electrically driven track wheels connected with the track module frame; at least two flexible tracks each coupled with two of the at least two electrically driven track wheels, wherein each of the at least two flexible tracks travel around the corresponding electrically driven track wheel; and a controller for controlling the at least two electrically driven track wheels in response to a driver command, the controller including a control system for automatic protection against overload, over current, over speed, too tight turn at high speed and a top speed based on G-loads of rough terrain. 20. The system of claim 19, wherein each one of the at least two electrically driven track wheels comprises: a driving track wheel having plural built in cogs on an outer surface for driving the flexible track; and an electrically driven motor having a stationary mounting shaft inside the driving track wheel to develop rotational torque, wherein the at least two electrically driven track wheels distribute the stress in the flexible track to reduce environmental disturbance. 21. The system of claim 19, wherein each of the at least two flexible tracks comprise: plural track cogs on an inner surface of the flexible track to mate with the plural built in cogs on the outer surface of the driving track wheel. 22. The system of claim 20, wherein the electrically driven motor comprises: a hollow shaft within the stationary mounting shaft to route electrical wiring and coolant lines; and end covers enclosing said electrically driven motor within the driving track wheel, wherein a thrust load is transmitted to the stationary mounting shaft. 23. The system of claim 20, wherein the electrically driven motor comprises: permanent magnet high multiple pole motors for precise track control and synchronization. 24. The system of claim 20, wherein each of the at least two electrically driven wheels comprises: permanent magnet electric motor drive which allows efficiency over approximately 95% without traditional heat losses to clutches, gear boxes, differentials and hydraulics to maintain a motor temperature of approximately ambient. 25. The system of claim 19, wherein the controller comprises: an interface for communicating with a vehicle control electronics; at least four sensors for sensing a position of the at least four electrically driven wheels; and at least four controllers each connected with one of the at least four sensors and a corresponding one of the left and right front and rear electrically driven wheels for energizing the left and right front and rear electrically driven motors in response to a command from the vehicle control electronics. 26. The system of claim 19, wherein each one of the at least two flexible tracks include full torque capability in a forward and a reverse direction. 27. The system of claim 19, wherein each of the at least two flexible tracks is selected from one of: low temperature flexibility rubber tracks and steel tracks.
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