Hub apparatus and associated systems

The invention claimed is: 1. A hub apparatus, comprising: a rotor assembly comprising— a first housing component; a second housing component positioned opposite to the first housing component, the first and the second housing components together define an internal space; and a plurality of magnets mounted on one or both of the first and second housing components; a shaft positioned to extend through the rotor assembly, the rotor assembly being rotatably coupled to the shaft; and a stator assembly fixedly coupled to the shaft and positioned in the internal space, the stator assembly comprising— a coil assembly fixedly coupled to shaft, the coil assembly being positioned corresponding to the magnets; a main circuit board fixedly coupled to the coil assembly; and a battery assembly positioned inside the coil assembly and carried by the main circuit board, the battery assembly including a plurality of battery packs circumferentially positioned about the shaft; wherein the rotor assembly is configured to rotate relative to the stator assembly based on a signal from a controller carried by the main circuit board, wherein the first and second housing components are configured to be tightly fitted with each other by an insertion flange formed on the second housing component, and wherein the insertion flange is configured to be inserted into a gap between the magnets and an inner circumferential surface of the first housing component. 2. The hub apparatus of claim 1 , wherein the battery packs are positioned in a reference plane generally perpendicular to the shaft. 3. The hub apparatus of claim 1 , wherein the coil assembly comprises a plurality of coils and a chassis, and wherein the plurality of coils are positioned on an outer circumferential surface of the chassis, and wherein the magnets are positioned on an inner circumferential surface of the first housing component opposite to the plurality of coils. 4. The hub apparatus of claim 3 , wherein the battery assembly is positioned between the chassis and the main circuit board. 5. The hub apparatus of claim 4 , wherein the main circuit board is positioned opposite to the chassis and adjacent to the first housing component. 6. The hub apparatus of claim 1 , further comprising a torque sensor fixedly coupled to the shaft and rotatably coupled to the first housing component, wherein the torque sensor includes an internal torque sensor component and an external torque sensor component, and wherein the internal torque sensor component is fixedly coupled to the shaft, and wherein the external torque sensor component is rotatably coupled to the first housing component. 7. The hub apparatus of claim 6 , wherein the torque sensor is configured to transmit a measured torque to the controller, and wherein if the controller determines the measure torque exceeds a threshold value, the controller instructs the hub apparatus to generate an additional torque to facilitate rotating a wheel coupled to the hub apparatus. 8. The hub apparatus of claim 6 , further comprising an O-ring positioned adjacent to and around the torque sensor. 9. The hub apparatus of claim 6 , further comprising a protection sleeve configured to secure a wire coupled to the torque sensor to the shaft. 10. The hub apparatus of claim 9 , wherein the protection sleeve is positioned in a circumferential recess formed with the shaft. 11. The hub apparatus of claim 1 , further comprising: a locking mechanism configured to impede the rotor assembly from rotating relative to the stator assembly, the locking mechanism having at least one locking device provided on the stator assembly and at least one engaging portion provided on the rotor assembly; wherein the locking device is activated, in response to a first signal from the controller, to engage the engaging portion; and wherein the locking device is activated, in response to a second signal from the controller, to disengage from the engaging portion. 12. The hub apparatus of claim 11 , wherein: the locking device comprises a stopper, a stopper holder and an actuator, the stopper holder being fixedly coupled to the stator assembly, the stopper being positioned in the stopper holder, the stopper being configured to be moved by the actuator; the engaging portion comprises a bump or a recess; the actuator is configured to move, in response to the first signal from the controller, the stopper such that it engages the engaging portion; and the actuator is configured to move, in response to the second signal from the controller, the stopper such that it disengages from the engaging portion. 13. A wheelset, comprising: a tire; a wheel rim configured to support the tire; a plurality of spokes coupled to the wheel rim; and a hub assembly coupled to the wheel rim by the spokes, the hub assembly comprising— a housing having a side surface and a flange positioned on the side surface, the flange being coupled to the spokes; a plurality of magnets positioned on an inner circumferential surface of a first housing component of the housing; a shaft positioned to extend through the housing, the housing being rotatably coupled to the shaft; a coil assembly positioned in the housing and fixedly coupled to shaft, the coil assembly being positioned corresponding to the plurality of magnets; a main circuit board positioned in the housing and fixedly coupled to the coil assembly; and a battery assembly positioned inside the coil assembly and carried by the main circuit board, the battery assembly including a plurality of battery packs circumferentially positioned about the shaft, wherein the housing includes a second housing component configured to be tightly fitted with the first housing component by an insertion flange formed on the second housing component, and wherein the insertion flange is configured to be inserted into a gap between the magnets and the inner circumferential surface of the first housing component. 14. The wheelset of claim 13 , wherein the battery packs are positioned in a reference plane generally perpendicular to the shaft. 15. The wheelset of claim 13 , wherein the hub assembly further comprises a torque sensor coupled to the shaft and configured to measure a torque generated by a rotation of the housing, and wherein the torque sensor includes an internal torque sensor component and an external torque sensor component, and wherein internal torque sensor component is positioned between the shaft and the external torque sensor component, and wherein the rotation of the housing is measured based on a relative rotation between the external torque sensor component and the internal torque sensor component. 16. The wheelset of claim 15 , wherein the hub assembly further comprises a protection sleeve configured to secure a wire coupled to the torque sensor to the shaft, and wherein the protection sleeve is positioned in a circumferential recess formed with the shaft. 17. The wheelset of claim 13 , wherein the hub assembly further comprises: a locking mechanism configured to impede the housing from rotating relative to the coil assembly, the main circuit board, and the battery assembly, the locking mechanism having a locking device and a bump positioned on the housing; wherein the locking device is activated, in response to a first signal from the controller, to engage the housing; and wherein the locking device is activated, in response to a second signal from the controller, to disengage from the housing. 18. A vehicle, comprising: a vehicle frame; a hub assembly coupled t