A cart includes a chassis configured to carry a basket and a support structure having a carrier coupled to the chassis, a pair of rear legs coupled to the carrier, and a pair of front legs coupled to the carrier, at least one of the pair of front legs and the pair of rear legs having motor driven wheels coupled thereto, at least one carrier actuator configured to move the chassis relative to the carrier, the pair of front legs including actuators which are configured to extend and retract the pair of front legs, and the pair of rear legs including actuators which are configured to extend and retract the pair of rear legs. The cart includes at least one sensor supported on the cart. The cart also includes at least one processing unit configured with software instructions that enable autonomous self-loading of the cart into a vehicle. The processing unit receives signals from the at least one sensor and providing command signals to any of the wheel motors, the at least one carrier actuator, the front leg actuators, and the rear leg actuators.

A container moving assembly includes a frame with a drive wheel pivotably attached to the frame about a steering axis. A pair of guide wheels are rotatably attached relative to the frame opposite the drive wheel. A platform lifting assembly is pivotable relative to the frame and includes an engagement platform for supporting a container.

A handle for a hand-driven load mover, including: an actuator; a control unit; a power source; wherein the control unit is adapted to be in communication with a controller, battery pack and motor operationally coupled to, or embedded in, a wheel of the load mover.

A weight-bearing device includes a single wheel, a frame attached to the wheel, and an electric motor attached to the frame. The electric motor is configured to rotate a first gear, connected to a second gear with a chain. The second gear is connected to the wheel. The second gear and the first gear may have a gear ratio of greater than 8:1.

In the specification and drawings an accessory cart is described and shown with a base, a housing element that is connected to the base and extends upward from the base, and a platform, which is connected to the housing element with the height of the platform being automatically adjustable.

A walking-type electric carrier, comprising a handlebar, a driving mechanism, and a carrier frame that is connected to the driving mechanism; the handle bar comprises an armrest cross-bar, a vertical post that is vertically connected to the armrest cross-bar; the vertical post is connected to the driving mechanism; the vertical post is provided with a lifting handle, and the armrest cross-bar is provided with a detachable handle component; the handle component comprises a handle base and a handle body; the handle base and the handle body are detachably connected; the driving mechanism is controlled by the handle body to propel the carrier to move.

The invention relates to a golf bag (1) which includes an outer shell inside of which is arranged a cavity for containing clubs, characterised in that said golf bag also includes a propulsion system (2) forming an integral part of the bag (1).

Detachable adjustable-width motor assemblies. Some embodiments may be configured for retrofitting between two legs of a golf cart. Some embodiments may comprise a motor housing having a first motor disposed within the motor housing, a first drive shaft, and a second motor disposed within the motor housing having a second drive shaft. The assembly may further comprise a first housing mount configured to be connected to the first wheel leg and a second housing mount configured to be connected to the second wheel leg. The first housing mount and/or the second housing mount may be concentrically and/or slideably engaged with the motor housing and configured to adjust the width of the motor assembly. The first drive shaft may be configured to engage with and transmit torque to the first wheel and the second drive shaft may be configured to engage with and transmit torque to the second wheel.

A smart self-driving system includes a body, such as a piece of luggage, supported by a plurality of wheel assemblies. At least one wheel assemblies includes a wheel rotating motor configured to rotate a wheel of the wheel assembly to move the luggage in a given direction. At least one wheel assemblies includes a wheel orientation sensor configured to measure the orientation of the wheel. At least one wheel assembly includes a wheel orientation motor configured to orient the wheel in the given direction. The smart self-driving system is configured to move in forward direction that is different than a head direction of the body.

A smart self-driving system includes a body, such as a piece of luggage, supported by a plurality of wheel assemblies. At least one wheel assemblies includes a wheel rotating motor configured to rotate a wheel of the wheel assembly to move the luggage in a given direction. At least one wheel assemblies includes a wheel orientation sensor configured to measure the orientation of the wheel. At least one wheel assembly includes a wheel orientation motor configured to orient the wheel in the given direction. The smart self-driving system is configured to move in forward direction that is different than a head direction of the body.