The hoverboard buddy system utilizes a number of components that can be attached together with a hoverboard in a number of different configurations in order to expand the riding options of the user. In one embodiment, components include: a hoverboard, a saddle possibly with additional wheels and a stability bar, a plurality of straight handles, a plurality of curved handles, a plurality of accessory wheels, a split seat that independently actuates either foot pedal on a hoverboard, a fixed bench seat, pusher extension, and other components.

A rideable golf bag cart/cycle (10) is a personal riding golf cart/cycle adapted to transport a single rider (13) and a golf bag (12) for use on a golf course. The cart/cycle (10) is generally symmetrical about a longitudinal plane (16) and includes a frame (18) with a seat (20), a front wheel and steering components (22), a rear wheel (24), an inclined bag support structure (26) extending between the legs of the rider (13), and a motor/control subassembly (28). A collapsed mode (30) in some embodiments is achieved by folding down the handlebars (72) and pivoting the running boards (56) up against the frame (16). An enhanced embodiment (118) includes a canopy (122) and a deluxe multifunctional console (124).

A following operation system includes a target device and a vehicle body. A control module of the vehicle body is connected with the target device and sends out a first signal. The control module controls the vehicle body to move in a manual or following mode according to a switch signal from the target device. In the manual mode, the user imposes an external force to move the vehicle body. In the following mode, the control module generates a movement signal according to the signal sent back by the target device, whereby vehicle body follows the target device according to the movement signal. When the target device leaves the communication range of the control module, the control module stops the vehicle body and sends out a reminder signal. Therefore, the movement method of the vehicle body is adjustable, and a reminder function is provided.

A following operation system includes a target device and a vehicle body. A control module of the vehicle body is connected with the target device and sends out a first signal. The control module controls the vehicle body to move in a manual or following mode according to a switch signal from the target device. In the manual mode, the user imposes an external force to move the vehicle body. In the following mode, the control module generates a movement signal according to the signal sent back by the target device, whereby vehicle body follows the target device according to the movement signal. When the target device leaves the communication range of the control module, the control module stops the vehicle body and sends out a reminder signal. Therefore, the movement method of the vehicle body is adjustable, and a reminder function is provided.

Disclosed herein is a golf bag cover for use in covering a golf bag having golf clubs placed therein. The golf bag cover is configured to couple to the bottom portion of a golf bag in a closed position and can selectively cover the golf bag and golf clubs in an open position. In the closed position, the golf bag cover can collapse into an integrated pouch and remain attached to the base of the golf bag.

An auxiliary storage compartment for a golf car, wherein the auxiliary storage compartment comprises a storage receptacle disposed on a rear deck of a body of a golf car behind and accessible from a seating structure of the golf car. In various instances, the storage receptacle comprising at least one sidewall that defines an interior storage space of the storage receptacle.

A autonomous robotic golf caddy which is capable of following a portable receiver at a pre-determined distance, and which is capable of sensing a potential impending collision with an object in its path and stop prior to said potential impending collision.

The fuel tank adapter for a golf cart is configured for use with a motorized golf cart. The golf cart further comprises a fuel tank and a tank port. The fuel tank adapter for a golf cart is an extension device. The fuel tank adapter for a golf cart extends the tank port by creating a flow path that guides the liquid fuel from an inlet structure located on the exterior of the golf cart into the fuel tank through the tank port. The fuel tank adapter for a golf cart comprises a coupling structure, an extension structure, and the inlet structure. The inlet structure and the coupling structure attach to the extension structure. The coupling structure attaches the extension structure to the tank port of the fuel tank. The inlet structure receives liquid fuel from an external source and transports the received liquid fuel to the extension structure.

A autonomous robotic golf caddy which is capable of following a portable receiver at a pre-determined distance, and which is capable of sensing a potential impending collision with an object in its path and stop prior to said potential impending collision.

A method for using an autonomous vehicle as a caddie and cart. The method includes selecting caddie mode from a group including a caddie mode and a cart mode, selecting a mode in the caddie mode from a group including a caddie advice mode, a swing detection mode, and a golf ball detection mode. In another embodiment, the method includes selecting the cart mode and selecting a mode in the cart mode from a group including a follow golfer mode, a ride mode, and a golf ball mode. The autonomous vehicle includes a vehicle frame and a body, a vehicle propulsion unit, a plurality of wheels driven by the vehicle propulsion unit, a controller for selecting a mode of operation, a display for communicating data to the golfer, a camera for supplying data to the controller, and a GPS apparatus for determining a position of the autonomous vehicle.