The disclosure relates to a medical imaging supply transport cart having enhanced safety features and a process implementing the same. The medical imaging supply transport cart includes a support surface configured to support medical imaging supplies, the support surface further configured to support a support mechanism, and the support mechanism further configured to support the medical imaging supplies. The support mechanism further configured to rigidly hold the medical imaging supplies with a first holding mechanism, the medical imaging supplies configured to store at least one dose of a nuclear medicine, a plurality of wheels arranged below the support surface, at least one door configured to enclose the medical imaging supplies, and a handle configured to be grasped by a user to guide the medical imaging supply transport cart.

The present invention provides a pallet carrier, comprising a carrier frame structure; a fork structure disposed on the carrier frame structure; a driving wheel structure comprising driving wheels that are articulated to the carrier frame structure, wherein each one of the driving wheels is set as a one-piece wheel structure integrated with a driving motor and a hub. The pallet carrier has the advantages of simple structure and work reliability.

Methods of protecting an electrically motorized human-powered vehicle are disclosed. A method may include transmitting, from a remote server, a security input relating to a user of the vehicle; receiving, at the electrically motorized human-powered vehicle the security input relating to the user; validating the security input; and enabling one of a first or second set of features based on the security input, wherein the second set of features is different from the first set of features and wherein one of set of features includes a service mode that enables maintenance access to the vehicle.

A system, method, and device for operations of an electrically motorized vehicle. The vehicle can utilize an electrically motorized wheel to convert a non-motorized wheeled vehicle to an electrically motorized wheeled vehicle. One system includes a server in communication with the device of each of a plurality of electrically motorized wheels, the server operable to track a position of each of the electrically motorized wheels and communicate the position thereof to a transportation network.

The disclosure is the only product of its kind that is equipped with an easily controllable motorized trailing bicycle wheel that rests on a backpack frame that can be conveniently worn by a hiker. This unprecedented product is uniquely designed with an integrated splash guard to protect the pack and its contents from natural debris and/or weather conditions, a saddlebag configuration to increase capacity, compartmentalization of the carry pack to prevent shifting loads, integrated cables to raise and lower the end attached to the hiker backpack frame, and handheld speed control and brake mechanisms with a built-in dead-man switch, all of which, serves to simplify the transport of supplies for professional or laymen hikers, alike, while also serving as a carry-all medium for any occasion such as: walking around town, attending a farm, a tradeshow, and a host of other activities that may appeal to consumers.

Systems and methods define a stimulation pattern for a juvenile product utilizing a mobile device that executes a mobile application that is linked to the juvenile product. The method comprises the step of recognizing, by the mobile device when executing the mobile app, the user-defined stimulation pattern for the juvenile product. The stimulation pattern can be a vibration pattern or a motion pattern, and can be detected in a number of different ways by the mobile device. The method further comprises the step of determining control signals for the actuator(s) of the juvenile product based on the user-defined stimulation pattern that is recognized by the mobile device. The method further comprises the step of, in response to receiving a command to execute the user-defined stimulation pattern, controlling the actuator(s) of the juvenile product based on the stored control signals for the user-defined stimulation pattern.

A hand-driven wheeled cart or suitcase, including: a body section of the cart or suitcase including a back side, a top side, a bottom side and a front side; a handle coupled to the body section; two wheels coupled to the bottom side of the body section, adjacent the back side of the body section; and a motor housed in one of the two wheels, the motor being actuated by a button on the handle.

A motorized utility cart assembly includes a cart that has a bottom platform and a top platform. A drive unit is attached to the bottom platform of the cart and the drive unit includes a pair of drive wheels. Each of the drive wheels is urged to rotate in a first direction when the drive unit is turned on thereby facilitating the cart to travel forwardly to transport cargo on the cart without requiring the user to push the cart. A control unit is integrated into the cart and the control unit is in communication with the drive unit. The control unit includes a throttle which actuates the drive unit to a speed corresponding to a level of engagement of the throttle between a minimum speed and a maximum speed.

A system for moving cargo is disclosed. The system includes a cart, which, in turn, includes a body with a battery compartment and a platform. The cart also includes wheels and a motor for driving the wheels. A battery is housed in the battery compartment for powering the motor. The system also includes a cargo carrier mounted on the platform. The cargo carrier includes a base, two side walls, and two end walls. At least one end wall or side wall is adapted to be moved between different positions to change the shape and/or size of the compartment.

A steerable omni-directional platform cart is disclosed. In one embodiment the cart may include two motorized wheels which can drive the cart in translational movement. The wheels may be selectably rotated together about a vertical axis so as to provide steering control for the cart. The wheels may also be rotated in opposite clockwise directions to cause the cart to pivot about a vertical axis. In a second embodiment, a motorized wheel is disposed with it axis of rotation disposed at a non-perpendicular angle to the platform. Rotation of the motor driven wheel about the rotational axis provides translational movement for the cart in a defined direction. The rotational axis of the wheel is selectively rotatable about a second axis to thereby selectably rotate the defined direction of translational movement about the second axis to provide steering of the cart. In a third embodiment, a motorized wheel is disposed with its axis of rotation disposed at a non-perpendicular angle to the platform, with the wheel biased out of contact with the support surface but lowerable against the bias and into contact to allow the user to select whether the cart is to be motor or manually driven.