An operation device 5 includes: a base 40; an operation part 45, extending in a left-right direction; and a pair of left and right first connection parts 50, provided between the base and the operation part, and disposed apart from each other in the left-right direction. Each first connection part includes: a first end 56, connected to the base; a second end 55, connected to the operation part; a first elastic member 63, connecting the second end with respect to the first end to be displaceable in a front-rear direction; and a first distance sensor 65A, 65B, measuring a relative distance of the second end with respect to the first end in the front-rear direction.

An electric shopping cart having an override that can be activated when the cart is cutoff during use due to a low battery condition. The override allows extra run time to be activated in order that the cart can be driven to a recharging area to recharge the battery for future use. In addition, thumb throttles on the electric shopping cart have magnets that return the throttles to a neutral position.

The invention relates to a stroller frame, comprising at least one motor, in particular an electric motor, for a supported drive of the stroller frame, at least one adjustment device for adjusting, in particular sliding and/or pivoting, at least one adjustable component of the stroller frame from a first position into at least one second position, and at least one coupling device, comprising at least one switching device, such that the potential drive output of the at least one motor is changed, in particular reduced, by at least one adjustment process using the adjustment device.

A device for moving an article between a first position and a second position, the device comprising: a support portion for supporting an article; one or more wheels; and at least one actuator mechanism coupled to the support portion and the one or more wheels. The at least one actuator mechanism is configured to move the support portion between a first position and a second position, wherein the first position is offset from the second position such that the support portion is raised relative to the one or more wheels when moved from the first position to the second position to allow at least a portion of the one or more wheels to protrude beyond a plane defined by the support portion.

There is provided a foldable motorized cart having at least a first and a second connected section, each of the sections connected with a hinge and pivotable with respect to each other and further including a compartment hingedly connected to either one of the sections, with the compartment having a bottom floor, side walls and a top cover surface, and also having an internal space for containing, a motor drive system, a drive controller and a battery. The battery and drive controller are electrically connected to the motor drive system which is mechanically linked to at least one of a drive wheel or a drive track mechanism for propelling the motorized cart, where the motor drive system is located within the drive track mechanism.

A system, apparatus and method for on-demand fueling of vehicles with a mobile, motorized handcart including a cart body coupled with a fuel tank, a plurality of wheels operatively connected to the cart body, the wheels operable with a motorized traction system, a steering handle operatively connected to the cart body and including controls for controlling the motorized traction system, a coupling system for securely coupling the cart body to the fuel tank, a hose and a nozzle, a spill guard surrounding the nozzle, an electric pump for pumping fuel from the fuel tank to the customer vehicle via the hose and nozzle, and a display dock disposed on the cart body, the display dock configured to dock a computing device configured to display fueling parameters based on a customer fuel request received via a communications network.

Disclosed is a pusher lift cart comprising a pusher lift cart main frame having a first interfacing member and a second interfacing member configured to telescoping engage a first complementary interfacing member and a second complementary interfacing member, wherein the pusher cart main frame is configured to receive and move an axle.

An active detection self-propelled artificial intelligence surgery navigation cart applied in medical institutes includes a cart body, a control unit, a signal transmission unit, a detection unit, a robotic arm and/or an optical navigation host. The cart can travel to a designated place or follow a counterpart (based on a stored map path) according to a predetermined schedule or an inputted instruction, or the cart can be controlled by an external remote control system or a counterpart to be followed, so as to achieve the effect of reducing the burden of medical staff while they are walking around, so that the medical staff can concentrate on the care of patients or improve the quality of surgical operations.

A self-propelled cart comprising: a body having a generally rectangular prism shape with a top, bottom, front end, rear end, and two sides, the body further comprising: a battery compartment, and a utility platform comprising a plurality of connecting features for releasable attachment of one or more components to the platform; a rechargeable battery housed in the battery compartment; a controller; four arms having a first end and a second end, each pivotally attached at the first end to the body; four wheels, each connected to the second end of one of the four arms; four arm actuators, each configured to pivot one of the four arms such that each wheel can be moved closer to or further away from the body; and at least two motors powered by the battery, each configured to rotate one of the four wheels, each independently controlled by the controller, whereby the controller can move the cart and control the yaw of the cart by rotating one or more of the four wheels; at least one sensor for determining the pitch of the cart in communication with the controller, whereby the controller is able to adjust the height of the cart and the pitch of the cart by pivoting one or more of the four arm actuators is disclosed.

A cargo carrier for mounting on a mobile cart, comprising: a base configured to be releasably attached to a top surface of the mobile cart; first and second opposing side walls, each having a bottom edge attached to the base, a top edge, a front side edge running from the bottom edge to the top edge and a rear side edge running from the bottom edge to the top edge; a front end wall, having a bottom edge hingedly connected to the base so as to hinge between a closed position and an open position, wherein in the closed position, a first front end wall side edge fits against the front side edge of the first side wall, and a second front end wall side edge fits again the front side edge of the second side wall, to thereby close a front end of the cargo carrier; and in the open position, the front end wall is generally parallel to the base, to thereby open a front end of the cargo carrier; a front end wall lock for releasably locking the front end wall in the closed position; a rear end wall, having a bottom edge hingedly connected to the base so as to hinge between a closed position and an open position, wherein: in the closed position, a first rear end wall side edge fits against the rear side edge of the first side wall, and a second rear end wall side edge fits again the rear side edge of the second side wall, to thereby close a rear end of the cargo carrier; and in the open position, the rear end wall is generally parallel to the base, to thereby open a rear end of the cargo carrier; a rear end wall lock for releasably locking the rear end wall in the closed position; whereby the cargo carrier can be converted between a four-walled bin, for containing objects within its four walls, to an open ended cargo carrier, allowing elongated objects in the cargo carrier to extend beyond the front end wall and/or the rear end wall by hingedly moving the front end wall and/or the rear end wall, respectively, between the closed and open positions is disclosed.