A running wheel for a patient positioning device (30) is provided. The running wheel has a wheel (1) and a receiving device (4) for rotatably receiving the wheel (1) around a first rotational axis (5), which is arranged centrally with respect to a circumference of the wheel (1). The wheel (1) has a wheel body (3), and multiple circumferential castors (7), each having a second rotational axis (8) arranged in a direction tangential to a circumference of the wheel (1), wherein the circumferential castors (7) form a bearing surface of the wheel (1).

A wear computing system (100, 200, 300) for computing a wear of a wheel (3) of a vehicle (2) comprises a revolution sensor (48) configured to detect a number of revolutions of the wheel (3), an acceleration sensor (49) configured to detect an acceleration of the vehicle (2) in a travel direction thereof, and a control unit (7) configured to compute a travel distance of the vehicle from the acceleration of the vehicle, and compute the wear from the travel distance and the number of revolutions of the wheel (3).

A nesting utility cart is disclosed comprising wheels fixed to a cart deck. The cart decks may stack on top of each other such that at least a portion of the wheels of an overlaying similar cart deck may protrude below the bottom surface of the cart deck that it overlays. The protrusion of wheels through the cart deck may lock all of the stacked cart decks together. Tubing and netting may be fixed to the cart decks to form side walls securing cargo on the nesting utility cart.

There is provided a spring-powered drive apparatus including a casing (102), an output shaft (103) mounted on the casing (102) in a relatively rotatable manner, a one way clutch (112) externally fitted on the output shaft (103) in the casing (102) and, a spiral spring (105, 107) housed in the casing and wound by turning of the output shaft (103) in the direction in which the one way clutch (112) transmits torque. Thus, there can be provided a compact spring-powered drive apparatus and a self-propelled caster that can be applied to a work cart or the like.

An adjustable all-terrain dolly system having a chassis assembly that includes a frame which has a right-side rail, a left-side rail, a first-adjustable cross member and a second-adjustable cross member, and a first-rolling assembly to include a first-set of inline wheels and second-rolling assembly to include a second-set of inline wheels and at least one adjustable-locking mechanism. The adjustable all-terrain dolly system is configured to transport a load over a surface.

An adjustable all-terrain dolly system having a chassis assembly that includes a frame which has a right-side rail, a left-side rail, a first-adjustable cross member and a second-adjustable cross member, and a first-rolling assembly to include a first-set of inline wheels and second-rolling assembly to include a second-set of inline wheels and at least one adjustable-locking mechanism. The adjustable all-terrain dolly system is configured to transport a load over a surface.

A fold up golf pull cart having sets of small diameter wheels mounted on each end of a cross bar so as to be able to be swung up in order to make the cart more compact for easy stowage on a motorized golf cart.

A coin bin. The coin bin has a body defining a chamber to receive coins, the body further defining a receiving area to releasably receive part of a steering handle and being formed of a structurally strong plastic; a lid to close the chamber, the lid being lockable and removable when unlocked; and a plurality of wheels affixed to the body to support the body. The coin bin is suitable for positioning inside an automatic teller machine (ATM).

An assisted propulsion system, method and chassis for conveying a payload along a surface are described. A plurality of wheels disposed about the chassis support it on the surface. A drive provides at least assisted propulsion to the chassis along the surface. At least a driving part of the drive is connected to the chassis via a mount having a resiliently sprung link. At least the driving part of the drive has a fixed orientation and is moveable independently of the chassis and the plurality of wheels in a direction towards the surface. The resiliently sprung link is arranged to direct at least the driving part onto the surface during provision of the assisted propulsion. A sensor is arranged to monitor acceleration of the drive and to communicate data on acceleration to a controller, which controls operation of the drive in dependence on the data received from the sensor.

An object of the present disclosure is to provide a handcart that is easy to finely adjust the direction even when loaded with a heavy object. For this purpose, the handcart includes: a platform; a handle erected on a rear of the platform; a pair of left and right fixed wheels disposed on a front of a lower surface of the platform; and a pair of left and right omni-directional wheels disposed on a rear of the lower surface of the platform.