In order to form a mobile wheel base, a stem caster adapter or a wheel assembly are attached to the bottom of a platform support or a container such as a cardboard carton are provided. The adapter has a body with a cylindrical recess open at the bottom surface adapted to receive and engage the stem of the caster. In the wheel assembly, a wheel or roller is rotatably attached to the bottom of the body. Both the adapter and wheel assembly have a cylindrical member extending from the top surface of the body with oppositely extending protrusions forming a bayonet-type mount. The mount is received within an opening in the bottom of the platform support or container and then rotated to attach the adapter or wheel assembly to the platform support or container.

A soft sided container with a wheel assembly securable to the sidewalls of the container. The wheel assembly is formed from a cage bearing rotatably coupled to a hub. The hub, formed integral with a base plate, engages an internally positioned mounting plate, eliminating the need for a cross axle. The use of a large hub limits rotation to an outer circumference of the wheel assembly.

An offset caster is described. The offset caster includes a wheel, an axle connected to the wheel, and an offset base connected to the axle. The offset base is offset by a distance. The offset base includes a connection to a computing device support. Computing device supports that include at least one offset caster are described. Systems for moving a computing device that include a computing device and a computing device support with at least one offset caster are described.

An offset caster is described. The offset caster includes a wheel, an axle connected to the wheel, and an offset base connected to the axle. The offset base is offset by a distance. The offset base includes a connection to a computing device support. Computing device supports that include at least one offset caster are described. Systems for moving a computing device that include a computing device and a computing device support with at least one offset caster are described.

A wheel mechanism (10) is disclosed as including an outer wheel (12), two inner wheels (36) received in the outer wheel, and two rubber dampers (24) each separating a respective outer wheel and inner wheel, the rubber dampers being deformable between a first configuration in which the entire outer periphery (37) of the inner wheel is in contact with an inner wall (29) of a recess (28) of the rubber damper and a second configuration in which a part of the outer periphery of the inner wheel is out of contact with the inner wall of the recess of the rubber damper.

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 apparatus is for locking a caster wheel in a steering position about a steering axis. The apparatus comprises a base member; a lever arm; and an engagement member. The lever arm is movable with respect to the base member into and between an engaged position in which the engagement member locks the caster wheel in the steering position and a disengaged position in which the caster is steerable out of the steering position.

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.

Work aid for a hairdresser, comprising a mobile frame on which frame a seat surface or at least one storage surface is arranged, wherein the frame comprises at least one castor being arranged rotatably in a fork head, and the castor being arranged on an axle, which axle is arranged insertably in each case with a first end portion on a first fork-shaped receptacle on the fork head and with a second end portion on a second fork-shaped receptacle on the fork head.

An all-terrain load transport system including a cylindrical first base member and at least three pairs of arms is provided. A handle is removably attached to an attachment member disposed on the cylindrical first base member. The cylindrical first base member defines a space for receiving at least one piece of accessory equipment. Each pair of the three pairs of arms defines a wheel support assembly at an end of each pair distal from an outer periphery of the cylindrical first base member. The three pairs of arms are detachably attached to the outer periphery of the cylindrical first base member. The wheel support assembly includes a cylindrical second base member defining a space for receiving a spherical wheel. The spherical wheel moves omnidirectionally within the defined space. Roller bearings positioned along an inner periphery of the cylindrical second base member facilitate the omnidirectional movement of the spherical wheel.