A portable roadside assistant device; a system which includes a tool designed to ease the process of removing and changing a tire for any user. The present invention is superior to other systems in that it effectively automatically loosens and tightens lug nuts to assist users in changing a flat tire.

A non-water-based tire lubricant includes a thickening agent and a thinning agent. The thickening agent may be a silicone grease, hydrotreated light petroleum distillates, or hydrogenated liquid rosin ester, and the thinning agent may be a blend of petroleum distillates and additives or a silicone liquid. The tire lubricant has a pliable consistency, is easier to apply and use than standard tire lubricants, allows the tire to seal at much lower pressures, and is not water-based so that nitrogen concentrations inside the tire are maintained at 100 percent.

A non-water-based tire lubricant includes a thickening agent and a thinning agent. The thickening agent may be a silicone grease, hydrotreated light petroleum distillates, or hydrogenated liquid rosin ester, and the thinning agent may be a blend of petroleum distillates and additives or a silicone liquid. The tire lubricant has a pliable consistency, is easier to apply and use than standard tire lubricants, allows the tire to seal at much lower pressures, and is not water-based so that nitrogen concentrations inside the tire are maintained at 100 percent.

A robot tool has a chassis and a wheel servicing sub-system supported on the chassis, the wheel servicing sub-system having a sub-system interface part engageable with a wheel interface part, the wheel servicing sub-system interface part engagement with the wheel interface part permitting operation of the wheel servicing sub-system to service the wheel, and a control unit on the robot tool to control operation of the wheel servicing sub-system to effect said wheel servicing. The wheel servicing sub-system is one or more of a chassis sub-system, a tool support sub-system, a fastener detaching/attaching sub-system, a fastener storage sub-system, a jacking sub-system, a wheel gripper sub-system, a tire inspection sub-system, a tire pressure sub-system, and a wheel balancing sub-system.

The present invention relates to a method and an apparatus for mounting a tyre on a rim or demounting a tyre from a rim. The method includes the steps of rotating the wheel (tyre/rim assembly) by an electric motor about an axis, checking the current consumption of the electric motor during the mounting and demounting operation, and continuously and automatically adjusting a specific combination of torque and speed of the electric motor during the mounting/demounting operation. The apparatus for mounting a tyre on a rim or demounting a tyre from a rim comprises an electric motor for rotating the wheel (rim/tyre assembly) about an axis, a sensing device for sensing the motor current and transmitting corresponding signals to a control device and an adjustment controller for continuously and automatically adjusting a specific combination of torque and speed of the electric motor during the mounting/demounting operation.

The present invention regards a tightening group for a rim of or for a tired wheel including a base, a main wheel-holder or rim-holder plate or table and at least three jaws or jaw or gripper components.

The present invention relates to a method and an apparatus for mounting a tyre on a rim or demounting a tyre from a rim. The method includes the steps of rotating the wheel (tyre/rim assembly) by an electric motor about an axis, checking the current consumption of the electric motor during the mounting and demounting operation, and continuously and automatically adjusting a specific combination of torque and speed of the electric motor during the mounting/demounting operation. The apparatus for mounting a tyre on a rim or demounting a tyre from a rim comprises an electric motor for rotating the wheel (rim/tyre assembly) about an axis, a sensing device for sensing the motor current and transmitting corresponding signals to a control device and an adjustment controller for continuously and automatically adjusting a specific combination of torque and speed of the electric motor during the mounting/demounting operation.

A tyre changing machine (100) comprises: a wheel-holder unit (200); a frame (400); a bead breaker unit (300) including a bead breaking arm (301) articulated to the frame (400) to rotate about a vertical axis (Y), a bead breaker tool (302) and a bead breaker actuator (303) to move the bead breaker tool (302) towards and away from a wheel (R); a lifting device (500), including a lifting arm (501) and a supporting platform (502), defining a horizontal surface on which to rest the wheel (R) and connected to the lifting arm (501) to be movable between a lowered position and a raised position. The lifting device (500) also comprises a lifting actuator to move the supporting platform (502) between the raised position and the lowered position, and a box-shaped body (600) that is operatively coupled to the flank (400b) of the frame (400); the lifting actuator is at least partly positioned in the box-shaped body.

Systems, methods and apparatus for automated vehicle wheel removal and replacement are provided. One system includes a computer system with applications for scheduling the replacement of tires for the vehicle. An electronically controlled lift device and robotic apparatus is configured for interaction with the computer system. The lift device mechanically adjusts arms for placement on lift points of vehicles. The robotic apparatus detects positioning of lug nut configuration for a wheel, removes lug nuts, and then removes the wheel from the wheel hub with gripping arms. The wheel and tire are then handed off to a separate tire changing machine. When a new tire is replaced the robotic apparatus then mounts the wheel to the original wheel hub, and then secures the lug nuts to the lug nut bolts.

A high-precision intelligent centering device, consisting of a symmetrical synchronous centering mechanism. The invention can meet the needs of wheel centering in use with the ideal effect and high efficiency. Work is safe and reliable, degree of automation is high, and it is especially suitable for mass production on the production line.