Wireless portable vehicle lift system incorporating one or more enhanced communication and/or control features. The lift system can incorporate enhanced touch screen-enabled functionalities and/or enhanced wireless communication features.

Ground care maintenance systems, lift adapters for turning standard vehicle lifts into ground care maintenance or turf lifts, and methods for converting vehicle lifts to ground care maintenance or turf lifts are disclosed. The ground care maintenance system includes a two post pivoting arm lift and a lift adapter configured to couple to the two post pivoting arm lift. The lift adapter including four arm covers and two adapter members each coupled to two arm covers. The method for converting a vehicle lift to a ground care maintenance or turf lift and the turf lift back to the vehicle lift are also disclosed.

Ground care maintenance systems, lift adapters for turning standard vehicle lifts into ground care maintenance or turf lifts, and methods for converting vehicle lifts to ground care maintenance or turf lifts are disclosed. The ground care maintenance system includes a two post pivoting arm lift and a lift adapter configured to couple to the two post pivoting arm lift. The lift adapter including four arm covers and two adapter members each coupled to two arm covers. The method for converting a vehicle lift to a ground care maintenance or turf lift and the turf lift back to the vehicle lift are also disclosed.

Disclosed is an automatic alignment method of a high-pressure gas container in which a high-pressure gas container is loaded on a lift of a cabinet so as to supply a gas from a fabrication (FAB) process facility of a semiconductor to a wafer production line, and then, the high-pressure gas container loaded on the lift is raised, and an end cap of the high-pressure gas container and the center of a connector holder of a gas pipe are automatically aligned.

Disclosed is an automatic alignment method of a high-pressure gas container in which a high-pressure gas container is loaded on a lift of a cabinet so as to supply a gas from a fabrication (FAB) process facility of a semiconductor to a wafer production line, and then, the high-pressure gas container loaded on the lift is raised, and an end cap of the high-pressure gas container and the center of a connector holder of a gas pipe are automatically aligned.

The present disclosure provides a vehicle positioning device for vehicle vision calibration, a positioning adjustment method, and a positioning adjustment system. The vehicle positioning device includes a base, a chassis, a translation mechanism and a rotation mechanism. A to-be-calibrated vehicle is placed onto the chassis, and the chassis is provided with a stopper. The translation mechanism is arranged between the chassis and the base, and configured to drive the chassis to move in an X-axis direction in a three-dimensional coordinate system relative to the base in accordance with a translation control instruction. The rotation mechanism is arranged between the chassis and the base, and configured to drive the chassis to rotate about a Z-axis in the three-dimensional coordinate system relative to the base in accordance with a rotation control instruction.

The present disclosure provides a vehicle positioning device for vehicle vision calibration, a positioning adjustment method, and a positioning adjustment system. The vehicle positioning device includes a base, a chassis, a translation mechanism and a rotation mechanism. A to-be-calibrated vehicle is placed onto the chassis, and the chassis is provided with a stopper. The translation mechanism is arranged between the chassis and the base, and configured to drive the chassis to move in an X-axis direction in a three-dimensional coordinate system relative to the base in accordance with a translation control instruction. The rotation mechanism is arranged between the chassis and the base, and configured to drive the chassis to rotate about a Z-axis in the three-dimensional coordinate system relative to the base in accordance with a rotation control instruction.

A mobile fixture includes a movable base, a support platform, an adaptor interface, at least one sensor, and a controller. The movable base is configured to travel over a floor. The support platform is articulable with respect to the base. The adaptor interface moves with the support platform, and is configured to mechanically interface with an attachment member. The at least one sensor is coupled to the adaptor interface and is configured to detect at least one of a force or movement resulting from an interaction between the adaptor interface and the attachment member. The controller is operably coupled to the movable base, support platform, and at least one sensor, and is configured to control movement of at least one of the movable base or support platform responsive to the at least one of the force or movement detected by the at least one sensor.

A mobile fixture includes a movable base, a support platform, an adaptor interface, at least one sensor, and a controller. The movable base is configured to travel over a floor. The support platform is articulable with respect to the base. The adaptor interface moves with the support platform, and is configured to mechanically interface with an attachment member. The at least one sensor is coupled to the adaptor interface and is configured to detect at least one of a force or movement resulting from an interaction between the adaptor interface and the attachment member. The controller is operably coupled to the movable base, support platform, and at least one sensor, and is configured to control movement of at least one of the movable base or support platform responsive to the at least one of the force or movement detected by the at least one sensor.

A system for controlling a vehicle lift that operates to linearly displace a vehicle with respect to a floor. The system includes a supplemental support configured to be positioned between the vehicle and the floor when the vehicle is in a raised position, a support receiver configured to receive the supplemental support, a sensor configured to detect a presence or absence of the support within the support receiver, and an electronic control unit including a processor and a memory unit that is coupled to the processor. The electronic control unit configured to determine whether the supplemental support is positioned within the support receiver based on an output of the sensor, and in response to determining that the supplemental support is not positioned within the support receiver, prevent the vehicle lift from operating to linearly displace the vehicle with respect to the floor.