Pumping machine (650, 750) comprising: at least two tubular elements (651, 751) containing pressurized gas and extending vertically in parallel and interconnected between them by means of a connecting element (652, 752); and an electromechanical lifting system (600, 700) comprising a first cylinder (601, 701), interconnected to the tubular elements (651, 751) and comprising a substance compressible by a piston (601b, 701b); and a screw (602, 702) with a vertical axis Y coinciding with the axis of the pumping machine (650, 750). The screw (602, 702) is inserted inside a second thrust cylinder (658, 758), connected in sliding manner inside the first cylinder (601, 701), and has a first end (602b, 702b) fixed to the connecting element (652, 752) and a second end (602a, 702a) configured for sliding inside the thrust cylinder (658, 758) and overlying a chamber (605, 705) comprising lubrication and cooling oil overlying the piston (601b, 701b).

An inline mast adapter configured for attaching a light fixture, where a light fixture is aligned (within 15.24 cm, as measured horizontally, from the center of the light fixture) with an extendable tower mast, when the extendable tower mast is in a vertical position. The inline mast adapter includes a pivot arm, such that a light fixture may be attached from ground level. The inline mast adapter further includes a first gas spring and a second gas spring configured for rotational movement for rotationally moving the pivot arm to a vertical position. Further, the inline mast adapter may be an after-market add on to the extendable tower mast, such that the inline mast adapter is a kit.

An inflatable air wedge has a tool channel that is inserted between a vehicle door and a vehicle body for allowing an operator to effectively unlock the vehicle door without damaging the vehicle (door and/or body and/or weather stripping). The inflatable air wedge includes a selectively inflatable bladder capable of being intercalated between the existing vehicle door and the existing vehicle body, a pneumatic mechanism in operable communication with the bladder for selectively introducing and releasing air from the bladder, and a conduit engaged with the bladder. Advantageously, such a conduit is suitably sized and shaped for guiding an existing unlocking tool therethrough while the bladder is at an inflated state and seated between the vehicle door and the vehicle body. Notably, the conduit is spaced from the pneumatic mechanism and manually distended when the unlocking tool is positioned therein.

A lift for raising and lowering items, such as vehicles. The lift comprises a lifting assembly including a cylinder and a ram configured to extend from and retract within the cylinder. The lift additionally includes an air-storage reservoir configured to store pressurized air received from an external air source. The air-storage reservoir is fluidly connected to the lifting assembly, such that the air-storage reservoir is configured to cause the ram to retract within the cylinder even when the lift is not connected to the external air source.

A precision shaft alignment system for establishing precise concentric axial alignment of a first shaft rotatably mounted and extending from a fixed unit and a second shaft extending from a variable position unit towards the first shaft includes a control and computing interface module, a pair of measuring means for precisely measuring at least one position of the first shaft and the second shaft and a jacking system for precisely aligning the shafts. The pair of measuring means is in communication with the control and computing interface module for transferring the at least one position of the first shaft and the second shaft for establishing precise concentric axial alignment of the first shaft and the second shaft. The jacking system is controlled by the control and computing interface module for precisely aligning the shaft.

A wheeled cabinet includes a container including compartments, a rear handle, drawers, and a storage between the drawers and a base; a pneumatic assembly including an inlet, connectors, a pneumatic cylinder on the base, a piston rod configured to move alternately upward and downward relative to the cylinder, and a controller for activating the cylinder; a lifting assembly including two opposite rails upwardly disposed on two sides of the base respectively, and an inverted U-shaped frame member slidably disposed on the rails and having an underside of a top secured to the piston rod; and a tire support assembly including a support secured to the frame member, two slides on two sides of the support respectively, a sliding tray secured to the slides, a slot on an inner surface of the tray, a moveable tab in the slot, and two rollers on two sides of the tray respectively.

A container transfer system is disclosed. The container transfer system includes a conveyance mechanism configured to support a container and move the container along a first axis, and a lift mechanism configured to raise and lower the conveyance mechanism.

A pneumatic jack includes at least a base platform and a top platform. The base platform is configured to be supported by a plurality of pneumatic jets. The pneumatic jets are configured to raise and lower the base platform and endow the apparatus with the ability to hover. An air bladder, with internal baffling, is positioned between a middle platform and the top platform. As the air bladder is inflated, the top platform rises relative to the other platforms.

An electronic interface control system for a pneumatic vehicle safety lift system has a computer that receives sensor inputs, presents outputs, and receives commands from a user. The computer has its power from an automobile and operates an air compressor for air hoses. The computer operates a pneumatic jack upon an automobile. The computer reads sensors related to jack position and triggers indicators to the user so the jack raises the vehicle after a footplate rests below it in a safe manner. The system lifts a vehicle stuck or undergoing repair. The computer checks that a certain number of jacks, preferably one, activate at once. The computer checks by inquiring of the sensors and switches deployed upon a vehicle and within a carrying case. The carrying case has a safety strut for the jack and a torque gun for a user.

A method and apparatus for lifting a process station from a processing module is described herein. The apparatus includes a lift assembly disposed on the processing module, a lift cage, and one or more guide pins. The lift assembly is disposed to be capable of reaching each of the process stations disposed within the processing module. The lift assembly is used for replacement and maintenance of the process stations and further enables the automated removal and placement of the process stations within the processing module. Maintenance methods enabled by the lift assembly are additionally disclosed herein.