A painting plant may include: at least one painting booth including a painting system configured to apply paint onto objects in the at least one painting booth; a magazine including cartridges containing the paint; and a system configured to automatically transport the cartridges from the magazine to feeding stations which feed the paint from the cartridges to the painting system in the at least one painting booth. In addition or in the alternative, a painting plant may include: at least one painting booth including a painting system configured to apply paint onto objects in the at least one painting booth; a magazine including cartridges containing cleaning liquid; and a system configured to automatically transport the cartridges containing the cleaning liquid from the magazine to feeding stations which feed the cleaning liquid from the cartridges containing the cleaning liquid to the painting system in the at least one painting booth.

A material transfer system is described. In some embodiments, the system may include a coupler, a destination inlet and source outlet and the coupler may include an opening to allow air to be drawn into the system. The opening may be covered by a screen and a moveable sleeve may be used to at least partially cover the opening.

A material transfer system is described. In some embodiments, the system may include a coupler, a destination inlet and source outlet and the coupler may include an opening to allow air to be drawn into the system. The opening may be covered by a screen and a moveable sleeve may be used to at least partially cover the opening.

A method for delivering items in a pneumatic delivery system includes receiving delivery information corresponding to an item to be delivered from a first workstation of a plurality of workstations to a second one of the workstations, configuring a first one of a plurality of blowers and a corresponding workstation diverter corresponding to the first workstation to create a path from the first workstation to the first blower, operating the first blower to generate suction drawing the item to the first blower, configuring a subset of the plurality of diverters of the system to create a continuous path from the first blower to the second workstation and routing, when the first and second workstations are in separate subsystems of the pneumatic delivery system, the item through an inter-subsystem exchange unit so that the item is delivered to the second workstation using only the first blower.

A device for the transport of singled objects comprising a first tube section, delimiting a loading channel from a rear aperture to a front aperture, a loading aperture for the insertion of the singled object in the loading channel, a second tube section connected to the rear aperture of the first tube section and delimiting a guide channel, a thrust generator suitable to generate in the loading channel a thrust in the transport direction, a transport support suitable to accommodate the object and arranged in the loading channel in such a way as to be launched in the transport direction along the guide channel and a rebound device positioned in the guide channel to make the transport support bounce, causing the release of the object from transport.

A device for the transport of singled objects comprising a first tube section, delimiting a loading channel from a rear aperture to a front aperture, a loading aperture for the insertion of the singled object in the loading channel, a second tube section connected to the rear aperture of the first tube section and delimiting a guide channel, a thrust generator suitable to generate in the loading channel a thrust in the transport direction, a transport support suitable to accommodate the object and arranged in the loading channel in such a way as to be launched in the transport direction along the guide channel and a rebound device positioned in the guide channel to make the transport support bounce, causing the release of the object from transport.

A method is described for maintaining a gaseous composition within a tube (that is part of tubular transportation system for transporting passengers or cargos via a capsule), where the tube is arranged along a predetermined route. The method comprises: (a) pumping the tube to a pressure that is below atmospheric pressure until the tube is substantially evacuated; (b) identifying a predetermined power value; (c) identifying a first percentage, x, of hydrogen based on the predetermined power value identified in (b) and a leak rate associated with the tube; (d) maintaining within each tube in the plurality of substantially evacuated tubes, a gaseous composition comprising a mixture of a first percentage, x, of hydrogen and a second percentage, (100-x), of air.

A method is described for maintaining a gaseous composition within a tube (that is part of tubular transportation system for transporting passengers or cargos via a capsule), where the tube is arranged along a predetermined route. The method comprises: (a) pumping the tube to a pressure that is below atmospheric pressure until the tube is substantially evacuated; (b) identifying a predetermined power value; (c) identifying a first percentage, x, of hydrogen based on the predetermined power value identified in (b) and a leak rate associated with the tube; (d) maintaining within each tube in the plurality of substantially evacuated tubes, a gaseous composition comprising a mixture of a first percentage, x, of hydrogen and a second percentage, (100-x), of air.

A system and method is provided for traversing inside one or more pipes. In an embodiment, a fluid is injected into the one or more pipes thereby promoting a fluid flow. An inspection device is deployed into the one or more pipes at least partially filled with a flowing fluid. The inspection device comprises a housing wherein the housing is designed to exploit the hydrokinetic effects associated with a fluid flow in one or more pipes as well as maneuver past a variety of pipe configurations. The inspection device may contain one or more sensors capable of performing a variety of inspection tasks.

A system and method is provided for traversing inside one or more pipes. In an embodiment, a fluid is injected into the one or more pipes thereby promoting a fluid flow. An inspection device is deployed into the one or more pipes at least partially filled with a flowing fluid. The inspection device comprises a housing wherein the housing is designed to exploit the hydrokinetic effects associated with a fluid flow in one or more pipes as well as maneuver past a variety of pipe configurations. The inspection device may contain one or more sensors capable of performing a variety of inspection tasks.