A conveyor system (10) for transporting a transportable material (M) by means of a fluid for transporting the transportable material (M) between a first conveying line portion (11) and a second conveying line portion (12), said conveying line portions (11, 12) comprising a plurality of pipes forming a continuous conveying line (13), said system (10) comprising: a conveyor device (1) in fluid connection to one of said first or said conveying line portions (11, 12) operative to provide negative air pressure or vacuum through said conveying line (13); a material feeder device (2); wherein the conveyor device (1) comprises at least one material level sensor (1a, 1b), wherein the at least one material level sensor (1a, 1b) is used to monitor one or more material level(s) inside the conveyor device (1) and via one or more material level sensor lines (3) giving at least one material level signal (1aa, 1bb) to a controller (4) and from the controller (4) via a control signal line (5) transmit a control signal (5a) to the material feeder device (2) having a valve (6) adapted to control the amount of air injected into the system, typically the into the conveying line (13), wherein the controller (4) is adapted to control the valve (6) and/or a mass-flow (M), respectively, of the material feeder device (2) in dependence of output from the at least one material level sensor (1a, 1b) to control amount of air injected into the conveying line (13) at the feeder device (2).

A conveyor system (10) for transporting a transportable material (M) by means of a fluid for transporting the transportable material (M) between a first conveying line portion (11) and a second conveying line portion (12), said conveying line portions (11, 12) comprising a plurality of pipes forming a continuous conveying line (13), said system (10) comprising: a conveyor device (1) in fluid connection to one of said first or said conveying line portions (11, 12) operative to provide negative air pressure or vacuum through said conveying line (13); a material feeder device (2); wherein the conveyor device (1) comprises at least one material level sensor (1a, 1b), wherein the at least one material level sensor (1a, 1b) is used to monitor one or more material level(s) inside the conveyor device (1) and via one or more material level sensor lines (3) giving at least one material level signal (1aa, 1bb) to a controller (4) and from the controller (4) via a control signal line (5) transmit a control signal (5a) to the material feeder device (2) having a valve (6) adapted to control the amount of air injected into the system, typically the into the conveying line (13), wherein the controller (4) is adapted to control the valve (6) and/or a mass-flow (M), respectively, of the material feeder device (2) in dependence of output from the at least one material level sensor (1a, 1b) to control amount of air injected into the conveying line (13) at the feeder device (2).

The disclosure relates to a feeding device for guiding and providing one-piece ties, with a hose unit and a funnel unit. The hose unit is designed to guide a respective one-piece tie in a hose inner via an air flow along the hose unit towards an outlet end of the hose unit and subsequently in an outlet direction out of the outlet end of the hose unit to the funnel unit. The funnel unit is arranged at the outlet end of the hose unit on the hose unit and is designed to receive the respective one-piece tie guided through the hose unit.

The disclosure relates to a feeding device for guiding and providing one-piece ties, with a hose unit and a funnel unit. The hose unit is designed to guide a respective one-piece tie in a hose inner via an air flow along the hose unit towards an outlet end of the hose unit and subsequently in an outlet direction out of the outlet end of the hose unit to the funnel unit. The funnel unit is arranged at the outlet end of the hose unit on the hose unit and is designed to receive the respective one-piece tie guided through the hose unit.

Provided herein is a pneumatic tube system station having a rotating carriage with multiple carrier ports. The multiple carrier ports allow for receiving multiple carriers and/or staging multiple carries for dispatch. In one arrangement, one or more carriers may be securely maintained within the station while permitting users to continue utilizing the station.

Provided herein is a pneumatic tube system station having a rotating carriage with multiple carrier ports. The multiple carrier ports allow for receiving multiple carriers and/or staging multiple carries for dispatch. In one arrangement, one or more carriers may be securely maintained within the station while permitting users to continue utilizing the station.

Developed to transport any products, whether industrialized or not, via streams, in different geographic regions. By means of a piping circuit (1) housing distributing stations (3), in suitable points in the region of installation are formed streams driven by hydraulic pumps (2) successively installed along the length of such circuit (1). The streams are provided with conveyor capsules (4) of any industrial objects or not, capable of being carried by these capsules (4). In this way, the piping circuit (1) can be installed so as to cover large a geographic area and, for its internal rapids, to promote the transport of goods of all kinds. For control on delivery, upon stop at the predefined distribution station (3), the corresponding conveying capsule (4) shall be identified by its electronic registration. These capsules (4), after being unloaded at their distribution stations (3), are returned to the circulation by the circuit (1) and so on, thus forming an unprecedented supply system for large geographical regions.

Developed to transport any products, whether industrialized or not, via streams, in different geographic regions. By means of a piping circuit (1) housing distributing stations (3), in suitable points in the region of installation are formed streams driven by hydraulic pumps (2) successively installed along the length of such circuit (1). The streams are provided with conveyor capsules (4) of any industrial objects or not, capable of being carried by these capsules (4). In this way, the piping circuit (1) can be installed so as to cover large a geographic area and, for its internal rapids, to promote the transport of goods of all kinds. For control on delivery, upon stop at the predefined distribution station (3), the corresponding conveying capsule (4) shall be identified by its electronic registration. These capsules (4), after being unloaded at their distribution stations (3), are returned to the circulation by the circuit (1) and so on, thus forming an unprecedented supply system for large geographical regions.

Developed to transport any products, whether industrialized or not, via streams, in different geographic regions. By means of a piping circuit (1) housing distributing stations (3), in suitable points in the region of installation are formed streams driven by hydraulic pumps (2) successively installed along the length of such circuit (1). The streams are provided with conveyor capsules (4) of any industrial objects or not, capable of being carried by these capsules (4). In this way, the piping circuit (1) can be installed so as to cover large a geographic area and, for its internal rapids, to promote the transport of goods of all kinds. For control on delivery, upon stop at the predefined distribution station (3), the corresponding conveying capsule (4) shall be identified by its electronic registration. These capsules (4), after being unloaded at their distribution stations (3), are returned to the circulation by the circuit (1) and so on, thus forming an unprecedented supply system for large geographical regions.

Developed to transport any products, whether industrialized or not, via streams, in different geographic regions. By means of a piping circuit (1) housing distributing stations (3), in suitable points in the region of installation are formed streams driven by hydraulic pumps (2) successively installed along the length of such circuit (1). The streams are provided with conveyor capsules (4) of any industrial objects or not, capable of being carried by these capsules (4). In this way, the piping circuit (1) can be installed so as to cover large a geographic area and, for its internal rapids, to promote the transport of goods of all kinds. For control on delivery, upon stop at the predefined distribution station (3), the corresponding conveying capsule (4) shall be identified by its electronic registration. These capsules (4), after being unloaded at their distribution stations (3), are returned to the circulation by the circuit (1) and so on, thus forming an unprecedented supply system for large geographical regions.