A pig diverter comprises a hollow housing having a flowline inlet port, a flowline outlet port, a pig entry opening, and a pig exit opening, all communicating with the interior of the housing. A tubular pig holder enclosed by the housing is pivotable between a receiving position and a launching position. In the receiving position, the pig holder is aligned with the pig entry opening to receive a pig and effects fluid communication between the pig entry opening and the flowline outlet port. In the launching position, the pig holder is aligned with the pig exit opening to launch a pig and effects fluid communication between the flowline inlet port and the pig exit opening.

A pig diverter comprises a hollow housing having a flowline inlet port, a flowline outlet port, a pig entry opening, and a pig exit opening, all communicating with the interior of the housing. A tubular pig holder enclosed by the housing is pivotable between a receiving position and a launching position. In the receiving position, the pig holder is aligned with the pig entry opening to receive a pig and effects fluid communication between the pig entry opening and the flowline outlet port. In the launching position, the pig holder is aligned with the pig exit opening to launch a pig and effects fluid communication between the flowline inlet port and the pig exit 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 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 pig diverter comprises a hollow housing having a flowline inlet port, a flowline outlet port, a pig entry opening, and a pig exit opening, all communicating with the interior of the housing. A tubular pig holder enclosed by the housing is pivotable between a receiving position and a launching position. In the receiving position, the pig holder is aligned with the pig entry opening to receive a pig and effects fluid communication between the pig entry opening and the flowline outlet port. In the launching position, the pig holder is aligned with the pig exit opening to launch a pig and effects fluid communication between the flowline inlet port and the pig exit opening.

A pig diverter comprises a hollow housing having a flowline inlet port, a flowline outlet port, a pig entry opening, and a pig exit opening, all communicating with the interior of the housing. A tubular pig holder enclosed by the housing is pivotable between a receiving position and a launching position. In the receiving position, the pig holder is aligned with the pig entry opening to receive a pig and effects fluid communication between the pig entry opening and the flowline outlet port. In the launching position, the pig holder is aligned with the pig exit opening to launch a pig and effects fluid communication between the flowline inlet port and the pig exit opening.

A material diverter for separating bulk goods includes a housing containing an inlet and at least two outlets, as well a guide element located between the inlet and the outlets that is pivotable about a pivot bearing in order to guide the material flow to one of the outlets. The material diverter further includes a pivot drive for pivoting the guide element, in order to align it between the inlet and one of the outlets. The housing includes a door that can be moved on the housing or removed therefrom. A first bearing element in the pivot bearing is located on the housing, and a second bearing element in the pivot bearing is located on the door. The guide element is received in the first and/or second bearing element such that it can be removed therefrom to facilitate servicing and cleaning of the material diverter and the guide element.

A non-path-variable element switch, in particular for connecting elements, which can be passed continuously by the elements being positive-lockingly guided, in particular head-guided, therein only in a feeding direction, from a plurality of profiled tracks into a number of profiled tracks, which is reduced compared to the plurality of profiled tracks. With the non-path-variable element switch, a plurality of feeding sources with different elements are connected to a processing tool. Thereby, the element switch is characterized in that it comprises no mechanically switchable elements.

A non-path-variable element switch, in particular for connecting elements, which can be passed continuously by the elements being positive-lockingly guided, in particular head-guided, therein only in a feeding direction, from a plurality of profiled tracks into a number of profiled tracks, which is reduced compared to the plurality of profiled tracks. With the non-path-variable element switch, a plurality of feeding sources with different elements are connected to a processing tool. Thereby, the element switch is characterized in that it comprises no mechanically switchable elements.

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.