The module (19) for a conveyor system for bulk goods has at least one first tubular section (20). A second tubular section (23), which is provided with at least one coupling piece (21), branches away from said first tubular section. The second tubular section (23) adjoins a valve (13) which has three connections (25, 26). The first connection forms a flow-connection with the second tubular section (23). The second connection (26) of the valve (13) can be selectively connected to the first connection (25) by means of a first line and to the third connection (25) by means of a second line (48).

The module (19) for a conveyor system for bulk goods has at least one first tubular section (20). A second tubular section (23), which is provided with at least one coupling piece (21), branches away from said first tubular section. The second tubular section (23) adjoins a valve (13) which has three connections (25, 26). The first connection forms a flow-connection with the second tubular section (23). The second connection (26) of the valve (13) can be selectively connected to the first connection (25) by means of a first line and to the third connection (25) by means of a second line (48).

A work vehicle includes a delivery system that distributes commodity from the source between a plurality of delivery runs. The delivery system includes at least one commodity manifold. The commodity manifold includes a first run structure with a first run passage, a second run with a second run passage, and a manifold regulator with a body that is rotatable about a rotation axis between a first position and a second position. The body at least partly defines a channel configured to receive and distribute the commodity. The channel has an inlet and an outlet. The outlet is in communication with the first run passage and disconnected from the second run passage in the first position. The outlet is in communication with the second run passage and disconnected from the first run passage in the second position.

A work vehicle includes a delivery system that distributes commodity from the source between a plurality of delivery runs. The delivery system includes at least one commodity manifold. The commodity manifold includes a first run structure with a first run passage, a second run with a second run passage, and a manifold regulator with a body that is rotatable about a rotation axis between a first position and a second position. The body at least partly defines a channel configured to receive and distribute the commodity. The channel has an inlet and an outlet. The outlet is in communication with the first run passage and disconnected from the second run passage in the first position. The outlet is in communication with the second run passage and disconnected from the first run passage in the second position.

A continuous manufacturing system continuously manufactures a product from a powder of a raw material. The system includes a first processing device that performs first processing on the powder of the raw material; a second processing device that performs second processing on the powder on which the first processing device has performed the first processing; and an inspection and sorting device including an inspection chamber into which powder sent from the first processing device flows. When a prescribed amount of the powder has accumulated in the inspection chamber, the inspection and sorting device inspects the powder inside the inspection chamber after blocking a path connecting the first processing device to the inspection chamber. When the inspection ends, the inspection and sorting device removes the blocking after discharging the powder from inside the inspection chamber.

A continuous production system continuously produces a product from a raw material powder. The system includes a first processor that performs a first process on the raw material powder, a second processor that performs a second process on the powder on which the first process has been performed by the first processor, and a test chamber through which the powder being sent from the first processor to the second processor passes. A cleaner blows gas from an inlet side opening formed in the inner face of a channel connected to the test chamber from the first processor on the downstream side of an inlet side gate valve for opening and closing the channel toward a direction to form a swirling flow along the inner face of the channel.

An apparatus for separating metal particles from a material stream of a bulk material, comprising a detection device for detecting metal particles in the material stream and a separating device configured to separate a portion of the material stream in which the metal particles are contained, the separating device comprising a housing having a material inlet, a good-material outlet and a bad-material outlet; a rotary piston rotatably mounted in the housing and configured to guide the material stream from the material inlet to the good-material outlet or to the bad-material outlet depending on the detection result of the detection device; a drive unit configured to position the rotary piston at least in a first and a second rotary position; wherein the drive unit is configured to rotate the rotary piston between the first rotary position and the second rotary position by an angle of rotation greater than 90.

An apparatus for separating metal particles from a material stream of a bulk material, comprising a detection device for detecting metal particles in the material stream and a separating device configured to separate a portion of the material stream in which the metal particles are contained, the separating device comprising a housing having a material inlet, a good-material outlet and a bad-material outlet; a rotary piston rotatably mounted in the housing and configured to guide the material stream from the material inlet to the good-material outlet or to the bad-material outlet depending on the detection result of the detection device; a drive unit configured to position the rotary piston at least in a first and a second rotary position; wherein the drive unit is configured to rotate the rotary piston between the first rotary position and the second rotary position by an angle of rotation greater than 90.

The invention relates to a conveying system for bulk goods, in particular plastic granules, which conveying system has at least two senders (A to C) and at least two receivers (I to IV), which are connected to each other by conveying lines (7 to 9) via at least one switch station (1). The switch station (1) has at least two inlets (4 to 6) and at least two outlets (10 to 12), which are each provided with a valve (13) and which are provided on a coupling tube (2) that connects the inlets (4 to 6) and the outlets (10 to 12). The switch station (1) has at least one venting valve (14, 15, 32), which is provided on the coupling tube (2).

The invention relates to a conveying system for bulk goods, in particular plastic granules, which conveying system has at least two senders (A to C) and at least two receivers (I to IV), which are connected to each other by conveying lines (7 to 9) via at least one switch station (1). The switch station (1) has at least two inlets (4 to 6) and at least two outlets (10 to 12), which are each provided with a valve (13) and which are provided on a coupling tube (2) that connects the inlets (4 to 6) and the outlets (10 to 12). The switch station (1) has at least one venting valve (14, 15, 32), which is provided on the coupling tube (2).