Apparatus for handling bars including a support plane configured to support a plurality of bars having an oblong development, and handling devices configured to remove a bar from a removal zone of the support plane and to deliver it to a delivery zone. Movement devices are associated with the support plane which are configured to distribute the bars on the support plane and to move them toward the removal zone.

Apparatus for handling bars including a support plane configured to support a plurality of bars having an oblong development, and handling devices configured to remove a bar from a removal zone of the support plane and to deliver it to a delivery zone. Movement devices are associated with the support plane which are configured to distribute the bars on the support plane and to move them toward the removal zone.

A vertical dough conveyor includes a base frame, and a vertical conveyor assembly pivotably connected to the base frame for pivoting movement between a use position and an access position. The vertical conveyor assembly includes a first conveyor belt unit and a second conveyor belt unit, wherein the second conveyor belt unit is pivotably connected to the first conveyor unit such that, when the vertical conveyor assembly is in the access position, the first conveyor belt unit is pivotably movable between a first position and a second position. In the first position, a belt of the second conveyor belt unit is positioned in opposed relation to a belt of the first conveyor belt unit to define a dough feed gap therebetween. In the second position, the belt of second conveyor belt unit is pivoted away from the belt of the first conveyor belt unit.

A vertical dough conveyor includes a base frame, and a vertical conveyor assembly pivotably connected to the base frame for pivoting movement between a use position and an access position. The vertical conveyor assembly includes a first conveyor belt unit and a second conveyor belt unit, wherein the second conveyor belt unit is pivotably connected to the first conveyor unit such that, when the vertical conveyor assembly is in the access position, the first conveyor belt unit is pivotably movable between a first position and a second position. In the first position, a belt of the second conveyor belt unit is positioned in opposed relation to a belt of the first conveyor belt unit to define a dough feed gap therebetween. In the second position, the belt of second conveyor belt unit is pivoted away from the belt of the first conveyor belt unit.

An article transport facility includes a transport conveyor (34) and a weighing device (24), which includes a support portion (28) for supporting a container (C1) and a measuring portion (30) configured to measure a weight of the container (C1) supported by the support portion (28). The article transport facility is configured to perform a state change between a withdrawn state in which the support portion (28) is withdrawn downward relative to a transport surface (34A) and a protruding state in which the support portion (28) protrudes upward relative to the transport surface (34A) by moving the support portion (28) and the transport conveyor (34) relative to each other in a vertical direction (Z). A support surface (28A) of the support portion (28) is inclined such that one corner portion (8A) of multiple corner portions (8) located at corners of the container (C1) is lower than the other corner portions (8).

An article transport facility includes a transport conveyor (34) and a weighing device (24), which includes a support portion (28) for supporting a container (C1) and a measuring portion (30) configured to measure a weight of the container (C1) supported by the support portion (28). The article transport facility is configured to perform a state change between a withdrawn state in which the support portion (28) is withdrawn downward relative to a transport surface (34A) and a protruding state in which the support portion (28) protrudes upward relative to the transport surface (34A) by moving the support portion (28) and the transport conveyor (34) relative to each other in a vertical direction (Z). A support surface (28A) of the support portion (28) is inclined such that one corner portion (8A) of multiple corner portions (8) located at corners of the container (C1) is lower than the other corner portions (8).

A conveyor belt unit (100) has a configuration-changing mechanism useful for switching between a ready-to-operate configuration and a not-ready-to-operate configuration. A specific embodiment uses a rotating joint element (150) with a thin material bridge (152) that defines a rotary axis. Used with a dynamic checkweigher, the conveyor belt unit has a carrier frame (110) and a belt body (130) connected to it. Rollers (132, 134) are arranged at the ends in transport direction (T) and contrary to the transport direction, with a conveyor belt (136) tensioned across the conveyor rollers. A motor drives the conveyor belt (136) by means of one of the rollers (132, 134). The configuration-changing mechanism is effective between the belt body and the carrier frame.

A conveyor belt unit (100) has a configuration-changing mechanism useful for switching between a ready-to-operate configuration and a not-ready-to-operate configuration. A specific embodiment uses a rotating joint element (150) with a thin material bridge (152) that defines a rotary axis. Used with a dynamic checkweigher, the conveyor belt unit has a carrier frame (110) and a belt body (130) connected to it. Rollers (132, 134) are arranged at the ends in transport direction (T) and contrary to the transport direction, with a conveyor belt (136) tensioned across the conveyor rollers. A motor drives the conveyor belt (136) by means of one of the rollers (132, 134). The configuration-changing mechanism is effective between the belt body and the carrier frame.

A raised belt transfer unit may comprise a first angled support and a second angled support, a drive roller rotatably mounted to the first angled support and the second angled support, a plurality of driven rollers rotatably mounted to the first angled support and the second angled support, and a drive connecter in communication with the drive roller and a driven roller. The drive roller may be positioned adjacent a lower end of the first support and adjacent a lower end of the second support. The drive roller may be adapted to be coupled to a conveyor belt of a telescopic conveyor.

A raised belt transfer unit may comprise a first angled support and a second angled support, a drive roller rotatably mounted to the first angled support and the second angled support, a plurality of driven rollers rotatably mounted to the first angled support and the second angled support, and a drive connecter in communication with the drive roller and a driven roller. The drive roller may be positioned adjacent a lower end of the first support and adjacent a lower end of the second support. The drive roller may be adapted to be coupled to a conveyor belt of a telescopic conveyor.