A system for grouping and rotating packages (101) includes a first conveyor (102) configured to drive a stream of packages from a first end (102A) to a second end (102B) at a predefined first speed, an actuation section (104) situated at the second end (102B) of the first conveyor (102) configured to receive the stream of packages from the first conveyor (102) and actuate the stream of packages to an orienting section (108) at a predefined second speed, wherein the second speed is less than the first speed, and a plurality of lugs (106) adjacent to the actuation section (104) configured to actuate forward packages in the stream of packages forming groups (105) of two or more packages (101).

A system for grouping and rotating packages (101) includes a first conveyor (102) configured to drive a stream of packages from a first end (102A) to a second end (102B) at a predefined first speed, an actuation section (104) situated at the second end (102B) of the first conveyor (102) configured to receive the stream of packages from the first conveyor (102) and actuate the stream of packages to an orienting section (108) at a predefined second speed, wherein the second speed is less than the first speed, and a plurality of lugs (106) adjacent to the actuation section (104) configured to actuate forward packages in the stream of packages forming groups (105) of two or more packages (101).

Present embodiments relate to a tie plate orientation device. More specifically, but without limitation present embodiments relate to a tie plate orientation device that orients tie plates in a desired orientation for subsequent feeding, including an optional handheld magnetic device for manual assisted manipulation of the tie plates.

Present embodiments relate to a tie plate orientation device. More specifically, but without limitation present embodiments relate to a tie plate orientation device that orients tie plates in a desired orientation for subsequent feeding, including an optional handheld magnetic device for manual assisted manipulation of the tie plates.

An object centering device configured to center a conveyed food container includes a restricting guide member having a pair of guide surfaces facing the food container and configured to be respectively in contact with at least a pair of opposed contact portions. The pair of guide surfaces of the restricting guide member includes front end portions that extend away from each other toward a downstream side of a conveyance direction of the food container. The front end portions are configured such that an angle formed by the pair of guide surfaces is changeable.

Disclosed is an angle adjustment method for food blanks including: fixing a fixing device to a first corner of a wrapping skin at a first station; driving the fixing device to move to a second station by a moving driving member to drag the wrapping skin; and when dragging the wrapping skin, driving the fixing device to rotate by a rotation driving member. The present invention also provides an angle adjustment mechanism for food blanks for implementing the above method. The angle adjustment method and the mechanism for food blanks according to the present invention can adjust the angle of the food blanks and rotate the first corner of the wrapping skin to a specified angle to facilitate subsequent processing. Additionally, the wrapping skin has high angle adjustment accuracy, and the angle adjustment mechanism operates stably, avoiding damage to the wrapping skin.

Disclosed is an angle adjustment method for food blanks including: fixing a fixing device to a first corner of a wrapping skin at a first station; driving the fixing device to move to a second station by a moving driving member to drag the wrapping skin; and when dragging the wrapping skin, driving the fixing device to rotate by a rotation driving member. The present invention also provides an angle adjustment mechanism for food blanks for implementing the above method. The angle adjustment method and the mechanism for food blanks according to the present invention can adjust the angle of the food blanks and rotate the first corner of the wrapping skin to a specified angle to facilitate subsequent processing. Additionally, the wrapping skin has high angle adjustment accuracy, and the angle adjustment mechanism operates stably, avoiding damage to the wrapping skin.

A grouping station includes first conveyor tracks for moving loading pallets to the grouping station and second conveyor tracks for forwarding the loading pallets from the grouping station. The first conveyor tracks and the second conveyor tracks are both arranged for two different handling directions of the loading pallets.

A grouping station includes first conveyor tracks for moving loading pallets to the grouping station and second conveyor tracks for forwarding the loading pallets from the grouping station. The first conveyor tracks and the second conveyor tracks are both arranged for two different handling directions of the loading pallets.

CT scanner comprising a scanning conveyor (9) mounted on a supporting structure and configured to move an object (3) for CT examination forward through a scanning area (8), an input conveyor (10) configured to convey the object until the scanning chamber (2), and an output conveyor (11) configured to convey an object (3) out of the scanning chamber (2), wherein the input conveyor (10), the scanning conveyor (9) and the output conveyor (11) are configured to move forward the object (3) placed on a supporting unit (19) mechanically detached therefore, and wherein the scanning conveyor (9) is configured to rotate the supporting unit (19) and the object (3) on themselves as they travel through the scanning area (8). The input conveyor (10) and the output conveyor (11) are fitted with shields configured in such a way as to intercept all x-rays emitted from the scanning area (8) which escape from the scanning chamber (2) towards the conveyors.