According to some embodiments, a stacking assembly accepts mail-pieces traveling from a re-direct mechanism in a first direction and urges a leading edge portion of a mail-piece toward a registration wall of a sortation bin. The stacking assembly may include a plurality of neighboring cam shafts, each with at least one cam, arranged along the first direction, such that rotation of the cam shafts results in synchronized rotation of the cams to guide an incoming mail-piece. Rotation of the cam shafts may also urge a previously stacked mail-piece away from the cams, and into the sortation bin, in a second direction perpendicular to the first direction.

A bag carrying mechanism for a bag and insert combining apparatus for combining a stream of inserts with a stream of bags is provided. The bag carrying mechanism includes a plurality of bag holding arrangements operably coupled to one another for rotation about a rotational axis. Each bag holding arrangement includes first and second segments movable relative to one another and forming a receiving cavity therebetween. First and second holding features hold opposite sides of the bag within the receiving cavity and selectively hold the bag in an open position for receipt of an insert through an open end of the bag. Methods of using the bag carrying mechanism and systems incorporating the bag carrying mechanism are provided.

Provided is a paper sheet processing device in which a plurality of paper sheets stacked after processing can be easily taken out in a state where ends thereof are aligned, without binding the paper sheets. The paper sheet processing device includes a stacking unit 6 that stacks therein the paper sheets after being processed by a processing unit 4. The stacking unit 6 includes a stacking unit main body 7, and a storage box 9 that can be taken in and out of a box storage space 7a of the stacking unit main body 7.

A medium placement device includes a placement unit configured to have cut single paper thereon, a cover member configured to have single paper supplied to or discharged from an opening portion thereon, and a movement unit configured to move the cover member between a first position and a second position that is lower than the first position.

A medium placement device includes a placement unit configured to have cut single paper thereon, a cover member configured to have single paper supplied to or discharged from an opening portion thereon, and a movement unit configured to move the cover member between a first position and a second position that is lower than the first position.

An auxiliary device and a printing apparatus are provided. The printing apparatus includes a print output device, including a print exit. The printing apparatus also includes an auxiliary device disposed at the print exit of the print output device and having a first position state and a second position state. During a transition of the auxiliary device between the first position state and the second position state, the auxiliary device pushes print outputted from the print exit to move in a direction away from the print exit.

An auxiliary device and a printing apparatus are provided. The printing apparatus includes a print output device, including a print exit. The printing apparatus also includes an auxiliary device disposed at the print exit of the print output device and having a first position state and a second position state. During a transition of the auxiliary device between the first position state and the second position state, the auxiliary device pushes print outputted from the print exit to move in a direction away from the print exit.

According to some embodiments, a stacking assembly accepts mail-pieces traveling from a re-direct mechanism in a first direction and urges a leading edge portion of a mail-piece toward a registration wall of a sortation bin. The stacking assembly may include a plurality of neighboring cam shafts, each with at least one cam, arranged along the first direction, such that rotation of the cam shafts results in synchronized rotation of the cams to guide an incoming mail-piece. Rotation of the cam shafts may also urge a previously stacked mail-piece away from the cams, and into the sortation bin, in a second direction perpendicular to the first direction.

A holding unit of a rotation unit includes a shaft hole through which a rotation shaft passes, and is fixed in a state of being attached to the rotation shaft by sliding in an axis direction of the rotation shaft. A conveying force applying unit includes a base portion provided with a fitting hole that fits an outer circumference of the holding unit and an opening portion in communication with the fitting hole, and a contact part provided to the base portion. The base portion is configured to deform, and the conveying force applying unit is configured to be attached to and detached from the holding unit via the opening portion in a direction crossing the axis direction of the rotation shaft.

A holding unit of a rotation unit includes a shaft hole through which a rotation shaft passes, and is fixed in a state of being attached to the rotation shaft by sliding in an axis direction of the rotation shaft. A conveying force applying unit includes a base portion provided with a fitting hole that fits an outer circumference of the holding unit and an opening portion in communication with the fitting hole, and a contact part provided to the base portion. The base portion is configured to deform, and the conveying force applying unit is configured to be attached to and detached from the holding unit via the opening portion in a direction crossing the axis direction of the rotation shaft.