This invention relates to a sheet processing apparatus for stapling multiple sheets with a stapling means and delivering the sheets in folio, comprising two rollers for folding the sheets in folio and projecting means for projecting between the two rollers to fold the sheets in sandwiching the sheets between the two rollers. One roller of the two rollers, at least, is made movable, and a cam member is further provided capable of correcting a projecting position by the projecting means according to traveling of the roller.

A sheet post-processing device is provided with a pushing device for pushing a predetermined position of a sheet stack in a direction substantially perpendicular to a direction that the sheet stack is conveyed, and a pair of rotating bodies for performing a folding operation. In the folding operation, a position of the sheet stack pushed by the pushing device is moved away from a contact point between rotational centers of the rotating bodies.

A sheet processing apparatus for folding a sheet bundle at a predetermined position includes paired rotating bodies for folding the sheet bundle having nip portions, a pressing device for pressing the predetermined position of the sheet bundle into the nip portions of the paired rotating bodies, and a device connected to the paired rotation bodies for providing rotation to the paired rotating bodies. A pulling force of the rotating bodies to pull the sheet bundle pressed into the nip portions of the rotating bodies has an amount which does not separate a sheet of the sheet bundle contacting the rotating bodies from the subsequent sheets in the sheet bundle when pulling the sheet bundle.

The folding apparatus for automatic folding of flatwork includes a longitudinal folder and a transverse folder following thereafter. In the transverse folder there are two laundry conveyors disposed one behind the other in the conveying direction of a flatwork article arriving from the longitudinal folder. They are spaced apart by a gap stretching essentially across the entire width of the transverse folder. To make a first transverse fold using a folding blade or air blast, a flatwork article to be transversely folded is led into the gap. Prior to this step, the thickness of the flatwork article to be folded is entered into a data entry device or is determined using a measuring device. The width of the gap is adjustable, depending upon the particular thickness of the flatwork article. In this manner optimal conveying along the gap is achieved of a flatwork article having a first transverse fold, independent of thickness. A further laundry conveyor is disposed at the exit end of the gap and the course of its belts located in the area of the said gap end can be changed by adjusting an adjustment roller. Following the making of a second transverse fold, the belts can be lowered in the said area, by which the flatwork article can reach the output location without having to queue up at a narrow point.

A roller arrangement for booklet makers comprises at least a first (1) and a second (2) pair of rotatably driven rollers, between which booklets (4) are intended to pass successively for folding. The first pair of rollers comprises two rollers (1) that are arranged such that they can move towards and away from each other and having a spring loading towards each other, while the second pair of rollers (2) comprises two rollers with a mutual separation that can be adjusted. Mechanical means (3) are arranged to, following the insertion of a booklet between the rollers of the first pair of rollers, automatically adjust the mutual separation of the rollers of the second pair of rollers depending on the distance between the rollers of the first pair of rollers.