A mount apparatus to be mounted on a top surface, in a vertical direction, of a main body of an image forming apparatus configured to form an image on a sheet, includes a latch member extending toward the main body from a surface facing the top surface of the main body and being rotatable around a rotational axis extending in a direction along a direction orthogonal to the vertical direction, and a biasing member configured to bias the latch member in a predetermined rotation direction. The latch member is inserted into the main body through an opening that is provided on the top surface of the main body and is engaged with the main body by a biasing force of the biasing member in a state where the mount apparatus is mounted on the main body.

A post-processing apparatus connectable to an image forming apparatus which performs a post-processing on a sheet of a first type in a first post-processing mode, and performs the post-processing on a sheet of a second type having a light transmittance higher than the first type in a second post-processing mode, wherein, in a case where a job for performing the post-processing on a sheet of a third type is executed, the post-processing apparatus determines whether the sheet of the third type is detectable by the sheet detecting unit, operates in the first post-processing mode when the sheet of the third type is determined to be detectable by the sheet detecting unit, and operates in the second post-processing mode when the sheet of the third type is determined to be undetectable by the sheet detecting unit.

A post-processing apparatus connectable to an image forming apparatus which performs a post-processing on a sheet of a first type in a first post-processing mode, and performs the post-processing on a sheet of a second type having a light transmittance higher than the first type in a second post-processing mode, wherein, in a case where a job for performing the post-processing on a sheet of a third type is executed, the post-processing apparatus determines whether the sheet of the third type is detectable by the sheet detecting unit, operates in the first post-processing mode when the sheet of the third type is determined to be detectable by the sheet detecting unit, and operates in the second post-processing mode when the sheet of the third type is determined to be undetectable by the sheet detecting unit.

A processing apparatus comprises: a conveyance part for conveying a sheet; a processing part including a processing member that is installed in a manner of being movable in an intersecting direction of intersecting with a conveyance direction of the conveyance part and that performs predetermined processing at a predetermined position of the sheet under conveyance; a stacker part for accumulating processing articles obtained by the processing of the processing part; and a control part for controlling the stacker part such as to sort a predetermined amount of precedently ejected ones of the processing articles from the subsequent ones of the processing articles among the processing articles ejected to the stacker part by the conveyance part.

A processing apparatus comprises: a conveyance part for conveying a sheet; a processing part including a processing member that is installed in a manner of being movable in an intersecting direction of intersecting with a conveyance direction of the conveyance part and that performs predetermined processing at a predetermined position of the sheet under conveyance; a stacker part for accumulating processing articles obtained by the processing of the processing part; and a control part for controlling the stacker part such as to sort a predetermined amount of precedently ejected ones of the processing articles from the subsequent ones of the processing articles among the processing articles ejected to the stacker part by the conveyance part.

A method for generating decks of sheet elements (18) comprises the steps of positioning a set of numerous sheet elements (18) onto a transport surface of a transport device (30) to partly overlap in transport direction (T). The set of overlapping sheet elements (18) is moved against a stop member (44). The stop member (44) is moved in the transport direction (T) with a lower velocity than a velocity of the transport surface. By maintaining displacement of sheet elements (18) which are not yet contacting stop member (44) all sheet elements are shifted towards stop member (44) to define a deck. The method is carried out by a corresponding device.

A method for generating decks of sheet elements (18) comprises the steps of positioning a set of numerous sheet elements (18) onto a transport surface of a transport device (30) to partly overlap in transport direction (T). The set of overlapping sheet elements (18) is moved against a stop member (44). The stop member (44) is moved in the transport direction (T) with a lower velocity than a velocity of the transport surface. By maintaining displacement of sheet elements (18) which are not yet contacting stop member (44) all sheet elements are shifted towards stop member (44) to define a deck. The method is carried out by a corresponding device.

A distributed printing system includes: a job management device that divides a print job to generate divided jobs; image forming devices that execute the divided jobs to form an image on a sheet; and a sorting device that sorts sheets of a sheet bundle, wherein each of the image forming devices executes the divided jobs, and discharges a sheet bundle, the job management device includes a storage that stores information regarding the sheets constituting the sheet bundles, and the sorting device includes a sheet feeder on which the sheet bundles is settable, an instructor that instructs an operator on an arrangement order of the sheet bundles to be set on the sheet feeder, and a sheet discharger that sorts the sheets of the sheet bundles on the basis of operation information, and discharges a sheet bundle and a sheet bundle including remaining sheets to different sheet discharge trays.

A distributed printing system includes: a job management device that divides a print job to generate divided jobs; image forming devices that execute the divided jobs to form an image on a sheet; and a sorting device that sorts sheets of a sheet bundle, wherein each of the image forming devices executes the divided jobs, and discharges a sheet bundle, the job management device includes a storage that stores information regarding the sheets constituting the sheet bundles, and the sorting device includes a sheet feeder on which the sheet bundles is settable, an instructor that instructs an operator on an arrangement order of the sheet bundles to be set on the sheet feeder, and a sheet discharger that sorts the sheets of the sheet bundles on the basis of operation information, and discharges a sheet bundle and a sheet bundle including remaining sheets to different sheet discharge trays.

A collating apparatus (10), in particular for printed products such as brochures, flyers or the like, comprising a collecting section (11) having at least two collecting zones (11a,b) arranged in parallel and working independently of each other, onto which respectively a plurality of products are fed successively and are united lying one on top of the other into a collected product, and at least one further processing section (13, 15) positioned behind the collecting section (11) having at least one further processing apparatus (13a,b; 15a,b). High flexibility during operation is achieved by the arrangement between the collecting section (11) and the at least one further processing section (13, 15) of a distribution apparatus (12), which feeds the collected products arriving from the collecting zones (11a,b) selectively to the at least one further processing apparatus (13a,b, 15a,b).