The invention is directed to a method for producing printed products, in particular softcover books, with integrated cover, where method includes at least the steps: printing of paper web or individually supplied paper sheets, preferably by means of digital printing; single or multiple folding and cutting of paper web to form signatures or else single or multiple folding of paper sheets to form signatures; stacking of signatures to form signature stack with at least one top and one bottom signature; folding open top sheet of top signature or else bottom sheet of bottom signature and applying an adhesive layer in at least area of folded-open sheet, which is intended to include at least spine and/or an area of signature stack adjacent to spine; and turning over sheet folded open and provided with adhesive layer around spine of signature stack, so that cover for printed product is formed.

Method of manufacturing a folder (1), which continuously or intermittently is fed through a machine (51) by a conveying means (52, 53) adapted to an ordinary folder of a nominal width dimension (B.sub.nom), wherein said folder (1) features an under-dimension in relation to the width dimension of the ordinary folder, and that said folder (1) is placed in a cassette (40) having a dimension (B.sub.k) corresponding to said under-dimension and having an outer dimension corresponding to said nominal dimension (B.sub.nom), which cassette (40) is moved through the machine (51) by said conveying means (52, 53). As well as a machine (51) and a cassette (40) for the realization of said method.

Apparatus for loading heat-activated adhesive binder strips into a binding machine where the loaded binder strip is utilized to bind a stack of sheets. A support arm with an attached thermal head is temporarily secured to the adhesive of a binder strip located external to the binding machine. The attached strip is transported into the binding machine and the released so that the strip can be used to carry out a binding operation. The thermal head temperature is controlled to levels above and below the adhesive melting point to accomplish securing and releasing the strip.

A sheet processing device includes a tape binding processing unit, a paper discharge unit, and a control unit. The tape binding processing unit performs tape binding processing on a sheet bundle. The paper discharge unit discharges the sheet bundle subjected to the tape binding processing onto a paper discharge tray. The control unit is configured to control at least one of the tape binding processing unit and the paper discharge unit, such that a first tape binding of the first bundle of sheets and a second tape binding of the second bundle of sheets are not in contact with each other when the first bundle of sheets and the second bundle of sheets are stacked on the paper discharge tray.

Disclosed is a binding device for binding a bundle of leaves in a binding element of a magnetic material, whereby this binding device is provided with a support for the binding element that is formed by a U-shaped profile with a base and two legs, whereby this binding device is provided with a heating element that is between the legs of the profile and makes contact with the base. The binding device is provided with a switch for switching the heating element with a magnet that is between the legs of the profile and can move towards the base of the profile, whereby the profile is provided with wings oriented towards the center of the profile that keep the magnet at a distance from the base and/or the heating element when the magnet moves towards the base of the profile.

A sheet processing device that bonds sheets to one another and then folds a resultant sheet bundle. The sheet processing device includes a stacker section that sequentially stores sheets moved thereto, an adhesive-binding unit that applies an adhesive onto sheets sequentially stored in the stacker section one by one in a sheet moving direction to bond the sheets to one another, a moving member that moves the sheets to an application position of the adhesive-binding unit, and a folding processing section that folds a sheet bundle formed by the bonded sheets at a predetermined folding position. When the number of sheets to be bonded by the adhesive-binding unit applying the adhesive onto the sheets exceeds a predetermined number, the adhesive is applied at two positions separated from each other across the folding position.

De-collatable bindings and methods of producing the same are disclosed. A disclosed includes a cover defining a spine and signatures disposed within the cover. The disclosed also includes a low tack adhesive disposed between the spine of the cover and the signatures to facilitate removal of the signatures from the cover.

A device for manufacturing a book on demand, including a cover printing or receiving station designed to respectively print or receive a cover, a body printing or receiving station designed to respectively print or receive a body, a binding station designed to join together the body and the cover, a conveyor designed and/or programmed to convey the cover and/or the body between the different stations, the device is designed to deposit glue in a gluing region on the verso of the cover inside the binding station before the cover and the body are joined together by gluing, forming a book.

The invention relates to a method for assembling a stack (10) consisting of single or multilayered pre-products (1115) of equal or different sizes, said pre-products lying freely one on top of the other, wherein the stack (10) has two outer pre-products (11, 15). According to the method, the stack (10) is given a cohesion that facilitates later handling. The cohesion is achieved in a very simple and flexibly applicable manner by providing the slack (10) to be assembled in a first step, said stack consisting of pre-products (11-15) that lie freely one on top of the other, and by attaching at least one connecting element (17) to an edge (16) of the stack (10) in a second step such that said element overlaps the two outer pre-products (11, 15) of the stack (10) in a clamping manner.

The present invention relates to a binding method for forming a book. The method includes the steps of: providing a cover (20) having front and back panels (22 and 24) which are joined by a spine panel (26); providing a book block (10) having front and back fly sheets (14 and 16); applying a first adhesive member (40) on a first part of the spine panel (26); applying a second adhesive member (42) on a second part of the spine panel (26); contacting the front fly sheet (14) with the front panel (22) in such a way that a margin of the front fly sheet (14) overlaps the first adhesive member (40); contacting the back fly sheet (16) with the back panel (24) in such a way that a margin of the back fly sheet (16) overlaps the second adhesive member (42); and pressing on the first and second parts of the spine panel (26) to bond the margin of the front fly sheet (22) to the front panel (22) and the margin of the back fly sheet (16) to the back panel (24), respectively.