NO150366B - TRAADTAU AND PROCEDURE FOR MANUFACTURING THIS - Google Patents

Description

Device for applying adhesive to running paper webs.

The present invention relates to a

device for applying adhesive to running paper webs, for gluing together newspaper and magazine pages, where the adhesive under pressure flows through nozzles onto the paper tap.

It is previously known to apply adhesive to running paper webs for gluing together newspaper or magazine pages. A difficulty with this process consists in achieving an adhesive layer that has an even thickness and constant width regardless of the machine speed, as well as bringing the application device to a stop when the machine stops or the paper tears. Starting the application after a shorter or longer machine shutdown also presents difficulties, as the adhesive which is on the outside of the application unit will dry in and form a crust.

Devices are known in which the adhesive is applied by means of rotating disks that are partially submerged in a container with adhesive. As a large part of these discs are exposed to the ambient air, it is hardly possible to prevent drying and crust formation. The subsequent necessary cleaning is time-consuming, which is reluctantly undertaken by the operating staff.

Nozzle-like adhesive application devices are also known, which push the adhesive onto the paper tap through nozzles under a certain static pressure. In case of large changes in the paper speed, the thickness of the applied layer will change, if the static pressure is not changed at the same time. It would present considerable difficulties to achieve a constant thickness of the applied layer by means of a continuous change of the static pressure, as it is hardly possible to carry out a continuous measurement of the layer thickness.

Finally, nozzle application devices are known, where a central pump serves a number of nozzles. In this case too, it is not immediately possible to achieve that all nozzles receive a constant quantity supplied, because the quantities supplied to each individual nozzle is dependent on the friction between the pipe wall and the adhesive. If one of the nozzles becomes completely or partially blocked, the other nozzles will receive correspondingly more adhesive added.

All these disadvantages are avoided by the device according to the invention, which is distinguished by the fact that for each nozzle at least one pump is arranged which delivers forcibly and continuously and over drive parts are driven by the printing machine in proportion to its speed, and that each nozzle is connected to its or their assigned pumps over a separate pipeline, as there are also devices to avoid overpressure.

The pumps can be operated jointly or individually via adjustable drives to regulate the delivery quantity. Maximum connections or overpressure valves can also be arranged to avoid overpressure, should the relevant nozzle be stopped. This pressure relief valve can consist of a thin-walled hose that bursts in case of overpressure.

Two embodiments of the invention will be explained with reference to the drawings, where fig. 1 schematically shows a device for applying adhesive with maximum connections, fig. 2 and 3 a longitudinal section and a cross section respectively of a nozzle, and fig. 4 a variant with overpressure valves.

According to fig. 1, the device consists of a container 1 which contains a supply of adhesive material 2. Paper strips 3, 4, 5 and 6 run over the hopper roller 7 to the folding hopper 8. For applying adhesive material to the paper strips 4 to 6, nozzles 9 are arranged below these, 10 and 11 which via pipes 12, 13 and 14 respectively are connected to the positively driven pumps 15, 16 and 17 respectively which supply adhesive continuously. The pumps are driven by the printing machine in proportion to its speed in that they are driven by the hopper roller 7 over two pairs of bevel wheels 18 and 20, an intermediate shaft 19 and a shaft 21 which in turn is connected to a shaft 23 via an electromagnetic coupling 22. Shaft belt 23 drives a variable drive 24, whose output shaft 25 carries screws belonging to worm drives 26, 27 and 28. Each of these drives drives a pump 15, 16 and 17 respectively. Between each of the drives and the relevant pump is connected a small variable drive 29, an unpressurizable coupling 30 and a maximum coupling 31, the latter to prevent overpressure from occurring.

The pumps are jointly operated via the variable drive 24 which serves to regulate the thickness of the applied adhesive. The amount of adhesive applied can also be regulated individually using the individual nozzles 9, 10 and 11.

If a smaller number of paper strips is introduced into the printing machine than corresponds to the number of pumps and nozzles, the relevant pump is put out of operation by means of the associated unprintable coupling 30.

In order for all pumps to be able to be stopped if the paper tap bursts or another error occurs, safety devices (not shown) are installed in the printing machine which are connected to the electromagnetic coupling 22, which in the event of breaking the drive connection between the shafts 23 and 21, but which will ensure for a transfer of operations as soon as the error has been corrected. The non-pressible connectors 30 can also be connected to the not shown safety device and be affected by this.

Fig. 2 and 3 show how these are carried out. Fig. 4 shows a variant of the device, where instead of the maximum couplings 31, relief valves 32 are inserted which prevent excess pressure from occurring in the pipes 12, 13 and 14. According to a further feature of the invention, as a relief valve a piece of thin-walled hose is used which bursts when the pressure exceeds a certain value.

Claims (6)

1. Device for applying adhesive to running paper webs, for gluing together newspaper or magazine pages, where the adhesive under pressure flows through nozzles out onto the paper tap, characterized in that at least one pump is arranged for each nozzle (9, 10, 11) (15, 16, 17) which delivers forcibly and continuously and over drive parts (18-31) are driven by the printing machine in proportion to its speed, and that each nozzle (9, 10, 11) is connected to its assigned pump or pumps (15, 16, 17) over a separate pipeline (12, 13, 14), as there are also devices to avoid excess pressure.. 2. Device according to claim 1, characterized in that the pumps (15, 16, 17) are driven from the printing machine via a common, adjustable drive (24). 3. Device according to claim 1, characterized in that each individual pump (15, 16, 17) is driven from the printing machine via an adjustable drive (29). 4. Device according to claim 1, characterized in that each pump (15, 16, 17) is operated via a press-out coupling (30) which can be operated both manually and automatically by means of safety devices. 5. Device according to claim 1, characterized in that a pressure relief valve (32) is arranged in each pipeline between the pump and the nozzle. • 6. Device according to claim 1, characterized in that a thin-walled hose is used as an overpressure valve which bursts under overpressure.