DE4127321C2 - Drive for a web-fed rotary printing machine - Google Patents

Description

The invention relates to a drive for a web-fed rotary printing press according to the preamble of claim 1.

In a generic rotary printing press known from DE-OS 24 06 509 is everyone Printing units and additional units a common horizontal Main drive shaft assigned. It is stored in stock and has Power transmission points opposite each printing unit. It is on the main drive shaft for every pressure tower provided a bevel gear via which the connecting printing units arranged one above the other Vertical shafts are driven. In every print another bevel gear is arranged, which can be driven by the first bevel gear. Of the other bevel gear is about one another gear and a clutch gear Printing cylinder can be driven. Everyone A separate drive motor is assigned to the power transmission point. Couplings with One position allows the individual to be engaged and disengaged Pressure units on the drive shaft so that the individual pressure units can be driven independently of one another in order to switch off printing units To be able to carry out maintenance and preparation work.  

However, since with such a shaft drive with horizontal and vertical shafts, especially in the case of web-fed rotary printing presses in multi-storey construction considerable number of drive wheels in the form of bevel gears and the resulting backlash is registered within the entire machine is very difficult due to the registration errors that occur ensure.

Based on this, the object of the invention is a drive for a roller To create rotary printing press in which the printing units of Machines can be driven individually in both row and tier construction, and yet the number the drive wheels and thus the tooth play is reduced.  

This object is achieved according to the invention by the in the characterizing part of claim 1 specified features.

Since the individual printing units can be coupled to any groups, the most diverse production possibilities are given. Those with their own The drive motor and the force-tapping unit thus form pressure units Building blocks of a modular system using horizontal and vertical waves is synchronizable. With the direct assignment of the drive motors and the Integrated vertical shafts in multi-storey printing units are not bevel gearboxes outside the pressure units, including one Mounting bracket required.

The invention is explained below with reference to the drawing, for example. It show schematically:

Fig. 1 is a side view of a web-fed rotary printing machine in floor construction according to the invention,

Fig. 2 is a side view of a further web-fed rotary printing machine according to the invention,

Figures 3 and 4:. A side view of the web-fed rotary printing press according to FIG 2 with possible paper guides.

Fig. 5: the drive of a printing unit cylinder by means of a drive motor.

Fig. 1 shows a complete printing machine with six printing units 1 to 6, wherein in each case two printing units 1 and 4 2 and 5, 3 and 6 superposed, in floor construction and a folder. 7 Each printing unit 1 to 6 has its own drive motor 8 to 13 and a force tapping unit 14 to 19 .

A horizontal shaft 21 is arranged along the printing units 1 , 2 , 3 on the first floor. The printing units 1 and 4 , 2 and 5 , 3 and 6 arranged one above the other can each be connected by means of a vertical shaft 22 , 23 , 24 . In each case one drive wheel 25 to 30 for the printing unit cylinder 20 of the printing units 1 to 6 to be driven , which is located in the respective force tapping unit 14 to 19 , interacts with the respective drive motor 8 to 13 via a drive belt. Each drive wheel 25 to 30 is within the respective force tapping unit 14 to 19 in a known manner, for. B. can be coupled to a horizontal shaft 21 and / or vertical shaft 22 by means of claw couplings with axial drivers, that is to say with switching clutches as are used in general mechanical engineering. Each printing unit cylinder 20 of a printing unit 1 to 6 can be driven by means of a drive motor 8 to 13 via the force tapping units 14 to 19 to which the printing unit cylinder 20 can be coupled in a known manner.

The individual printing units 1 to 6 have numerous common devices, such as inking and dampening units, their operation is known and is therefore not described. They are driven as well as that of the other printing unit cylinders in a known manner by means of a gear train which derives the drive from the main driven printing unit cylinder 20 .

The waves 21 , 22 , 23 , 24 have the function of synchronous waves. All shafts 21 , 22 , 23 , 24 can be divided in the manner shown by means of pneumatically or electromechanically actuated clutches 61 to 65 between the individual pressure units 1 to 6 .

This so designed, synchronizable drive allows preparation and positioning in register of any printing unit 1 to 6 , regardless of the rest of the machine network, without the synchronization connection z. B. to interrupt the folder 7 .

FIG. 2 shows a variant of the embodiment according to FIG. 1. The machine is equipped with a further folder 37 and a further horizontal synchronous shaft 38 for the printing units 4 , 5 , 6 on the second floor. This horizontal shaft 38 is divided into sections 39 to 41 , each connecting a printing unit 4 , 5 , 6 with its neighboring one. The sections 39 , 40 , 41 can be connected to one another in a known manner in the force tapping units 17 , 18 , 19 , which are designed as bevel gear transmissions. The horizontal shaft 38 can again be divided between the pressure units 4 , 5 , 6 by means of pneumatically or electromechanically actuated clutches 66 , 67 and has intermediate gears 42 , 43 in the form of bevel gearboxes at these points, which have the task of rotating the direction of rotation within a section 39 , 40 to change the shaft 38 .

This further developed embodiment of the drive according to the invention enables vertical splitting, that is to say a diagonal paper guidance between the printing units 1 to 6 of the printing press in a tiered construction, at the same time towards the two folders 7 , 37 , as shown in FIGS . 3 and 4. In Fig. 3, a first paper web 68 runs to the printing unit 1 , from there via the printing unit 4 to the folder 37 . A second paper web 69 runs at the same time directly to the printing unit 5 , from there to the folder 37 . Another paper web 70 runs diagonally from printing unit 2 via printing unit 6 to folder 37 , while a paper web 71 usually runs via printing unit 3 to folder 7 .

A completely different production process is shown in FIG. 4. While the paper webs 68 and 69 run unchanged according to the process of FIG. 3, the paper web 70 is now moved from the printing unit 2 to the folder 7 , the paper web 71 now vertically from the printing unit 3 to the printing unit 6 Folder 7 performed .

In such a production run, a change in the direction of rotation of the sections 39 and 40 of the synchronization shaft 38 by means of the intermediate gear 42 and 43 is required.

Fig. 5 shows representative of all printing units 1 to 6, a drive motor, for. B. 8, which acts on the drive wheel 25 of a printing unit cylinder 20 by means of a drive belt 31 , the power transmission of the drive wheel 25 by means of a gear wheel seated on a common shaft, which meshes with a gear wheel 60 seated on the shaft 59 of the printing unit cylinder 20 , he follows.

Each printing unit 1 to 6 can be coupled via a pneumatic or electromagnetic uniqueness coupling 72 via one of the synchronizing shafts 21 to 24 , 38 to a machine assembly manually or automatically by means of positioning devices 73 , 74 in a known manner in register. The clutch 72 can also serve as overload protection.

Due to the direct assignment of the drive motors 8 to 13 to the printing units 1 to 6 and the integrated vertical shafts 22 , 23 , 24 in a web-fed rotary printing press, no bevel gearboxes and idler gears located outside of the printing units 1 to 6 are required, so a significant reduction was achieved reached by register errors.

Claims (3)

1. Drive for a web-fed rotary printing press with printing units arranged in a row and tier construction, which can be individually driven and coupled to form a composite,
with a horizontal synchronous shaft arranged along the printing units of one floor,
with an integrated vertical shaft in each printing unit for connecting the printing units arranged one above the other,
with a separate drive motor directly assigned to each printing unit for driving a printing unit cylinder with a drive wheel which can be coupled to the horizontal and / or a vertical shaft for synchronization of the printing units via a force tap unit,
characterized in that the force tapping unit ( 14 to 19 ) of each printing unit is designed as a bevel gear transmission, into which the vertical shaft ( 22 to 24 ) and on the floor in which a horizontal shaft ( 21 , 38 ) is arranged also the horizontal shaft ( 21 , 38 ) and in addition to these shafts ( 21 to 24 , 38 ) another shaft engages, via which the drive wheel ( 25 to 30 ) for the respective printing unit cylinder ( 20 ) to be driven by a printing unit ( 1 to 6 ) within the respective force tapping unit ( 14 to 19 ) can be coupled to the horizontal shaft ( 21 ) and / or the vertical shaft ( 22 ). 2. Drive according to claim 1, characterized in that a further horizontal shaft ( 38 ) is provided in at least one further floor. 3. Drive according to one of the preceding claims, characterized in that both the horizontal shafts ( 21 , 38 ) and the vertical shafts ( 22 , 23 , 24 ) are separable by means of couplings ( 61 to 67 ).