EP1593501A2 - Printing press with d.c.voltage intermediate circuit - Google Patents

Abstract

the printer has several modules (6,8,9) supplied with energy from several direct current voltage intermediate circuits (14.1 to 14.4) which are connected in parallel through a DC Bus which can be supplied with a direct current mains input voltage from a supply module (1). The dc intermediate circuits can be connected through coupling links in the form of throttle coils and/or fuse elements to the supply bus. The energy source can be a buffer capacitor and/or accumulator and/or fuel cell.

Description

The invention relates to a printing press according to the preamble of Patent claim 1.

Today's printing presses are becoming more and more decentralized and made up of individual ones Built modules, such as feeder / jib, printing towers, paint towers, etc. Each of these modules has its own power supply for Control technology, auxiliary drives for the operation of individual rollers, ink / dampers and positioning drives e.g. for format changes. Parent is usually a main drive for the operation of the pressure giving cylinder of the machine, such as plate, rubber and Pressure cylinder, etc., and their additional parts such as docking and delivery available. This main drive can be centrally with a main drive motor and a associated drive control and the entire machine drive. In the course of further development, the main drive but also on be divided into several individual drives that drive only individual modules and are synchronized according to the requirements. Within the meaning of the invention also the superordinate control station is called module and contains a own power supply.

In EP 0 370 223 B1, a decentralized control computer within a Rotary printing machine described, which has a bus system with several peripheral units, such as color-zone control devices, Web tension measuring devices or web tension control devices together with Register adjusters is connected. The bus system includes a digital Bus for the transmission of address and data signals, an analog bus for Transmission of detected measurements and a power supply part includes.

DE 195 20 642 C1 discloses a method and a control for controlling a multi-motor drive of a printing press described. To the Shut down the entire system are sufficiently sized buffers in Form of condensers or accumulators in a DC link, the shutdown of the entire system when the power fails Systems allow.

It is an object of the invention to the availability of printing machines weak networks and / or failure of the operating voltage increase.

The invention solves this problem by providing a printing press the features of claim 1.

Advantageous embodiments and developments of the invention are in the specified dependent claims.

According to the invention DC voltage intermediate circuits of various modules connected in parallel via a DC supply bus, which is connected by a Supply module supplied with a rectified mains input voltage and has an interface for the connection of external energy sources, which are able to compensate longer-term voltage dips and thus stabilizing the DC power bus.

The parallel connection of all DC voltage intermediate circuits allows in an advantageous manner Make a uniform distribution of the total capacity of the energy supply to all consumers. In addition, when braking of drives accumulating Energy should also be distributed to all consumers. In addition, the common DC supply bus in an advantageous manner suitable components for the purpose of power failure bridging easier be extended as a AC or three-phase voltage supply circuit.

In addition, the DC power bus is suitable for powering Three-phase drives via frequency converters, which provide a variable rotating field for the Generate motors of three-phase drives. Because such three-phase drives increasingly replacing previously used DC drives.

In addition, modern switching power supplies for the Electronics supply, for example from the machine control, control center etc., be supplied from the DC power bus.

In an embodiment of the printing press, the DC voltage intermediate circuits For example, via coupling links in the form of inductors and / or Fuse elements connected to the DC power bus. The DC intermediate circuits have buffering characteristics that vary depending on Capacity can bridge voltage dips of the feeding network.

In an embodiment of the printing press, the supply module for the DC supply bus a rectifier bridge circuit and a Buffer capacitor, which is dimensioned so that short-term voltage dips of the supply network can be bridged.

The connectable external energy sources are for example as Storage units for electrical energy in the form of buffer condensers and / or as accumulators and / or DC sources such Fuel cells executed, and / or than by an internal combustion engine driven generator, which via a rectifier to the DC power bus is coupled.

In a further embodiment of the printing machine, the energy source as Energy storage in the form of rotating flywheels running over a frequency converter connected to the DC power bus are. The frequency converters, for example, drive a finely balanced standard asynchronous machine with flanged flywheel. At a Power failure becomes the flywheel via the frequency converter braked and the resulting energy directly to the DC bus supplied. Conversely, when braking drivetrain braking energy in the flywheel be cached.

The printing machine according to the invention with the DC power bus is independent of the frequency of the feeding network and has a greater fault tolerance over weak networks and short ones Voltage drops on, resulting in less machine downtime and a increased availability of the machine can be realized. In addition, the DC power bus in severe network conditions easy be extended by connectable additional components, depending on from the duration of voltage dips across the interface with the DC bus to be connected.

An advantageous embodiment of the invention is shown in the drawing and will be described below.

The single FIGURE shows a block diagram of the invention Press.

As can be seen in the figure, an illustrated printing press 100 includes Control station module 6 with two DC / DC converters 7.1, 7.2, a main drive module 8 with several main drives 8.1, 8.2 and 8.n, a printing module 9 with a DC / DC converter 7.3 and two auxiliary drives 10.1, 10.2, an investor module 11, which includes a DC / DC converter 7.4 and two auxiliary drives 10.3, 104 and a Supply module 1, which has a DC supply bus DC bus, which supplies the said modules with energy, with a rectified Mains supply voltage supplied. To improve the availability of Printing machine 100 with weak networks and / or failure of the Operating voltage is an interface 2 for coupling external components 3, 4, 5 to the DC power bus DC-BUS present in the Able to compensate for longer-term voltage dips.

As further seen in the figure, all are in or on the printing press 100 existing DC voltage intermediate circuits 14 via the DC supply bus DC-BUS connected in parallel, resulting in a common DC voltage intermediate circuit with the same voltage level results. The coupling of the DC voltage intermediate circuits 14 of the modules 6, 8, 9, 11 to the DC power bus DC-BUS can be directly or not illustrated coupling links in the form of throttles and / or securing elements be made.

To supply the DC power bus DC-BUS with the rectified mains voltage has the supply module 1, for example via a rectifier bridge 12 and a downstream buffer capacitor 13 and a built-in soft-start function for slowly switching on the Supply voltage for all modules at the common DC power bus DC-BUS. The buffer capacitor 13 is for example, so dimensioned that short - term voltage dips of the Supply network can be bridged. Furthermore, the Supply module 1 means for the recovery of excess energy into the network when braking the printing press include.

The external energy sources, which via the interface 2 to the DC bus DC-BUS can be connected are in able to compensate for longer-term voltage dips and include For example, additional buffer 3 in the form of capacitors or accumulators or a DC voltage source in the form of a fuel cell.

Alternatively or additionally, an energy store 4 in the form of rotating Flywheels to the DC power bus DC-BUS via the Interface 2 are coupled. These are very easy with am DC power bus DC-BUS connected frequency inverters to realize having a finely balanced standard asynchronous machine with drive flanged flywheel. In the event of a power failure, over the flywheel brakes the frequency converter and the resulting Energy supplied directly to the DC power bus DC-BUS. Conversely, braking energy from the printing machine 100 in the Flywheel "cached" be. With appropriate The frequency converter can be dimensioned with an existing one Input circuit with rectifier and charging circuit the supply module 1 replace.

As another source of energy can be driven by internal combustion engines Generators 5 via rectifier diodes and the interface 2 to the DC bus DC-BUS can be connected.

LIST OF REFERENCE NUMBERS

1

supply module

2

interface

3

Electrical storage elements

4

Inertia

5

Generator with internal combustion engine

6

control station module

7.1 to 7.4

DC / DC converter

8th

Main propulsion module

8.1 to 8.n

main drives

9

Printing module

10.1 to 10.4

PTOs

11

investors module

12

Dc link

13

buffer capacitor

14.1 to 14.4

DC links

DC-BUS

Gleichspannungsversorgungsbus

Claims (7)

Printing machine with several modules (6, 8, 9, 11) and several DC voltage intermediate circuits (14.1 to 14.4) for supplying power to the modules (6, 8, 9, 11),
characterized in that the DC voltage intermediate circuits (14.1 to 14.4) are connected in parallel via a DC voltage bus (DC-BUS), which can be supplied by a supply module (1) with a rectified mains input voltage. Printing machine according to claim 1, characterized in that the DC voltage intermediate circuits (14.1 to 14.4) are connected via coupling links in the form of choke coils and / or fuse elements to the DC power supply bus (DC-BUS). Printing machine according to claim 1 or 2, characterized in that the supply module (1) comprises at least one rectifier bridge circuit (12) and at least one buffer capacitor (13). Printing machine according to one of claims 1 to 3, characterized in that the coupling-on energy source (3, 4, 5) is designed as a buffer capacitor and / or as an accumulator and / or as a fuel cell. Printing machine according to one of claims 1 to 3, characterized in that the couplable energy source (3, 4, 5) is designed as a generator driven by an internal combustion engine, which is coupled via a rectifier to the DC power bus (DC-BUS). Printing machine according to one of claims 1 to 3, characterized in that the energy source (3, 4, 5) is designed as energy storage in the form of a rotating flywheel with a frequency converter. Printing machine according to claim 1,
characterized in that the DC power supply bus (DC bus) comprises an interface (2) for coupling energy sources (3,4,5) for stabilizing the DC power supply bus (DC bus).

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