EP1359011B1 - Method and device for operating a device for controlling the damping fluid temperature - Google Patents

Abstract

Method for operating a tempering device in the printing mechanism of a printer, whereby one or more sensors are used to determine the composition, filling level of filling pressure of the tempering medium with the tempering medium circuit. The actual composition representing value is compared with a stored design value, with a difference value stored in memory. If the difference exceeds a threshold value a warning is generated or the printer stopped. The invention also relates to a corresponding tempering device.

Description

The invention relates to a method and a device for operating a Tempering device in the inking unit or dampening unit of an offset printing machine.

Wet and dry offset offset rotary presses are used in the configuration of sheetfed and web presses. In both machine forms inking units are provided for the application of printing ink. To influence the printing process, these inking units are provided with a so-called inking unit temperature control. The inking unit temperature control allows the ink processed in the inking unit to be heated or cooled as needed during the printing process.
Also known are tempering for Lackumlaufsysteme or Lackwerktemperierung in coating facilities of finishing machines or for the so-called inline coating in conjunction with offset and flexographic printing machines. Again, the printing machines can be designed in the form of sheet or web presses.
Tempering devices have also become known for dampening units on offset printing machines.

The temperature control devices are often designed according to the heat exchanger principle. In this case, a so-called tempering medium is preferably passed through the interior of one of the rollers of the inking unit or the coating device. As temperature control medium, a liquid medium is used in an open or closed temperature control. The temperature control medium can be used for heating or for cooling or for heating and cooling. The temperature control is cooled by a refrigeration unit, for example by means of a heat exchanger or heated by a heating element or a heat exchanger. The temperature control and temperature sensor in the respective printing press or in the coating device is carried out by temperature adjustment of the medium or the amount of flow.
EP-A-0383295 discloses a tempering device in the inking unit of a printing machine with a sensor for detecting the color density

The tempering medium consists of a mixture of water and additives to protect the temperature control system in the printing press. The additives serve especially the rust protection. But there are also other types of additives used.

The tempering medium is usually after prolonged use by the Specification of fixed change intervals, i. depending on the time of use, replaced. It is also possible, after stopping the printing press and opening of the tempering system, by means of manual control of the pH value or a specially obtained conductance the state of the To determine tempering and this example. when it falls below one minimum value of corrosion inhibitor or exchange.

It is important that it is not respected replacement intervals or not carried out replacement of the tempering medium or in case of non-compliance the minimum values in particular by corrosion to considerable Machine damage may occur. With decreasing effect of Corrosion protection often leak seals or it can be endangered Corrode places, which also leads to leaks. It can do that Temperiermedium in the field of engine gearbox in the lubricating oil of the Machine drive and thus reduce its function or even completely override.

The object of the invention is therefore an apparatus and a method to manage that in printing machines with tempering damage through Exiting tempering safely prevented.

The object is solved according to the features of claims 1 and 2.

In the temperature control circuit is on the machine side and / or aggregate side Detector or sensor, for example a pH probe and / or a Conductance probe used depending on the tempering medium used. The detector or sensor detects the composition of the Temperiermediums and takes into account its constituent parts. This relates to all substances in the form of protective agents, e.g. Corrosion inhibitor, and also water in the context of each of them certain mixing ratios.

The sensor constantly or cyclically measures the actual value in the temperature control medium and compares the entered required setpoint value via a controller. Of the Setpoint can be stored in the machine control and can be from Be specified by the manufacturer. The setpoint can also be operational specified and entered and stored by the operator, e.g. depending on local water quality. When falling below the setpoint takes place a corresponding error message. The required control can z. In the Machine control station or in the temperature control unit to be installed. A Acoustic or optical indication of the error message can also be made. At the same time the value is logged or via data exchange to the Service Center or the machine manufacturer.

Depending on the type of error message, the temperature control medium can then be exchanged or refreshed by the addition of protective agent during the next cyclical maintenance. In addition, the tempering system can also be tested with regard to tightness or fill level via a pressure sensor, for example a pressure switch, and thus the tempering system can be monitored for leaks in the temperature control medium cycle. In this way, above all, an uncontrolled discharge of tempering medium within the printing machine is detected.
Thus, the quality of the tempering medium, in particular with regard to the quality of the protection against rust, bacteria, lime, etc., are actively monitored.

The effort of the components used for this purpose is in terms of Scope of this possible machine damage relatively low. One Damage to the printing press due to the penetration of tempering medium in the oil circuit of the printing press can be completely prevented in this way or at least be recognized early.

For larger pressure equipment, protection means may e.g. via dosing pumps with Reservoir also actively dosed depending on the measured value of the sensor become. By logging the measured values is at machine damage an up-to-date inventory of the maintenance status for the Machine manufacturer possible. This can affect warranty issues. Simple service work on the tempering devices are now over Diagnosis system, also a remote diagnosis system, possible. Festivals and times Scheduled and thus also expensive change intervals can be omitted. It is Also a trend display regarding hints for preventive maintenance possible. In addition, in open systems by means of a so-called Turbidity sensor, the bacterial contamination of the medium are detected.

The temperature control becomes active with respect to the remaining Corrosion protection and accumulated operational pollution supervised. Fixed change intervals are ecologically meaningful, since not the actual use state of the tempering is detected.

An advantage of the invention is that a needs-based maintenance means Remote diagnosis or via data transfer is possible. The condition of the Temperature control system can be monitored at any time by display on the control desk become. The documentation of the actual state of the temperature control, also in Regarding the required maintenance of the printing press can be used in the analysis of Damage claims and assessment of warranty claims. For the maintenance of the machine condition is a precautionary maintenance possible.

There are no more manual controls necessary. The refreshment of the protective agent or of one or more of the necessary additives is also possible automatically.
The issuance of a warning message in the event of deviation from the limit values of the composition of the tempering medium to be observed helps to avoid or significantly reduce consequential damage. This also includes simpler cases such as a machine lock, the unlocking of which is only possible through service.
The availability of the printing press is increased because in the manner described a reliable system monitoring was created.

Claims (11)

1. Process for operating a tempering unit in the inking unit and/or damping unit of a press for influencing the temperature of the inking unit or damping unit with a tempering medium circuit which is guided through elements of the inking unit and/or damping unit within the press, with at least one device for measuring and for influencing the temperature of the tempering medium within the tempering medium circuit, wherein the tempering medium is provided by a liquid admixture, characterised in that, as tempering medium, a liquid mixture is used, at least one component of which is a corrosion protection agent,
   that by means of one or more sensors, the composition of the components, particularly the proportion of the corrosion protection agent, and/or the degree of filling or the filling pressure of the tempering medium within the tempering medium circuit is detected, that the actual value of the composition is compared with a stored desired value,
   that deviations of the actual value from the desire d value are stored and that, in dependence upon the deviation, warning signals are emitted at the press, or the press is rendered stationary.
2. Device for carrying out a process according to Claim 1 in a tempering medium in the inking unit and/or damping unit of a printing press for influencing the temperature of the inking unit or damping unit with a tempering medium circuit which is guided through elements of the inking unit and/or damping unit within the press, with at least one device which contains at least one sensor for measurement and a device by means of which influencing of the temperature of the tempering medium within the tempering medium circuit is undertaken, wherein the tempering medium is provided by a liquid mixture,
   characterised in that the tempering medium is a liquid mixture of which at least one of the components is a corrosion protection agent, that a sensor for detecting the composition of the components of the tempering medium and in particular the proportion of corrosion protection agent is provided and that a device is provided for comparing the actual value of the composition with a stored desired value.
3. Tempering unit according to Claim 2, characterised in that the sensor is a pH value sensor.
4. Tempering unit according to Claim 2, characterised in that the sensor is a conductivity sensor.
5. Tempering unit according to one of Claims 2 to 4, characterised in that a sensor is provided for detecting the pressure in the tempering medium circuit.
6. Tempering unit according to one of Claims 2 to 4, characterised in that a sensor is provided for detecting the filling situation in the tempering medium circuit.
7. Tempering unit according to one of Claims 2 to 6, characterised in that a device for detecting and storing a desired value for the composition of the tempering medium is provided, that a device for detecting the measured value of the sensor(s) as actual value is provided and that a device is provided for comparing the desired values with the actual values.
8. Tempering unit according to Claim 7, characterised in that a device is provided for emitting at least one signal on deviation of the actual value from the desired values.
9. Tempering unit according to Claim 7, characterised in that the signal is emitted optically, acoustically or in the form of data.
10. Tempering unit according to one of Claims 7 to 9, characterised in that a device for storing the desired value, actual value and for storing the type and output data of the signals on deviation of the actual values from the desired values is provided.
11. Tempering unit according to Claim 7, characterised in that the signal is used for controlling a metering device by means of which one or more additives can be incorporated into the tempering medium in dependence upon the measured values.