DE3630288A1 - FAULT DETECTING DEVICE - Google Patents

Abstract

With the aid of sensors, a noise emitted by a printing machine and transmitted through the air or from a solid body, for example from parts of the printing machine or its side walls, is detected and analysed. The sound frequency spectrum typical of the machine is suppressed and the [lacuna] appropriate to doubling or to an atypical pull-off behaviour of the material undergoing printing, for example from the blanket cylinder, is detected and indicated optically or acoustically.

Description

The invention relates to a device on a pressure machine by arranged in different places Sensors in their function and operating condition is trollable, reaching certain measured values usable for displaying or initiating control processes is.

From DE-OS 27 54 040 is known on a printing press various units of a printing machine transducer to arrange the measured deviations for certain Values such as temperature, oil level etc. give a warning signal.

From DE-OS 24 30 212 and DE-PS 30 34 212 it is known, for example, by a density meter Print quality of processed sheets and capture sheets to mark or discard low quality.

From the state of the art, only those skilled in the art can Take teaching, concrete operational disruptions due to tempe temperature increase or register error directly through temperature control or densitometer.

The invention is based, occurring Printing difficulties, which mainly lead to duplication, to be measured.

This task is carried out by the Claims listed resolved.

With this invention, it is possible for the printer Infor mations about printing speed, necessary washing interval or especially the tendency to double. Around To recognize a duplication of the machine, for example in a sheet-fed offset rotary printing press  designed sheets can be examined with a magnifying glass or at on a web-fed rotary printing press Folder to be considered. This method shows the Disadvantage that there may be consequences zen take effect with a long time delay. When a routine checks suddenly reveal signs of duplication covers, thousands of copies can already use the error to be afflicted. On the other hand, it happens that several exem Plare doubles and then a large number again um not. The missing sheets or copies are therefore not found and only admit in further processing Complaints in the printing company occasion.

The measured values obtained can be used for automatic control the machine, to display information for the printer and processed for machine protection. Interprets itself Duplicate in that the peeling noises of the Commands come into a critical zone triggered to the rheological properties of the used printing ink, how to change the color accuracy. It can be the temperature of the fluid flowing through the paint rubbers Tempering agent can be changed, but it can also The time for the blanket washing is brought forward or the Wash interval can be changed. In extreme cases, Absence of tear-off noises, that is because of a missing sheet, or if the noise increases particularly the machine to be stopped.

The invention also makes use of the knowledge that that the cause of doubling or changing sporadically occurring tear behavior of the print media web or an arc from the blanket cylinder a consequence any mechanical printing unrest in the Machine is. At some point the machine goes  for a short time, for example on a cylinder or at the Web guidance, the uniformity lost, so that the errors mentioned above occur. On this recognizes building up, it was further found that the Loss of uniformity in the printing process or in the Machine with a change in the sound frequency spectrum brings.

An embodiment of the invention is based on the following gender drawing on a sheetfed press even closer explained and shows schematically

Fig. 1 is a 4-color offset printing machine with accordingly arranged sensors and

Fig. 2 shows a pressure tower of the machine of FIG. 1 with various additional devices in an enlarged representation.

The machine according to Fig. 1 consists of a feeder 1, a first printing unit 2, a second printing unit 3, and a boom 4. Sensors 5, 6, 7, 8 for recording the airborne and structure-borne noise are each arranged in the area between the rubber cylinders 9, 10 or 11, 12 and the counter pressure cylinder 13, 14 . There is maximum Schallintensi act, caused by the tearing of each printed sheet 15 from the respective rubber cylinder 9 or 10 , guarantees. The demolition is necessary because - as shown exaggerated between cylinders 10 and 13 - the arc will follow 15 due to the color order on the blanket cylinder 10 in opposition to the holding force of the gripper 16 of the curvature of the Gummizylin DERS 10 and the gripper 16 by overcoming the adhesive force of the color must be deducted. It has surprisingly been found that, depending on the quality of the printing ink order on the rubber blanket, which directly determines the printing quality on the sheet, the noise caused by the tearing off has different frequencies.

According to Fig. 1 and 2, the acoustic emissions from the sensors 5, 6, 7 are recorded and, 8 a control unit 17 is supplied, which may comprise a microprocessor, an amplifier or a suitable electrical or electronic Steuerein directions. This control unit 17 further comprises a frequency filter 18 , with the aid of which the frequencies occurring during normal operation of a machine or the relevant frequency spectrum can be filtered out. The bandwidth is approximately between 200 Hz and 20,000 Hz. Thus, with the help of the control unit 17, the noise responsible for the doubling in the form of certain frequencies deviating from the machine operating frequency or machine noise can be fed to a display device, for example an oscillograph 19 . Thus, the printer can determine from a certain deviating frequency behavior, represented by the curve at 20 , that the machine is doubled or spontaneous undesirable or atypical web or sheet breaks occur, which lead to defective sheets or folded copies. These frequencies can also be supplied to a loudspeaker 21 so that the operator is acoustically alerted to defective sheets or copies, ie the machine can be heard to be doubled.

The error detection device according to the invention can be used in both sheet-fed and web-fed rotary printing presses. The arrangement of the sensors 5, 6, 7, 8 can be such that the sound is detected via air or it can be a detection of the sound or vibrations directly on the machine frame or z. B. on the cylinders or their bearings.

Advantageously, the control unit 17 can be used to control a device 22, 23 for temperature control of the rubbers 24, 25, 26, 27 of the inking units 28, 29 .

Likewise, in some operating states it is necessary to wash the rubber blanket, consequently the control unit 17 controls corresponding rubber blanket washing devices 30, 31 after the speed of the printing press has been previously reduced by actuating the control panel 32 .

By arranging a plurality of sensors, the cause of the error can be localized and thus the control unit 17 can be programmed or connected accordingly. The printer can see that the cause of undesired duplication is to be found in a specific printing unit or in a specific location on the machine.

Claims (6)

1. A device on a printing press, which can be checked in terms of its function and its operating state by sensors arranged at different points, the achievement of certain measured values being usable for displaying or initiating control processes, characterized in that the sensors with a control unit ( 17 ) ver connected transducers ( 5, 6, 7, 8 ) for air and body sound are that the control unit ( 17 ) has a frequency filter ( 18 ) for filtering out characteristic frequencies that occur in machine malfunctions such as doubling and from the normal at Tear of the substrate ( 15 ) from the rubber cylinder ( 9, 10 ) usually occur during machine operation frequencies deviate. 2. Device according to claim 1, characterized in that a device ( 22, 23; 26, 27 ) for tempering the ink distribution rollers ( 24, 25 ) can be controlled by the control unit ( 17 ). 3. Device according to claim 1 or 2, characterized in that the control unit ( 17 ) is a device for marking sheets on a sheet machine control bar. 4. Device according to claim 1, 2 or 3, characterized in that by the control unit ( 17 ) a device for maintaining web tension constant on web presses is controllable. 5. Device according to claim 1, 2, 3 or 4, characterized in that the control unit ( 17 ) of the drive motor and the blanket washing devices ( 30, 31 ) of the printing machine can be controlled. 6. Device according to claim 1, characterized in that the sensor is designed as a microphone, which is an amplifier device with speakers ( 21 ) nachgeord net.