DE19902957A1 - Dosing device on a rotary printing machine - Google Patents

Abstract

In a metering device consisting of a chambered doctor blade (2) with a chamber (3) holding a liquid medium and a rotatable roller (1) immersed in the liquid medium with a rastered or porous surface, the bottom plate (5) is the Chamber squeegee (2) attached an ultrasonic oscillator (6). As a result, the metering device can be cleaned intensively in the printing press.

Description

The invention relates to a metering device on a Rotary printing machine with a liquid medium taking chamber and one immersed in the liquid medium rotatable roller.

Dosing devices of the specified type are in Rotati ons printing machines for dosing the supply of ink, Dampening solution or varnish used. Known dosing device this type of a. in DE 43 24 631 C2 and DE 44 10 161 A1 described.

With metering devices of the specified type, this exists Problem that the surface of the roller in the course of operation dirty and must therefore be cleaned. Such Cleaning has since required an interruption in the printing process and after applying a cleaning liquid the rotating roller often wiping the roller by hand. In painting facilities and in flexographic printing also used rollers whose surface with a grid is provided. These rollers get dirty for a long time Service life due to deposits in the wells, see above that from time to time to do an intensive cleaning is. For such intensive cleaning, the screened rollers removed and in separate cleaning  systems, for example brush washers or ultra sound cleaning systems, cleaned. An ultrasonic cleaning supply system is known from US 5,291,827 A.

It is also a device for cleaning from DD 34 030 known from printing cylinders on printing presses, the one at the pressure cylinder has adjustable suction bell in which an injection nozzle for a detergent and an Ultra sounders are arranged. The cleaning device is on a support led, and can on this in the longitudinal direction of the impression cylinder can be moved back and forth.

The invention has for its object an intensive Cleaning the roller of a dosing device at the beginning mentioned type in the printing press with little effort enable.

This object is achieved in that one wall of the chamber of the dosing device an Ultra sound transducer is attached. With the help of Invention According to the arrangement of an ultrasonic transducer can during a printing process as well as during a print sub break the roller of the dosing device so intensively that mechanical cleaning by hand or cleaning in a separate cleaning system is not is required. Is it the dosing device around the dampening system, the operation of the Ultra sound transducer a color build-up on the print Prevented dampening roller and a constant dampness feeder can be achieved. Is an operation of the Ultra sound transducer not possible during printing, so as a major advantage of the Dosiervor invention direction to look that in the machine with little time required automatic cleaning of the roller without one mechanical treatment of the same can be carried out by hand.  

The design of the metering device according to the invention is still characterized by low construction costs from, since only the chamber for receiving the liquid Medium with an ultrasonic transducer is most.

According to a further proposal of the invention, the chamber from a separate, with an ultrasonic transducer equipped device, e.g. B. a doctor blade, to carry out cleaning by means of a flushing device diums is adjustable to the roller. The device can for example, additionally to a chambered doctor blade bearing be set to perform the cleaning of the roller can.

The invention is explained below with reference to exemplary embodiments play explained in more detail, which is shown in the drawing are. Show it

Fig. 1 is a schematic representation of a erfindungsge MAESSEN metering device with a chamber doctor blade,

Fig. 2 nigungsvorrichtung a place of a chambered doctor blade can be used Rei,

Fig. 3 is a schematic representation of a dampening system according to the invention with roller metering and

Fig. 4 shows a further embodiment of a dampening Mitt same hälters for a damping unit of FIG. 2.

Fig. 1 shows a metering device which is used for example in coating stations of sheet-fed rotary printing presses. The metering device consists of a roller 1 , against which a chamber doctor blade 2 is employed. The surface of the roller 1 is porous or see ver with a fine grid and has countless, very small, closely spaced depressions in the manner of small cups. In operation, these depressions take up the liquid medium located in the chamber 3 of the chamber doctor blade 2 , for example paint, ink or dampening solution, and transfer it to a forme cylinder 4 which rolls on the roller 1 . The amount of liquid medium transferred is determined by the volume of the depressions in the porous or rastered surface of the roller 1 . Is dirt accumulated in the course of operation in the wells, then the scooping volume is reduced and thus also the amount of liquid medium dispensed to the forme cylinder 4 , which is undesirable. It is therefore necessary from time to time cleaning the surface of the roller 1 , which also removes the dirt adhering to the recesses. Likewise, the roller 1 at the end of production with a change, for. B. the type of paint or the roller. In order to be able to carry out the cleaning quickly and with the desired thoroughness, an ultrasonic oscillator 6 is attached to a base plate 5 of the chamber doctor blade 2 . The ultrasonic vibrator 6 is located in a recess on the outside of the base plate 5 facing away from the chamber 3 approximately in the middle between the scraper edges of the doctor blades 7 , so that the sound vibrations generated are directed directly onto the surface of the roller 1 . The ultrasonic vibrator 6 can consist of a single element extending in the longitudinal direction of the chamber doctor blade 2 . However, two or more individual elements can also be arranged at a distance from one another on the base plate 5 of the doctor blade 2 .

To clean the roller 1, this is rotated and the chamber of the chamber doctor blade 2 is filled with a cleaning liquid ness 3 and rinsed. At the same time, 6 sound waves are generated with the aid of the ultrasonic oscillator, the frequency of which is preferably in a range from 20 to 40 kHz. In this way, effective cleaning of the roller 1 can be achieved in a short time without additional measures being required. With the design described, it is also possible to excite the ultrasonic vibrator 6 during the printing process and thereby reduce the accumulation of dirt particles on the roller 1 .

Instead of the chambered doctor blade 2, the cleaning device 8 shown in FIG. 2 can also be used to clean the roller 1 , which is used in place of the chambered doctor blade 2 in the chamber knife holder 9 . The Reinigungsvorrich device 8 consists of a box 21 which, analogously to the Kammerra angle 2, encloses a chamber 3 for receiving a liquid cleaning medium. The box 21 has an opening 22 in the longitudinal direction of the roller 1 , which can be closed by the roller 1 when the box 21 , as shown in the drawing, is employed on the roller 1 . The edges 23 of the opening 11 carry a seal 24 in the form of an O-ring, which seals the box 21 against the roller 1 . At the bottom of the box 21 , the opening 22 opposite, an ultrasonic vibrator 6 is attached. The supply and return of the cleaning medium takes place via openings 25 , 26 in the end wall of the box 21 . The cleaning of the roller 1 is carried out with the cleaning device 8 in the same way as with the doctor blade 2 .

Fig. 3 shows a dampening system of an offset rotary printing machine. The dampening unit has a roller 10 immersed in dampening solution, a metering roller 11 and a dampening roller 12 . The roller 10 removes the dampening solution from a dampening solution container 13 and transfers it to the dampening application roller 12 , which is in contact with a plate cylinder 14 . The dosing roller 11 abutting the roller 10 ensures an even distribution of the dampening solution on the surface of the roller 10 and determines the thickness of the dampening solution film. In addition to the dampening roller 12, there is a bridge roller 15 , which bears against the dampening roller 12 and an inking roller 16 of an inking unit not otherwise shown. The container 13 is filled or emptied with a dampening solution or a cleaning liquid via a feed line 17 and a return line 18 as required.

During the printing operation, the roller 10 immersed in the dampening solution takes on ink from the dampening application roller 12 , as a result of which the dampening solution supply is impaired. In order to prevent this and to be able to clean the roller 10 during the Druckbe operation, an ultrasonic oscillator 19 is arranged on the outside of the bottom of the container 13 and can be excited by means of a generator 20 . If the ultrasonic vibrator 19 is excited during the printing process, the ink supplied to the roller 10 is removed and ink build-up is prevented. In this way a constant Feuchtmit telführung is achieved and an interruption of Druckbe operation to clean the rollers avoided. Even cleaning after a printing process using a cleaning agent is considerably simplified and accelerated by the use of the ultrasonic oscillator 19 .

As in the embodiment of FIG. 1, the ultrasonic vibrator 19 , for. B. a flexural transducer, consist of an elongated element or several individual elements. It can also, as shown in Fig. 4, a plate-shaped ultrasonic transducer 19 may be arranged on the inside on the bottom of the container 13 in order to achieve an even more direct effect of the sound energy on the upper surface of the roller 10 .

Claims (7)

1. Dosing device on a rotary printing machine with a chamber holding a liquid medium and a rotatable roller immersed in the liquid medium, characterized in that an ultrasonic oscillator ( 6 ) is attached to a wall of the chamber ( 3 ). 2. Dosing device according to claim 1, characterized in that the roller ( 1 ) has a porous or provided with a grid surface and the chamber ( 3 ) is formed by a chamber doctor blade ( 2 ) with the doctor blade blades ( 7 ) arranged at a distance from one another , wherein the ultrasonic oscillator ( 6 ) between the doctor blades ( 7 ) on the bottom plate ( 5 ) of the chamber doctor ( 2 ) is introduced. 3. Dosing device according to claim 1, characterized in that the chamber ( 3 ) from a under the roller ( 10 ) arranged container ( 13 ) is formed and the ultra sound transducer ( 19 ) at the bottom of the container ( 13 ) is introduced. 4. Dosing device according to one of the preceding claims, characterized in that the ultrasonic oscillator ( 19 ) is arranged as a surface element on the inside of the chamber. 5. Dosing device according to one of claims 1 to 3, characterized in that the ultrasonic vibrator ( 6 , 19 ) is arranged on the eye side of the chamber and the bottom of the chamber is designed as a vibrating membrane. 6. Dosing device according to one of the preceding claims, characterized in that the chamber is formed by a separate cleaning device ( 8 ) equipped with an ultrasonic oscillator ( 8 ) which can be used to carry out cleaning on the roller ( 1 ). 7. Dosing device according to claim 6, characterized in that the cleaning device ( 8 ) has a box ( 21 ) with a along the roller ( 1 ) extending opening ( 22 ), and that the opening ( 22 ) delimiting edges ( 23rd ) of the box ( 21 ) can be adjusted to the roller ( 1 ) and carry a seal ( 24 ) which can be applied to the roller ( 1 ).