DE202009000938U1 - Corona treatment device - Google Patents

Abstract

Apparatus for corona treatment of a web-like material (F) guided around a treatment roller (3 ') with at least two electrodes (41, 51, 61) spaced apart from the circumference of the treatment roller (3') and circumferentially spaced therefrom to produce a corona discharge between the electrodes (41, 51, 61) and the treatment roller (3 '), wherein each of the electrodes (41, 51, 61) is associated with a voltage generator (43, 53, 63), characterized in that a synchronization device (7) for Alignment of the voltage waveforms at the electrodes (41, 51, 61) is provided.

Description

The The invention relates to a device for corona treatment after Preamble of claim 1.

to Pretreatment of the surface of web-like materials, In particular plastic films, it is known the surfaces to suspend an electric corona discharge. This corona treatment allows for plastic films, for example, only the further processing such as the application of colors.

A known device for corona treatment of plastic films discloses the EP 1 316 130 B1 , There, a web-like material is passed in an approximately 2 mm wide treatment gap between a rapidly rotating roller and an electrode assembly. The roll is metallically bare or coated with a dielectric material and is encompassed halfway around its circumference by the electrode assembly. The electrode assembly is energized with a high frequency high voltage to produce a corona treatment in the treatment gap. As a result, the surface of the plastic film is pretreated for subsequent processing.

Another example of a known corona treatment apparatus shows 1 , There is a plastic film F from a feed roller 1 and a discharge roller 2 via a treatment roller 3 promoted in a transport direction T. The feed roller 1 , the discharge drum 2 and the treatment roller 3 are perpendicular to the plane of the drawing 1 standing rotary axes mounted rotatably driven.

In order to be able to pretreat the film with the corona discharge, a first, second and third voltage discharge unit are known per se 4 . 5 and 6 intended. The voltage discharge units 4 . 5 and 6 are in the circumferential direction of the treatment roller 3 and thus in the transport direction T of the film F in succession at a small distance from the surface of the treatment roller 3 and substantially over the entire axial width of the treatment roller 3 arranged.

The discharge unit 4 has a circumferential direction of the treatment roller 3 arcuate high-voltage electrode 41 on. The electrode 41 has in a known manner of the film F facing and at a small distance to the treatment roller 3 and thus sheet F disposed discharge peaks. The for generating the discharge between electrode 41 and treatment roller 3 necessary high-frequency AC voltage is through a transformer 42 from a voltage generator 43 , z. B. a frequency converter provided. The discharge units 5 and 6 are designed analogously.

Depending on the operating parameters of the entire film processing plant, z. B. web width or transport speed, the requirements for the discharge unit are determined. Thus, for the processing of biaxially stretched films very wide treatment rollers 3 used up to 11 m axial width. Due to the high transport speeds of the films and their double stretching is for their corona treatment a very high energy input and thus a large installed power of the voltage generators 43 . 53 . 63 needed. Therefore, due to the limited performance of a single discharge unit, a plurality of discharge units become 4 . 5 and 6 arranged one behind the other, but which are decoupled from each other and provided with independent control. In 1 are thus electrodes 51 and 61 the second and third discharge unit 5 and 6 each own high-voltage transformers 52 and 62 as well as voltage generators 53 and 63 assigned. Although these are usually fed by the same network, the voltage waveforms of the high voltage alternating voltage at the electrodes are independent and unsynchronized, in particular as regards the phase position of the individual high voltage alternating voltages.

It may thus happen that between adjacent electrodes, for. B. 41 and 51 , Antiphase AC voltages or voltages applied with anti-phase AC voltage components and thus results in a high differential voltage between the adjacent electrodes. This differential voltage can adversely affect the processing of the film F and lead at worst to a voltage flashover between the electrodes, whereby the film F may be damaged or even completely destroyed.

This is currently prevented by the fact that in the circumferential direction of the treatment roller 3 mutually facing ends of the electrodes 41 and 51 respectively. 51 and 61 have a large minimum distance d1. From this minimum distance d1 then results at the predetermined length of the electrodes 41 . 51 and 61 in the circumferential direction of the at least necessary and currently very large diameter D1 of the treatment roller 3 , This leads to large treatment rollers, which have a high weight due to their large width and diameter and consume a lot of material. Since the treatment rollers must be manufactured with high precision, the production costs are very high and the treatment rollers accordingly very expensive. The large diameter and high weight of the treatment roller 3 also lead to high forces and moments in the operation, for which the bearings and the drive of the treatment roller 3 must be interpreted.

It is therefore an object of the invention, the above-mentioned disadvantages to overcome and a treatment device for Corona treatment to provide a compact, space and material-saving and cost-effective treatment of web-shaped Materials, in particular plastic film allow.

These The object is achieved by a device for corona treatment with the features of claim 1. Advantageous embodiments and expedient developments of the invention are indicated in the dependent claims.

A The aforementioned device for corona treatment according to the invention is characterized characterized in that a synchronization device for approximation the voltage waveforms is provided on the electrodes. The synchronization device may be advantageous for outputting Sollspannungsverläufen set to the voltage generators be to the voltage paths as simple as possible at the electrodes by controlling the voltage generators with to match a uniform nominal voltage curve to each other. As a result, existing ones can also be easily obtained Equipment can be retrofitted, in which simply the synchronization device is added later.

In an advantageous embodiment can at a or more of the electrodes sensors for determining the Istspannungsverläufe be provided on the electrode or electrodes, wherein the synchronization device for receiving the Istspannungsverläufen of the electrodes is set up. As a result, by means known per se Method of control engineering, the voltage differences between be minimized adjacent electrodes. For this purpose, the synchronization device advantageous for forming voltage differences from the desired Sollspannungsverläufen and the received Istspannungsverläufen set up to control signals based on these voltage differences to generate for the voltage generators.

With the device according to the invention can the voltage curves at the electrodes aligned with each other become. By matching the voltage curves to the adjacent electrodes, in particular the facing ends, can between the adjacent electrodes occurring voltage differences be significantly reduced or completely avoided. Under align In the present case, especially an adaptation of the voltage curve in Form, phase and / or timing understood to the voltage differences between the electrodes as small as possible at any time to be able to hold.

In A simple implementation will be the voltage generators so controlled that the voltages at the individual electrodes are in phase with each other. Especially at AC voltages at the electrodes can by using Sollspannungsverläufen for all voltage generators with the same amplitude and Phase position the voltage difference between adjacent electrodes actually be made zero. The same applies if, instead of pure AC voltages Voltages with DC and AC voltage component can be used, as well as the differences in the AC voltage component cause corresponding voltage differences between the electrodes can.

Become in an advantageous development of one or more of Electrodes Istspannungsverläufe measured, so can This further improves the alignment of the voltages different electrodes can be achieved, for example by known control method.

So can be in a cheap version the Istspannungsverläufe one or more of the electrodes be controlled to a predetermined nominal voltage curve, the is preferably the same for all voltage generators.

alternative can also the Istspannungsverlauf one of the electrodes as a target voltage waveform for Control of the voltage generator (s) of one or more the other electrodes are used. This leaves achieve that the actual, measured Istspannungsverlauf on the one electrode as a default for the other electrodes serves as the individual electrodes due their usually identical structure usually the same behavior. In this case, it may be advantageous for the electrode, whose actual voltage curve is used as the nominal voltage curve, the frontmost in the transport direction of the web-like material is.

In Another training can be beneficial to two adjacent Electrodes measured the Istspannungsverläufe and a voltage difference regulated between these Istspannungsverläufen to zero become. Again, it has proved to be advantageous if the Istspannungsverlauf the in the transport direction of the web-like Material front of the two adjacent electrodes as a target voltage curve for the voltage generator of the other of the two adjacent ones Electrodes is used.

Around the best possible minimization of the voltage difference To achieve two adjacent electrodes can be advantageous the Istspannungsverläufe adjacent electrodes respectively be measured at their adjacent ends.

The invention will now be described with reference to an in 2 shown preferred embodiment described in detail.

2 shows a corona treatment device according to the invention, which largely from the known corona treatment device 1 equivalent. The same parts therefore bear the same reference numerals, and it will be discussed below primarily on the differences.

In the corona treatment apparatus of the present invention, the film F is fed by the supply roller 1 , the discharge drum 2 and a rotatably driven treatment roller 3 ' promoted in the transport direction T. About half the circumference of the treatment roller 3 ' are the discharge units 4 . 5 and 6 arranged.

In addition, the corona treatment device according to the invention provides one with the voltage generators 43 . 53 and 63 connected synchronization device 7 in front. The synchronization device 7 controls the voltage generators 43 . 53 , and 63 According to the invention with the same nominal voltage voltage curve, so that the voltage waveforms at the voltage electrodes 41 . 51 respectively. 61 run the same way. Are essentially sinusoidal alternating voltages of the same amplitude at the voltage electrodes 41 . 51 respectively. 61 used, then the control of the voltage generators takes place 43 . 53 and 63 in phase so that these AC voltages are in phase.

As a result, voltage differences between adjacent ends of adjacent electrodes 41 and 51 respectively. 51 and 61 prevented, so that the processing quality of the film F is not affected. In particular, no voltage flashover between adjacent electrodes 41 and 51 respectively. 51 and 61 take place so that the film F to be treated is neither damaged nor completely destroyed.

In a preferred embodiment, the voltage waveforms of all electrodes 41 . 51 and 61 synchronized with each other, so that no voltage differences between remote electrodes 41 and 61 can arise.

The synchronization device 7 can also be used to synchronize other voltage waveforms than AC voltages at the electrodes 41 . 51 and 61 applied high voltage, for example, voltages with DC and AC components or pulsed voltages.

The synchronization device 7 can be operated in controlled or regulated mode. In controlled operation, the synchronization device is 7 the voltage generators 43 . 53 , and 63 the clock signals or the phase curves of the voltage waveforms at the electrodes 41 . 51 and 61 as nominal voltage curves directly in front.

In controlled operation, the actual voltage curves at the electrodes 41 . 51 and 61 the individual discharge units 4 . 5 and 6 detected separately from each other and to the synchronization device 7 forwarded. For this purpose, the voltage curves directly at the electrodes 41 . 51 and 61 , on the primary or secondary side of the high-voltage transformers 42 . 52 and 62 or at the voltage generators 43 . 53 and 63 be determined. In the synchronization device 7 are then each between the measured voltage waveforms of adjacent discharge units 4 and 5 respectively. 5 and 6 determines the respective voltage differences and then the actual actual voltage curves of the respective adjacent voltage generators 43 and 53 respectively. 53 and 63 aligned with each other so that no or only negligible voltage differences between the adjacent electrodes 41 and 51 respectively. 51 and 61 result. These are in the synchronization device 7 per se known control methods implemented in hardware, software or a combination of both.

In a preferred embodiment, the Istspannungsverlauf the electrode 41 the foremost in the transport direction T, first discharge unit 4 measured and as a target voltage curve for the other electrodes 51 and 61 used, so that the voltage curve of the subsequent second discharge unit 5 the voltage curve of the first discharge unit 4 is tracked. Likewise, the voltage waveform of the third discharge unit 6 on the first discharge unit 4 synchronized. Alternatively, between the second and third discharge unit 5 and 6 be moved as between the first and second discharge unit 4 and 5 , The voltage curve of the third discharge unit 6 is then on the second discharge unit 5 synchronized.

In both cases just described, the first discharge unit 4 operated either controlled or regulated. The voltage generator 43 the first discharge unit 4 So is either only a desired voltage waveform from the synchronization device 7 predetermined (controlled operation), or it is additionally the Istspannungsverlauf on the electrode 41 measured and on one through the synchronization device 7 regulated desired voltage waveform.

Due to the controlled operation can be advantageously ensured that different behavior of the discharge units 4 . 5 and 6 resulting voltage differences can be compensated, which is naturally not possible in controlled operation. The measurement of the voltage profiles at adjacent ends of two adjacent electrodes preferably takes place 41 and 51 respectively. 51 and 61 , For this purpose, the voltage at both ends of the middle electrode 51 be measured.

The synchronization device 7 can be used as a self-standing independent control, z. B. as a microprocessor control, be formed. It can be made of hardware, software or a combination of both. The synchronization device 7 can also be integrated into the system control of the entire film conveyor system. The connection of the discharge units 4 . 5 and 6 with the synchronization device 7 can be done via firmly wired connections, preferably via optical connections such as optical fibers to synchronize the voltage waveforms in the microsecond range can.

Due to the fact that the voltage curves at the electrodes 41 . 51 and 61 are equal to each other, are in particular in-phase voltages with AC voltages or voltages with AC voltage component and have the same amplitude, the safety distance d2 between adjacent ends of the individual electrodes 41 . 51 and 61 in the circumferential direction of the treatment roller 3 ' in the corona treatment device according to the invention 2 be chosen much smaller than the safety distance d1 in the known corona treatment after 1 , This can advantageously the diameter D2 of the treatment roller 3 ' opposite the treatment roller 3 be significantly reduced, as from a comparison of 1 and 2 evident. The treatment roller 3 ' The corona treatment device according to the invention is therefore smaller and more compact and consequently lighter than the usual treatment roller with the same requirements on the transport speed of the film F 3 , The corona treatment device according to the invention therefore builds smaller, consumes less material and is cheaper to produce. Furthermore, this causes the rotation of the treatment roller 3 ' occurring forces and moments reduced, causing the bearings and the drive of the treatment roller 3 ' smaller dimensions can be. Thus, the installed power and the energy required in operation of the drive of the treatment roller can be reduced.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - EP 1316130 B1 [0003]

Claims (4)

Apparatus for corona treatment of a treatment roller ( 3 ' ) guided web-like material (F) with at least two at a distance from the circumference of the treatment roller ( 3 ' ) and in the circumferential direction one behind the other spaced electrodes ( 41 . 51 . 61 ) for generating a corona discharge between the electrodes ( 41 . 51 . 61 ) and the treatment roller ( 3 ' ), each of the electrodes ( 41 . 51 . 61 ) a voltage generator ( 43 . 53 . 63 ), characterized in that a synchronization device ( 7 ) for the equalization of the voltage curves at the electrodes ( 41 . 51 . 61 ) is provided. Device according to claim 1, characterized in that the synchronization device ( 7 ) for outputting desired voltage waveforms to the voltage generators ( 43 . 53 . 63 ) is set up. Device according to one of claims 1 to 2, characterized in that on one or more of the electrodes ( 41 . 51 . 61 ) Sensors for determining the actual voltage profiles at the electrode or electrodes ( 41 . 51 . 61 ) are provided, wherein the synchronization device ( 7 ) for receiving the Istspannungsverläufen of the electrodes ( 41 . 51 . 61 ) is set up. Device according to claim 3, characterized in that the synchronization device ( 7 ) is arranged to form voltage differences from the desired voltage waveforms and the received Istspannungsverläufen.