DE2534749A1 - Corona discharge surface treatment of plastics sheet - by electrodes in direct contact with sheet permits reduced voltage - Google Patents

Abstract

A device for the surface treatment of a plastics sheet by corona discharge between two electrodes has the electrodes in direct contact with sheet as it passes between them. In one embodiment, the first electrode is a blade in edge contact with the sheet, the second electrode being the table supporting the sheet. In a variant of this, a roller is used instead of the table to support the sheet. Used esp. for treating a flattened tube where the rolls press the edges flat. This prevents a bulge forming at the edges. In all variants, a redn. in the applied voltage from about 10000-5000 V is possible by the use of direct contact. The direct contact does not prevent a correct corona effect, since this occurs alongside the contact point or line.

Description

Device for the surface treatment of a plastic layer by means of a spark discharge The invention relates to a device for Surface treatment of a plastic layer by means of a spark discharge, the forms between two electrodes.

So far, devices of this type have been designed in such a way that the plastic layer leads over a carrier electrode on which the plastic layer rests, the other electrode arranged at a distance from the plastic layer will. It then forms under the spaced apart from the plastic layer Electrode a corona discharge, which the desired surface treatment of the Plastic layer causes.

For the operation of such devices one needs voltages about I of at least / 10,000 volts, which is a corresponding expense for the high-voltage generator conditional. The invention has set itself the task of reducing this demand for Sannungs, in order to get by with correspondingly less effort at the high-voltage generator.

The problem is solved by the fact that the plastic layer between two electrodes is in touch contact with these.

Surprisingly, it has been shown that the known devices consciously avoided contact between the two electrodes and the plastic layer is in no way a hindrance to the formation of the corona discharge. On the contrary, it has even shown that next to the point of contact there is the Electrodes immediately form the corona discharge, which is because of the prevailing here small distances between electrode and plastic layer with relatively small Voltages, namely, for example, 5000 volts. With this tension creeps the corona discharge over a certain length on the side of the relevant electrode up until it finally tears off.

Expediently, one electrode is designed to be flat, in which case the other electrode can be designed either as a knife strip or as a roller. The flat electrode can be made from a table or a roller exist. It is possible to design both electrodes as rollers or one Design the electrode as a roller and the other as a table.

To avoid scratching the surface of the plastic layer, one gives the roller-shaped electrode a rotational mobility, so that this can roll on the plastic layer. When both electrodes are designed as rollers are, it is advisable to give both rollers a corresponding rotational mobility.

If, for special reasons, a strip-shaped surface treatment the plastic layer is desired, at least one electrode is designed in such a way that that this is divided into electrically conductive and non-conductive sections. In In this case, there is a corona discharge only in the area of the conductive sections, so that the surface treatment of the plastic layer only occurs here.

The device is particularly suitable for one in the form of a collapsed To subject the given plastic layer to the surface treatment. Such a plastic tube tends to have ears closed at its edges that can interfere with the uniform surface treatment. Through the touch contact of the two electrodes with the hose, especially when forming the electrodes when rolling, there is a compression of the hose, especially in the area of his cattle, which creates a uniform over the entire width of the hose ## ß ige surface treatment is guaranteed.

From leadership examples of the invention are shown in the figures. Show it: 1 shows the parts of a device that are necessary in principle in section, with one electrode designed as a roller and the other as a knife strip Fig. 2 is a device with a table-shaped and a strip-shaped electrode, 3 shows a device with a table-shaped and a roller-shaped electrode, 4 shows a device with two roller-shaped electrodes in which the plastic layer is hung over the lower roller, so that only one side of the surface treatment is subjected, Fig. 5 a device with two roller-shaped electrodes, between which the plastic layer is just passed through taut, so that the plastic layer is subjected to the surface treatment on both sides, FIG. 6 shows the device according to FIG 4 seen in section from the side, with a tubular plastic layer is processed, Fig. 7 shows a modification of the device according to FIG. 6, in which the upper roller is divided into electrically conductive and non-conductive sections.

The device shown in FIG. 1 has one electrode forming roller 1, which is coated with an insulating layer 2 in a known manner is. The Xunststoffschicbt 3 is hung over the roller 1, which according to the by the The direction of rotation of the roller 1 indicated by the arrow is taken along by this. The roller 1 is the second designed as a male connector 4 Opposite electrode, the lower edge 5 of which has such a small distance from the insulation layer 2, that the plastic layer 3 to be processed is in physical contact with the edge 5 is passed under this. On both sides next to the edge 5 is formed the corona discharge indicated by the dotted lines. For this corona discharge only a relatively low voltage is required as it only covers short distances has to bridge.

In Fig. 2, another embodiment is shown in which one electrode from a table 6 and the other electrode again from a Mcsser strip 4 exists. Between the table 6 and the knife bar 4 is the one to be processed Plastic layer 3 pulled through. The male connector 4 stands with the plastic layer 3 in touch contact. The mode of operation of this device corresponds to that according to FIG. 1.

The device shown in FIG. 3 represents a further modification represents, in the one designed as a table 6 electrode as the second electrode a roller 7 faces.

The roller 7 is in physical contact with the one drawn over the table 6 Plastic layer 3. So that now the roller 7 has the surface facing it Plastic layer 3 is not scratched, the roller 7 is rotatably arranged. She is rolling due to the advancing movement of the plastic layer 3 on this.

In Fig. 4, a further embodiment is shown in which both electrodes are designed as rollers. The two rollers 1 and 7 are with rotated such a speed that the plastic layer 3 of them without friction is transported or the rollers 1 and 7 are carried along by the plastic layer 3 will.

In the exemplary embodiments discussed above, the plastic layer is used 3 each carried by a lower electrode, being the plastic layer 3 is in contact with this lower electrode over a relatively wide area. Accordingly, it can only be on both sides of the respective upper electrode form a corona discharge, so these devices only do one processing allow one side of the plastic layer.

In Fig. 5, a device is shown in which a plastic layer 3 is subjected to the surface treatment from both sides. The device contains the two rollers 1 and 7, but in contrast to the embodiment according to Fig. 4 the plastic layer 3 just stretched between the two rollers 1 and 7 is passed through. This results in close to the side of the contact points a corona discharge between the rollers 1 and 7 and the plastic layer 3, because of the straight stretched leadership of the plastic layer 3 both below as well as above the plastic layer 3. Accordingly, it results here that is, a surface treatment on both sides of the plastic layer 3.

Due to the physical contact between the two rollers and the Plastic layer results in a weak pressure effect, which is especially evident then has a beneficial effect if a hose is used as the plastic layer to be processed will.

A hose tends to tilt at its lateral edges due to the tension of the tubing material to form ears, which is the case with a surface treatment corona discharge using spaced electrodes would lead to that the side edges because of their smaller distance to the electrodes a would experience more intensive surface treatment than the middle area. this is undesirable in many cases.

From Fig. 6 it can be seen that the treatment of a plastic tube takes place absolutely uniformly with the device according to the invention. Fig. 6 shows a side view of the device according to FIG. 4 in section, through the rollers 1 and 7 the plastic tube 8 is guided. Due to the continuous touch contact between the rollers 1 and 7 on the one hand and the plastic tube / on the other hand no ears can develop on its lateral edges. The plastic hose 8 is thus treated evenly over its entire width.

7 shows a modification of the device according to FIG. 6, in which the upper roller 7 is divided into electrically conductive parts 9 and electrically non-conductive parts Parts lo is divided, the roller 7 in the middle contains a gap 11 which thus also counts among the electrically non-conductive parts. Because of this training the roller 7 results in a strip-shaped manner in relation to the plastic tube 8 Surface treatment given by the electrically conductive sections 9.

The electrode below is usually grounded and the electrode on top is connected to high voltage.

For this purpose, the electrodes are made of metal or contain a metal jacket, such as the roller 1, from the insulating layer 2 is surrounded. However, it is also possible to reverse the polarity.

Claims (9)

Claims 1.) Device for the surface treatment of a plastic layer by means of a spark discharge that forms between two electrodes, characterized in that, that the plastic layer (3, 8) between the two electrodes (1, 4; 6, 4z 6, 7S 1, 7) is in physical contact with them. 2. Apparatus according to claim 1, characterized in that the one Electrode (1,6) is flat and the other is designed as a male connector (4). 3. Apparatus according to claim 2, characterized in that the flat Electrode is designed as a table (6). 4. Apparatus according to claim 2, characterized in that the flat Electrode is designed as a roller (1). 5. Apparatus according to claim 1, characterized in that both Electrodes are designed as rollers (1, 7). 6. Apparatus according to claim 1, characterized in that the one Electrode is designed as a roller (7) and the other as a table (6). 7. Device according to one of claims 1 to 6, characterized in that that the cylindrical electrode (7) rolls on the plastic layer (3). 8. Device according to one of claims 1 to 7, characterized in that that at least one electrode is divided into electrically conductive (9) and non-conductive (lo, 11) Sections is divided. 9. Device according to one of claims 1 to 3, characterized in that that the plastic layer in the form of a hose (8) between the electrodes (1,7; 1.4; 6.7) is passed through.