DE3733492A1 - Device for treating surfaces by means of an ionised gas stream - Google Patents

Abstract

A gas stream is passed through a corona discharge path which has a considerable extent in the flow direction. For this purpose, a rod-shaped electrode (4) is disposed within a tubular, outer electrode (3). As it passes the corona discharge path, the gas stream obtains such an energy density that a plasma suitable for chemical and/or physical surface treatment is produced. <IMAGE>

Description

The invention relates to a device for loading treatment of surfaces by means of a flow escaping ionized gas stream, which has a flow channel with two electrodes form an air gap through which the gas stream flows, in by applying high voltage corona discharges are witnessable.

Such a device is in GB-PS 10 39 701.

In the known device is a needle-shaped elec trode coaxially in a counter electrode Outlet nozzle arranged. Find the corona discharges between the tip of the needle-shaped electrode and the Outlet nozzle instead. This turns the gas flow into one ionized to such an extent that electrostatic charging neutralize any surface blown by him contaminants that stick to the surface blow away.

To the surfaces of plastic parts in particular chemically and / or physically to change them for example, can be printed on or with an adhesive layer sticks better to them, it’s enough not just pick up electrostatic charges and To remove impurities, rather must be more intensive be acted on the surfaces. To this end one uses corona discharge machines, in which Compared to the above devices with far higher electrical power worked and the be acting surface intensely from the spark discharges  is set. Such a device is for example described in DE-OS 24 61 865. With her you will find Corona discharges between one parallel to the workpiece aligned, rod-shaped electrode and two both This rod-shaped electrode arranged Messerel electrodes instead. Two air flows are between these Knife electrodes and the rod-shaped electrode in such a way led that immediately afterwards against the waiter surface of the workpiece and thereby the corona Deflect discharges towards the workpiece.

With the device according to DE-OS 24 61 865 can achieve an intensive surface treatment. Advance However, it is a prerequisite for this to deal with it surface in the immediate vicinity of the electrodes is what is irregular and therefore for such Surfaces not accessible to devices is realized.

The invention has for its object a Vorrich device of the type mentioned in such a way that with it surfaces are not only electrically neutralized and contaminants can be blown away from it, but chemically and / or physically change intensively are changeable.

This object is achieved in that the electrodes for generating a flow direction of the gas flow corona discharge path are of such a length that a through them passed gas flow due to high energy consumption maintains aggressive properties and thereby the upper to change the surface of objects blown with it who can  

This design results in the device higher energy transfer to the air flow of this air electricity not only ionized, but into a plasma stream converted. This plasma flow is due to the high Speeds of its electrons able, too at a greater distance from the device upper to change surfaces intensively so that they become clad suitable or printing. This can also be used conventional devices unreachable surfaces areas are treated. Apart from that, with the device in addition to the surface treatment their sticking dust removed. Furthermore, the waiter surface less electrically charged after treatment than with a normal corona treatment.

A constructively advantageous embodiment of the inventions Invention device is that the Strö tion channel formed by a tubular electrode is in the coaxially opposite this electrode electrically insulated conductor as a second electrode finds.

Particularly high power densities can be achieved if the tubular electrode is replaced by one of an elec tric conductor surrounded ceramic tube is formed.

To further increase the power density, if the ceramic tube is in a cylindrical housing arranges and surrounded by a compacted metal powder is.

For the treatment of larger, flat surfaces, for example wise of foils, it is advantageous if the flow channel formed flat in the manner of a flat jet nozzle is.  

Practical tests have shown that the Invention appropriate device works optimally if it for a electrical power of 1-2.5 kW at about 15 / kV span and a gas throughput of 5000 to 10,000 l / h is laid. Such a device has approximately the same Chen dimensions like those mentioned at the beginning GB-PS 10 39 701.

The invention allows numerous embodiments. To further clarification of their basic idea is in the Drawing a longitudinal section through an inventive Device shown and will be described below ben.

The device shown has a cylindrical Ge housing 1 made of insulating material, which is penetrated by a ceramic tube 2 . Between this ceramic tube 2 and the housing 1 there is a compressed metal powder, which forms an outer electrode 3 . Inside half of the ceramic tube 2 , a rod-shaped electrode 4 made of an electrically highly conductive material is arranged coaxially with it and in this position fixed on the one hand by a cap 5 on the upper end face of the housing 1 , and on the other hand by a spacer 6 in the ceramic tube 2 . The cap 5 has a gas inlet 7 through which an ionizable gas can be fed to the annular space between the rod-shaped electrode 4 and the ceramic tube 2 , which allows the device on the lower end face of the housing 1 at an outlet 8 .

When using the device, an alternating voltage of approximately 15 kV and 15 kHz is applied between the rod-shaped electrode 4 and the metal powder 3 . Furthermore, the gas inlet 7 is connected to a compressed gas source, for example an air pump. As a result of the high voltage, corona discharges occur in the ceramic tube over the entire area surrounded by the metal powder. The air flowing through, or the gas, is therefore able to absorb a large amount of energy and is converted into a plasma which, when striking a surface, is able to change it chemically and / or physically.

The device according to the invention need not necessarily be cylindrical in cross section. It is also possible to form them in the manner of a flat jet nozzle. The inner electrode 4 would not be stabför shaped, but formed as a flat sheet. It is only important for the invention that there are corona discharges in succession in the direction of flow of the gas over a longer distance, so that the gas reaches a high energy density.

List of the reference symbols used

1 housing
2 ceramic tube
3 outer electrode
4 rod-shaped electrode
5 cap
6 spacers
7 gas inlet
8 outlet

Claims (6)

1. Device for the treatment of surfaces by means of an emerging from a flow channel, ionized gas stream, which has a flow channel with two electrodes forming a gap through which the gas stream flows, in which nao discharges can be generated by applying high voltage, characterized in that the electrodes ( 3 , 4 ) for generating a flow direction in the flow direction of the gas stream Koronaentla stretch are formed such a length that a gas stream passed through them receives aggressive properties due to high energy consumption and can change the surface of objects blown with it . 2. Device according to claim 1, characterized in that the flow channel is formed by a tubular electrode ( 3 ) in which there is coaxially with respect to this electrode ( 3 ) electrically insulated conductor as the second electrode ( 4 ). 3. Apparatus according to claim 2, characterized in that the tubular electrode ( 3 ) is formed by a ceramic tube ( 2 ) surrounded by an electrical conductor. 4. The device according to claim 3, characterized in that the ceramic tube ( 2 ) in a cylindrical housing ( 1 ) and is surrounded by a compressed metal powder. 5. Device according to one or more of the preceding the claims, characterized in that the flow channel formed flat in the manner of a flat jet nozzle is.   6. Device according to one or more of the preceding the claims, characterized in that they are for a electrical power of 1-2.5 kW at about 15 kV span tion and a gas throughput of 5000 to 10,000 l / h sets is.