DE3302161A1 - Device for the electrical corona treatment of profile rods consisting of electrically non-conductive or conductive material, and for further treatment of the surface - Google Patents

Abstract

The profile rod 1 is passed over deflection rollers (3) successively through devices 4, 17 for corona treatment in order to improve the adhesion capability to the surface of the profile rod, through a device 24; 25, 26, 27, 28 for printing or for surface coating, and through a device 30, 39 for drying or curing the applied surface coating. These devices are combined in a housing 2 to form a structural unit (Fig. 1). <IMAGE>

Description

Device for the electrical corona treatment of profile strands made of electrically non-conductive or conductive material and for further treatment of the Surface The invention relates to an apparatus for electrical corona treatment of profile strands made of electrically non-conductive or conductive material and for Further treatment of the surface of the profile strands.

It is known that the adhesiveness is caused by electrical corona discharges to improve material surfaces, which are then printed, coated, can be glued to other parts or treated in any other way.

The electrical discharges are achieved by applying a high frequency High voltage on two electrodes, one of which has a dielectric layer is provided. A sheet material to be treated on the surface is between passed through the gap delimited by the electrodes through the corona discharge. Due to the physical functions, the gap between the electrodes is in which the coroinentl; ldunq develops when the Iiochspaririunrj is attached, relative small and has gap widths of U, U to 1.2 mm.

Because of this narrow gap width, only film-shaped materials can be used exposed to a surface treatment.

Profile strands, e.g. pipes, threads, ropes, cables or the like. can with the previous devices equipped with an electrode gap for generating a Corona discharge cannot be surface treated.

If a Profilstranj on its outer surface with a color or Lacquer layer is provided or printed, not only must the adhesiveness of the The surface area should be large in terms of the coating material, but it is drying is also required after coating. To date, hot air drying devices have been used for this purpose provided, which have relatively large dimensions.

The invention is based on the object of providing a device of the initially described named type in such a way that (3 profile strands made of electrically conductive or non-conductive material, even with a thickness greater than 1.2 mm, with corona discharges can be electrically pretreated and the device for electrical pretreatment forms a compact structural unit with the aftertreatment facilities.

This object is achieved according to the invention in that the profile strand Via pulleys one after the other through devices for corona treatment, for printing or surface coating and for drying or curing the applied surface layer to be led.

The device for corona treatment can have a fully insulating body with one or more embedded ground electrodes and with one or more be one behind the other arranged tip electrodes, the tips of the tip electrodes protrude from the fully insulating body.

The extruded profile is created by the electrodes emanating from the tips of the electrodes Free jet discharges led. A multi-surface or complete surface treatment of the profile strand can be achieved by several equipped with tip electrodes Fully insulating body on the circumference of the profile strand to be treated be arranged distributed.

The extruded profile can, however, also pass through the inner space of a cylindrical Electrode, which is composed of two electrode halves, the are arranged in articulated interconnected electrode carriers and around a axis extending parallel to the longitudinal axis of the electrode are pivotable, so that to insert the profile strand to be treated, open the electrode holder can be.

The stations for corona treatment are immediately adjacent to the Printing or surface coating of the profile strand and for drying and hardening downstream of the applied () surface layer. It results in a space-saving Overall construction, in which the [) profile strand to be handled over pulleys of one facility is led to the neighboring one.

Embodiments of the invention are shown in the drawings and are described below.

1 shows the overall device in a schematic representation, 2 shows a device for corona treatment of a profile strand in diagrammatic form Representation, FIG. 3 shows a device provided with a row of tip electrodes for the corona treatment of a profile strand, FIG. 4 the line direction according to FIG. 3 in vertical section, FIGS. 5 and 6 means for multi-sided or all-sided electrical pretreatment of profile strands, Fig. 7 one with infrared or UV emitters equipped drying and hardening device, FIG. 8 one with an induction coil equipped drying facility.

The profile strand 1, which consists of electrically conductive or non-conductive Material consist and e.g. as wire, cable, fiber optic tube, thread or the like can be formed, is used for electrical pretreatment and for further surface treatment Introduced into a housing 2, in which the necessary treatment facilities are arranged, to which the l'rofilstrany is fed one after the other.

Here, the profile strand is deflected by Urnlenkrolle 3, which between the individual A (l (Jre (aten and devices are provided.

The extruded profile is first fed to a device 4 which has a electrical pretreatment made possible by means of corona discharges. This facility 4 can be designed structurally as shown in FIG. the Device according to FIG. 2 has two made of a suitable insulating material Electrode carriers 5, 6, which are articulated to one another via hinges 7, so that a pivoting about an axis 8 is possible, which is parallel to the electrode 9 runs. The electrode 9 consists of two semicircular in cross section Electrode halves 10 extending over the entire length of the electrode carriers. These electrode halves 10 delimit a space through which the profile strand 1 is guided will. The profile strand 1 is in the embodiment according to FIG. 2 in cross section circular, made of electrically non-conductive material and with a metal core 11 provided. This metal core 11 is grounded. The high frequency high voltage is generated in a generator 12, which has a connection 13 to the electrode 9 and connected to the metal core 11 of the extruded profile 1 via a connection 14 is. When high voltage is applied, the cylindrical electrode arises 9 limited the interior space an electrical corona discharge 15. This corona discharge becomes a vert) esseruny of the adhesiveness of the surface of the profile strand reached The electrically non-conductive material of the profile strand is used during the corona discharge at the same time as a dielectric so that it does not cause a short circuit comes between the metal core 11 and the electrode 9.

If you have a metal core, a / netalidraht or some other Profile strand made of metal with the device according to FIG. 2 with wants to pretreat an electrical corona discharge, it is necessary that the Electrode halves 10 on the inside associated with your profile strand to be treated to be provided with a dielectric layer. Through this dielectric layer a short circuit between the extruded profile and the electrode 9 is prevented.

The electrode carriers 5 and 6 are in the exemplary embodiment according to 2 provided with coolant lines 1f and / or with ozone extraction lines.

3 and 4 is a device for a corona treatment the surface of a profile strand shown, which has a Vullisolierkörper 17, are embedded in the mass electrodes 18.

A high-frequency high voltage is generated in the generator 12, which brought up via lines 19 to a tip electrode 20 and to a ground electrode 18 will. Both the tip electrode 20 and the ground electrode 18 are in the fully insulating body 17 provided in a parallel arrangement.

When high-frequency high voltage is applied, an in the direction of Corona free jet 21 extending along the longitudinal axis of the tip electrode 20 is achieved, the length of which is about 15 mm without a lateral deviation.

This can only be achieved by electrophysically using the capacitive Displacement current conditions are so favorable that as possible between the electrodes 20 and 18 no or small currents flow, and that within the fully insulating body 17, in which the electrodes are embedded, as large a flocculation as possible (luenzwi (resistance is created. This can be achieved in that the insulating material is a Has sell structure and e.g. I3. nus a plastic foam is formed. By the relatively large displacement of the tip of the tip electrode 21 with respect to the ground electrode 18 the radiation effect in the longitudinal axis of the pointed electrode becomes considerable favored. In order to achieve a comprehensive handling effect, enough not one tip electrode, but it is a plurality of arrangement of tip electrodes necessary.

The extruded profile 1 is above the starting point from the electrode tips Corona free radiation guided. Between the corona free jets and the profile strand is a slight gap. The distance @ between the profile strand and the tip electrode (s) is adjustable.

A change in the distance takes place synchronously with the intensity setting of the generator 12. The fully insulating body 17 or the pulleys 3 of the profile strand are stored adjustable in height From Fig. 3 it can be seen that the upper Boundary surface 22 are assigned to tubes 23 through which air is used for cleaning electrodes can be fed.

In the embodiment according to FIG. 5, the profile strand 1 two fully insulating bodies 17 equipped with tip electrodes 20 on two each other assigned to opposite sides of the profile strand.

Fig. 6 shows an embodiment in which three with tip electrodes 20 fully equipped insulating body 17 distributed on the circumference, in one arranged angular distance of 1200, a profile strand 1 are assigned.

The device according to FIG. 1 can be equipped with various devices be equipped for treating the profile strand with corona discharges, so that then optionally the device is only switched on, which is for the respective profile strand and is optimal for the desired treatment effect.

After the corona pretreatment, the profile strand in the exemplary embodiment 1 supplied to a device 24 for printing.

The paint is in a paint tray 25 and is by means of a Dip roller 26 onto the cliché in the course of a rotational movement wear. A pressure roller 28 is assigned to the roller provided with the cliché.

Instead of the printing device, a coloring device can also be used or a coating device can be provided.

After this surface treatment of the profile strand, the profile strand a drying or hardening device 29 is supplied. The drying and hardening can be carried out by means of a device generating corona discharges.

However, it is also possible, as shown in FIG. 7, to equip this facility with infrared or UV emitters.

In the embodiment of FIG. 7, the device exists of two parts 30 and 31 that are articulated to one another. The articulated connection is created by hinges 32a which allow pivoting movement of parts 30,31 µm allow a longitudinal axis. The part 30 can thus be folded up relative to the part 31 so that Fig. 6 shows an embodiment in which three with tip electrodes 20 fully equipped insulating body 17 distributed on the circumference, in one Arranged angular spacing of 120 °, a profile strand 1 are assigned.

The device according to FIG. 1 can be equipped with various devices be equipped for treating the profile strand with corona discharges, so that then optionally the device is only switched on, which is for the respective profile strand and is optimal for the desired treatment effect.

After the corona pretreatment, the profile strand in the exemplary embodiment 1 to a device 24 for printing.

The paint is in a paint tray 25 and is by means of a Dip roller 26 transferred to the cliché in the course of a rotational movement Provided the profile strand is made of metal, the heating and drying device (l, @ As shown in FIG. 8, also equipped with an induction coil 37 be. The central space 38 for leading through the profile strand 1 is from the induction coil 37 enclosed, which is composed of two coil halves. Each half of the spool is arranged in a separate component 39, 40, these components having hinges 41 are connected to one another in an articulated manner and are pivotable to one another about a longitudinal axis. This makes it possible to simply insert the profile strand into the central room. The necessary electrical energy for the induction coil 37 is generated by an RF generator 42. The components 39 and 40 are with tubes 43, which emanate from the central room 38 and through the easily volatile Drying substances can be sucked off.

The spool halves are over contact points when collapsed Components 39,40 with each other (galvanically connected, whereby the closed circuit is deployed.

Reference numeral 1 profile strand 2 housing 3 deflection roller 4 device 5 Electrode holder 6 Electrode holder 7 Hinge 8 Axis 9 Electrode 10 Electrode half 11 Metal core 12 Generator 13 Connection 14 Connection 15 Corona discharge 16 Coolant line 17 Fully insulating body 18 Ground electrode 19 Cable 20 Tip electrode 21 Corona free jet 22 Boundary surface 23 Pipe 24 Device 25 Paint tray 26 Dip roller 27 28 Pressure roller 29 Hardening facility 30 Part 31 Part 32 Drying room 33 Radiator 34 Controller 35 IRe (ler 36 pipe 37 induction coil 38 space 39 component 40 component 41 hinge 42 IiF-Cenerator 43 pipe

Claims (14)

P a t e n t a n s p r ü c h e Device for electrical corona treatment of profile strands made of electrically non-conductive or conductive material and for Further treatment of the surface, that is to say the profile strand (1) via pulleys (3) one after the other through devices for Corona treatment, for printing or surface coating and for drying or hardening of the applied surface layer is performed. 2. Apparatus according to claim 1, characterized in that the device (4) for corona treatment two electrode carriers connected to one another by hinges (7) (5,6), which about an axis (8) running parallel to the electrode (9) are pivotable, each electrode carrier a semicircular cross-section, itself Electrode half (10) extending over the entire length of the electrode carrier and the profile strand guided through the space delimited by the electrode halves (1) Made of electrically non-conductive material with a central one connected to ground Metal core (11) is provided. 3. Apparatus according to claim 2, characterized in that the electrode carrier (6.5) are provided with coolant lines and / or ozone suction lines (16). 4. Apparatus according to claim 2 or 3, characterized in that for handling (J an Irufil strand (1) made of electrically conductive material Electrode halves on the inside facing the profile strand with a dielectric Layer are provided. ) <. Device according to claim 1, characterized in that the Device for corona treatment a fully insulating body (17) with embedded Ground electrode or with embedded ground electrodes (18) and with one or more, one behind the other arranged tip electrodes (20), the tips of the tip electrodes protrude from the fully insulating body (17) and the Profilstranq (1) above the Corona free rays emanating from the electrode tips are guided. 6. Apparatus according to claim 5, characterized tlekennzeictmet that the distance is adjustable between the profile strand (1) and the tip electrode or electrodes and a change in the distance synchronously with the intensity position of the (; enerators (12) takes place. 7. Apparatus according to claim 6, characterized in that (3 the tip electrodes together with the full insulation body (17) or the pulleys (3) of the profile strand (1) are mounted adjustable in height. 8. Device according to one of claims) to 7, characterized in that that two or more fully insulating bodies equipped with tip electrodes (20) (17) on two opposite sides or on the circumference of the profile strand to be treated (1) are arranged in a distributed manner. 9. Apparatus according to claim 5, characterized in that the upper Boundary surface of the fully insulating body (17) from which the tip electrodes are formed extend, pipes (23) are assigned for supplying cleaning air. 10. The device according to claim 1, characterized in that the Corona treatment downstream device as a printing device as with a dyeing device equipped with an immersion bath or as a coating device is trained. 11. The device according to claim 1, characterized in that the drying or hardening device, a corona discharge generating device is provided is. 12. The device according to claim 1, characterized in that the drying and hardening device consisting of two hingedly interconnected swivels around an axis Divide consists of a semicircular center, extending over the entire length of the Have parts extending recess that the drying space to lead through of the profile strand. 13. The apparatus according to claim 12, characterized in that around the central drying room infrared and / or UV radiators (33) are arranged. 14. Apparatus according to claim 12, characterized in that the central space for a strand of metal (1) from an induction coil (37) is umsclulossen and each component (39,40) of the device with a coil half is equipped, which galvanically through contacts with each other to close the circuit are connectable.