DE102015121349A1 - Apparatus for surface treatment of a continuous material and its use - Google Patents

Abstract

The present invention relates to a device for surface treatment of a continuous material and the use of this device for the selective electrodeposition of a metal layer on the surface of a metallic continuous material or the production of high-purity surfaces of a metallic continuous material. According to a further aspect, the invention relates to the use of a device according to the invention in the manufacture of a welding wire.

Description

The present invention relates to a device for surface treatment of a continuous material and the use of this device for the selective electrodeposition of a metal layer on the surface of a metallic continuous material or the production of high-purity surfaces of a metallic continuous material. According to a further aspect, the invention relates to the use of a device according to the invention in the manufacture of a welding wire.

Surface treatment in the sense of the invention is to be understood as the electrolytic cleaning of surfaces, the pickling of the surface, or else the electrolytic or galvanic deposition of metal layers or phosphorus-containing layers on the surface. Such a surface treatment of metallic continuous materials, such as wires or tapes has been known for a long time and we used in many ways. The objective of such treatments may be cleaning the surface in advance of downstream treatment steps or improving corrosion resistance. Furthermore, it is also known to apply a zinc phosphate and / or zinc-calcium phosphate layer to reduce the coefficient of friction on the metal surface in advance of a cold forming of a metal, such as before cold rolling or wire drawing.

In the production of welding wires, it is known to galvanically clean these after the train, so the cold forming to the desired cross-sectional dimension to obtain high-purity surface, or the surfaces - depending on the intended SD 43246 / UAM: UA Purpose of the welding wire - to provide with a galvanically deposited metal layer, such as a copper or copper alloy layer.

Devices for the production of surface treatment of continuous materials are known from the prior art. EP 26734 A1 discloses a device for electrodepositing a metal onto a substrate, comprising one or more electrolysis cells, means for introducing the substrates to be coated into the electrolytic cell with almost complete exclusion of oxygen and water, means for removing coated substrates from the electrolytic cell with almost complete exclusion of Oxygen and water and means for transporting substrates in the apparatus characterized in that the apparatus comprises means for pretreating substrates by bombardment with inert gas particles under reduced pressure.

EP 0093978 A1 discloses a device having a provided with a groove for the metal wire, made of insulating wheel, which is provided at the desired distance from each other with radially extending recesses and end pieces in the recesses opening electrolyte supply lines, wherein in the end pieces mouth-side connected as an anode grid are inserted.

DE 102 12 436 A1 discloses a device for the treatment of stranded metallic material, in particular ribbon or wire, which is continuously performed by a treatment chamber of the device in the vertical direction. To make the device suitable for various treatments, it is envisaged that a selection of the treatments electrolytic coating, electrolytic cleaning or chemical pickling takes place in the metallic material when passing through the treatment chamber, in which the working chamber is at least partially filled with a fluid, and that Device has quick-change connections for modular treatment elements, which are suitable for carrying out the selected treatment.

WO 2007/118875 A discloses a device for electroplating at least one electrically conductive substrate or an electrically conductive structure on a non-conductive substrate comprising at least a bath, an anode and a cathode, wherein the bath contains an electrolyte solution containing at least one metal salt, from which metal ions to electrically conductive surfaces of the substrate are deposited while the cathode is brought into contact with the surface to be coated of the substrate and the substrate is conveyed through the bath. The cathode comprises at least one band with at least one electrically conductive section which is guided around at least two rotatable shafts.

A disadvantage of the known from the prior art devices is that they are set up only for a certain treatment of the surface and a change in the treatment of the surface associated with a large conversion effort.

In the course of modern production techniques, it is desirable that a treatment of the surface of the continuous material as possible in direct connection to a cold forming, such as wire drawing or cold rolling occurs. For this purpose, in-line systems are necessary, in which a corresponding device for surface treatment connects spatially as directly as possible to the forming process.

However, this in turn means that in the case of a change in the type of treatment of the surface for the time of conversion, a complete shutdown must also be carried out cold forming. Therefore, it is desirable to minimize the changeover time and the associated dead time.

Against this background, it is therefore an object of the present invention to provide a device which has a reduced changeover time when changing the treatment process of the surface compared to the devices known from the prior art.

We solve this problem by a device according to claim 1. Embodiments of the device according to the invention can be found in the dependent claims and the following description.

Thus, an apparatus for the surface treatment of a continuous material is disclosed, comprising a first treatment trough for receiving a first treatment liquid and a second trough divided into at least two hydraulically separable partial regions, wherein the partial regions are adapted to receive treatment liquids, the device having a material guide is set up such that the endless material is successively horizontally in the first treatment tub and the second treatment tub inserted with the proviso that it contacts the treatment liquids at desired level of the treatment liquids within the treatment tubs in pulling the continuous material in a conveying direction and not fall below the desired level, the treatment liquids contacted, wherein the second treatment trough for each of the sub-areas a hydraulic conveyor to promote the treatment liquids, wherein the conveyors are hydraulically separately connected to a respective tank, wherein the conveying means are arranged such that the level of the treatment liquids in the sub-areas can be lowered independently of the desired level by transferring the treatment liquids in the respective tank, and by transfer the treatment liquids from the respective tank can be raised to the desired level.

With the device according to the invention, it is advantageously possible by lowering or raising the liquid level of a treatment liquid in the second treatment trough to change the treatment process in an in-line system without significant interruption or conversion. For example, if the first portion filled with an electrolyte for electrodeposition of a metal layer, such as a Kupferabscheideelektrolyten, and the second portion of the second treatment tub with a sulfuric acid solution, it is advantageously possible between a copper plating process and a galvanic cleaning process in the production of z. B. to change welding wires. This makes it possible to change from a copper-plated product to a product with a high-purity surface without mechanical conversion of the system. Ultimately, this is even possible without interruption of the train.

The first treatment tank in the device proposed according to the invention can serve as an activation stage in a subsequent coating process, for which purpose the treatment tank then, for example, with an acidic solution, for. B. a sulfuric, hydrochloric or phosphoric acid solution can be filled. It may be provided in one embodiment of the invention that the first treatment trough a hydraulic conveyor, such as a pump, for conveying the treatment liquids, wherein the conveyor is connected to a tank and is arranged such that the level of the treatment liquids in the first treatment tank can be lowered independently of the fill levels in the subregions of the second treatment trough below the desired fill level by transferring the treatment liquid into the tank. As a result, the flexibility of the overall device is further increased.

According to one embodiment of the invention it can be provided that at least between the first treatment trough and the second treatment trough, a sink is arranged, by means of which any residues of the first treatment liquid adhering to the endless material after leaving the treatment trough in the conveying direction are removable and / or neutralizable.

According to a further embodiment of the invention, it can be provided that the second treatment trough has a device for producing a hydraulic connection between the first and the second partial region. This makes it possible to produce a hydraulic communication between the two sections. This allows, in the case where the same treatment liquids are contained in both partial areas of the second treatment tank, to ensure an exchange of the treatment liquids between the two partial areas. It can be provided that the device for producing a hydraulic connection is formed by a provided with a check valve pipe, a pump system or a combination of both devices.

In addition, the treatment tubs can each have electrodes that are set up in such a way that an electrical voltage can be applied between the electrodes and the endless material. In this case, the second treatment trough preferably has in each case at least one electrode in its partial regions, these electrodes being arranged such that the treatment liquids do not contact the electrodes when the desired filling level is not reached. In this way, advantageously any decomposition of the treatment liquid by foreign or leakage currents, which could flow through the electrodes even if the continuous material does not contact the treatment solution, be avoided or at least reduced.

At least the electrode in the first subregion of the second treatment trough can be designed as a basket electrode according to an embodiment of the invention. Such a basket electrode is advantageously suitable to receive soluble anode material, such as copper balls or rods, which can be supplemented in consumption in a simple manner by refueling in the basket.

Preferably, at least the electrode in the first subregion of the second treatment trough can be designed as a titanium oxide electrode coated with a mixed oxide. The configuration of the electrode in the second subregion of the second treatment trough preferably corresponds to the configuration of the electrode in the first subregion of the second treatment trough.

According to a further embodiment of the device according to the invention, the first treatment trough has at least two electrodes, wherein at least one electrode is electrically connected to the electrode of the first portion of the second treatment trough. It has been found that such an interconnection of the electrodes leads to an improved deposition result, in particular in the case of copper plating of surfaces of continuous material in a through-draw coating process.

According to a preferred embodiment, the device according to the invention can have at least two voltage sources which can be controlled separately from one another. In this case, provision can be made for a first voltage source to contact the endless material and the electrode in the first treatment trough and optionally the electrode in the first partial area of the second treatment trough and a second voltage source to contact the endless material and the electrode in the second partial area of the second coating trough.

As a voltage source according to the invention, for example, a frequency converter and / or a rectifier can be used.

To provide a corresponding contacting of the endless material, provision may be made for the first coating trough to be subdivided into at least two partial regions which are hydraulically separated from one another. At least one of these subregions receives a counter electrode to the electrodes in the subregions of the second coating trough. Contacting of the endless material then takes place via a suitable electrolyte in which on the one hand the counter electrode is immersed and which contacts the other with the endless material.

Alternatively and / or additionally, the device for contacting the endless material can have one or more contact rollers, via which the endless material can be guided and which are electrically connected to the voltage source (s). Alternatively it can be provided that the device for electrical contacting of the endless material has sliding contacts over which the endless material can be guided.

In a further embodiment of the invention, it may be provided that the first treatment trough is divided into at least three subregions and which are hydraulically separated from each other. In this case, one partial area receives a counter-electrode to the electrode or electrodes provided in the second treatment trough. A second subregion accommodates a further electrode and the remaining subregion accommodates a counter electrode to the electrode arranged in the second subregion. In this case, it is preferable for the electrode arranged in the second subregion and its counterelectrode to be electrically connected to a first voltage source, whereas the electrodes arranged in the second treatment trough and their counterelectrodes arranged in a subregion of the first treatment trough are connected to a second voltage source. It is preferred that the two voltage sources are independently controllable.

The material guide can be formed according to the invention of guide rollers and / or guide rails. Preferably, the material guide is made of an electrically non-conductive material or - in the case of electrically conductive materials - mounted electrically isolated.

According to a further embodiment of the invention, it can be provided that the device has one or more filter devices, which hydraulically with at least one Treatment tub and / or a partial area is connected. The system preferably has a band filter as filter device.

Furthermore, according to one embodiment, the device according to the invention can have one or more tempering devices with the aid of which the treatment liquids can be tempered. It can preferably be provided that the tempering devices are hydraulically connected to the first treatment trough and the second treatment trough or the partial regions of the second treatment trough such that the treatment liquids can be tempered independently of one another.

According to a further embodiment of the device according to the invention, it may be provided that it identifies blast dryers in the regions in which the endless material leaves the respective treatment trough or the partial region. These blast dryers are designed to blow off any residues of the treatment liquid present in the respective treatment tub or the partial area adhering to the endless material by means of an air or gas stream. In this case, the blast dryers are preferably set up in such a way that the treatment liquids are blown off in the direction of the treatment trough or the partial area corresponding to the treatment liquid, in order to avoid carrying over or transferring the respective treatment liquid into another trough or partial area.

According to a preferred embodiment of the device, the treatment tubs consist of a corrosion-resistant plastic material, preferably on polypropylene and / or polyethylene and / or an ABS plastic.

In addition, the invention relates to the use of a device according to the invention for the selective electrodeposition of a metal layer on the surface of a metallic continuous material or production of high-purity surfaces of a metallic continuous material, in particular for producing a welding wire.

The invention will be explained below with reference to figures.

1 shows an embodiment of the device according to the invention;

2 shows an embodiment of the device according to the invention in which the level of the treatment liquid in the second portion of the second treatment trough is below the desired level;

3 shows an embodiment of the device according to the invention in the level of the treatment liquid in the first portion of the second treatment trough is below the desired level; and

4 shows a cross section of the first portion of the second treatment trough.

1 shows an embodiment of the device according to the invention 100 for surface treatment of a continuous material 900 , The device has a first treatment trough 200 for receiving a first treatment liquid 241 and a second in at least two mutually hydraulically separable portions 340 . 350 split treatment tub 300 on. The subareas 340 . 350 are set up to handle treatment fluids 341 . 351 take. Furthermore, the device 100 a material guide 400 , which is set up so that the endless material 900 one after the other horizontally into the first treatment tank 200 and the second treatment tray 300 is insertable. This is done with the proviso that the endless material 900 at nominal level 700 the treatment liquids 241 . 341 . 351 within the treatment tubs 200 . 300 with passage of the endless material 900 in the conveying direction 910 the treatment fluids 241 . 341 . 351 contacted and falls below the nominal level 700 the treatment fluids 341 . 351 not contacted. The second treatment tray 300 points to each of the subareas 340 . 350 a hydraulic conveyor 345 . 355 - For example, a pump - to promote the treatment fluids 341 . 351 on, with the conveyors 345 . 355 hydraulically separate, each with a tank 346 . 356 are connected. The conveyors 345 . 355 are set up so that the level of the treatment liquids 341 . 351 in the subareas 340 . 350 independently below the nominal level 700 by transferring the treatment liquids 341 . 351 in the respective tank 346 . 356 is lowered and by transfer of the treatment fluids 341 . 351 from the respective tank 346 . 356 to the nominal level 700 is liftable. Between the first treatment tray 200 and the second treatment tray 300 is a sink 500 arranged by means of which any of the endless material 900 after leaving the treatment tub 200 in the conveying direction 910 adhering residues of the first treatment liquid 241 removable and / or neutralizable. In addition, in the embodiment shown in the conveying direction 910 after the second treatment tank, a further sink 500 provided with which any adhering residues of the treatment liquids 341 . 351 removable and / or neutralizable. The second treatment tray 300 also has a device 360 for making a hydraulic connection between the first and the second subarea 340 . 350 on. For electrical contacting, the treatment tubs 200 . 300 each electrodes 220 . 320 to which are arranged such that an electric voltage between the electrodes 220 . 320 and the endless material 900 can be applied. The embodiment of the invention shown as a counter electrode for contacting a in the first treatment trough 200 arranged electrode 222 in front. For this purpose, the treatment tray 200 likewise subdivided into at least two subregions, one subarea for contacting the endless material 900 over the electrode 222 serves. The corresponding subregion can accommodate a suitable electrolyte. Alternatively or additionally, a corresponding contact device 600 intended. This can be carried out, for example, as a roller contact or sliding contact. The second treatment tray 300 points in their subareas 340 . 350 in each case at least one electrode 349 . 359 on, with these electrodes 349 . 359 are arranged such that the treatment liquids 341 . 351 when falling below the nominal level 700 the electrodes 349 . 359 do not contact. In the illustrated embodiment of the device according to the invention, the first treatment trough 200 In addition, two further sections, one of which is an electrode 221 and the other one as a counter electrode to the electrode 221 switched electrode 223 having. For voltage application, the device in the embodiment shown at least two separately controllable voltage sources 280 . 380 on. It is provided in the embodiment shown that the electrode 222 . 349 . 359 with the voltage source 380 and the electrodes 221 . 223 with the voltage source 280 are electrically connected.

2 shows an embodiment of the device according to the invention, in which the level of the treatment liquid 351 in the second subarea 350 the second treatment tray 300 by transferring at least one subset into the tank 356 below the nominal level 700 lies. In this case, neither the endless material 900 still the electrode 359 from the treatment liquid 351 contacted. The second part 350 the second treatment tray 300 is thus inactive with respect to the surface treatment of the continuous material 900 ,

3 shows an embodiment of the device according to the invention, in which the level of the treatment liquid 341 in the first subarea 340 the second treatment tray 300 by transferring at least one subset into the tank 346 below the nominal level 700 lies. In this case, neither the endless material 900 still the electrode 349 from the treatment liquid 351 contacted. The first section 340 the second treatment tray 300 is thus inactive with respect to the surface treatment of the continuous material 900 ,

4 shows a cross section of the first portion 340 the second treatment tray 300 , The material guide is preferably set up so that the endless material 900 orthogonal to the direction of pulling substantially centrally between the electrodes 349 to be led. As a result, the most uniform possible current distribution of the applied voltage is achieved. The electrodes 349 are preferably designed as basket electrodes, which are a soluble anode material 800 take up. The basket electrodes are preferably made of a titanium plug metal, which is coated with a mixed oxide. If the treatment liquid 341 at nominal level in the subarea 340 filled, the electrodes dip 349 into the treatment liquid.

LIST OF REFERENCE NUMBERS

100

contraption

200

first treatment tray

220

electrodes

221

electrode

222

Electrode (counter electrode)

223

Electrode (counter electrode)

241

treatment liquid

280

voltage source

300

two treatment tray

320

electrodes

340

first subarea

341

treatment liquid

345

Conveyor

346

tank

349

electrode

350

second subarea

351

treatment liquid

355

Conveyor

356

tank

359

electrode

360

adjustable hydraulic connection

380

voltage source

400

Media guide

500

kitchen sink

600

contact

700

desired level

800

anode material

900

endless material

910

conveying direction

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• SD 43246 [0003]
• EP 26734 A1 [0004]
• EP 0093978 A1 [0005]
• DE 10212436 A1 [0006]
• WO 2007/118875 A [0007]

Claims (14)

Contraption ( 100 ) for the surface treatment of a continuous material ( 900 ), have a first treatment trough ( 200 ) for receiving a first treatment liquid ( 241 ) and a second in at least two mutually hydraulically separable sections ( 340 . 350 ) divided treatment tub ( 300 ), the subareas ( 340 . 350 ) are set up for treatment fluids ( 341 . 351 ), the device ( 100 ) a material guide ( 400 ), which is set up such that the endless material ( 900 ) successively horizontally into the first treatment tank ( 200 ) and the second treatment trough ( 300 ) is introduced with the proviso that it is at nominal level ( 700 ) of the treatment liquids ( 241 . 341 . 351 ) within the treatment tubs ( 200 . 300 ) with passage of the continuous material ( 900 ) in a conveying direction ( 910 ) the treatment liquids ( 241 . 341 . 351 ) and falls below the nominal level ( 700 ) the treatment liquids ( 341 . 351 ), wherein the second treatment trough ( 300 ) for each of the subregions ( 340 . 350 ) a hydraulic conveyor ( 345 . 355 ) for the promotion of treatment fluids ( 341 . 351 ), the conveyors ( 345 . 355 ) hydraulically separately with one tank each ( 346 . 356 ), the conveyors ( 345 . 355 ) are set up such that the filling level of the treatment liquids ( 341 . 351 ) in the subregions ( 340 . 350 ) independently of each other below the nominal level ( 700 ) by transfer of the treatment liquids ( 341 . 351 ) into the respective tank ( 346 . 356 ) is lowered, and by transfer of the treatment liquids ( 341 . 351 ) from the respective tank ( 346 . 356 ) to the nominal level ( 700 ) is liftable. Device according to claim 1, wherein at least between the first treatment trough ( 200 ) and the second treatment trough ( 300 ) a sink ( 500 ) is arranged, by means of which any on the endless material ( 900 ) after leaving the treatment bath ( 200 ) in the conveying direction ( 910 ) adhering residues of the first treatment liquid ( 241 ) are removable and / or neutralizable. Device according to one of the preceding claims, wherein the second treatment trough ( 300 ) An institution ( 360 ) for establishing a hydraulic connection between the first and the second partial area ( 340 . 350 ) having. Device according to one of the preceding claims, wherein the treatment tubs ( 200 . 300 ) each electrodes ( 220 . 320 ) which are arranged such that an electrical voltage between the electrodes ( 220 . 320 ) and the endless material ( 900 ) can be applied. Device according to claim 4, wherein the second treatment trough ( 300 ) in their subareas ( 340 . 350 ) at least one electrode ( 349 . 359 ), these electrodes ( 349 . 359 ) are arranged such that the treatment liquids ( 341 . 351 ) falls below the nominal level ( 700 ) the electrodes ( 349 . 359 ) do not contact. Device according to claim 5, wherein at least the electrode ( 349 ) in the first subarea ( 340 ) is designed as a basket electrode. Device according to one of claims 4 to 6, wherein the treatment trough ( 200 ) at least two electrodes ( 221 . 222 ), wherein at least one electrode ( 222 ) electrically with a voltage source ( 380 ) of the second treatment tank ( 300 ) and as a counter electrode for contacting the continuous material ( 900 ) serves. Device according to one of claims 4 to 6, wherein these at least two separately controllable voltage sources ( 280 . 380 ) having. Device according to one of claims 5 to 8, wherein at least the electrode ( 349 ) in the first subarea ( 340 ) of the second treatment tank ( 300 ) is a titanium electrode coated with a mixed oxide. Device according to one of the preceding claims, wherein the first treatment trough is subdivided into at least two partial regions, one partial region serving as the counterelectrode to the electrode ( 320 ) serving electrode ( 222 ). Device according to one of the preceding claims, wherein the first treatment trough is divided into at least three partial regions, wherein a partial region serving as the counterelectrode to the electrode ( 320 ) serving electrode ( 222 ), a wide portion of the electrode ( 221 ) and a third portion of an electrode ( 223 ), wherein the electrode ( 223 ) as counterelectrode to the electrode ( 221 ) serves. Device according to claim 11, wherein the electrode ( 221 . 223 ) with a first voltage source ( 280 ) and the electrode ( 222 . 349 . 359 ) with a second voltage source ( 380 ) are connected. Use of a device according to one of the preceding claims for the selective electrodeposition of a metal layer on the surface of a metallic continuous material or production of high-purity surfaces of a metallic endless material. Use according to claim 13 for the production of a welding wire.

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