AU610759B2

AU610759B2 - Apparatus for the continuous electrolytic treatment of wire-shaped objects

Info

Publication number: AU610759B2
Application number: AU42135/89A
Authority: AU
Inventors: Mario Catteeuw; Pierre Cosaert
Original assignee: Bekaert NV SA
Current assignee: Bekaert NV SA
Priority date: 1988-10-06
Filing date: 1989-09-21
Publication date: 1991-05-23
Anticipated expiration: 2009-09-21
Also published as: ES2056196T3; DE68915236T2; EP0362924B1; JPH03502715A; JP2859672B2; WO1990004050A1; KR920700311A; AU4213589A; DE68915236D1; BE1001859A3; BR8907111A; EP0362924A1; KR0174269B1

Description

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OPI DATE 01/05/90 APPLN. ID 42135 89 I tAOJP DATE 07/06/90 PCT NUMBER PCT/EP89/01093 INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 5 International Publication Number: WO 90/04050 7/06 Al (43) International Publication Date: 19 April 1990 (19.04.90) (21) International Application Number: PCT/EP89/01093 (81) Designated States: AU, BR, JP, KR, US.

(22) International Filing Date: 21 September 1989 (21.09.89) Published (30) Priority dataWith international search report.

Priority data: 8801152 6 October 1988 (06.10.88) BE (71) Applicant (for all designated States except US): N.V. BEKA- ERT S.A. [BE/BE]; Bekaertstraat 2, B-8550 Zwevegem

(BE).

(72) Inventors; and Inventors/Applicants (for US only) CATTEEUW, Mario [BE/BE]; Albertstraat 25, B-8550 Zwevegem COS- AERT, Pierre [BE/BE]; Lode de Boningestraat 34, B- 8500 Kortrijk (BE).

(74) Agents: VANDEVELDE, Willy et al.; Department Industrial Property, N.V. Bekaert Bekaertstraat 2, B-8550 Zwevegem (BE).

(54) Title: APPARATUS FOR THE CONTINUOUS ELECTROLYTIC TREATMENT OF WIRE-SHAPED OBJECTS (57) Abstract Apparatus for the continuous electrolytic treatment of wire-shaped objects comprising an electrolyte bath and means for conducting the objects predominantly horizontally through the bath past a succession of anodes and cathodes, wherein the objects follow a zigzag path of travel in sliding contact with the successive current-transmitting electrodes 6, 7, 8) that are immersed in the electrolyte and connected to one and the same pole (14) of the power source.

WO 90/04050 pCT/EP89/01093 -1- APPARATUS FOR THE CONTINUOUS ELECTROLYTIC TREATMENT OF WIRE-SHAPED OBJECTS The invention relates to an apparatus for the continuous electrolytic treatment of wire-shaped objects such as e.g. filaments, yarns, cables or strip-shaped bands or ribbons. This treatnient can be either a coating treatment or a pickling treatment.

The continuous electrolytic galvanizing of wire-shaped objects in a continuous apparatus whereby the wires are conducted nearly horizontally past a succession of cathodes and inert anodes is known from U.S. patent 2.695.169. The current-transmitting sliding-contact points of the cathodes are located just below the electrolyte bath surface. The anode plates are completely immersed in the electrolyte. This apparatus makes a relatively fast electrodeposition possible. However, this set-up of the cathodic supporting arms with downwardly extending contact fingers above the bath is rather cumbrous and not very practical. Indeed, this set-up hinders an easy accessibility of the upper bath surface. Moreover, in the course of time, salt crystals from the bath precipitate on the supporting arms and the cathode fingers above the bath, which entails frequent cleaning and maintenance. Besides, the requirement of an even and constant sliding contact between the cathode fingers and the wires is hard to fulfil.

The cathode fingers have as it were the tendency to vibrate or dance up and down on the wires as a result of which there are frequent contact interruptions which result in sparking and consequently in an irregular deposition quality.

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WO 90/04050 PCT/EP89/01093 2- The object of the invention is now to to overcome these drawbacks by immersing the supporting and current-carrying arms of the successive cathodes in the electrolyte. This precludes the formation of salt crystals and the maintenance that it entails. Besides, this set-up has the added advantage that the immersed cathode can cool down more easily. Indeed, as the wires have a relatively high running speed through the installation, high current densities are to be used which can cause the cathodes to heat up considerably. Cooling in liquid and circulating electrolyte is much more effective than air cooling such as for contact fingers or contact rollers placed above the bath or at the bath entry and exit, respectively. The accessibility of the bath surface that is markedly improved in accordance with the invention is particularly advantageous upon starting the apparatus when a new series of wires is to be pulled through from entry (pay-off) to exit (take-up unit). It also improves the surveyability of the installation, which makes process control easier for the operator.

It is therefore an object of the invention to provide an apparatus for the continuous electrolytic treatment of wire-shaped objects, the latter being conducted predominantly horizontally via suitable transport means through an electrolyte bath past a succession of anodes and cathodes.

In the apparatus, the objects follow a zigzag path of travel in sliding contact with the successive current-transmitting electrodes connected to one and the same pole of the power 4 source. The electrodes, i.e. their parts assuring the sliding-contact, and the elements supporting them are immersed in the electrolyte bath.

In addition to the aforementioned advantages, the application of the zigzag path of travel over the sliding WO'90/04050 PCT/EP89/01093 3 contacts of said electrodes precludes the tendency to sparking which occurs with state-of-the-art electrode fingers. Indeed, the considerable transport tension on the wires between pay-off and take-up unit guarantees a constant and even contact of the wire with the electrodes at the peaks and valleys of the zigzag path of travel. It follows that operational reliability and the assurance of a constant process quality are obtained via a strong simplification of the prior art apparatuses.

If the treatment apparatus is an electroplating line, said electrodes with sliding contacts will be connected as cathodes. The wires conducted against the sliding contacts then constitute the cathode in the coating line and the positive ions of the metal zinc) to be applied will precipitate on them from the electrolyte in the path of travel at the anodes located opposite the wires.

For a treatment apparatus in the form of a pickling apparatus, said electrodes will be connected as anodes. The metal coating to be removed from the passing wires then dissolves in the electrolyte and deposits on the stationary cathodes at the path of travel of the wire near these cathodes.

A coating apparatus as embodiment of the invention will hereinafter be illustrated with reference to the accompanying figures.

Figure 1 is a vertical section through the set-up of successive electrodes in the electrolyte bath of the coating line.

Figure 2 represents a view from above of the apparatus with a zigzag path of travel for the series of wires.

WO 90/04050 PCT/EP89/01093 -4- 44 Figure 3 is a cross-section through an inert anode plate of the apparatus as electroplating line.

Figure 4 shows a vertical section through another electrode set-up for a zigzag path of travel.

The electrolysis apparatus in accordance with figure 1 basically comprises an elongate tank or channel I as electrolyte bath. This bath I is filled with a suitable electrolyte up to level 3 so that both the anodes 4 and the cathodes 5 are immersed in it. The cathode pins 5 are fixed on successive supporting arms 6, 7, 8 of copper). The successive anode sections 9, 10 are mounted between said supporting arms. Said sections comprise the supporting arms 11 of copper) for the anode plates 4, 12. These are e.g. inert lead anodes. The respective supporting arms for cathodes and anodes are connected to the current-supply bars 13 and 14. The electrode-supporting parts 7, 8) of these arms are immersed with the electrodes 5 in bath 1 under the bath surface 3.

In order to realize a good electrolysis efficiency, the electrolyte can be continuously circulated by means of pumps (not shown) and through the bores 16 in the anode plates towards the surface level 3 of the bath 1. The circulation increases the turbulence in the bath, which increases the electrolysis efficiency.

The wire-shaped objects 2 to be coated are now continuously conducted past a succession of anodes 4, 12 and cathode supports 6, 7, 8 below the electrolyte surface 3. In the process, the wires drag against the pins 5 fixed on the respective current-carrying supporting arms 6, 7, 8 as a result of which they are connected as cathode, tracing a i ;r ~o- Prr/FPRQ/01 093 WO 9U/U4USU horizontal zigzag path of travel as shown in figure 2. So, the successive peaks and valleys of the zigzag path of travel are located at these pins 5. The electrodes themselves comprise a highly conductive but preferably also wear-resistant metal alloy, e.g. tungsten carbide at the -sliding contacts at the zigzag peak/valley positions.

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In each space between two consecutive peak/valley positions, the wires come in the vicinity of the inert anode plates 4, 12 where the desired metal deposition from the bath 1 takes place. The anode plates 4, 12 can be designed flat but will preferably comprise channel-shaped recesses (as sketched in figure 3) at the path of travel of the wires 2 between two consecutive cathode pins 5. This way, a more even metal deposition is obtained over the whole wire circumference.

Figure 4 schematically shows another nearly horizontal zigzag path of travel for the wires 2. An insulated (ceramic) counterpressure bar 17 or 18 is mounted near each cathode-supporting arm 6 or 7 respectively. These can e.g.

be tilted upwards out of and away from the bath for the purpose of making the bath surface easily accessible when starting the apparatus for a new series of wires. The cathode-supporting arms 6, 7 are each coated with a wear-resistant layer 19 as sliding contact for the transmission of current to the wires.

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Claims

1. Apparatus for the continuous electrolytic treatment of wire-shaped objects comprising an electrolyte bath (1) and means for conducting the objects predominantly horizontally through the bath past a succession of anodes and cathodes, wherein the objects follow a zigzag path of travel in sliding contact with the successive current-trans- mitting electrodes 19) that are immersed in the electro- lyte and connected to one and the same pole (14) of the power source characterized in that the supporting arms 7, 8) for said electrodes are also immersed in the electrolyte bath.

2. Electroplating apparatus in accordance with claim 1, characterized in that said electrodes 19) are connected as cathodes.

3. Electrolytic pickling apparatus in accordance with claim 1, characterized in that the electrodes 19) are connected as anodes.

4. Apparatus in accordance with claim 1, characterized in that the electrodes 19) comprise a wear-resistant metal alloy at the sliding contacts.

Apparatus in aczordance with claim 4, characterized in that each electrode comprises a number of sliding-contact -9 pins fixed on a current-carrying supporting arm 7, 8). :I I Irl WO 90/04050 PCT/EP89/01093 -7-

6. Apparatus in accordance with claim 2, characterized in that the successive anodes 12) between each pair of cathodes 7, 8) comprise channel-shaped recesses (15) at the paths of travel of the objects.

7. Apparatus in accordance with claim 5, characterized in that the anodes are inert.