CLEANING, PICKLING AND ELECTROPLATING APPARATUS

CROSS REFERENCE TO RELATED APPLICATION

This patent application is related to and claims priority from U.S. Patent Application Serial Number 12/154,324 filed May 22, 2008.

FIELD OF THE INVENTION

The present invention relates, in general, to electroplating and cleaning and, more particularly, this invention relates to a continuous electroplating and cleaning apparatus .

BACKGROUND OF THE INVENTION

Prior to the conception and development of the present invention, as is generally well known in the prior art, electroplating is typically performed in a batch operation. The same is true of electro-cleaning.

Electroplating requires a prepared surface. In practice, this surface preparation is governed, for example, by ASTM B322. One of the processes used to clean the electroplated surface is electro-cleaning. The process of electro-cleaning is immerse the piece as an anode in an appropriate solution such as an alkaline salt in an electrolytic cell and to apply a direct current such as described in U.S. Patent No. 2,803,596 issued to Brown.

A similarly in conventional electroplating the piece is immersed in a suitable solution, such as a metal salt, and attached to the cathode. The anode is either soluble to

replace the metal ions depleted from the solution by deposition, or insoluble and the solution is replenished. The conventional process requires a current density and extended time to effectively clean and plate the piece. A continuous process and apparatus is disclosed in U.S. Patent No. 2,392,687 issued to Nachtman. In this process, a pair of rollers, journaled in current conducting bearings, contacts the wire. The wire passes through a tubular electrode and a solution is circulated through the apparatus. However, mechanism, including rotating the anode, to apply electrical current to the electrolytic cell is cumbersome and impractical in an industrial setting.

SUMMARY OF THE INVENTION The present invention provides continuous electro- cleaning, pickling and electroplating apparatus. The apparatus cleans and electroplates round metal pieces, tubes or wire. For convenience and without limiting the intended use, the piece will be referred to as wire. The electro- cleaning and plating portions of the apparatus function separately or in combination.

The electro-cleaning and pickling apparatus provides at least two elongate tubes, however in the preferred embodiment a plurality of elongate tubes are connected together. Each elongate tube is an electrode for the cleaning. A current in the preferred embodiment is applied to the elongate tube that is electrically conductive. In the preferred embodiment, each

elongate tube has at least one electrically conductive contact. An appropriate electro-cleaning solution is continuously circulated through a feed tube and removed through a drain tube in each elongate tube. The flow of the solution is controlled by a valve on the feed tube. The wire is centrally located to permit cleaning around the wire as it travels through the bank of elongate tubes. In the preferred embodiment, the tubes have a connecting member that is electrically nonconductive . The connecting member is presently preferably manufactured of plastic. In the presently preferred embodiment, the elongate tubes have a flange generally adjacent to the opposing ends of each elongate tube to be connected. The connecting member receives the elongate tubes, dowels with threaded apertures, and bolts. The electroplating portion of the apparatus similarly has electrically conductive elongate tubes. An appropriate solution is continuously circulated through the elongate tubes. However, the elongate tubes are joined with a connecting member that is electrically non conductive. The connecting member is similarly constructed to receive and secure elongate tubes along the longitudinal axis of the apparatus. The connecting member also has cavities to receive electrodes that are in contact with the round wire to be electroplated, a support portion to prevent deflection of the wire to be electroplated and a cavity connected to a drain tube .

The cleaning and electroplating within the elongate tubes allows a uniform cleaning and plating. An additional advantage is that the apparatus allows for the use of a higher current density due to the configuration of the wire and the elongate tubes. The high current density reduces the time for the processes .

OBJECTS OF THE INVENTION

It is, therefore, one of the primary objects of the present invention to provide a continuous electro-cleaning, pickling and electroplating apparatus in which the cleaning and plating functions can be used separately or in combination .

Another object of the present invention is to provide a continuous electro-cleaning, pickling and plating method. Still another object of the present invention is to provide an electro-cleaning, pickling and electroplating apparatus that uses a higher current density than conventional cleaning and plating apparatus .

Yet another object of the present invention is to provide an electro-cleaning and plating apparatus that is more rapid than the conventional process.

An additional object of the present invention is to provide an improved generally uniform cleaning, pickling and plating apparatus and process. In addition to the various objects and advantages of the present invention described with some degree of specificity

above it should be obvious that additional objects and advantages of the present invention will become more readily apparent to those persons who are skilled in the relevant art from the following more detailed description of the invention, particularly, when such description is taken in conjunction with the attached drawing figures and with the appended claims .

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a truncated side elevational view of a length of tube along the longitudinal axis.

Figure 2 is a front elevational plan view of the flange. Figure 3 is a top plan view of the connector in the cleaning and pickling portion of the apparatus.

Figure 4 is the front elevational plan view of the connector cleaning and pickling portion of the apparatus.

Figure 5 is a top plan view of the connector in the electroplating portion of the apparatus .

Figure 6 is a partly in sectional front elevational view of the connector in the electroplating portion of the apparatus.

Figure 7 is a front plan view of the flange in the assembled apparatus .

Figure 8 is a sectional view of the connector in the electroplating portion of the apparatus along line A-A of Figure 7.

Figure 9 is a top plan view of dowel.

Figure 10 is an elevational plan view of dowel.

Figure 11 is a front elevational plan view of support and tube .

Figure 12 is a front elevational plan view of support, return drain tube and elongate tube.

Figure 13 is a front elevational plan view of support, supply tube and elongate tube.

Figure 14 is a front elevational plan view of drain, return tube and support . Figure 15 is a partial side elevational view of the assembled electro-cleaning and electroplating apparatus.

BRIEF DESCRIPTION OF A PRESENTLY PREFERRED AND VARIOUS ALTERNATIVE

EMBODIMENTS OF THE INVENTION

Prior to proceeding to the more detailed description of the present invention it should be noted that, for the sake of clarity and understanding, identical components that have identical functions have been identified with identical reference numerals throughout the several views illustrated in the drawing figures .

Reference is now made, more particularly, to Figure 1 and the elongate tube 10. The electro-cleaning, pickling portion of the apparatus has at least two elongate fluid impermeable tubes having end covers 20 attached generally adjacent to the first of the at least two elongate tubes 10 and a second cap 20 attached to the end of at least one elongate tubes. In the preferred embodiment the end cover is part of a flange as

shown in Figure 2. Each of the end covers has an aperture 21 slightly greater than the diameter of the wire. The preferred embodiment has a plurality of elongate tubes 10. Each of the elongate tubes has electrically conductive contacts 22 applying a current, including alternating polarities. Each of the elongate tubes has a feed tube 23 as shown in Figure 13 and drain tube 24 as shown in Figure 12 in fluid communication with the elongate tube 10.

The plurality of elongate tubes are joined to a connecting member and the ends of the elongate tubes are connected to the connecting member by a connecting means . The connecting member 30 is shown in Figures 3 and 4. The connecting member 30 has an aperture 31 through the connecting member along the longitudinal axis . In the preferred embodiment the aperture at opposing surfaces of connecting member 30 have a diameter slightly larger than the outside diameter of elongate tubes 10. At predetermined depth, the diameter is reduced. The elevation of the aperture 31 is approximately the same as the center of the elongate tubes 10. The connecting member 30 has apertures 32 along the longitudinal axis. In the preferred embodiment there are four apertures 32. The connecting member 30 also has vertical apertures 33 aligned to intersect the longitudinal apertures 32. The preferred embodiment has connecting means that includes is a flange 20 generally adjacent to each opposing

end of the tubes to be connected. A pattern of flange apertures 25 is located at predetermined locations corresponding to an axially aligned with longitudinal connecting member apertures 32. Figure 9 shows the partial plan view through the top surface of connecting member 30 showing the intersection with one of the longitudinal axis apertures 32. A dowel 40 shown in Figure 10 has a pair of apertures 41 that are threaded and have predetermined diameter. The predetermined diameter accommodates a threaded bolt (not shown) . The dowel 40 is inserted into vertical apertures 33 with the threaded apertures 41 generally aligned along the longitudinal axis of apertures 32. Bolts are inserted through the flange apertures 25 and are received by dowel apertures 41. The bolts are snugged connecting elongate tubeslO to connecting member 30.

Another embodiment has a threaded male end of elongate tube 10 and a female threaded aperture 31. The female end of an elongate tube is receives by the male end the elongate tube to be connected. The tubes are then snugged together. In the preferred embodiment, one or more banks of elongate tubes are connected axially along the longitudinal axis of the apparatus.

An appropriate solution used in conventional electro- cleaning, such as an alkaline salt, is continuously circulated in each tube. The flow is controlled by valve 25.

The wire to be cleaned is threaded through the aperture of the first elongate tube and exits through the aperture in the end cover of the last elongate tube. The wire can be rolled on to a take up reel or proceed to the plating portion of the apparatus .

The preferred embodiment as shown in Figures 11-15 has support members 41 to maintain the bank of a plurality of elongate tubes at an elevation. The preferred embodiment has an electrically non conductive material 42 such as a plastic between the elongate tube and the support member. Another embodiment is to include an electrically non conductive tube (not shown) with a diameter somewhat greater than the diameter of the elongate tubes. The elongate tubes 10 each have a feed tube 23 and a drainage tube 24 in fluid communication with each other.

The plating portion of the apparatus similarly has elongate tubes 20 with end covers 20 at each end. The apertures have a diameter slightly greater than the diameter of the wire to be electroplated. The preferred embodiment has a plurality of elongate tubes 10. The elongate tubes 10 are connected by a connecting member 50.

The connecting member 50 as shown in Figure 5-8 has a first cavity 55 and a second cavity 55 in the top surface of the connecting member for electrodes. A third cavity 56 in the bottom surface of the connecting member is in fluid communication with the first 54 and second cavities 55. The

connecting member 50 has a support portion 57 of with an elevation that is generally the center of the elongate tubes 10. The electrodes (not shown) are received in the first cavity 54 and the second cavity 55 on opposing sides of the support portion 57 press on the wire. The support member minimizes deflection of the wire and holds the wire in a generally straight line along the longitudinal axis of the apparatus. The electrodes in the electroplating portion are cathodes. A direct current is preferably applied to the electrodes .

The connecting member 50 has an aperture 51 through the connecting member along the longitudinal axis . In the preferred embodiment the aperture at opposing surfaces of connecting member 50 have a diameter slightly larger than the outside diameter of elongate tubes 10. At predetermined depth, the diameter is reduced. The elevation of the aperture 51 is approximately the same as the center of the elongate tubes 10.

The preferred embodiment connecting means for connecting the elongate tubes 10 to the connecting member 50 between said elongate tubes 10 is similar to the means described for the electro-cleaning and pickling portion of the apparatus . The elongate tubes 10 have a flange 20 generally adjacent to the opposing ends of tubes to be connected. In the preferred embodiment there are four apertures 52 in the connecting member. The connecting member also has vertical apertures 53 aligned to intersect the longitudinal apertures 52.

The preferred embodiment has connecting means that includes is a flange 20 generally adjacent to each opposing end of the tubes to be connected. A pattern of flange apertures 25 is located at predetermined locations corresponding to an axially aligned with longitudinal connecting member apertures 52. Figure 9 shows the partial plan view through the top surface of connecting member 50 showing the intersection with one of the longitudinal axis apertures 52. A dowel 40 shown in Figure 10 has a pair of apertures 41 that are threaded and have predetermined diameter. The predetermined diameter accommodates a threaded bolt (not shown) . The dowel 40 is inserted into vertical apertures 33 with the threaded apertures 41 generally aligned along the longitudinal axis of apertures 52. Bolts are inserted through the flange apertures 25 and are received by dowel apertures 41. The bolts are snugged connecting elongate tubeslO to connecting member 50.

Another embodiment has a threaded male end of elongate tube 10 and a female threaded aperture 51. The female end of an elongate tube is receives by the male end the elongate tube to be connected. The tubes are then snugged together.

In the preferred embodiment, one or more banks of elongate tubes are connected axially along the longitudinal axis of the apparatus.

An appropriate solution used in conventional electroplating, such as a metal salt, is continuously circulated in each tube. The flow is controlled by valve 25.

The wire to be electroplated is threaded through the aperture 21 of the first elongate tube 10 and exits through the aperture 21 in the end cover 20 of the last elongate tube 10. The wire can be rolled on to a take up reel.

The preferred embodiment as shown in Figures 11-15 has support members 41 to maintain the bank of a plurality of elongate tubes at an elevation. The preferred embodiment has an electrically non conductive material 42 such as a plastic between the elongate tube and the support member. Another embodiment is to include an electrically non conductive tube (not shown) with a diameter somewhat greater than the diameter of the elongate tubes. The elongate tubes 10 each have a feed tube 23 and a drainage tube 24 in fluid communication with each other.

The method to electro-clean and pickle is inserting the wire into the apparatus through an end cover aperture with a diameter slightly larger than the wire of an electrically conductive tube, circulating continuously an appropriate fluid through and electrically conductive elongate tube, applying a current, including alternating polarities, to the elongate tubes and removing the wire from the apparatus through a aperture in the end cover of the last elongate tube in a continuous process.

The method to electroplate is inserting the wire into the apparatus through an aperture in the end cover of and elongate tube; continuously circulating an appropriate fluid through the elongate tube, applying current to the electrodes in contact with the wire where the elongate tube is an anode and removing the wire from the apparatus through and aperture in the end cover of the elongate tube in a continuous process.

The apparatus and method to electro-clean and pickle and to electroplate can be used electro-clean, pickle or electroplate separately or in combination.

While a presently preferred and various alternative embodiments of the present invention have been described in sufficient detail above to enable a person skilled in the relevant art to make and use the same it should be obvious that various other adaptations and modifications can be envisioned by those persons skilled in such art without departing from either the spirit of the invention or the scope of the appended claims .