Energy-saving process for architectural anodizing
First Claim
1. A method for architectural anodizing at least one aluminum or aluminum alloy article comprising the steps of:
- immersing said article in an electrolyte composed of an aqueous solution of an acid;
applying for a time interval across said article and a cathode a DC voltage component with a superimposed AC voltage component, the positive potential of the DC voltage component being applied to said article and the negative potential of the DC voltage component being applied to said cathode;
said DC voltage component having a value during at least a portion of said time interval substantially in the range of 6-10 volts, said value being the highest DC voltage applied during said time interval to said article,said DC voltage component with a superimposed AC voltage component being generated with three star-connected one-phase transformers, each transformer having a primary winding and a secondary winding, a first side of all secondary windings of said three one-phase transformers being star-connected to form a central point of secondary windings, and magnetic fields of said windings being decoupled, each field being enclosed in a magnetic core of its own transformer,each transformer being coupled with an individual voltage control device at a first side of the transformer primary winding, said voltage control device being a saturable core reactor,each transformer being connected with a rectifying circuit element at a second side of the transformer secondary winding,two of said three transformers having their secondary windings used exclusively for supplying voltage to said rectifying circuit elements, the first side of said windings being connected to the central point of secondary windings and the second side being connected only to the corresponding rectifying element, said windings being called ordinary windings, and for the secondary winding of the third transformer, the first side of said winding being connected to the central point of secondary windings and the second side being connected to the corresponding rectifying element and to said cathode as well, said winding being also used for supplying an AC voltage component to said aluminum article, said winding being called an unbalancing winding.
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Abstract
A method for low-voltage architectural anodizing of aluminum and aluminum alloy articles by using a direct anodizing current ranging for different machines from 10 kA up to 50 kA and more, plus a superimposed alternating current of industrial frequency. The combination of DC and AC reduces the DC voltage component across the tank to less than 10 VDC thus cutting the power consumption in the tank to half of the usual consumption in the straight DC anodizing. The resonant DC+AC power supply to feed the architectural anodizing machine is derived from the power supply claimed in the U.S. Pat. No. 4,170,739, by employing three one-phase transformers instead of one three-phase transformer, and three one-phase saturable core reactors instead of one three-phase saturable core reactor as a voltage control device. Magnetic cores of all transformers and saturable core reactors are therefore decoupled making it possible to supply the tank with the required level of the direct current component.
13 Citations
9 Claims
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1. A method for architectural anodizing at least one aluminum or aluminum alloy article comprising the steps of:
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immersing said article in an electrolyte composed of an aqueous solution of an acid; applying for a time interval across said article and a cathode a DC voltage component with a superimposed AC voltage component, the positive potential of the DC voltage component being applied to said article and the negative potential of the DC voltage component being applied to said cathode; said DC voltage component having a value during at least a portion of said time interval substantially in the range of 6-10 volts, said value being the highest DC voltage applied during said time interval to said article, said DC voltage component with a superimposed AC voltage component being generated with three star-connected one-phase transformers, each transformer having a primary winding and a secondary winding, a first side of all secondary windings of said three one-phase transformers being star-connected to form a central point of secondary windings, and magnetic fields of said windings being decoupled, each field being enclosed in a magnetic core of its own transformer, each transformer being coupled with an individual voltage control device at a first side of the transformer primary winding, said voltage control device being a saturable core reactor, each transformer being connected with a rectifying circuit element at a second side of the transformer secondary winding, two of said three transformers having their secondary windings used exclusively for supplying voltage to said rectifying circuit elements, the first side of said windings being connected to the central point of secondary windings and the second side being connected only to the corresponding rectifying element, said windings being called ordinary windings, and for the secondary winding of the third transformer, the first side of said winding being connected to the central point of secondary windings and the second side being connected to the corresponding rectifying element and to said cathode as well, said winding being also used for supplying an AC voltage component to said aluminum article, said winding being called an unbalancing winding. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for architectural anodizing at least one aluminum or aluminum alloy article comprising the steps of:
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immersing said article in an electrolyte composed of an aqueous solution of an acid; applying for a time interval across said article and a cathode a DC voltage component with a superimposed AC voltage component, the positive potential of the DC voltage component being applied to said article and the negative potential of the DC voltage component being applied to said cathode; said DC voltage component having a value during at least a portion of said time interval substantially in the range of 6-10 volts, said value being the highest DC voltage applied during said time interval to said article, said DC voltage component with a superimposed AC voltage component being generated with three star-connected one-phase transformers, each transformer having a primary winding and a secondary winding, a first side of all secondary windings of said three one-phase transformers being star-connected to form a central point of secondary windings, and magnetic fields of said windings being decoupled, each field being enclosed in a magnetic core of its own transformer, each transformer being coupled with an individual voltage control device at a first side of the transformer primary winding, said voltage control device being a saturable core reactor, each transformer being connected with a first terminal of a rectifying circuit element at a second side of the transformer secondary winding, a second terminal of each rectifying circuit element being connected to a common point, two of said three transformers having their secondary windings used exclusively for supplying voltage to said rectifying circuit elements, the first side of said secondary windings being connected to the central point of secondary windings and the second side being connected only to the corresponding rectifying element, said windings being called ordinary windings, and for the secondary winding of the third transformer, the first side of said winding being connected to the central point of secondary windings and the second side being connected to the corresponding rectifying element and to said cathode as well, said winding being also used for supplying an AC voltage component to said aluminum article, said winding being called an unbalancing winding, said AC voltage component across said aluminum article and the cathode being generated by connecting said article to the common point of the rectifying circuit elements, said common point having a positive DC potential in respect to said electrolyte, and by connecting said cathode to the second side of the unbalancing winding, and said aluminum article being also connected to one terminal of a capacitor, the second terminal of said capacitor being connected to said central point of secondary windings.
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Specification