Fusing methods and apparatus for use in making dynamo-electric machines
First Claim
1. Apparatus for performing a fusing operation which includes fusing a first electrical conductor to a second electrical conductor by applying force and heat to at least one of said conductors, said force being applied by a fusing electrode, said heat being generated by electrical power passing through an electrical circuit that includes at least a portion of said fusing electrode in series with at least a portion of said at least one of said conductors, said apparatus comprising:
- means for measuring the electrical resistance of said circuit during said fusing operation; and
means responsive to said means for measuring for controlling at least one parameter of said fusing operation based at least in part on the electrical resistance measured by said means for measuring and a predetermined electrical delivery function to regulate said force and heat so that at least one of said conductors is softened, insulation on a portion of one of said conductors is vaporized, at least one of said conductors is deformed to be in intimate contact with the other, and both of said conductors are bonded together, said heat being applied continuously while at least one of said conductors is softened, said insulation is vaporized, and at least one of said conductors is deformed and bonded.
3 Assignments
0 Petitions
Accused Products
Abstract
In the performance of fusing operations which involve the application of force and heat to a workpiece, the heat being generated at least in part by electrical resistance heating resulting from passage of an electrical current through an electrical circuit which includes the workpiece and typically also a fusing electrode, the fusing cycle is controlled at least in part on the basis of measurements of the resistance of the above-mentioned circuit during the fusing operation. If desired, the resistance measurements may be corrected to eliminate or at least substantially reduce the contribution of electrode resistance so that the fusing operation is controlled on the basis of the resistance of the workpiece.
23 Citations
11 Claims
-
1. Apparatus for performing a fusing operation which includes fusing a first electrical conductor to a second electrical conductor by applying force and heat to at least one of said conductors, said force being applied by a fusing electrode, said heat being generated by electrical power passing through an electrical circuit that includes at least a portion of said fusing electrode in series with at least a portion of said at least one of said conductors, said apparatus comprising:
-
means for measuring the electrical resistance of said circuit during said fusing operation; and means responsive to said means for measuring for controlling at least one parameter of said fusing operation based at least in part on the electrical resistance measured by said means for measuring and a predetermined electrical delivery function to regulate said force and heat so that at least one of said conductors is softened, insulation on a portion of one of said conductors is vaporized, at least one of said conductors is deformed to be in intimate contact with the other, and both of said conductors are bonded together, said heat being applied continuously while at least one of said conductors is softened, said insulation is vaporized, and at least one of said conductors is deformed and bonded. - View Dependent Claims (2, 3, 4)
-
-
5. Apparatus for performing a fusing operation which includes fusing a first electrical conductor to a second electrical conductor by applying force and heat to at least one of said conductors, said force being applied by a fusing electrode, and said heat being generated by passing electrical power through an electrical circuit that includes at least a portion of said fusing electrode in series with at least a portion of said at least one of said conductors, said apparatus comprising:
-
means for measuring the electrical resistance of said circuit during said fusing operation; means for correcting the electrical resistance measured by said means for measuring to substantially eliminate any contribution to said measured electrical resistance which is due to resistance of portions of said circuit other than said conductors; and means responsive to said means for correcting for controlling the power passing through said circuit so that a predetermined amount of power is dissipated in said conductors by resistance heating of said conductors.
-
-
6. In a method for fusing a first electrical conductor to a second electrical conductor by applying force and heat to a spot on at least one of said conductors, said force being applied by a fusing electrode, and said heat being generated by electrical power passing through an electrical circuit that includes at least a portion of said fusing electrode in series with at least said spot, the improvement comprising the step of:
applying said electrical power to said circuit as a succession of a plurality of pulses separated by time intervals during which substantially no electrical power is applied to said circuit.
-
7. In a method for performing a fusing operation which includes fusing a first electrical conductor to a second electrical conductor by applying force and heat to at least one of said conductors, said force being applied by a fusing electrode, and said heat being generated by electrical power passing through an electrical circuit that includes at least a portion of said fusing electrode in series with at least a portion of said at least one of said conductors, the improvement comprising the steps of:
-
measuring the electrical resistance of said circuit during said fusing operation; and controlling at least one parameter of said fusing operation based at least in part on the electrical resistance measured in said measuring step and a predetermined electrical delivery function to regulate said force and heat so that at least one of said conductors is softened, insulation on a portion of one of said conductors is vaporized, at least one of said conductors is deformed to be in intimate contact with the other, and both of said conductors are bonded together, said heat being applied continuously while at least one of said conductors is softened, said insulation is vaporized, and at least one of said conductors is deformed and bonded. - View Dependent Claims (8, 9, 10)
-
-
11. In a method for performing a fusing operation which includes fusing a first electrical conductor to a second electrical conductor by applying force and heat to at least one of said conductors, said force being applied by a fusing electrode, and said heat being generated by passing electrical power through an electrical circuit that includes at least a portion of said fusing electrode in series with at least a portion of said at least one of said conductors, the improvement comprising the steps of:
-
measuring the electrical resistance of said circuit during said fusing operation; correcting the electrical resistance measured in said measuring step to substantially eliminate any contribution to said measured electrical resistance which is due to resistance of portions of said circuit other than said conductors; and controlling the power passing through said circuit in response to the measured electrical resistance as corrected in said correcting step so that a predetermined amount of power is dissipated in said conductors by resistance heating of said conductors.
-
Specification