Control circuit for the current of a welding transformer
First Claim
1. A control circuit for controlling the current of a welding transformer suitable for use in an industrial robot, comprising two welding tongs (4,5) the first of which is clamped to a first one (11) of the workpieces (11, 12) to be joined by welding and the second (5) of which makes contact with the second workpiece (12) for initiating the welding operation, including means for automatically detecting contact between the second welding tong (5) and the second workpiece (12), and including a power supply (15) for the welding transformer (14, 6), characterized by(a) a high-frequency generator (1) for supplying measuring current to the secondary circuit (2) of the welding transformer,(b) an impedance meter (3) for high-frequency impedance measurement in a substantially isolated circuit coupled to the two welding tongs (4,5), which are disposed in parallel to the secondary winding (6) of the welding transfomer,(c) an additional impedance (7) for significantly increasing the impedance of the secondary circuit (2) of the welding transfomer in respect of high frequency while the impedance for the welding current remains substantially unaltered, said additional impedance being provided in series with the secondary winding (6) of said welding transfomer and the welding tongs (4, 5),(d) an interrupter circuit (8) for interrupting the welding current,(e) a comparator (9) for comparing the high-frequency voltage drop at the welding tongs (4, 5) with a preset desired value supplied by a reference voltage source (10), said comparator supplying to the interrupter circuit (8) an initiating signal for welding the two-workpieces (11,12) only when there is a differential signal which corresponds to complete contact between said second welding tong (5) and said second workpiece (12).
1 Assignment
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Accused Products
Abstract
The invention is directed to a control circuit for controlling the current of a welding transformer integrated in an industrial robot. For the purpose of achieving a simpler, more accurate and more reliable detection of contact between the welding tongs (4, 5) and the parts (11, 12) to be joined by welding, there are provided a high-frequency generator (1) for supplying measuring current to the secondary circuit (2) of the welding transformer, an impedance measuring circuit (3), an additional impedance (7) for increasing the impedance of the secondary current (2) to high frequency, an interrupter circuit (8) for interrupting the welding current, and a comparator for enabling the welding current merely in the presence of a differential voltage signal which corresponds to complete contacting of the two parts to be joined by welding.
8 Citations
6 Claims
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1. A control circuit for controlling the current of a welding transformer suitable for use in an industrial robot, comprising two welding tongs (4,5) the first of which is clamped to a first one (11) of the workpieces (11, 12) to be joined by welding and the second (5) of which makes contact with the second workpiece (12) for initiating the welding operation, including means for automatically detecting contact between the second welding tong (5) and the second workpiece (12), and including a power supply (15) for the welding transformer (14, 6), characterized by
(a) a high-frequency generator (1) for supplying measuring current to the secondary circuit (2) of the welding transformer, (b) an impedance meter (3) for high-frequency impedance measurement in a substantially isolated circuit coupled to the two welding tongs (4,5), which are disposed in parallel to the secondary winding (6) of the welding transfomer, (c) an additional impedance (7) for significantly increasing the impedance of the secondary circuit (2) of the welding transfomer in respect of high frequency while the impedance for the welding current remains substantially unaltered, said additional impedance being provided in series with the secondary winding (6) of said welding transfomer and the welding tongs (4, 5), (d) an interrupter circuit (8) for interrupting the welding current, (e) a comparator (9) for comparing the high-frequency voltage drop at the welding tongs (4, 5) with a preset desired value supplied by a reference voltage source (10), said comparator supplying to the interrupter circuit (8) an initiating signal for welding the two-workpieces (11,12) only when there is a differential signal which corresponds to complete contact between said second welding tong (5) and said second workpiece (12).
Specification