Consumable electrode DC arc welder
First Claim
1. A consumable electrode DC arc welder comprising:
- a DC power supply for providing a DC power;
an inverter for converting the DC power into high frequency power;
a transformer for transforming the high frequency power;
a DC-converter for converting the transformed high frequency power into DC power and providing the resulting DC power to a load consisting of a welding rod electrode of the welder and a workpiece to be wrought by the welder, said welding rod electrode and said workpiece being alternately short-circuited and separated from each other for arcing;
a voltage detection unit for providing a load-voltage representative signal related to a load voltage applied to the load;
a current detection unit for providing a load-current representative signal representing load current flowing through the load;
a load-current-variation detection unit receiving the load-current representative signal for detecting variations in the load current to provide a load-current-variation representative signal;
an operation-cycle-period detection unit receiving at least the load-voltage representative signal for detecting a period of an operation cycle consisting of the arcing and the short-circuiting and providing an operation-cycle-period representative signal; and
a control unit receiving the load-voltage representative signal, the load-current-variation representative signal, the operation-cycle-period representative signal, and a reference signal, for controlling the inverter such that the sum of the load-voltage representative signal, the load-current-variation representative signal and the operation-cycle-period representative signal can be equal to the reference signal.
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Accused Products
Abstract
DC power from a smoothing capacitor is converted into high frequency power by an inverter, and then lowered by an output transformer. The lowered high frequency power is converted into DC power by an output rectifier and a DC reactor, and then supplied to a load. The load is short-circuited and then opened to initiate arcing. The short-circuiting and the arcing alternate. An auxiliary rectifier provides a load-voltage representative signal, and a current detector detects a load current. A load-current representative signal is differentiated by a differentiation circuit. The signals from the auxiliary rectifier, the current detector and the differentiation circuit, and a reference signal are applied to an operational amplifier. A control circuit controls the inverter such that the output of the operational amplifier can be zero. An integration circuit receives at least the load-voltage representative signal to detect a period of a cycle consisting of the arcing and the short-circuiting and provide an operation-cycle-period representative signal to the operational amplifier.
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Citations
3 Claims
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1. A consumable electrode DC arc welder comprising:
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a DC power supply for providing a DC power; an inverter for converting the DC power into high frequency power; a transformer for transforming the high frequency power; a DC-converter for converting the transformed high frequency power into DC power and providing the resulting DC power to a load consisting of a welding rod electrode of the welder and a workpiece to be wrought by the welder, said welding rod electrode and said workpiece being alternately short-circuited and separated from each other for arcing; a voltage detection unit for providing a load-voltage representative signal related to a load voltage applied to the load; a current detection unit for providing a load-current representative signal representing load current flowing through the load; a load-current-variation detection unit receiving the load-current representative signal for detecting variations in the load current to provide a load-current-variation representative signal; an operation-cycle-period detection unit receiving at least the load-voltage representative signal for detecting a period of an operation cycle consisting of the arcing and the short-circuiting and providing an operation-cycle-period representative signal; and a control unit receiving the load-voltage representative signal, the load-current-variation representative signal, the operation-cycle-period representative signal, and a reference signal, for controlling the inverter such that the sum of the load-voltage representative signal, the load-current-variation representative signal and the operation-cycle-period representative signal can be equal to the reference signal. - View Dependent Claims (2, 3)
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Specification