A method for controlling a brazing process, including the steps of applying a welding current through an electrode (52) pressed to a metal surface (83) of a workpiece to form a welding arc. Further steps are continuously measuring the welding current and the welding time, continuously determining su
A method for controlling a brazing process, including the steps of applying a welding current through an electrode (52) pressed to a metal surface (83) of a workpiece to form a welding arc. Further steps are continuously measuring the welding current and the welding time, continuously determining supplied energy on the basis of the welding current and the welding time, digitally switching current supplied from batteries of a DC source (10) and to maintain a substantially constant welding current, interrupting the supply of welding current when a predetermined amount of energy has been supplied and supplying heat to batteries when a temperature of the batteries is below a predetermined value. The apparatus comprises a control module (31) with a central unit (26)and a power control unit (28) wherein the central unit (26) and the control unit (28) are operatively connected for continuously measuring the welding current, a switched circuit module (12) producing a substantially constant welding current of a predetermined value and a first temperature transducer (36) provided in the vicinity of batteries included in the DC source (10). A heat transfer means (34; 70) is activated when the temperature of the batteries is below a predetermined value.
대표청구항▼
1. A method for controlling a brazing process, including the steps of applying a brazing current through an electrode pressed to a metal surface of a workpiece, and separating the electrode from the metal surface to form a welding arc, characterized by: continuously measuring the brazing current and
1. A method for controlling a brazing process, including the steps of applying a brazing current through an electrode pressed to a metal surface of a workpiece, and separating the electrode from the metal surface to form a welding arc, characterized by: continuously measuring the brazing current and time for brazing;continuously determining supplied energy on the basis of the brazing current and the brazing time;maintaining the brazing current to be substantially constant for the entire duration of the brazing process via digital switching of current supplied from a DC source, wherein a control structure is used comprising a power control unit and a switched circuit module connected to the DC source, the power control unit using measured value of the brazing current as an input and outputting pulse width modulation signals to the switched circuit module to maintain a predetermined current output of the switched circuit module and to correspondingly keep the brazing current substantially constant; andinterrupting supply of the brazing current when a predetermined amount of energy has been supplied. 2. The method of claim 1, further comprising the steps of: obtaining a first temperature value indicative of temperature of batteries included in the DC source so as to maintain an operative temperature of the batteries and to provide a required brazing current;determining the temperature of the batteries in relation to a predetermined temperature interval; andcontinuing or disabling brazing processes based on results of the determining step, wherein, when the temperature of the batteries is determined to be outside the predetermined temperature interval, the brazing processes are disabled, heat is supplied to the batteries, and the temperature is continuously determined until the temperature of the batteries is again within the predetermined temperature interval, whereat the brazing processes are again enabled. 3. The method of claim 1, wherein the brazing process is a pin brazing process, the method also including the step of mechanically advancing a brazing pin automatically toward a work piece surface during pin brazing to maintain a substantially constant distance between the brazing pin and the work piece surface while the brazing current is being applied. 4. The method of claim 1, also including the steps of: continuously measuring a stop time period after finalizing one brazing process; andturning off main power consumption when the stop time period exceeds a predetermined time period. 5. The method of claim 2, also including the step of disabling charging of the batteries when the temperature of the batteries is outside the predetermined temperature interval. 6. The method of claim 1, wherein the switched circuit module is part of a power unit that further comprises a diode and an inductor, each connected to the switched circuit module and opposing ends of output for the brazing current. 7. The method of claim 1, wherein the switched circuit module is a power MOSFET transistor. 8. The method of claim 1, further comprising a width modulator circuit connected to the power control unit and a driver connected between the width modulator circuit and the switched circuit module to amplify the pulse width modulation signals. 9. The method of claim 1, wherein load as seen from the DC source is resistive.
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