Claims
- 1. A control system for welding, which comprises:
- (a) a voltage sensor for detecting the voltage V.sub.c between a pair of welding electrodes between which members to be welded are pinched while a welding current is flowing;
- (b) a base voltage presetting circuit for previously setting a desired base voltage V.sub.o ;
- (c) an integrator for integrating the difference between the voltage V.sub.c detected by said voltage sensor and the base voltage V.sub.o preset in said base voltage presetting circuit with respect to welding time only when each half-wave peak valve of the detected voltage V.sub.c exceeds the base voltage V.sub.o ;
- (d) a reference voltage generator for generating a series of predetermined reference welding voltages based on a reference voltage integration curve with respect to welding time;
- (e) a differential amplifier which compares the voltage V.sub.c detected by said voltage sensor with the voltage based on the reference voltage integration curve and outputs a control signal V.sub.d in response to the difference between the two voltages;
- (f) a current controller for controlling the welding current in the manner of firing phase angle;
- (g) a current sensor for detecting the welding current from said current controller;
- (h) a memory for storing initial firing phase angle values and for storing the preceding firing phase angle of the welding current detected by said current sensor; and
- (i) a calculating unit for calculating an appropriate firing phase angle depending on an output signal V.sub.d from the differential amplifier and a signal from said memory and for outputting the calculated result to said current controller;
- whereby the welding voltage between the electrodes is controlled by changing the firing phase angle of the welding current, in accordance with the predetermined reference voltage integration curve, so as to obtain a stable welding quality.
- 2. A control system for welding as set forth in claim 1, which further comprises:
- (a) a peak voltage holding circuit for holding each half-wave peak value of the detected voltage for a half cycle, disposed between said voltage sensor and said integrator; and
- (b) a current-time controller for outputting a start-stop signal to said current controller and for outputting a start signal T.sub.p to said reference voltage generator, said memory, and said voltage peak-value holding circuit,
- whereby the system is controlled with a time delay at the start so as to prevent initial erroneous operation.
- 3. A control method of welding, which comprises:
- (a) detecting the voltage V.sub.c between a pair of welding electrodes between which members to be welded are pinched and through which an AC welding current is flowing;
- (b) setting a base voltage V.sub.o ;
- (c) integrating the voltage difference between the detected voltage V.sub.c and the base voltage V.sub.o only when each half-wave peak value of the detected voltage V.sub.c exceeds the level voltage V.sub.o,
- (d) generating a series of predetermined reference welding voltages based on a reference voltage integration curve with respect to time measured in cycles of the welding current;
- (e) comparing the voltage difference between the integrated voltage and the predetermined reference voltage integration curve;
- (f) detecting the welding current;
- (g) storing the preceding firing phase angle of the detected welding current;
- (h) calculating an appropriate firing phase angle depending on the voltage difference V.sub.d between the integrated voltage and the predetermined reference voltage integration curve, and the stored preceding firing phase angle of the welding current; and
- (i) controlling the welding current in accordance with the calculated results,
- whereby the welding voltage between the electrodes is controlled, by changing the firing phase angle of the welding current, in accordance with the predetermined reference voltage integration curve so as to obtain a stable welding quality.
- 4. A control method of welding as set forth in claim 3, which further comprises:
- (a) holding each half-wave peak value of the detected voltage for a half-cycle before comparison of the voltages;
- (b) outputting a start-stop signal for synchronization;
- (c) storing initial firing phase angles of the welding current for calculating the initial welding current; and
- (d) correcting the reference voltage integration curve according to the detected firing phase angle.
Parent Case Info
This is a division of application Ser. No. 177,363, filed Aug. 11, 1980, now abandoned.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
3068350 |
Archer |
Dec 1962 |
|
3582967 |
Beckman et al. |
Jun 1971 |
|
Foreign Referenced Citations (3)
Number |
Date |
Country |
1113767 |
Sep 1961 |
DEX |
2346561 |
Aug 1975 |
DEX |
590107 |
Jan 1978 |
SUX |
Non-Patent Literature Citations (1)
Entry |
"Soviet Inventions Illustrated," dated Jan. 24, 1979, pp. 26 and 27 of the section Metallurgy. |
Divisions (1)
|
Number |
Date |
Country |
Parent |
177363 |
Aug 1980 |
|