TH50752B - Resistance welding methods and equipment for resistance welding - Google Patents

Abstract

DC60 (02/2015) disclosed as a resistance welding method for welding of overlays of three or more jobs (50,52,54) and of method equipment, overlays (48) is given. Formation in such a way that the thinnest work (54) with the lowest thickness among the work (50,52,54) is arranged in the outermost position, the overlay (48) is is maintained between the first welding electrode (38) and the second welding electrode (32). The press assembly (46) is brought into contact with one of the The thinnest workpiece (54) differs from the location where the first welding electrode (38) is in contact, and the pressed assembly (46) is made to press the overlay (48) from the side. of the thinnest work (54) under which the pressure (F1+F3) exerted on the overlay (48) by the first welding electrode (38) and pressed assembly (46) is balanced. with the pressure (F2) exerted on the overlay (48) by the electrode. Second welding electrode (32), current is applied between first welding electrode (38) and second welding electrode (32). Resistance for welding stacks of three or more jobs (50,52,54) and method equipment, overlays (48) are formed in such a way that the thinnest work (54) available. The lowest thickness among the work (50,52,54) is arranged in the outermost position. The overlay (48) is maintained between the first welding electrode (38). and the second welding electrode (32). The press assembly (46) is brought in contact with one of the The thinnest workpiece (54) differs from the location where the first welding electrode (38) is in contact, and the pressed assembly (46) is made to press the stack (48) from the side. of the thinnest work (54) under which the pressure (F1+F3) exerted on the stack (48) by the first welding electrode (38) and the pressed assembly (46) is balanced. with the pressure (F2) exerted on the overlay (48) by the electrode. Second welding electrode (32), current is applied between first welding electrode (38) and second welding electrode (32) -------------- ---------------------------------------------------- ---------------------------------------------------- --------- disclosed as a resistance welding method for welding overlays of three jobs or More than (50,52,54) and equipment of the method Overlays (48) are formed in such a way that the work The thinnest (54) with the smallest thickness among the work (50,52,54) is placed in the outermost position. The overlay (48) is maintained between the electrodes. The first welding work (38) and The second welding electrode (32) press assembly (46) is brought into contact with one of the The thinnest work (54) differs from the location where the first welding electrode (38) is placed in The contact, and press assembly (46) is made to press the overlay (48) from the thinnest work side (54) under the state of pressure (F1+F3) acting on the overlay (48) by electronically. First welding electrode (38) and The press assembly (46) is balanced by the pressure (F2) exerted on the overlay (48) by the electrode. Second welding electrode (32), current is applied between first welding electrode (38) and working electrode. Second welding(32)

Claims (5)

Disclaimer (all) which will not appear on the announcement page: EDIT 02/02/2015 1. Resistance welding method for resistance welding. At least three workpieces, including the thinnest part With the smallest thickness that has been Placed on the outermost side of the stacking assembly, incorporating the steps of: clamping the stacking assembly with the first welding electrode and the second welding electrode, treatment. Pressed assembly, close to one area of the workpiece The thinnest, which differs from the area where the first welding electrode It has been clamped in the alignment, and the assembly is pressed. Perform the stacking assembly press from the side. Of the thinnest workpiece; And passing electricity between the first welding electrode And the second welding electrode, while the pressure exerted by the first welding electrode And the assembly presses onto the stacked assembly and the pressure exerted by the second welding electrode. To the assembly The overlays are maintained in equilibrium with each other. 2. The resistance welding method according to claim 1, where the pressed assembly is assembled. Auxiliary electrode, which has a polarity opposite to the first welding electrode, so that when Electric current is made to flow between the first welding electrode. And the second welding electrode, a separate current taken from the first welding electrode To the auxiliary electrode, or the isolated current taken from the auxiliary electrode To the first welding electrode Either will be made to happen. 3. Resistance welding equipment. For resistance welding, stacked assemblies Of at least three workpieces, including the thinnest With the smallest thickness at Arranged on the outermost side of the stacking assembly, including: welding gun including: first welding electrode That are aligned with the thinnest workpiece; Second welding electrode To clamp the stacked assembly in conjunction with the first welding electrode; And the press assembly, which is aligned with one area of the thinnest workpiece that Different from the area where the first welding electrode It is treated to the alignment, and where the stack assembly is pressed. From the side of the thinnest workpiece; Press mechanism, where pressure is provided for pressing the stacked assembly. Resist against press assembly pieces; And the way of control For the control of the pressing mechanism, where when an electric current is made to flow between the first welding electrode and the second welding electrode, the control path Will maintain the pressure, which will be First welding electrode And press assembly pieces To the stacked assembly, and the pressure exerted by the second welding electrode To the stacked assembly, it is in balance with each other. 4. Resistance welding equipment. In accordance with claim 3, the following includes: a robot supporting a welding gun, by a pressing mechanism, is mounted on the welding gun. 5. Resistance welding equipment. According to claim 3 or No. 4, where the assembly is pressed It consists of an auxiliary electrode, which is polarity opposite to the first welding electrode, so that when the current is distant between the first welding electrode, And work electrode Second welding, a separate electric current is taken from the first welding electrode. To the auxiliary electrode, or the isolated current taken from the auxiliary electrode To the work electrode One weld will be made to happen -------------------------------------------------- -------------------------------------------------- --- 1.Resistance welding method for resistance welding. At least three workpieces, including the thinnest part With the smallest thickness that has been Placed on the outermost side of the stacking assembly, incorporating the steps of: clamping the stacking assembly with the first welding electrode and the second welding electrode, treatment. Pressed assembly, close to one area of the workpiece The thinnest, which differs from the area where the first welding electrode It has been clamped in the alignment, and the assembly is pressed. Perform the stacking assembly press from the side. Of the thinnest workpiece; And passing electricity between the first welding electrode And the second welding electrode, while the pressure exerted by the first welding electrode And the assembly presses onto the stacked assembly and the pressure exerted by the second welding electrode. To the assembly Overlays are maintained in balance with each other. 2. The method of resistance welding according to claim 1, where the press assembly is assembled. Auxiliary electrode, which has a polarity opposite to the first welding electrode, so that when Electric current is made to flow between the first welding electrode. And the second welding electrode, a separate current taken from the first welding electrode To the auxiliary electrode, or the isolated current taken from the auxiliary electrode To the first welding electrode One will be made to happen 3. Resistance welding equipment For resistance welding, stacked assemblies Of at least three workpieces, including the thinnest With the smallest thickness at Arranged on the outermost side of the stacking assembly, including: welding gun including: first welding electrode That are aligned with the thinnest workpiece; Second welding electrode To clamp the stacked assembly in conjunction with the first welding electrode; And the press assembly, which is aligned with one area of the thinnest workpiece that Different from the area where the first welding electrode It is treated to the alignment, and where the stack assembly is pressed. From the side of the thinnest workpiece; Press mechanism, where pressure is provided for pressing the stacked assembly. Resist against press assembly pieces; And the way of control For the control of the pressing mechanism, where when an electric current is made to flow between the first welding electrode and the second welding electrode, the control path Will maintain the pressure, which will be First welding electrode And press assembly pieces To the stacked assembly, and the pressure exerted by the second welding electrode To the stacked assembly, it is in balance with each other. 4.Resistance welding equipment According to claim 3, which includes the following: a robot supporting a welding gun, with a pressing mechanism installed on the welding gun. 5.Resistance welding equipment According to claim 3 or No. 4, where the assembly is pressed It consists of an auxiliary electrode, which is polarity opposite to the first welding electrode, so that when the current is distant between the first welding electrode, And work electrode Second welding, a separate electric current is taken from the first welding electrode. To the auxiliary electrode, or the isolated current taken from the auxiliary electrode To the work electrode One weld will be made to happen