Patent application number | Description | Published |
20120126780 | RESISTANCE WELDING METHOD, RESISTANCE WELDER, AND METHOD AND DEVICE FOR EVALUATING RESISTANCE WELDING - This invention aims to provide a resistance welding method capable of stabilizing quality or improving efficiency of resistance welding such as spot welding. This resistance welding method comprises a calculating step of calculating resistance ratio X of a second electric resistance value R | 05-24-2012 |
20120248086 | RESISTANCE WELDING METHOD, RESISTANCE-WELDED MEMBER AND CONTROL APPARATUS FOR RESISTANCE WELDER, RESISTANCE WELDING EVALUATION METHOD, AND RESISTANCE WELDING EVALUATION PROGRAM - In a resistance welding method, by controlling the power amount from a melting start time onward, the weld quality may be stabilized efficiently, even when a disturbance is present, because of the correlation between the amount of power input from the melting start start time and a resulting nugget. The resistance welding method includes: pressing an electrode against a workpiece; inputting power to the workpiece through the electrode to subject the workpiece to Joule heating; detecting the melting start time, which is the time at which at least a portion of the faying portion of a workpiece starts to melt when subjected to Joule heating; calculating a first power amount input into the workpiece from the melting start time; and determining whether the first power amount has reached a first set value; and continuing the Joule heating until the first power amount reaches the first set value. | 10-04-2012 |
20120295125 | WELDED STRUCTURE AND WELDING METHOD - Disclosed are a welded structure and a welding method which make it possible to improve welding strength and welding quality. A welded structure in which a first member and a second member are joined by means of welding, wherein the first member comprises a second-member joining part which is joined to the second member, and the second member comprises a first-member joining part which is joined to the first member. If the direction in which the first member and the second member are arranged is the first direction, and the direction intersecting the first direction is the second direction, welded parts are provided at least at both ends in the second direction of the joining surface where the first member and the second member are joined. The first member is such that the second-member joining part and a linking part which connects to the second-member joining part are arranged in succession from the joining surface in the first direction, and the dimensions of the second-member joining part are greater than the dimensions of the linking part in a third direction perpendicular to the first direction. | 11-22-2012 |
20130195545 | WELDING STRUCTURE - A welding structure includes: an annular ring gear including a gear portion and a gear joint; and a case including a case joint joined to the gear joint, the welding structure being configured to fix the ring gear to the case by welded portions formed on both ends in an axial direction of the ring gear so that a gear-side weld surface of the gear joint and a case-side weld surface of the case joint are welded to each other. In the welded portion on at least one side in the axial direction is placed more outside than a gear end face of the gear portion in the axial direction. Alternatively, in the welded portion on at least one side in the axial direction, the gear-side weld surface and the case-side weld surface are inclined with respect to the axial direction. | 08-01-2013 |
20130299469 | DOUBLE SIDED WELDING METHOD - When welding from both sides of a weld part where a first member and a second member, which are the objects being joined, face each other is performed by first welding performed from one side and second welding performed from the other opposite side from that first welding, heat quantity adjustment, that adjusts the quantity of heat input to the weld part for the second welding, which is performed after the first welding, is carried out such that an amount of welding distortion that is the objective arises. | 11-14-2013 |
20140042126 | METHOD FOR DETECTING BUTT POSITION OF WELD JOINT, DEVICE FOR DETECTING BUTT POSITION OF WELD JOINT, AND METHOD FOR MANUFACTURING WELD JOINT - It is a task of the present application to provide a butt position detecting method for a weld joint and a butt position detecting device for a weld joint that can detect a position of a butt portion between both members with high accuracy while reducing costs, and a manufacturing a weld joint that carries out the butt position detecting method. Thus, according to one aspect of the invention, in a butt position detecting method for a weld joint, when an arrangement direction of a first member and a second member is defined as a first direction, and a direction that is perpendicular to the first direction is defined as a second direction, the first member has a corner portion and a chamfer portion, and a two-dimensional displacement sensor is arranged at a position offset from the butt portion toward the first member side in the first direction, and such that an angle θs at which the second direction and an optical axis direction of irradiation light of the two-dimensional displacement sensor intersect with each other and an angle θa at which the second direction and a formation direction of the chamfer portion of the first member intersect with each other satisfy a condition expression: 0°<θs<θa. | 02-13-2014 |
20140042208 | METHOD AND APPARATUS FOR MANUFACTURING VEHICLE POWER TRANSMISSION DEVICE - A method for manufacturing a vehicle power transmission device having a case and a ring gear fitted to the outer peripheral surface of the case to transmit drive power from a drive source. The method includes: a welding step in which an annular flange is provided on the case or the ring gear and butt welding is performed by lapping a weld bead along the contact portion of one side surface of the annular flange and the case or the ring gear; a measurement step in which the outline of the other side surface of the annular flange placed in close proximity to the one side surface are measured; and an evaluation step in which a weld condition is evaluated based on part of the outline, which is determined in the measurement step, of a portion corresponding to the lapping portion of the weld bead. | 02-13-2014 |
20140083191 | JOINT STRUCTURE BY WELDING AND WELDING QUALITY INSPECTION METHOD THEREOF - A joint structure by welding includes a butted part between facing surfaces of a first member and a second member and two-stepped clearances adjacent to the butted part, and a weld bead that is melted from a joint of the butted part which is positioned on an opposite side of the two-stepped clearances into the two-stepped clearances is formed in the butted part by welding. Other parts than the butted part are spaced apart from each other between the facing surfaces, and when a width of the weld bead is assumed to be “A”, a width of a first level clearance of the two-stepped clearances that is adjacent to the butted part is assumed to be “B”, and a width of a second level clearance of the two-stepped clearances that is adjacent to the first level clearance is assumed to be “C”, the relation of “B | 03-27-2014 |
20140179482 | WELDING STRUCTURE AND METHOD FOR MANUFACTURING WELDING STRUCTURE - Assuming that a direction in which a first member and a second member are arranged is a first direction and a direction orthogonal to the first direction is a second direction, a welding structure includes: a pressure fit portion; a first cavity; a second cavity; a first weld bead formed between the first cavity and an end of a joining part of the first member and the second member on one side in the second direction by welding the first member and second member while the second cavity is communicated with outside; a second weld bead formed between the second cavity and an end of the joining part on the other side in the second direction; and a cutout groove communicating between the first cavity and the second cavity. | 06-26-2014 |
20140318250 | METHOD FOR INSPECTING WELD PENETRATION DEPTH - In a butt-welded joint structure in which the entire peripheral edge or both end sides of the abutting surface are welded, first and second cutouts for determining insufficient penetration and determining excessive penetration are formed. After butt welding, ultrasound is beamed onto each of the first and second cutouts of the joint structure and the reflected wave is measured. The acceptability of the weld penetration depth is thus determined on the basis of both of the reflected waves. This determination is performed on the entire peripheral edge portion or both end side portions of the butted face between the welded materials, and the acceptability of the weld penetration depth of the corresponding portions is inspected. | 10-30-2014 |