A suction unit for applying suction for chips is mounted to an underside of a main body housing. The suction unit includes a cylindrical member for generating an airflow inside along a cylinder center line of the cylindrical member, and a chip guiding member having a chip suction port on a location closer to a lower communication hole of the main body housing and connected to an upstream side opening of the cylindrical member. The cylindrical member is connected to the chip guiding member with the cylinder center line thereof extending downward away from a rotation axis of a rotary holder.

After obtaining a rectangular parallelepiped piece in which a first base metal, a weld zone and a second base metal are arranged so as to be aligned in the longitudinal direction from a joint steel member, a portion of the weld zone is cut to provide a slit-shaped notch portion in the piece. A first conductive member is arranged above a surface of the piece that includes an edge on one side of the notch portion in the longitudinal direction, a second conductive member is arranged above a surface of the piece that includes an edge on the other side of the notch portion in the longitudinal direction, and the first and second conductive members are fixed to the piece. A gap between the first conductive member and the second conductive member in the longitudinal direction is set to a predetermined space. The first conductive member and the second conductive member are electrically connected to an external power supply, respectively, and a bending load is applied to the piece in a direction such that the notch portion closes. The bending load is removed once contact between the first conductive member and the second conductive member is electrically ascertained, and thereafter a fatigue precrack is formed at a tip of the notch portion to obtain a CTOD test specimen.

After obtaining a rectangular parallelepiped piece in which a first base metal, a weld zone and a second base metal are arranged so as to be aligned in the longitudinal direction from a joint steel member, a portion of the weld zone is cut to provide a slit-shaped notch portion in the piece. A first conductive member is arranged above a surface of the piece that includes an edge on one side of the notch portion in the longitudinal direction, a second conductive member is arranged above a surface of the piece that includes an edge on the other side of the notch portion in the longitudinal direction, and the first and second conductive members are fixed to the piece. A gap between the first conductive member and the second conductive member in the longitudinal direction is set to a predetermined space. The first conductive member and the second conductive member are electrically connected to an external power supply, respectively, and a bending load is applied to the piece in a direction such that the notch portion closes. The bending load is removed once contact between the first conductive member and the second conductive member is electrically ascertained, and thereafter a fatigue precrack is formed at a tip of the notch portion to obtain a CTOD test specimen.

A welding installation with a calibration tool is provided in a device for producing container shells. The force exerted by the container shells on the calibration tool is measured and evaluated as information for the overlapping width of the respective container shell. This allows adjusting the calibration tool during configuration of the device and allows the removal of container shells welded with too large or too small overlapping during production of container shells.

A welding installation with a calibration tool is provided in a device for producing container shells. The force exerted by the container shells on the calibration tool is measured and evaluated as information for the overlapping width of the respective container shell. This allows adjusting the calibration tool during configuration of the device and allows the removal of container shells welded with too large or too small overlapping during production of container shells.

An apparatus for supplying a welding tip of a welder and an apparatus for replacing the same include a fixed bracket secured to a support. The apparatus includes an actuator coupled to the fixed bracket and a first moving member moved by the actuator. A second moving member is coupled to the first moving member and hingedly coupled to the fixed bracket. A third moving member is hingedly coupled to the second moving member. A first welding tip removal member is coupled to the third moving member to separate a welding tip coupled to a shank. A fourth moving member is disposed opposite to the first moving member. A fifth moving member is coupled to the fourth moving member and hingedly coupled to the fixed bracket. A sixth moving member is coupled to the fifth moving member. A second welding tip removal member is coupled to the sixth moving member.

An apparatus for supplying a welding tip of a welder and an apparatus for replacing the same include a fixed bracket secured to a support. The apparatus includes an actuator coupled to the fixed bracket and a first moving member moved by the actuator. A second moving member is coupled to the first moving member and hingedly coupled to the fixed bracket. A third moving member is hingedly coupled to the second moving member. A first welding tip removal member is coupled to the third moving member to separate a welding tip coupled to a shank. A fourth moving member is disposed opposite to the first moving member. A fifth moving member is coupled to the fourth moving member and hingedly coupled to the fixed bracket. A sixth moving member is coupled to the fifth moving member. A second welding tip removal member is coupled to the sixth moving member.

Abstract:

An apparatus for supplying a welding tip of a welder and an apparatus for replacing the same include a fixed bracket secured to a support. The apparatus includes an actuator coupled to the fixed bracket and a first moving member moved by the actuator. A second moving member is coupled to the first moving member and hingedly coupled to the fixed bracket. A third moving member is hingedly coupled to the second moving member. A first welding tip removal member is coupled to the third moving member to separate a welding tip coupled to a shank. A fourth moving member is disposed opposite to the first moving member. A fifth moving member is coupled to the fourth moving member and hingedly coupled to the fixed bracket. A sixth moving member is coupled to the fifth moving member. A second welding tip removal member is coupled to the sixth moving member.

Abstract:

An apparatus for supplying a welding tip of a welder and an apparatus for replacing the same include a fixed bracket secured to a support. The apparatus includes an actuator coupled to the fixed bracket and a first moving member moved by the actuator. A second moving member is coupled to the first moving member and hingedly coupled to the fixed bracket. A third moving member is hingedly coupled to the second moving member. A first welding tip removal member is coupled to the third moving member to separate a welding tip coupled to a shank. A fourth moving member is disposed opposite to the first moving member. A fifth moving member is coupled to the fourth moving member and hingedly coupled to the fixed bracket. A sixth moving member is coupled to the fifth moving member. A second welding tip removal member is coupled to the sixth moving member.

A method for manufacturing a joined article, the method including providing a first metal member E (ST1), providing a second metal member D, the second metal member D reaching a melting point before the first metal member E when the second metal member D is brought into contact with the first metal member E and an electric current is applied between the two metal members (ST2), preheating the first metal member E using a high-frequency induced electric current (ST3), applying pressure on the first metal member E and the second metal member D (ST4), applying an electric current between the first metal member E and the second metal member D at a timing at which a temperature of the first metal member E has reached a prescribed temperature TS4 due to the preheating (ST5), and joining the first and second metal members E and D through the application of pressure and the application of an electric current (ST4, ST5). Through the adoption of such a method, the present invention provides: a method for manufacturing a joined article in which joint length is adequate even when metals are joined together that are such that, for example, one reaches a melting point before the other during electric current joining; and a joining apparatus for joining such metal members together.