A press tooling includes a distance member pivotably supported by a holder; and a moving device provided on a first die unit. The holder is provided in a movable manner with respect to a punch in a press direction, and a pad is provided in a movable manner with respect to a die in the press direction. The distance member is pivotable between a home position in which the distance member does not come into contact with the second die and a preventive position in which the distance between the pad and the holder in the press direction is prevented from being equal to or less than a predetermined distance. As the holder moves relative to the punch in the first direction, the moving device causes the distance member to pivot from the home position toward the preventive position.

The present disclosure discloses a device and a method for forming a metal plate by using a high-energy electric pulse to drive an energetic material. The device includes high-energy pulse discharge equipment, an intelligent robot arm control system, a vacuum pumping device, a hydraulic press, a forming die, positive and negative electrodes, an energetic rod, and liquid supply equipment. According to the present disclosure, energy of a metal wire is added to energy of an energetic material after energy release to implement high-rate forming of the plate. A discharge voltage of the high-energy pulse discharge equipment is reduced and a service life thereof is prolonged. The discharge equipment is triggered by the manufactured small-size electric pulse metal wire, thereby reducing a volume and costs of the equipment and miniaturizing the equipment to implement precise operating, forming, and intelligent integration with the robot arm control system.

The present disclosure discloses a device and a method for forming a metal plate by using a high-energy electric pulse to drive an energetic material. The device includes high-energy pulse discharge equipment, an intelligent robot arm control system, a vacuum pumping device, a hydraulic press, a forming die, positive and negative electrodes, an energetic rod, and liquid supply equipment. According to the present disclosure, energy of a metal wire is added to energy of an energetic material after energy release to implement high-rate forming of the plate. A discharge voltage of the high-energy pulse discharge equipment is reduced and a service life thereof is prolonged. The discharge equipment is triggered by the manufactured small-size electric pulse metal wire, thereby reducing a volume and costs of the equipment and miniaturizing the equipment to implement precise operating, forming, and intelligent integration with the robot arm control system.

A method of performing pressing on a workpiece using a press machine. The pressing method includes: performing pressing on the workpiece between a lower die and an upper die by causing the upper die to approach the lower die by using the hydraulic cylinder in a state in which the workpiece is disposed between the lower die and the upper die, and performing the pressing on the workpiece between the lower die and the upper die, in a state in which a shape of each of the frame, the lower die and the upper die has a rotationally symmetric shape about the reference axis and in which the workpiece center axis coincides with the reference axis.

The present disclosure provides methods and a necking apparatus to reduce a first diameter of an open end of a container body to a second diameter. The necking apparatus includes a necking die and a die guide. The die guide is selectively moveable relative to the necking die to guide the open end of the container body into engagement with the necking die. The die guide includes a flange that extends into a cylindrical bore of the die guide. The flange is configured to engage a shoulder of the container body when the die guide is in a first clamping position relative to the necking die. After engaging the container shoulder with the flange, the die guide moves toward the necking die into a second necking position such that the open end contacts the necking die and the first diameter of the open end is reduced to the second diameter.

The present disclosure provides methods and a necking apparatus to reduce a first diameter of an open end of a container body to a second diameter. The necking apparatus includes a necking die and a die guide. The die guide is selectively moveable relative to the necking die to guide the open end of the container body into engagement with the necking die. The die guide includes a flange that extends into a cylindrical bore of the die guide. The flange is configured to engage a shoulder of the container body when the die guide is in a first clamping position relative to the necking die. After engaging the container shoulder with the flange, the die guide moves toward the necking die into a second necking position such that the open end contacts the necking die and the first diameter of the open end is reduced to the second diameter.

The present invention provides a hot-stamping formed article which is long and formed of a single steel sheet, the hot-stamping formed article including: two standing wall portions; a top sheet portion adjacent to the two standing wall portions; and a protrusion portion including an overlapping portion in which a portion of the steel sheet extending from at least one standing wall portion of the two standing wall portions and a portion of the steel sheet extending from the top sheet portion overlap, in which an angle between the top sheet portion and the protrusion portion in a case where a plane perpendicular to a longitudinal direction of the hot-stamping formed article is viewed in a cross section is larger than 90°.

A positioning guide device for positioning a blank in a forming die. The positioning guide device includes a positioning guide having a sloped positioning face designed to allow a peripheral edge of the blank to be positioned in a transverse direction by contact with the positioning face. The positioning guide device further comprises a housing module, the positioning guide being mounted in the housing module so as to be linearly displaceable in the transverse direction. The housing module having a spring system for preloading the positioning guide in the transverse direction.

An assembling apparatus is adapted to assemble a case made of thin plate. The case has a bottom case and a top case, a latch formed on each side wall of the bottom case, and a locking spring formed on each side plate of the top case. When side plates of the top case are located at a predetermined position with respect to the top wall of the top case, the locking springs are fitted into the latches. The assembling apparatus includes a base configured to position and support the bottom case, an operation mechanism adapted to hold and move the top case, and a guide device disposed at the inner side of the latch. The guide device guides the side plate to the predetermined position, so that the locking spring on the side plate of the top case is capable of being fitted into the latch.

An assembling apparatus is adapted to assemble a case made of thin plate. The case has a bottom case and a top case, a latch formed on each side wall of the bottom case, and a locking spring formed on each side plate of the top case. When side plates of the top case are located at a predetermined position with respect to the top wall of the top case, the locking springs are fitted into the latches. The assembling apparatus includes a base configured to position and support the bottom case, an operation mechanism adapted to hold and move the top case, and a guide device disposed at the inner side of the latch. The guide device guides the side plate to the predetermined position, so that the locking spring on the side plate of the top case is capable of being fitted into the latch.