Abstract: Disclosed is an electric heating device capable of uniformly applying an electric current to a workpiece without causing abrasion of electrodes. An electric heating device includes a pair of electrodes for applying an electric current to a workpiece, and a pair of clamps for fixing the workpiece. The electrode extends along the surface of the workpiece in a direction perpendicular to an electric current direction while maintaining a constant length in the electric current direction, and sandwiches the workpiece therein. The clamp is arranged in the vicinity of the electrode, and sandwiches a part of the workpiece other than a part to be heated therein. A pressure at which the clamp sandwiches the workpiece therein is higher than a pressure at which the electrode sandwiches the workpiece therein.

Abstract: Provided is a technique which can, in order to guarantee the molding accuracy of hot press molding, accurately measure the temperature of a workpiece being subjected to the hot press molding. A hot press mold is a mold used for hot press molding for hardening and molding a workpiece, which has been heated, by pressing the workpiece. The hot press mold is provided with a stroke type temperature measuring device which is extended and retracted by a pressing force applied thereto through the workpiece. The temperature measuring device is provided in such a manner that the temperature measuring device protrudes outward from the molding surface of the mold, and when subjected to the pressing force applied through the workpiece while being in contact with the workpiece, the temperature measuring device shortens in length and retracts into the mold.

Abstract: Provided is a technique in which blanks in different shapes are uniformly healed using energization healing. An energization heating process (S1) is a method for heating a blank (1) by connecting a pair of electrodes (10, 10) to two different end parts of the blank (1) so as to energize the electrode pair (10, 10), wherein the blank (1) is provided with void parts (cutouts (4, 4), a hole (5)) provided in a direction approximately perpendicular to the equipotential line generated between the electrode pair (10, 10), and current passages (current paths (20, 20)) are arranged in the direction approximately perpendicular to the equipotential line generated between the electrode pair (10, 10) within the regions spaced by the void parts (4, 4, 5) in the blank (1).

Abstract: Disclosed is an electric heating device capable of uniformly applying an electric current to a workpiece without causing abrasion of electrodes. An electric heating device includes a pair of electrodes for applying an electric current to a workpiece, and a pair of clamps for fixing the workpiece. The electrode extends along the surface of the workpiece in a direction perpendicular to an electric current direction while maintaining a constant length in the electric current direction, and sandwiches the workpiece therein. The clamp is arranged in the vicinity of the electrode, and sandwiches a part of the workpiece other than a part to be heated therein. A pressure at which the clamp sandwiches the workpiece therein is higher than a pressure at which the electrode sandwiches the workpiece therein.

Abstract: Provided is a technique which can, in order to guarantee the molding accuracy of hot press molding, accurately measure the temperature of a workpiece being subjected to the hot press molding. A hot press mold is a mold used for hot press molding for hardening and molding a workpiece, which has been heated, by pressing the workpiece. The hot press mold is provided with a stroke type temperature measuring device which is extended and retracted by a pressing force applied thereto through the workpiece. The temperature measuring device is provided in such a manner that the temperature measuring device protrudes outward from the molding surface of the mold, and when subjected to the pressing force applied through the workpiece while being in contact with the workpiece, the temperature measuring device shortens in length and retracts into the mold.

Abstract: Provided is a technique in which blanks in different shapes are uniformly healed using energization healing. An energization heating process (S1) is a method for heating a blank (1) by connecting a pair of electrodes (10, 10) to two different end parts of the blank (1) so as to energize the electrode pair (10, 10), wherein the blank (1) is provided with void parts (cutouts (4, 4), a hole (5)) provided in a direction approximately perpendicular to the equipotential line generated between the electrode pair (10, 10), and current passages (current paths (20, 20)) are arranged in the direction approximately perpendicular to the equipotential line generated between the electrode pair (10, 10) within the regions spaced by the void parts (4, 4, 5) in the blank (1).