A metal workpiece indentation marking device, comprising a frame, a striking head, an automatic marking die, a gripper and a two-dimensional moving mechanism, wherein the top of the striking head is connected to the frame; the striking head can move up and down; the automatic marking die is fixedly disposed at the bottom of the striking head; a clamping jaw for clamping a metal workpiece is disposed at the top of the gripper; the gripper can move back and forth or left and right under the action of the two-dimensional moving mechanism, such that a position to be marked at the top of the metal workpiece can be located under the automatic marking die.

The present application discloses wheel engraving equipment, which includes a lower lifting system, lower flange engraving systems, inner rim engraving systems, a wheel positioning and clamping system, an upper lifting and rotating system, a synchronous clamping and rotating system and the like.

The present application discloses wheel engraving equipment, which includes a lower lifting system, lower flange engraving systems, inner rim engraving systems, a wheel positioning and clamping system, an upper lifting and rotating system, a synchronous clamping and rotating system and the like.

A method for microassembly of heterogeneous materials comprises contacting a stamp with an ink disposed on a donor substrate to form an inked stamp, where the ink is reversibly bound to the stamp. The inked stamp is stamped onto a receiving substrate or onto an object on the receiving substrate, and the stamp is removed, thereby transferring the ink to the receiving substrate. The ink and the receiving substrate or the ink and the object are thermally joined, thereby forming a microassembly of heterogeneous materials. The ink may comprise a first material and the receiving substrate or the object may comprise a second material different from the first material.

A method for microassembly of heterogeneous materials comprises contacting a stamp with an ink disposed on a donor substrate to form an inked stamp, where the ink is reversibly bound to the stamp. The inked stamp is stamped onto a receiving substrate or onto an object on the receiving substrate, and the stamp is removed, thereby transferring the ink to the receiving substrate. The ink and the receiving substrate or the ink and the object are thermally joined, thereby forming a microassembly of heterogeneous materials. The ink may comprise a first material and the receiving substrate or the object may comprise a second material different from the first material.

A printed matter foil stamping system includes: a printing device that forms a toner layer or an ink layer on a paper sheet in accordance with print data; and a foil stamping device that performs foil stamping on the toner layer or the ink layer, wherein the printing device or a control device that controls the printing device includes a hardware processor that generates print data capable of forming a portion in which a thickness of the toner layer or the ink layer is relatively large and a portion in which the thickness is relatively small in an area in which foil stamping is to be performed, and, in accordance with the print data, the printing device forms the toner layer or the ink layer having a portion with a relatively large thickness and a portion with a relatively small thickness on the paper sheet.

A printed matter foil stamping system includes: a printing device that forms a toner layer or an ink layer on a paper sheet in accordance with print data; and a foil stamping device that performs foil stamping on the toner layer or the ink layer, wherein the printing device or a control device that controls the printing device includes a hardware processor that generates print data capable of forming a portion in which a thickness of the toner layer or the ink layer is relatively large and a portion in which the thickness is relatively small in an area in which foil stamping is to be performed, and, in accordance with the print data, the printing device forms the toner layer or the ink layer having a portion with a relatively large thickness and a portion with a relatively small thickness on the paper sheet.

A stamping tool accessory is disclosed herein. The stamping tool accessory includes a base configured to be removably attached to a base portion of a stamping platform; and a turntable rotatable relative to the base, the turntable configured to receive a substrate on which a stamp is to be applied. At least one of the base and the turntable includes turntable positioning indicia configured to indicate generally equally spaced-apart rotational positions of the turntable for stamping multiple images in a generally circular pattern. A stamping tool assembly that includes a stamping platform and the stamping tool accessory is also disclosed herein.

A stamping tool accessory is disclosed herein. The stamping tool accessory includes a base configured to be removably attached to a base portion of a stamping platform; and a turntable rotatable relative to the base, the turntable configured to receive a substrate on which a stamp is to be applied. At least one of the base and the turntable includes turntable positioning indicia configured to indicate generally equally spaced-apart rotational positions of the turntable for stamping multiple images in a generally circular pattern. A stamping tool assembly that includes a stamping platform and the stamping tool accessory is also disclosed herein.

A seal stamping machine comprises a first plate (1) and a second plate (2) disposed face to face, the first plate and the second plate being capable of compressing a stamp and a stamping carrier located between the first plate and the second plate. The first plate has a plurality of positioning holes (11); a plurality of elastic positioning mechanisms (3) disposed on the second plate, each elastic positioning mechanism corresponding to one of the plurality of positioning holes; when the first plate is pressed toward the second plate, the elastic positioning mechanisms prevent the first plate from moving away from the second plate. By enabling the positioning holes to cooperate with the elastic positioning mechanisms, the relative positioning between the first plate and the second plate can be realized, the positioning of the seal can be realized, and the displacement of the seal during the stamping process can be avoided. The seal can be stressed uniformly, it is advantageous to uniformly stamp the character or pattern on the seal onto the stamping carrier,