The invention concerns a stamping tool with a tool upper body, a tool lower body arranged separately from the tool upper body, at least one stamping unit and a guide axis arranged centrally which extends partly through the tool upper body and the tool lower body, wherein the tool upper body is movable relative to the tool upper body and the guide axis guides the movement of the tool upper body.

A notching machine (1) for making a paper blank from a corresponding paper sheet comprises: a frame (10); a supporting surface (S) defining a worktop (P); a carriage (132), movable in parallel with the worktop (P); a primary cutting unit (141A), associated with the carriage and including a primary blade (141A) and a primary anvil (141A) slidable relative to each other along a cutting orientation (C) perpendicular to the worktop (P) to make a primary shear cut (T1); a secondary cutting unit (142A), associated with the carriage (132) and including a secondary blade (142A) and a secondary anvil (142A), slidable relative to each other along a cutting orientation (C) to make a secondary shear cut (T2); an actuating assembly, configured to move the primary blade (141A) relative to the primary anvil (141A) and the secondary blade (142A) relative to the secondary anvil (142A) along the cutting orientation (C).

A mold tool includes: a first tool part and a second tool part that works together with the first tool part. In the closed state, the two tool parts are moved toward one another, and in the open state, the two tool parts are moved away from one another. The mold tool also includes a first mold half in the first tool part and a second mold half in the second tool part. The two mold halves reshape the sheet of material, arranged between the two tool parts, into at least one three-dimensional article when the two tool parts are moved toward one another. The mold tool also includes a cutting device including at least one cutting element and at least one actuating device. The actuating device extends the cutting element in the direction of the sheet of material, to cut the sheet of material.

An automatic die rubber installing machine for a flat die board and an automatic die rubber installing method for a flat die board are provided. The automatic die rubber installing machine for the flat die board includes: a machine table, where an elastic material cutting station and a flat die board placement station are provided on the machine table; an X/Y-axis feeding mechanism provided on the machine table, and located above the elastic material cutting station and the flat die board placement station; a Z-axis feeding mechanism provided on the X/Y-axis feeding mechanism; and an installing work portion provided at a movement output end of the Z-axis feeding mechanism, and facing toward the elastic material cutting station and the flat die board placement station. The installing work portion includes a cutting tool head and a grabbing tool head that are configured to rotate around a Z axis.

A punching device for punching out blister packs from a blister strip has at least a first and a second punching element. The first punching element has a plurality of punches and the second punching element has a die. The first punching element is movable back and forth in a punching direction in such a way that the punching device alternately assumes an open position and a closed position. During operation of the punching device, each punch is connected to at least one of a plurality of carriages. In the idle state of the punching device, the carriages are displaceable relative to the associated punch in a direction which is perpendicular to the punching direction.

A punching device for punching out blister packs from a blister strip having at least a first and a second punching element. The first punching element has at least one punch and the second punching element has a die. The first punching element is movable back and forth in a punching direction in such a way that the punching device alternately assumes an open position and a closed position. The first punching element has a plurality of punch sets, each of which comprises a punch, an actuating plate and a plurality of punch guides, which extend between said punch and the actuating plate and are connected thereto, wherein the punch guides extend through a base plate of the first punch element. The base plate of the first punching element has a punch set stop, which is in contact with the actuating plate in an operating position of said punch.

A punching device for punching out blister packs from a blister strip having at least a first and a second punching element. The first punching element has at least one punch and the second punching element has a die. The first punching element is movable back and forth in a punching direction so that the punching device alternately assumes an open position and a closed position. At least one adjustment unit is associated with the punch and is configured to move the punch in the punching direction between an operating position and an offset position so that the punch is arranged further away from the second punching element in the offset position than in the operating position. The at least one adjustment unit has a force transmission element, which is adjustable in the punching direction in order to move the punch between the operating position and the offset position.