A multi-cavity mould (1) for a thermoforming machine used in the process of high-volume, continuous thermoforming of a plurality of thin-gauge plastic products (2) from a preheated thin-gauge thermoplastic sheet (3) comprising an upper tool (11) and a lower tool (12) arranged in a cooperating manner; the lower tool (12) comprising a plurality of cavities (8) in which cavity moulds (8) are placed and a plurality of base plates (91) from which a plurality of supporting blocks (92) extend perpendicularly over a predetermined total height (a), situated between adjacent cavities (8), each of said supporting block (92) has a stepped profile comprising three substantially rectangular shaped zones (92a, 92b, 92c) and a fourth substantially isosceles trapezoid shaped zone (92d) in a vertical cross section, having a common symmetry axis.

Container assembly for collecting pads, such as cosmetic pads or medical pads, wherein the container assembly comprises an elongate shell extending along a collecting axis parallel to a stacking direction and in a circumferential direction about the collecting axis, wherein the shell comprises a top side, a bottom side opposite to said top side in the stacking direction, wherein the shell is open at said top side for receiving the pads in said stacking direction and along said collecting axis, wherein the shell comprises a first shell segment and a second shell segment extending along said collecting axis between the top side and the bottom side and movable relative to one another in a clamping direction transverse to the stacking direction, wherein the second shell segment is biased relative to and towards the first shell segment in said clamping direction.

Container assembly for collecting pads, such as cosmetic pads or medical pads, wherein the container assembly comprises an elongate shell extending along a collecting axis parallel to a stacking direction and in a circumferential direction about the collecting axis, wherein the shell comprises a top side, a bottom side opposite to said top side in the stacking direction, wherein the shell is open at said top side for receiving the pads in said stacking direction and along said collecting axis, wherein the shell comprises a first shell segment and a second shell segment extending along said collecting axis between the top side and the bottom side and movable relative to one another in a clamping direction transverse to the stacking direction, wherein the second shell segment is biased relative to and towards the first shell segment in said clamping direction.

The invention relates to steel-rule cutting dies having a die block with at least one kerf configured to receive a corresponding steel-rule intended to be partially inserted into the kerf. The die block also has at least one element having magnetic properties, such as for instance a magnet, located or embedded in proximity to each kerf for providing a magnetic field that retains the steel-rule when the steel-rule is received into the corresponding kerf. The presence of the magnetic element(s) in proximity to the kerf(s) allows maintaining the corresponding rule(s) in position within its kerf even if the kerf is cut “loosely”. The corresponding rule may be quickly and easily inserted and accurately maintained even if the die block expand or retract under atmospheric variations. Among other advantages, the invention allows better stability of the cutting-die, faster leveling on press, and increased the number of re-knifing and longer run-time.

The invention relates to steel-rule cutting dies having a die block with at least one kerf configured to receive a corresponding steel-rule intended to be partially inserted into the kerf. The die block also has at least one element having magnetic properties, such as for instance a magnet, located or embedded in proximity to each kerf for providing a magnetic field that retains the steel-rule when the steel-rule is received into the corresponding kerf. The presence of the magnetic element(s) in proximity to the kerf(s) allows maintaining the corresponding rule(s) in position within its kerf even if the kerf is cut “loosely”. The corresponding rule may be quickly and easily inserted and accurately maintained even if the die block expand or retract under atmospheric variations. Among other advantages, the invention allows better stability of the cutting-die, faster leveling on press, and increased the number of re-knifing and longer run-time.

A punching system for an electrode base material is disclosed, in which the electrode base material coated with an active material on a surface of a collector is molded or cut in a predetermined shape. The punching system comprises: an unwinder on which the electrode base material in the form of a roll is mounted and around which the electrode base material is unwound; a punching device spaced a predetermined distance from the unwinder, the punching device being configured to mold or cut the electrode base material supplied from the unwinder in a predetermined shape; and a curl correcting device disposed between the unwinder and the punching device to inject or suction air onto a surface of the electrode base material while the electrode base material moves to the punching device so as to planarize the electrode base material. A punching method for an electrode base material is also disclosed.

The present application discloses a pad structure that includes a stretchable cuttable material with beveled edge.

The present application discloses a pad structure that includes a stretchable cuttable material with beveled edge.

A separating system for detaching containers from a thermoformed plastic web including a first row of containers. The system includes a stamp plate and a cutting plate. The stamp plate includes a first row of stamps associated with a first set of containers from the first row of containers and a second row of stamps associated with a second set of containers from the first row of containers. The cutting plate includes a first row of cutting openings associated with the first set of containers and a second row of cutting openings associated with the second set of containers.

A separating system for detaching containers from a thermoformed plastic web including a first row of containers. The system includes a stamp plate and a cutting plate. The stamp plate includes a first row of stamps associated with a first set of containers from the first row of containers and a second row of stamps associated with a second set of containers from the first row of containers. The cutting plate includes a first row of cutting openings associated with the first set of containers and a second row of cutting openings associated with the second set of containers.