A lottery ticket distribution device (10) for dispensing scratch-off lottery tickets, which includes; a housing, a lottery ticket feeding device, a cutter (36), a guiding press plate (38), and a guiding press plate drive device and a control device (23). The guiding press plate drive device includes a linear electromagnet (50), a lever (51), a pulling plate (52) and a spring (53). The linear motion of the linear electromagnet (50) pushes the lever (51) to rotate, and the rotation of the lever (51) drives the pulling plate (52) and the guiding press plate (38) connected to the pulling plate (52) to rotate, so that a lottery ticket tape (16) is bent toward the cutter (36). The lottery tickets feeding device makes the lottery tickets to roll back, thereby a lottery ticket is separated.

The invention includes a method and device for conveying pre-printed polymer oblates (IML), supplied in a roller, to a casting machine such as an injection press that molds items such as cups or lids, where the oblates must be integrated in items by the oblates being partially punched such that they remain fixed to the roller in points or bridges, after which the roller with the semi-punched oblates is placed on a device (1) from which the roller with oblates is rolled out in stages, such that the oblates pass through a tool (5) with holes (9) which are shaped to fit the circumference of the oblates, after which the oblates are removed with a device such as a robot with vacuum suction that tears over the river bridges that fix the oblate to the roller and transfers the oblates to the injection casting tool.

The invention includes a method and device for conveying pre-printed polymer oblates (IML), supplied in a roller, to a casting machine such as an injection press that molds items such as cups or lids, where the oblates must be integrated in items by the oblates being partially punched such that they remain fixed to the roller in points or bridges, after which the roller with the semi-punched oblates is placed on a device (1) from which the roller with oblates is rolled out in stages, such that the oblates pass through a tool (5) with holes (9) which are shaped to fit the circumference of the oblates, after which the oblates are removed with a device such as a robot with vacuum suction that tears over the river bridges that fix the oblate to the roller and transfers the oblates to the injection casting tool.

The invention relates to a method for successively winding a film web onto a plurality of spools, wherein the film web is wound to form a first spool, and a tube and/or winding shaft for forming a subsequent second spool and the film web are moved closer to one another and/or are brought into contact with one another upstream of the first spool. The film web is cut, and thus an end of the film web is produced, with end is wound onto the first spool, and a new start of the file web is produced, which is wound onto the second tube. In order to cut the film web, the film web is cut partially in the transverse direction, at least one cut edge and at least one uncut region remaining in the transverse direction, the uncut region being subsequently torn off or cut off.

The invention relates to a method for successively winding a film web onto a plurality of spools, wherein the film web is wound to form a first spool, and a tube and/or winding shaft for forming a subsequent second spool and the film web are moved closer to one another and/or are brought into contact with one another upstream of the first spool. The film web is cut, and thus an end of the film web is produced, with end is wound onto the first spool, and a new start of the file web is produced, which is wound onto the second tube. In order to cut the film web, the film web is cut partially in the transverse direction, at least one cut edge and at least one uncut region remaining in the transverse direction, the uncut region being subsequently torn off or cut off.

A perforation device includes a shaft, a perforation motor, at least a first perforation portion, at least a second perforation portion, at least a first cam for reciprocating a first perforation blade in the first perforation portion, at least a second cam for reciprocating a second perforation blade in the second perforation portion, a rotation speed detecting portion, a home position detecting portion, and a controller. in second perforation processing in which the shaft is rotated one turn to perform first perforation with the first perforation portion and second perforation with the second perforation portion in sequence, the controller senses, with the rotation speed detecting portion, the rotation speed of the shaft after the first perforation blade penetrates the sheet in the first perforation and, based on the rotation speed detecting, the controller determines the timing of starting braking control in the second perforation and performs braking control.

A disposable face mask includes an upper portion of the face mask and a lower portion of the face mask, the upper portion and lower portion of the face masks each adjoin monolithically formed therewith face mask straps defined by perforations in a web of material used to form the face mask and straps, wherein the perforations allow the straps to be partially separated and utilized for securing said face mask to a wearer's face. The disposable face mask may be made by perforating patterns into a web of materials to define the face mask straps and face mask body that are formed monolithically from the web of materials. The face masks may be wound on a roll for dispensing by tearing off from the roll and then separating the straps at the perforations. Alternatively, the face mask borders may be cut-through to allow dispensing of the face masks individually from bulk packaging, where the face mask is removed from the package and the straps are separated at the perforations to allow the face mask to be secured to the wearer's face by tying the straps behind the wearer's head.

Disclosed are systems for applying materials to components. The system comprises a tool operable for transferring a portion of a material from a supply of the material to a component. A first portion of the tool may be configured for cutting along a side or edge of the portion of the material. A second portion of the tool may be configured for tamping, pressing, or pushing against the portion of the material to cause uncut sides or edges of the portion of the material attached to the supply of the material to be torn, severed, detached, or separated from the supply of the material.

A feeding unit for feeding a plastic film in packaging machines for wrapping paper rolls, including: a unit for unwinding the film from a reel; a cutting device adapted to cut the film transversely; a transfer device including, on the right and on the left side of the feeding unit, drive belts configured for engaging the upper and lower faces of the film; and a positioning device including, on the right and on the left side of the unit, a predetermined number of drive belts configured for engaging the upper and lower faces of the film. On each side of the feeding unit, the transfer device comprises two pairs of belts. On each side of the feeding unit, the positioning device comprises a third pair of belts. The three pairs of belts are actuated by independent actuators.

A method for cutting a metallic film is disclosed. The method includes: feeding the metallic film between a scoring blade and an anvil at a first speed; feeding a first protective film between the metallic film and the scoring blade; feeding a second protective film between the metallic film and the anvil; moving the scoring blade toward the anvil for applying a pressure onto the first protective film, the metallic film, and the second protective film disposed between the scoring blade and the anvil for making a score along a width of the protective film; and pulling the metallic film having passed between the scoring blade and the anvil at a second speed. The second speed being greater than the first speed. A difference between the first and second speeds causes the metallic film to cut at the score. A system for cutting a metallic film is also disclosed.