A holographic foil supplying device for a hot foil stamping machine has a reel (26) for holographic foil (20), an advancement system (24) for advancing the holographic foil (20) along a movement path (P) in a feeding direction (F) and a frame (22) supporting the reel (26) and the advancement system (24), wherein the frame (22) comprises a mount (30) for mounting the holographic foil supplying device (18) to the hot foil stamping machine. Further, a hot foil stamping machine is shown.

A foil transfer film cartridge includes a supply reel on which a foil film including a transfer layer containing foil is wound, a take-up reel on which to take up the foil film, a first connecting portion extending in a direction perpendicular to a first axial direction along a rotation axis of the supply reel and connecting the supply reel and the take-up reel at a position apart from the foil film, and a film guide member extending in a second axial direction along a rotation axis of the take-up reel the film guide member being capable of assuming an out-of-contact state and an in-contact state with the foil film extended between the supply reel and the take-up reel.

The disclosure discloses a foil stamping mechanism, which includes a base and a lifting seat, wherein a plurality of stamping molds are arranged between the base and the lifting seat, an aluminum foil driving mechanism is arranged above the stamping mold, the aluminum foil driving mechanism includes a connecting plate, a monitoring device is installed on one side of the connecting plate. According to the disclosure, a pattern on an electrochemical aluminum foil can be precisely stamped to a corresponding position on a film roll.

The object of this invention is to transfer, fix and polish images produced by: toner laser printers or inkjet printers, flexographic technology, silkscreen technology, offset technology, printed on reel support (A), on the plastic or metal surface of three-dimensional objects (16), thanks to which it is possible to detach images from the reel support (A) and subsequently transfer them to the surface of said plastic or metal objects (16) by a thermomechanical (1, 10) action.

A cast and cure system which can be implemented by UV lacquer and which enables application of various patterns and sheathing on printed materials in areas such as flexible packaging, printing, serigraphy, label printing and offset tin printing. The system includes at least one UV cassette which enables the UV lacquer to pass under the UV light together with the belt and therefore curing the UV lacquer. The system relates to a micro embossing unit with belt-which has at least one cooler cylinder which cools the film coming out of the UV cassette, at least one cylinder which enables the film to be carried during the sheathing and at least one tension control system which automatically adjusts the tension of the cylinders.

A holographic foil supplying device for a hot foil stamping machine has a reel (26) for holographic foil (20), an advancement system (24) for advancing the holographic foil (20) along a movement path (P) in a feeding direction (F) and a frame (22) supporting the reel (26) and the advancement system (24), wherein the frame (22) comprises a mount (30) for mounting the holographic foil supplying device (18) to the hot foil stamping machine.

Further, a hot foil stamping machine is shown.

A hot foil stamping press with a pressing table (10) on which a sheet can be advanced, a pressing system (20) for pressing a foil (14) onto the sheet, a guiding system (18) for guiding the foil (14) over the sheet, the guiding system (18) defining a foil transportation path which extends across the path along which the sheet is being advanced, a holder (11) for receiving a supply (12) of foil, and a discarding system (22) for the used foil, the holder being arranged at an operator side of the press.

The disclosure discloses a foil stamping mechanism, which includes a base and a lifting seat, wherein a plurality of stamping molds are arranged between the base and the lifting seat, an aluminum foil driving mechanism is arranged above the stamping mold, the aluminum foil driving mechanism includes a connecting plate, a monitoring device is installed on one side of the connecting plate. According to the disclosure, a pattern on an electrochemical aluminum foil can be precisely stamped to a corresponding position on a film roll.

The present invention relates to an advance shaft transition apparatus for sheet processing equipment, which comprising: a plurality of advance shafts for feeding foils, the plurality of advance shafts being arranged along a horizontal direction; an advance shaft supporting frame, the advance shaft supporting frame supporting the ends of the advance shafts so that the advance shafts can freely rotate; and a lifting means, the lifting means is provided with a driving means and a transmission mechanism, the lifting means is connected to the advance shaft supporting frame to enable the advance shafts to move between a first position and a second position, at the first position, the advance shafts is operably rotated to feed the foil, and at the second position, the advance shafts being lifted up from the first position to leave a position where the foil can be fed.

A meshless foil stencil frame removes all the components of mesh mounted frames and associated issues and mechanically attaches the foil to an aluminum frame by way of pre-cut tabs. Tension is applied by either pulling on all four sides of the frame and then placing a spacer at each corner to maintain the displacement of each frame member or locking the corners and placing a displacement insert between frame and foil. This displacement in turn applies pressure on a foil which is held firm at each of the four edges and therefore creates tension on the foil.