Embossing tool for deforming smooth and embossed films

Abstract

An embossing tool including a female die (5) and a male die (7). A raised section (9) is formed on the female die, which corresponds to the area to be embossed. An elastic compensating element (13) is located in a recess (11) of the male die (7), which protrudes from the surface of the male die (7) by a few tenths of a millimeter. This embossing tool allows the undoing of existing embossments on a film (1).

Claims

1. An embossing tool for deforming smooth and embossed films (1) made from metal or films made from laminates of metal and plastic, the embossing tool being adapted for installation in a stamping/punching and embossing machine, the embossing tool comprising: a female die (5) with an embossing area, a male die (7), wherein the female die (5) is movably supported for movement relative to the male die (7) by the stamping/punching and embossing machine, in order to emboss a film (1) that is adapted to be led through or inserted between the female die (5) and male die (7), a surface on the male die (7) opposite the embossing area on the female die (5) has an elastically pliant and deformable mounting, a first compensating element (13) arranged on a back side of the female die (5) in the embossing area that includes an embossing structure formed on a bottom side of the female die (5) and a second compensating element (13) arranged on a back side of the male die (7) in the embossing area and an embossing structure formed on a top side of the male die (7), and wherein the first and second compensating elements (13) are each arranged on a respective retaining plate (17) or in a recess or a notch (19) on the retaining plate (17) or in the back sides of at least one of the female die (5) or the male die (7).

2. The embossing tool according to claim 1, wherein the first and second compensating elements (13) are arranged opposite to and coaxial to each other.

3. The embossing tool according to claim 1, wherein the compensating elements (13) are constructed from plastic.

4. The embossing tool according to claim 3, wherein the plastic has a Shore hardness of 80-90.

5. The embossing tool according to claim 1, wherein the compensating elements (13) are made from polyurethane.

6. The embossing tool according to claim 1, further comprising a deformable protective element (15) that is a few tenths of a millimeter thick placed at least over one of the first or second compensating elements (13) for preventing friction or adhesion of the film (1) on the at least one of the first or second compensating elements (13).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be described in more detail with reference to two embodiments: Shown are:

(2) FIG. 1 a schematic exploded-view diagram of a device for removing embossments,

(3) FIG. 2 a cross section of FIG. 1 through a device for removing or undoing an embossment on an embossed film,

(4) FIG. 3 a view of a female die or die plate,

(5) FIG. 4 a view of a male die or retaining plate with compensating element,

(6) FIG. 5 a view of a compensating element for insertion into the male die,

(7) FIG. 6 a schematic exploded-view diagram of a device for embossing a smooth film (view from above),

(8) FIG. 7 a schematic exploded-view diagram of a device for embossing a smooth film (view from below), and

(9) FIG. 8 a cross section in FIG. 6 through a device for embossing a film according to FIGS. 6 and 7.

DETAILED DESCRIPTION

(10) In the schematic diagram in FIG. 1, the exploded-view diagram shows the tool, i.e., the device for removing or undoing selected areas of embossments on embossed films 1. Above the film 1, which can be guided from coil 3 between a female die or die plate 5 and a male die or retaining plate 7, a raised section, here a raised section 9 with smooth surface, is formed on the bottom side of the female die 5. The cross section of the raised section 9 corresponds to the surface area that is to be deformed again, this time so that it becomes completely smooth, to undo the embossment, i.e., the surface of the film 1, on the already embossed film (FIG. 2). A compensating element 13 is inserted in the male die 7 in a recess 11. The compensating element 13 extends past the surface of the male die 7 by a few tenths of a millimeter. The cross section of the compensating element 13 corresponds essentially to at least the cross section of the raised section 9 in the female die 5.

(11) The compensating element 13 can comprise a body made from polyurethane with a Shore hardness of 80 to 90 or a similar elastic plastic.

(12) Optionally, a thin protective sheet 15 that is a few tenths of a millimeter thick lies above the compensating element 13, which can prevent the film 1 guided in the direction of the arrow A between the female die 5 and the male die 7 from friction on the surface of the compensating element 13 or can prevent it from being delayed or damaged by friction.

(13) The female die 5 is mounted in a press on the upper, usually moving part. The male die 7 is mounted fixed on the usually stationary part of the press. A press is not shown in the figures, because its configuration has been known for a long time. The press can be driven hydraulically or mechanically, and the female die 5 can move in quick cycles onto the male die 7, while the film 1 is held in place for a short time for the embossing process.

(14) Below, the procedure for undoing an area of the large-area embossment or multiple areas simultaneously will be described. The film 1 provided with a fine embossment, for example, an orange peel-like embossment, is guided from the coil 3 between the female die 5 and the male die 7 and held in place for a short time so that the female die 5 can be moved onto the male die 7 by the press in one stroke and a force or pressure with the raised sections 9 can be applied to the surface of the film 1. The support of the film 1 is here realized exclusively on the surface of the compensating elements 13 and—if necessary—the protective element 15 arranged between the film 1 and the male die 7, e.g., a very thin deformable sheet over the compensating element 13. Through this elastic underlay, which is arranged opposite the area of the raised section 9, it is possible, surprisingly, to completely undo the embossment present on the film 1 in the area between the raised section 9 and the compensating element 13.

(15) The protective element 15 has no direct influence on the undoing of the embossments on the film 1. It protects the film 1 and its embossments that are also present on the bottom side of the film, so that there can be no friction disrupting the process there during the forward transport of the film 1 in the direction of arrow A. For embossed films 1 with minimum embossment depth and a very smooth and, in any case, easily sliding surface, the protective sheet 15 can also be eliminated.

(16) Surprisingly, with this procedure, it is also possible to apply embossments of any shape on smooth, i.e., non-embossed films 1, which comprise only a partial area of the surface of the film or the entire film. In FIGS. 6 and 7, for example, circular ring-shaped embossment areas are created; the surrounding and central areas remain free, i.e., smooth. Such partial embossment areas likewise prevent adhesion of stamped/punched blanks stacked one on top of the other and simultaneously cause the preservation of high-quality painting/graphics applied in multi-color technology on the film. The generation of such partial embossments will be described below with reference to FIGS. 6 and 7.

(17) In the exploded-view diagram according to FIGS. 6 and 7, the individual elements of the embossing tool are shown. Above the film 1, a female die is shown, on whose bottom side the embossing structure is applied by raised sections 21. Above the female die there is a compensating element 13, in the present example, a circular ring element, and above that an upper retaining plate 17. In the retaining plate 17 there is, on its bottom side, a circular ring-shaped recess 23 in which the circular ring-shaped compensating element 13 or a differently shaped compensating element is inserted and wherein the compensating element 13 extends past the recess 23 by a few tenths of a millimeter and contacts the back side of the female die 5 directly behind the raised sections for the embossment.

(18) A mirror symmetric arrangement is provided for the male die 7, in which a circular ring-shaped raised section with the embossment pattern is formed on the surface. Below this is the circular ring-shaped compensating element 13 that is held in a circular ring-shaped recess 23 in the lower retaining plate 17. After joining these individual elements, the compensating element 13 that extends past the lower retaining plate 17 by a few tenths of a millimeter contacts the bottom side of the male die.

(19) The embossment of the non-embossed film 1 is realized in a conventional way with the difference that the female die 5 and the male die 7 are not connected rigidly to the stamping/punching and embossing machine, but instead these two elements (female die and male die) are supported elastically on the back side in the area of the raised sections 21 extending past the embossment.

(20) In order to achieve the local elasticity of the female die 5 and the male die 7, the two elements are made, for example, from brass. The thickness of the brass plate is in the range of 4 millimeters, that is, a thickness that guarantees local elasticity, namely in the area of the raised sections 21.

(21) This elastically supported embossment makes it possible to achieve an optimum embossment result with significantly lower pressing forces by the stamping/punching and embossing device.