EP1238793A1 - Combined scoring and cutting device - Google Patents

Abstract

The tool to give a combined linear groove embossing and cutting action on flat materials, to give folding lines and cuts, has a linear base body (1) with a blunt embossing edge (3) with a convex curvature along one longitudinal edge (2). Its foot zone has a cutting shoulder (5) with a cutting edge (4). The groove embossing edge is along the length (L) of the tool body, and the cutting edge is interrupted (8). The embossing edge has a width (A) at the cutter interruptions which is equal to the width of the cutter feet, as a flat surface (3a).

Description

The present invention relates to a combined creasing and cutting tool for Embossing of linear folding grooves and for cutting foldable materials, such as Cardboard, cardboard, fine cardboard, plastic film or corrugated cardboard consisting of a flat, strip-shaped base body with one arranged on one longitudinal edge essentially blunt - seen in cross section - convex rounded Embossed edge on which a cutting attachment has a width in its foot area is arranged with a cutting edge such that the material in the embossing process Area of the folding groove, based on its thickness, is at least cut, wherein the embossed edge is formed continuously over the length of the strip-shaped base body and the cutting edge over the length of the strip-shaped base body Has interruptions.

A creasing tool without a cutting edge of this type is from the German utility model DE 296 05 079 U1 known, the term "essentially blunt" means that when using the known creasing tool to be embossed and The material to be folded later is not scratched or cut, but only is pressed in essentially linearly. In the utility model Field of application and problems of creasing tools for embossing linear Folding grooves described. Such creasing tools, so-called "creasing lines", are before especially in the packaging industry, especially the corrugated and cardboard industry, used for folding grooves or so-called "crease channels" for materials to be folded to be embossed by pressing the relatively blunt embossing edge onto the material.

Especially for (fine) cardboard boxes and also for plastic films, it is important that the embossing edge is relatively narrow and thin, so that it fits sufficiently into the can crush material to be folded. On the other hand, the embossed edge is not allowed either be too thin, otherwise there is a risk that it will damage the Material such as cracks and the like comes. Therefore, at relatively thin and so hard, unyielding folding materials mostly only in cooperation possible with a special matrix strip. This matrix strip is on attached to a base and forms a channel-like recess into which the folded material is pressed through the embossing edge of the creasing tool during the embossing process. This requires a very precise alignment of the matrix strips in relation to the Embossed edges required. When embossing occurs in a small space Concentration of the embossing forces and thus considerable compression tensions.

In contrast, thicker and softer folding materials need to be easy to fold without damaging the material, the embossed edges are usually relative be broadly trained. Tensions also arise here, on the one hand of the material compressive and on the other hand tensile stresses, their values can differ significantly (more than with thin materials).

It is also known that often due to the increased use of recycling materials Fluctuations in the quality of the folding material occur. It can occur that although the creasing tool with regard to its geometric Dimensions were initially tailored to the material to be folded, cracks or flaking in the cardboard, corrugated cardboard, cardboard or plastic film occur.

DE 198 38 514 C1 describes a creasing and cutting tool of the type mentioned Kind known, by which a constant even with fluctuations in the quality of the folding material ensures high quality of the folding grooves and the formation of cracks or Flaking when embossing - regardless of the width of the embossing edge - effective can be prevented. The embossing edge of this tool is one Combined cutting edge, being independent of the material properties significantly reduced the compressive stress in the folding groove become significant, making the foldability of the materials to be processed significant is improved. It is also advantageous that the two steps scratching and Grooves can be carried out at the same time. In a special training according to DE 198 38 514 C1, the embossing edge is continuous over the length of the strip-shaped base body formed, the cutting edge has the length of the strip-shaped base body however interruptions. In the area of these interruptions The embossed edge - seen in cross section - has a convex rounded shape, which in particular can be circular, preferably semicircular.

The present invention has for its object a combined creasing and To improve cutting tool of the type mentioned in such a way that the Tool can be manufactured in a simplified manner with undiminished high functionality.

This is achieved according to the invention in that the embossing edge in the area of Interruptions over a width that the width of the foot area of the cutting attachment corresponds as a flat surface.

The invention is based on the surprising finding that despite one Flattening in the specified width, in a technologically simple manner, for example by grinding, milling, chemical removal (etching) or eroding one originally over the entire length of the strip-shaped base body uninterrupted cutting approach, can be produced by the embossing edge uniformly good creasing can be achieved. The invention thus provides in terms of Manufacturing effort and the quality achievable when using the tool Optimum.

When using the tool according to the invention, in particular in a defined Targeted destruction in the area of the material to be embossed (cut with complete material separation) can be brought about. For example, there is not the difficulty of having a folding groove in geometrically accurate correspondence with a cut previously made in the material or vice versa.

The cutting attachment can be concave, convex or flat on both sides Flanks can be limited and can be optimally dimensioned by suitable dimensions Be adapted to the material to be embossed. So the distance of the Flanks of the cutting attachment (foot width) - depending on the strength properties of the Creasing tool and the type and dimensions of the foldable material - in one foot area of the cutting attachment located directly on the embossed edge, for example 0.05 mm to 1.5 mm in size, which with high mechanical stability of the Cutting approach an excellent functionality of the tool according to the invention is achieved.

The height of the cutting attachment should be approximately equal to the thickness of the foldable to be embossed Material, if this is to be completely cut, namely based on a thickness-compressed state of the foldable material, which at adjusts the forces occurring during stamping. At a lower height, the material just scratched.

Further advantageous design features of the invention are in the Subclaims and the following description included.

Fig. 1

eine perspektivische Querschnittsdarstellung einer ersten Ausführung eines erfindungsgemäßen kombinierten Rill- und Schneidwerkzeuges,

Fig. 2

eine Querschnittsdarstellung einer zweiten Ausführung eines erfindungsgemäßen kombinierten Rill- und Schneidwerkzeuges.

The invention will be explained in more detail below with the aid of two preferred exemplary embodiments illustrated by the drawing. Show:

Fig. 1

2 shows a perspective cross-sectional illustration of a first embodiment of a combined creasing and cutting tool according to the invention,

Fig. 2

a cross-sectional view of a second embodiment of a combined creasing and cutting tool according to the invention.

In the different figures of the drawing, the same parts are always the same Provide reference numerals so that they are usually only described once become.

1 shows, there is a combined creasing and Cutting tool for embossing linear folding grooves and cutting foldable materials, such as cardboard, cardboard, fine cardboard, plastic film or Corrugated cardboard, from a flat, strip-shaped base body 1 with one on one Longitudinal edge 2 arranged, essentially blunt - seen in cross section - convex rounded embossed edge 3. In particular, the convex rounding of the Embossed edge 3 in the shape of a circular arc, preferably semicircular, (radius R).

A cutting edge 4 is arranged on the embossed edge 3. This cutting edge 4 is on a cutting projection 5 located on the embossed edge 3 is formed on both sides is limited by edges 6. The geometry of the cutting attachment 5 can be optimal Be adapted to the material to be embossed. So the width A des Cutting approach 5 in the foot area (distance of the flanks 6 of the cutting approach 5 in an area directly on the embossed edge 3), preferably about 0.05 mm to 1.5 mm.

The height H of the cutting attachment 5 - measured from the cutting edge 4 to Foot area on the embossed edge 3 - can advantageously be about the same size as that Thickness of the foldable material to be embossed, based on a thickness-compressed one Condition of the foldable material, which is usually the case with embossing forces occurring. If this height H is chosen to be smaller, this becomes Material only scratched, not completely cut. Under consideration of Thickness dimensions and the compressibility of the usual foldable materials results there is also a preferred range for the height H of the cutting attachment 5 0.05 mm to 1.5 mm. The compressibility of the material to be processed can determined the embossing and then an inventive tool with a corresponding Height H of the cutting attachment 5 can be selected.

With regard to a good cutting effect, it is also advantageous if at least one flank 6 with an axis XX running parallel to side surfaces 7 in the cross section of the base body 1 through the cutting edge 4 includes a flank angle A _x , A _y , which is approximately in the range of 15 ° to 35 °, preferably about 27 °, as shown in FIG. 2.

The embossing edge 3 is in accordance with a desired uninterrupted folding groove the length L of the strip-shaped base body 1 is continuous. The Cutting edge 4, on the other hand, has the length L of the strip-shaped base body 1 Interruptions 8 on. In this way, a "Scratch perforation" are generated. This is particularly beneficial if it is the material to be embossed is very thin or less strong, that is completely thinned in certain areas with the appropriate embossing pressure.

According to the invention, the embossed edge 3 is over in the area of the interruptions 8 a width A, which corresponds to the width A of the foot region of the cutting attachment 5, as flat surface 3a formed, for example, by grinding, milling, chemical Removal (etching), lasering or eroding from one originally over the entire Length L of the strip-shaped base body 1 continuous cutting approach 5 can be produced is. In the remaining area of the length L of the base body 1, the convex leads Rounding (radius R) on both sides up to the flanks 6.

The cutting attachment 5 and the base body 1 can advantageously consist in one piece of a strip steel, in particular a spring strip steel. For a high wear resistance of the cutting edge 4, it is advantageous if this material is hardened and tempered, at least in the area of the cutting edge 4. An especially suitable hardening process is preferably induction hardening. The subsequent tempering process can then be carried out at a temperature of 250 to 500 ° C., in order to set a suitable ratio of hardness to toughness. In this case, the hardness (determined according to DIN 1544 and DIN 17222) is in the range from about 900 to 2,200 N / mm ² .

The flanks 6 of the cutting attachment 5 can be ground, milled, chemically removed (etched), eroded, but particularly advantageous in terms of production technology be scraped so that a sharp cutting edge 4 is formed. You can, be convex or concave.

The embossing edge 3 can, as shown in FIG. 1, in one with the plane of the base body 1 in substantially vertical plane. Such a "rectilinear" design will used for stroke embossing in the flat bed process, but can also be used for Rotary embossing process for "axial", parallel to the axis of rotation of an embossing cylinder running grooves are used, also offset 90 ° to the cylinder, i.e. "radial".

The strip-shaped base body 1 can advantageously have a thickness D in the range from 0.5 to 5.0 mm, preferably from about 0.7 to 1.5 mm. He can then do well in appropriate Recordings of holding plates or embossing cylinders used and in it be attached.

For the symmetrical design of the base body 1 in the two illustrated embodiments of the invention, it is characteristic that the central plane of the base body 1 passes through the axis XX running through the cutting edge 4 through the cross section parallel to side surfaces 7 of the base body 1. The distances L _x and L _{y of} the side surfaces 7 from the axis XX are the same, as are the flank angles A _x , A _y at the cutting edge 4 (only shown in FIG. 2).

As for the second embodiment of the tool according to the invention can be seen, it can also be provided that the base body 1 starting from its material thickness D over an edge strip area 9 to Embossed edge 3 tapers at an acute angle, the base body 1 in cross section symmetrical (as shown) or also asymmetrical with regard to the by the Cutting edge 4 extending axis X-X of the base body 1 or - with respect to the Middle plane of the base body 1 - can be formed. The embossing edge 3 inclusive the cutting edge 4 can with respect to the central plane of the base body 1 be arranged in the middle or laterally offset.

Such a tapered combined tool can be used especially for the embossing and cutting of (fine) cardboard and plastic films, where it is important that the embossing edge is relatively narrow and thin so that it is sufficiently in the material to be folded can impress. As mentioned, the second embodiment of the invention is symmetrical. Here, on the one hand, the distances L _x and L _{y of} the side surfaces 7 and, on the other hand, the distances B _x and B _y (each at a certain height) of the tapered edge strip area 9 from the axis XX are the same.

The invention is particularly useful in the generation of closely related Creasing or double creasing is an advantage because this is particularly the case Grooving problems of tearing and bursting of the material are effective can be avoided.

The invention is not limited to the exemplary embodiments shown, but rather also includes all embodiments having the same effect in the sense of the invention, such as this is already clear from the above description. For example on the one hand possible that the creasing and cutting tool according to the invention in one piece is carried out by the basic shape of the embossed edge 3 and cutting shoulder 5 of the base body 1 are generated by a suitable primary molding or forming process, on the other hand, the cutting attachment 5 can also be a separate one, for example ceramic, cutting part that is on the embossed edge 3, e.g. fixed in a groove is. There are also a wide variety of different types of cutting edge 4 Design options. The cutting edge 4 should be essentially pointed, but can also have a fillet, for example. The term "im essentially pointed "thus means that when using the invention Creasing tool the material to be embossed and subsequently folded through the Cutting edge scratched or cut through, and not only essentially linear is pushed in.

The invention is also suitable for embodiments in which the embossed edge 3 in a plane curved in a circular arc in the longitudinal direction of the base body 1 runs. The embossed edge 3 thus defines a cylindrical surface that is from the plane of the base body 1 is cut at right angles. This version is used in the rotary embossing process used to create folding grooves that are in the direction of rotation of the Embossing cylinders run. For this purpose, the creasing tool is then rotated accordingly of the embossing cylinder, if necessary in combination with axial, straight embossed edges 3 of the embodiment shown in Fig. 1. The radius of curvature is in the case of the circularly curved design adapted each embossing cylinder used. Has a corresponding orientation then the cutting edge 4.

Furthermore, the invention is not based on the combination of features defined in claim 1 limited, but can also be by any other combination of certain features of all of the individual features disclosed are defined. This means that basically practically every individual feature of claim 1 omitted or by at least one disclosed elsewhere in the application Single feature can be replaced. In this respect, claim 1 is only a first To understand the attempt to formulate an invention.

reference numeral

1

base body

2

Long edge of 1

3

Embossed edge on 2

3a

flat surface from 3 in 8

4

Cutting edge at 3

5

Cutting attachment on 3

6

Edge of 5

7

Side surface of 1

8th

Breaks in 5 along L

9

tapered edge strip area

A

Distance 6-6 in the foot area of 5

A _x

Flank angle between 6 and X-X

A _y

Flank angle between 6 and X-X

B _x

Distance from 9 to X-X

B _y

Distance from 9 to X-X

D

Thickness of 1

H

Amount of 5

L

Length of 1

L _x

Distance from 7 to X-X

L _y

Distance from 7 to X-X

R

Rounding radius of 3

X X

axis

Claims (15)

Combined creasing and cutting tool for embossing linear folding grooves and for cutting foldable materials such as cardboard, cardboard boxes, fine cardboard boxes, plastic foils or corrugated cardboard, consisting of a flat, strip-shaped base body (1) with a blunt arranged on a longitudinal edge (2) - Seen in cross section - convex rounded embossing edge (3), on which a cutting lug (5) with a cutting edge (4) in its foot region is arranged in such a way that the material in the area of the folding groove, based on, during the embossing process its thickness, at least incised, the embossing edge (3) being continuous over the length (L) of the strip-shaped base body (1) and the cutting edge (4) over the length (L) of the strip-shaped base body (1) interruptions (8) having,
characterized in that the embossed edge (3) in the region of the interruptions (8) is designed as a flat surface (3a) over a width (A) which corresponds to the width (A) of the foot region of the cutting attachment (5). Tool according to claim 1,
characterized in that the flat surface (3a) is produced by grinding, milling, chemical removal (etching), lasering or eroding. Tool according to claim 1 or 2,
characterized in that the embossed edge (3) is arranged centrally or laterally offset with respect to the central plane of the base body (1). Tool according to one of claims 1 to 3,
characterized in that the cutting attachment (5) is delimited on both sides by flanks (6) by their mutual spacing in the foot region Tool according to one of claims 1 to 4,
characterized in that the width (A) of the cutting attachment (5) is approximately 0.05 mm to 1.5 mm. Tool according to one of claims 1 to 5,
characterized in that a height (H) of the cutting attachment (5) corresponds approximately to the thickness of the foldable material to be embossed, based on a thickness-compressed state of the foldable material which arises with the forces occurring during the embossing. Tool according to one of claims 1 to 6,
characterized in that a / the height (H) of the cutting attachment (5) is approximately 0.05 mm to 1.5 mm. Tool according to one of claims 4 to 7,
characterized in that at least one flank (6) with an axis (XX) which runs parallel to side surfaces (7) in the cross section of the base body (1) through the cutting edge (4) includes a flank angle (A _x , A _y ), which is approximately in the range from 15 ° to 35 °, preferably approximately 27 °. Tool according to one of claims 1 to 8,
characterized in that the cutting attachment (5) and the base body (1) consist in one piece of a strip steel, in particular a spring strip steel, which is hardened, preferably induction hardened, at least in the region of the cutting edge (4), and then, preferably at a temperature of 250 up to 500 ° C. Tool according to one of claims 1 to 9,
characterized in that the flanks (6) of the cutting attachment (5) are scraped. Tool according to one of claims 1 to 10,
characterized in that the embossing edge (3) extends in a plane substantially perpendicular to the plane of the base body (1). Tool according to one of claims 1 to 10,
characterized in that the embossed edge (3) extends in the longitudinal direction of the base body (1) in a circular arc. Tool according to one of claims 1 to 12,
characterized in that the convex rounding (10) of the embossing edge (3) is designed in the shape of a circular arc, in particular in a semi-circular manner. Tool according to one of claims 1 to 13,
characterized in that the strip-shaped base body (1) has a thickness (D) in the range from 0.5 to 5.0 mm, preferably from about 0.7 to 1.5 mm. Tool according to one of claims 1 to 14,
characterized in that the base body (1) tapers from its material thickness (D) over an edge strip area (9) to the embossing edge (3) at an acute angle, symmetrically or asymmetrically to the central plane of the base body (1) ,

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