EP1935593A2 - Guillotine for cutting stacked sheet material - Google Patents

Abstract

The transport and mounting frame (1) comprises 2 U-shaped palette jowls (2) that are connected to one another via a profile (3), as well as a base-side central mount (5) and two upwardly projecting side shanks (6). The side shanks are turnably connected, about a rotary axles (7, 8), with the central mount. The rotary axles run in the direction of the longitudinal axes of the side shanks. The rotary axles may be arranged, on one side, at the front side regions of the palette jowls and, on the other side, on the rear side regions of the palette jowls. The rotary axles may be arranged symmetrically to one another along face sides of the palette jowls and may be in alignment with the central longitudinal axes of the side shanks.

Description

The invention relates to a plan cutting machine for cutting stacks of leafy Guts, with a cutter bar and a cutter mounted therein and with means for connecting cutter bar and cutting blade.

Plan cutting machines for cutting stacks of leafy material are widely known from the prior art. They usually have a stand with a table and a portal frame extending above the table. The table serves to accommodate the present in cuboid form, to be cut good on the table surface. The material to be cut is a cut product stack formed from sheets, in particular from paper sheets or plastic film sheets. In the portal frame, the cutter bar is mounted and movable in a plane perpendicular to the table surface. The knife bar is used for storage of the good cutting knife. This separates the material in the swinging cut, is thus not only moved down towards the table surface, but also moved laterally. Parallel to the cutter bar, a lowerable pressing bar is provided for clamping the material to be cut. - Such a plan cutting machine is for example from the DE 195 12 545 A1 known.

In this plan cutting machine mechanical means for connecting cutter bar and cutting blade are provided. The connection of cutter bar and cutting knife is done concretely by means of several screws. The screws pass through a corresponding number of vertically oriented slots in the cutter bar and it is provided with a corresponding number of threaded holes for receiving the screw the knife. The elongated holes make it possible to precisely align the cutting blade with respect to the knife bar. However, these holes and recesses are annoying knives and cutterbars. The cut material can thus not flow optimally from the knife during the cut.

The knife change takes place by means of a knife changing device. The blade change is relatively complicated, since before the cutting blade can be detached from the cutter bar, first the screws are unscrewed from the cutting blade and the screws must be screwed back when attaching the cutting blade and can only be fully tightened after precise alignment of the cutting blade.

A plan cutting machine clarified in the area of the knife bar and of the knife is also shown in FIG EP 0 736 362 A2 described. There it is shown that the cutter bar means for positioning the upper knife end face, there referred to as the knife back, which means also serve the purpose of supporting the cutting blade when cutting in the cutter bar. A similar plan cutting machine is in the DE-PS 1 251 271 described.

From the EP 1 245 355 A2 is a non-generic cutting machine, namely a knife roller with a magnet for attaching a knife known. This knife is a foil knife. The knife roller is used for processing, in particular the cutting through of paper in the production of envelope blanks for shipping bags, envelopes and the like. A knife roller with a magnet for attachment of a knife is further in the EP 0 608 152 A1 described.

From the WO 98/14310 It is known to hold a rectilinearly movable annular cutting tool for cutting sheet-like plastic electromagnetically.

Object of the present invention is to form a plan cutting machine of the type mentioned so that the blade change can be significantly simplified and, moreover, the cutting blade of the planing machine is structurally particularly simple.

The object is achieved in that the means for connecting cutter bar and cutting blade are magnetically acting means, wherein two groups of magnets are provided, the magnets of one group are formed as permanent magnets and the magnets of the other group are formed as umpolbare permanent magnets, wherein the permanent magnets of the two groups in a polar alignment of the umpolbaren permanent magnets generate a connection force between the cutting blade and cutter bar and in the other pole orientation of the umpolbaren permanent magnets, the connection force between the cutting blade and cutter bar is canceled.

This design of the plan cutting machine thus ensures, when the two groups of permanent magnets generate the connection force between the cutting blade and cutter bar, a firm connection between the cutting blade and cutter bar, so that can be safely cut by means of the plan cutting machine. In order to bring about the blade change, the other polar alignment of the umpolbaren permanent magnets is brought about, so that due to the cancellation of the connecting force between cutting blade and cutter bar now the cutting blade detached from the cutter bar and then, after regrinding the cutting blade can be connected to the cutter bar or against another Cutting knife can be replaced. For the purposes of the invention, the removal of the connection force between the cutting blade and the cutter bar means that the high connection force required between the cutting blade and the cutter bar during the cutting process is reduced so much that the cutting blade can be removed from the cutter bar. It is thus not necessary that this connection force is completely eliminated. However, it is considered advantageous if the connection force to the blade change is completely canceled. In particular, it is intended to position the cutting blade for blade replacement in a separate blade receptacle, for example, in the DE 195 12 545 A1 described stator and then by reversing the polarity of the permanent magnets to completely remove the connection force between the cutting blade and cutter bar.

Preferably, the permanent magnets are mounted exclusively in the cutter bar and generate a magnetic flux through the cutting blade.

Since, according to the invention, only the permanent magnets of one of the two groups of magnets must be reversible, the magnets of one group are preferably designed as non-reversible permanent magnets.

In the plan cutting machine according to the invention, the connection of the cutter bar and the cutting blade can thus be effected exclusively by the magnetically acting means.

The cutter bar is in particular designed such that it has a cutter bar upper part and a conically downwardly tapered cutter bar lower part. On the cutter bar, in particular the cutter bar lower part, in particular the groups of permanent magnets are attached. This results in a structurally particularly simple arrangement of all permanent magnets.

According to a particular embodiment of the invention it is provided that the groups of permanent magnets are formed by magnet units, the respective magnet unit of the umpolbaren permanent magnet of the other group of permanent magnets and two permanent magnets of a group of permanent magnets, wherein the direction of force of the latter two permanent magnets in opposite directions is. By this arrangement of the permanent magnets of the respective magnet unit can be structurally particularly simple manner create an arrangement that adds the magnetic forces of all permanent magnets of the magnet unit in one pole position of the umpolbaren permanent magnet and in the other position of the umpolbaren permanent magnet, the magnetic forces of the umpolbaren permanent magnet and the other two permanent magnets of the magnet unit cancels. The plan cutting machine can be structurally further simplified in the area of the magnet units if adjacent magnet units have a common permanent magnet of one group between them. Between adjacent umpolbaren permanent magnet therefore only a permanent magnet of a group, in particular a non umpolbarer permanent magnet must be arranged.

The respective reversible permanent magnet is preferably umpolbar electrically. Only for Umpolen thus electricity is needed. Depending on the pole position, the magnetic forces of the two groups of permanent magnets add or cancel each other out. The respective reversible permanent magnet is preferably surrounded by a coil. The coil longitudinal axis is arranged in particular vertically. This results in a particularly favorable alignment of the magnetic field of the respective repolarized permanent magnet with respect to the orientation of the magnetic field of the permanent magnets of a group, in particular of the non-repolourable permanent magnets.

According to a particular embodiment of the invention, it is provided that the respective reversible permanent magnet is formed as an easily umpolbarer permanent magnet, in particular as AlNiCo magnet. Such a magnet can be reversed within a very short time at low energy input.

The non-repolourable permanent magnet has the task of applying the essential holding force for the cutting blade. In this respect, the respective non-repulsive permanent magnet is formed so that it has a large magnetic force.

According to a preferred embodiment of the invention, it is provided that the respective magnet unit has a Polverlängerung under the umpolbaren permanent magnet, the Polverlängerung forms a contact surface for the cutting blade, as well as the side of the Polverlängerung the two non-umpolbaren permanent magnets. This arrangement of the permanent magnets results in an optimal power flow for generating the holding force for the cutting blade or for canceling the magnetic force acting on the cutting blade.

Since it is sufficient according to the invention to hold the cutting blade only magnetically in the cutter bar, the cutting blade can be used as a homogeneous body be formed, thus the cutting blade is not provided with holes for screwing the cutting blade on the cutter bar.

An advantageous structural development provides that the cutter bar means for positioning the upper knife end face / the knife back of the cutting blade and / or a lateral kraftbeaufschlagten blade end face of the cutting blade has. In the case of an oscillating cut, lateral forces are introduced into the cutting blade, which can be introduced into the cutter bar via the lateral blade end face on account of this design of the cutter bar. The permanent magnet thus essentially has the task of providing the holding force for the cutting blade.

Further features of the invention are set forth in the subclaims, the description of the figures and the figures themselves, wherein it is noted that all individual features and all combinations of individual features represent further inventive embodiments.

Figur 1

den Messerbalken, das Schneidmesser und die Mittel zum Verbinden von Messerbalken und Schneidmesser, die bei einer Planschneidmaschine Verwendung finden, in einem Schnitt dargestellt gemäß der Linie I-I in Figur 2,

Figur 2

eine Ansicht II gemäß Figur 1 von Schneidmesser, Schneidbalken und einem Messerlift,

Figur 3

das mit den Magneteinheiten versehene Messerbalkenunterteil in einer Ansicht II gemäß Figur 1, wobei der eine Endbereich des Messerbalkenunterteils in der Ebene der Befestigungsschrauben für die Magneteinheiten geschnitten ist,

Figur 4

eine räumliche Ansicht der jeweiligen Magneteinheit,

Figur 5

in schematischer Darstellung die Anordnung von Messerbalkenunterteil, Magneteinheiten und Schneidmesser bei aufgehobener Verbindungskraft zwischen Schneidmesser und Messerbalken,

Figur 6

eine Darstellung gemäß Figur 5 für den Zustand der erzeugten Verbindungskraft zwischen Schneidmesser und Messerbalken.

The invention is explained in more detail with reference to an embodiment. It shows:

FIG. 1

the cutter bar, the cutting blade and the means for connecting cutter bar and cutting blade, which are used in a plan cutting machine, shown in a section along the line II in FIG. 2 .

FIG. 2

a view II according to FIG. 1 cutting knife, cutting bar and a knife lift,

FIG. 3

the provided with the magnetic units cutter bar base in a view II according to FIG. 1 wherein the one end portion of the cutter bar base is cut in the plane of the mounting screws for the magnet units,

FIG. 4

a spatial view of the respective magnet unit,

FIG. 5

a schematic representation of the arrangement of the knife bar base, magnet units and cutting blade with canceled connection force between cutting blade and cutter bar,

FIG. 6

a representation according to FIG. 5 for the condition of the generated connection force between the cutting blade and the cutter bar.

The Figures 1 and 2 show the cutter bar 1 with the cutter bar upper part 2 and the cutter bar lower part 3, the latter also being referred to as the cutter bar tip. About magnetically acting means the cutter bar upper part 2 and the cutter bar lower part 3 are interconnected. The knife upper part 2 is provided with two obliquely but not mutually parallel linear guides 4, via which the knife bar upper part 2 is mounted in the portal frame, not shown, of the plan cutting machine. The linear guides 4 cause a movement of the cutter bar in the plane of the drawing sheet in the swinging section. The drive means for moving the cutter bar 1 down and to the side, in particular a crank drive for initiating the oscillatory motion in the cutter bar 1 are also not illustrated.

In the cutter bar 1, specifically the cutter bar lower part 3, the cutting blade 5 is mounted. It is flat, without holes or the like, and has a cutting wedge 6 in the region of its lower end. The knife bar and the cutting blade are made of a ferromagnetic material.

The cutting blade 5 connected to the knife bar lower part 3 is supported in the region of its upper knife end face 7 by two thrust pieces 8 adjoining it in a self-locking manner on two eccentric disks 9, which are mounted pivotably about axes 10 in the upper cutter bar part 2. When cutting the cutting blade 5 thus supported on the eccentric disc 9 on the cutter bar upper part 2 from. Optionally, could still in the area 11 between the cutter bar upper part 2 and the side knife end face 12, a contact element with be connected to the knife upper part 2, on which the knife end face 12 is supported during the swinging cut.

Additionally is in FIG. 2 a knife lift 13 illustrated. By means of the knife lift 13, the cutting knife 5 is mounted hanging in the cutter bar upper part 2 and can be raised and lowered with dissolved connection of cutter bar 1 and cutting blade 5, in particular moved to the desired mounting position of the cutting blade 5 with respect to the cutter bar 1.

The FIGS. 1 and 3 illustrate that the cutter bar lower part 3 a plurality of magnet units 14, in the embodiment receives twenty magnet units. Each magnet unit 14 is fixed by means of a screw 15 with the cutter bar lower part 3 in its upper region. The knife bar lower part 3 has a recess 16 extending in its longitudinal direction for receiving the magnet units 14. This recess 16 tapers conically towards the lower end of the magnet base 3.

The structure of the respective magnet unit 14 is the FIG. 4 The magnetic unit 14 has a slightly nonpolar permanent magnet 17, for example an AlNiCo magnet. This magnet 17 is surrounded by a coil 18. By means of the coil 18, the permanent magnet 17 can be re-magnetized, ie it north and south pole are reversed. On the side facing away from the cutter bar upper part 2, thus below the umpolbaren permanent magnet 17, a Polverlängerung 19 is arranged, which is provided with a threaded bore which serves to receive the threaded portion of the respective screw 15. This screw is inserted through a through hole 21 of the magnet 17. The pole extension 19 allows the magnetic flux to be conducted further into or out of the cutting blade 5, which rests against the surface 22 of the wedge-shaped pole extension 19 arranged parallel to the cutting blade 5. The side of the pole extension 19, directly below the coil 18, are on the two magnet units of this two adjacent magnetic units 14 facing sides two strong, not umpolbare permanent magnet 23 attached. The magnetic direction of the two permanent magnets 23 is in opposite directions. It faces either two north or two south poles. For the purposes of the invention, it is not necessary that each magnet unit 14 are assigned two independent permanent magnets 23. According to the embodiment, it is provided that between each two adjacent magnet units 14, a permanent magnet 23 is arranged. Also in this way it is ensured that the respective magnet unit 14 has a permanent magnet 23 on both sides.

Due to the design described so far, the plan cutting machine thus magnetically acting means for connecting the cutter bar 1 and 5 cutting blade. There are provided two groups of magnets, wherein the magnets of one group, the permanent magnets 23 of the mounting units 14 and the magnets of the other group are the umpolbaren permanent magnets 17 of the mounting units 14. The permanent magnets 17 and 23 are mounted exclusively in the cutter bar 1 and generate a magnetic flux through the cutting blade 5. For connecting cutter bar 1 and cutting blade 5 only these magnetically acting means are provided, so that the cutter bar must not be fixed by mechanical means.

FIG. 5 shows the magnetic flux at a Polausrichtung the umpolbaren permanent magnets 17, in which the connection force between the cutting blade 5 and cutter bar 1, specifically the cutter bar lower part 3 is repealed. As can be seen from the illustration of this figure, the poles of the permanent magnets 23 which are directed towards one another always change from one magnet unit 14 to the next. Thus, no magnetic force acts on the cutting blade 5. The magnetic flux is short-circuited between the individual magnet units 14. The permanent magnets 17 and 23 are connected in series.

Starting from the situation in FIG. 5 are reversed by short-term energization of the coils 18, the permanent magnets 17 and thus the in FIG. 6 shown situation in which all the permanent magnets 17 and 23, due to the now given polar alignment of the permanent magnets 17, the connection force between the cutting blade 5 and the cutter bar 1 generate. As the representation of FIG. 6 can be seen, the permanent magnets 17 and 23 are connected in parallel due to the polarity reversal of the permanent magnet 17. Based on the respective magnet unit 14, the magnetic flux of the magnets 17 and 23 is conducted via the pole extension 19 into the cutting blade 5. From here, the magnetic flux continues into the two magnet units 14 adjacent to this magnet unit 14, through the pole extension 19 and through the permanent magnets 17 and 23 to the magnet unit 14 arranged between the neighboring magnet units.

The condition according to FIG. 5 is brought about by brief energization of the coils 18 and thus reversing the polarity of the permanent magnet 17 again.

In the FIGS. 5 and 6 are the magnetic field lines illustrated, also the directions of the magnetic field lines are illustrated with arrows.

Claims (16)

Plan cutting machine for cutting stacks of leafy goods, comprising a cutter bar (1) and a cutting blade (5) mounted therein, and means (14) for connecting cutter bar (1) and cutting blade (5), characterized in that the means (14 ) for connecting blade bar (1) and cutting blade (5) are magnetically acting means, wherein two groups of magnets (17, 23) are provided, the magnets (23) of the one group are formed as permanent magnets and the magnets (17) of another group are formed as umpolbare permanent magnets, wherein the permanent magnets (17, 23) of the two groups in a Polausrichtung the umpolbaren permanent magnets (17) generate a connection force between the cutting blade (5) and cutter bar (1) and in the other polar alignment of the umpolbaren permanent magnets ( 17) the connection force between the cutting blade (5) and cutter bar (1) is canceled. Machine according to claim 1, characterized in that the permanent magnets (17, 23) are mounted exclusively in the cutter bar (1) and generate a magnetic flux through the cutting blade (5). Machine according to claim 1 or 2, characterized in that the magnets of one group are formed as non-reversible permanent magnets (23). Machine according to one of claims 1 to 3, characterized in that for connecting the cutter bar (1) and cutting blade (5) only the magnetically acting means (14) are provided. Machine according to one of claims 1 to 4, characterized in that the cutter bar (1) has a cutter bar upper part (2) and a conical having downwardly tapered, with the cutter bar upper part (2) connected blade bar base (3). Machine according to one of claims 1 to 5, characterized in that on the cutter bar (1), in particular the cutter bar lower part (3), the groups of permanent magnets (17, 23) are fixed. Machine according to one of claims 1 to 6, characterized in that the groups of permanent magnets (17, 23) by magnet units (14) are formed, wherein the respective magnet unit (14) from the umpolbaren permanent magnet (17) of the other group of permanent magnets and two permanent magnets (23) of a group of permanent magnets, wherein the direction of force of the two latter permanent magnets (23) is in opposite directions. Machine according to claim 7, characterized in that adjacent magnet units (14) have between them a common permanent magnet (23) of the one group. Machine according to one of claims 1 to 8, characterized in that the respective umpolbare permanent magnet (17) is electrically umpolbar. Machine according to claim 9, characterized in that the respective reversible permanent magnet (17) by a coil (18) is surrounded. Machine according to one of claims 1 to 10, characterized in that the respective umpolbare permanent magnet (17) is designed as an easily umpolbarer permanent magnet, in particular as AlNiCo magnet. Machine according to claim 10 or 11, characterized in that the coil longitudinal axis is arranged vertically. Machine according to one of claims 1 to 12, characterized in that the non-reversible permanent magnets (23) each have a large magnetic force. Machine according to one of claims 1 to 13, characterized in that the respective magnet unit (14) under the respective umpolbaren permanent magnet (17) has a Polverlängerung (19), wherein the Polverlängerung (19) has a contact surface (22) for the cutting blade (5 ) and the side of the pole extension (19) has the two non-reversible permanent magnets (23). Machine according to one of claims 1 to 14, characterized in that the cutter bar (1) comprises means (8, 11) for positioning an upper knife end face (7) of the cutting knife (5) and / or a side kraftbeaufschlagten knife end face (12) of the cutting blade (12) 5). Machine according to one of claims 1 to 15, characterized in that the cutting blade (5) is designed as a hole-free body.

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