DE1913638C - Cutting device - Google Patents

Description

! 913 638

The invention relates to a cutting device for belt-shaped material conveyed in its longitudinal direction Sheet material with a rotating.! Knife with straight, perpendicular to the feed direction of the Surface material extending knife axis of rotation parallel cutting edge, which with a fixed Counter knife cooperates. In particular, the invention relates to such a cutting device for Cutting off photocopier paper in a photocopier. It happens in such devices very often suggests that the cutting occurs during the movement of the photocopy paper coming off a roll he follows. Furthermore, the cutting must be as precisely as possible at right angles to the side edges respectively. Finally, it is important that the cutting process does not occur suddenly, as the relatively large, short-term energy absorption by the paper when it is suddenly cut off brings into the whole mechanism and also puts a heavy load on it.

From the German patent specification 270 872 is a cross cutting machine for webs of fabric with a fixed knife and one with this rotating knife with a helical shape Cutting edge known The cutting edge of the fixed knife is straight and extended parallel to the axis of rotation of the rotating knife, its cutting edge in a circular cylinder runs around the axis of rotation. Such a device not only prepares for regrinding the knife Difficulties, but also has the serious disadvantage that with it only things stand still Dahnmatcrial can be cut if the cut is perpendicular to the direction of movement of the track material should run as this is normally required. This is the known device practically only suitable for cutting a web that moves intermittently and during the Cutting is recorded.

From the French patent specification I 422 998 a cutting device is known which has a similar structure is, however, with a knife that is radially displaceable relative to its axis of rotation for cutting Has a helical cutting edge around its axis of rotation. With this device is supposed to wandering web material can be cut; however, the cut can never be at right angles! to the Web material run because the fixed knife is perpendicular to the direction of advance of the web material has a running cutting edge. Both in this device and in the one described above Apparatus, the rotating knife would have to run at an infinitely high speed, if one wanted to wandering web material vertically; u can achieve cuts that run in the direction of travel.

From the U.S. Patent 2059 4K! a cutting device is known in which two knives Rotate with straight cutting edges around parallel axes. The cutting edges run parallel to the Axes. The peripheral speed of the cutting edges is equal to the feed speed of the Railway materials. Such a device allows perpendicular to the feed direction of the material running cuts. However, the load on the knife is great here, as there is no pulling cut, but a punching cut. Furthermore, the load on the machine's gearbox is also great, because the entire Schncidencrgic applied in an extremely short period of time and so only for a short time can be cleared by braking the rotating parts.

The last-mentioned shortcoming also has another one, from British patent specification 1069 123 (Fig. I. and 2) known cutting device, which differs from the latter device only in that that only one knife rotates while the other knife stands still. This construction too

ίο leads to sudden stress on the Mechanism and rapid blunting of the cutting edges.

From this British patent a cutting device is also known in which the two Cutting the rotating and the fixed knife at the same small angle so inclined are that the rotating cutting edge describes a hyperbola when it rotates (Fig. 3 and 4). Here too the above-mentioned striking or occurs again

ao chopping cut that stresses the transmission and leads to rapid blunting of the knives. Another shortcoming of this device is that a change in the feed speed of the web material that is cut in motion, a repositioning of both the fixed knife as well as the rotating knife, which is laborious. For devices with changing Such a cutting device is therefore unusable at the speed of the web material.

The latter also applies to another, from the above more critical. Patent known device (F i g. 5 and 6), in which the rotating Cutting edge is also inclined in such a way that it describes a hyperboloid of rotation around its axis of rotation. the fixed cutting edge runs in such a way that, when the two cutting edges touch with their centers, along the second the green hyperboloid of rotation generating straight line runs. With this construction, the cutting speed is across the width of the Cutting knife different because the radial distance of the rotating knife from the axis of rotation is above the Width is different and therefore the speed at the moment of cutting on the outer Ends of the rotating knife is larger than in the middle. Furthermore, the web material to Cutting edges are arched, since it ultimately nestles against the said hyperboloid as a result of the cutting process will. This often leads to undesirable loads in the cut web material.

The same shortcomings are finally also shown by a further one (Fig. 7 and 8) of the above-mentioned British Patent known cutting device, which from the! Ctztbcschricbcnen essentially differs in that the web material is inclined to the axis of the rotating measurement; so fed that it runs perpendicular to the rotating cutting edge when its center is straight with the center of the fixed cutting edge cooperates.

Compared to this prior art, the invention creates a cutting device of the type outlined at the outset Kind that does not have the shortcomings of the known devices, that is, during conveying of web material this through perpendicular to the conveying direction can cut running cuts in which

6s operating speed is independent of the angular adjustment of cutting, Bahnmatcrial not buckle in a disturbing way around Work · wide the same average speed, has the

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borrowed nil j over a relatively long period of time Since the paper, as already described,

Uiul so that excessive insults on the drive are cut while the two came

Avoided and through simple and robust the cutting knife in point-to-point contact

Structure award; That will be there according to the invention, which is applied to the cutting knife during the

achieved by the fact that the load exerted on a cutting device of the 5 paper cutting is greatly reduced.

initially outlined type the cutting edge of the fixed. This can damage the knife

Wedging of the knife along a helix on the can be prevented, and better Pupier-

cutting operations are performed by the rotating cutting edge as it rotates. In this case

generated cylinder surface runs. j _{it is} preferable that the cutting angle match the

The particular advantage of the device according to io points of contact of the edges of the cutting knives

(1st invention lies in the fact that it remains unchanged within further, since thereby both an equal,

(Both the size and the constancy of the cutting load are irrelevant, as are the uniform ones

the slope of the helix is important; when cuts are guaranteed.

“Also a helical line of constant pitch is shown in fig. 2 can be seen, the support member 7 is the If, as a rule, preference is given, the cutting device 6, which is fixed in front of 15, is tanned on a my impaired when inaccuracies shown in dashed lines axis Il pivotable stored in the course of the slope of the helix through. A force is applied to the carrying part 7 be introduced. The circumference wears it tends to turn it clockwise speed of the cutting edge of the rotating axis! to turn. The force is through rVU-ssers must be equal to the feed speed of the ao screw bolt 12 ji.d! 3, which is determined by Ver-I ■!.. to be perpendicular to the feed screw are attached to the Yrrgteil and through ν -! to achieve running cuts. Springs 14 and 15 caused one ends

Fig. 1 shows in perspective a cutting device on each of the bolts and tle other ends

Il ng according to the invention; _e i _ner support plate 16 are attached, which in turn

ί ig. 2 schematically shows a side view of 25 attached to the housing of the photocopier

Fnneidorrichtung according to Fig.l in a photo is. An insertion plate 18 is located on the support plate 16

Copier. provided which are in contact with the support part 7

As can be seen from FIG. 1. is a support plate3 and its position by means of an adjusting screw ji .. a rotary shaft 2 of a rotary cutting device I 17 is adjustable. The fixed cutting device is sweaty. On the support plate 3 is a rotation device 6, which as a result of the springs 12 and 13 the K-cutting knife 4 attached. The rotating shaft2 will tend to rotate clockwise, the direction indicated by the arrow 5 can be adjusted by the adjusting screw 17 A suitable drive device, not shown, is such that the edge 9 of the diameter 8 is rotated for the purpose. The straight edge of the cutting knife 4 is adjusted moderately. To guide the photocopy writes When turning a paper with dashed lines 35 are used guide plates 19, 20 and 21. The shown cylinder surface. The edge of the rotary cutting photocopy paper is inserted into the rotary cutting device messcrs 4 is parallel to the axis of the cylinder surface. in the direction indicated by arrow 22

On a support part 7 of the registered in its entirety with 6 and indicated by the arrow 23 in the fixed Schneider is carried out in a fixed direction.

standing cutting knife8 attached. The edge 9 of the 40 adjacent to the guide plates 19 and 20

fixed cutting knife 8 is preferably and the guide plates 19 and 21 are paper

arranged helically in the cylinder surface and push rollers 24 and 25, which are

forms driven by means of a belt 26 with respect to the straight edge of the rotary drive roller 27

The cutting blade 4 has a curved cutting edge. That will be. The rotation of the drive roller 24 is on

Paper is in the indicated by the arrow 10 45 the Drehwellc 2 of the Drehschneidvorrichlung 1 by means of

Direction advanced, the feed units being arranged coaxially to the drive roller 24

speed equal to the peripheral speed of the gear 28 and by means of a gear drive with

KantedcsDichmcssers4ist. Gears 29, 30, 31 and 32 transferred. This

The edge of the rotary cutting knife 4 and the power transmission device is designed so that the edge of the stationary cutting knife 8 is so formed and arranged as the peripheral speed of the drive roller 24 and t.us that they are the same as that of the edge of the rotary cutting knife 4 when Drelr.ing is used. The Drehschneidvorrichlung I touch each other. The gear 31 is drivingly with an electrical cutting edge 9 is resiliently engaged by springs 14 and 15 which are coupled to magnetic clutches (not shown), shown in FIG. 2, which are held by a device not shown. On the other hand, the edge 9 can be made thinner and controlled so that its elasticity can be used to create. · ¹ . The rotary cutting knife 4 of the Drehschneidvorciner flexibility of the edge 9 can serve. The direction normally always takes the same edge of the rotary cutting knife 4 touches the edge 9 position, when it is not in operation, first at its point A. 60 instrument not for measuring the photocopier paper approximation point along the edge 9 to point B, which is actuated, the electromagnetic coupling the edge of the rotary cutting knife 4 and the edge 9 coupling is not operated, so that the rotation of the fixed cutting knife 8 is always with one - The drive roller 24 is not in contact with the rotary cutting device 1 other. As a result, this will be carried over into. After actuating the measuring device indicated by the arrow 10 direction 65 and consequently the electromagnetic Kupp transported paper one after the other from its one development, the rotation of the drive roller 24 is transmitted to the side on its other side at right angles to shaft 2 of the rotary cutter, so cut off its transport direction . that the rotary cutting knife 4 starts from the

to rotate predetermined starting position described above. This will adhere the photocopy paper to the Contact points between the edge 9 de;> fixed knife 8 and the Kanlc de «. Rotary csscrs 4 cut.

The peripheral speed of the edge of the rotary knife 4 is equal to the paper advance speed as described above v / urdc. Between the edge of the rotary knife 4 and the one transported during the cutting process and There is therefore no relative speed when the paper is cut off. There continue to be the channels of the cutting knife 4 is at right angles with respect to the paper feed speed, the paper cut along a straight line at right angles to the direction of paper transport. The the same applies when the paper transport speed is changed, since in this case the peripheral speed of the edge of the rotary knife 4 accordingly is changed so that the positional relationship between the paper and the edge of the rotary knife remains unchanged. As the peripheral speed the channels of the rotary knife 4 and the paper transport speed are the same, and there s.idi the color of the cutting mess 4 when not in use is in the same starting position as described above, the length remains Hr.s cut paper regardless of the Change in paper feed speed always the same.

The embodiment is in conjunction with a photocopier described, but can also be used to cut rolled paper Paper in sheet form can be used especially in a device in which the paper feed speed is inevitably changed.

Claims (1)

Claim: Cutting device for conveyed in its longitudinal direction, band-shaped surface inatcrial, z. B. Photocopy paper, with a rotating knife with straight, to perpendicular?: Ur feed direction of the sheet material running knife axis of rotation parallel cutting edge, which with a festi-o standing counter knife cooperates, characterized in that the cutting edge (9) of the fixed knife (8) along a helical line on that of the rotating one Cutting edge with the rotation generated Zy- * 5 limicffiäne runs. 1 sheet of drawings