DE102006025151A1 - Roll cutter positioning method for paper cutter device, involves suspending roll cutter carrier at slub in clamped manner, and bringing cutter unit in contact with slub of axial rod, so as to fasten roll cutter unit in position - Google Patents

Abstract

The method involves providing an axial rod (1) at which a rolling slub is fixed, where a roll cutter unit is attached at the slub. A roll cutter carrier (21) is suspended at the slub in a clamped manner. The displacement of the unit is calculated and the position of the slub is adjusted based on the displacement. The unit is brought in contact with the slub, so as to fasten the unit in position with rod. An independent claim is also included for a device for positioning a roll cutter of a cutter device, comprising an axial rod.

Description

The The invention relates generally to a method and apparatus for positioning a roller blade of a cutting device.

As it is from the 1 As can be seen, a conventional roller blade of a cutting device has a plurality of roller blade units 2a coming from an axial rod 1a be penetrated. Each roller blade unit 2a has a roller blade 20a and a roller blade carrier 21a , The roller cutter carrier 21a has a through hole 210a through which the axial rod 1a can be plugged to the roller blade unit 2a to fix. The roller knife 20a becomes upright and secure on one side of the roller blade carrier 21a appropriate. To the roller blade unit 2a on the axial rod 1a to position in this is a fine hole 10a trained where to place it. Each roller cutter carrier 21a has a fine hole 10a corresponding through hole 211 (in the 2 shown) to thereby the roller blade unit 2a so on the axial rod 1a to attach that pin 22a is plugged through these two holes.

However, it is quite difficult to pin holes 10a in the axial rod 1a train, especially by hand. Therefore, there is often a deviation of the distances between the fine holes. In addition, the insertion of the pins needed 22a the exercise of external forces, creating a roller blade 20a can be easily bent. As a result, the distance between roller knives 20a can not be accurately controlled, whereby the cutting quality of the cutting device is impaired.

Of the Invention is based on the object, a method and an apparatus for easy and accurate positioning of a roller knife one To create cutting device.

These The object is achieved by the method according to the appended claim 1 and the device according to the appended claim 4 solved. According to the invention a roller thickening is used, on which a respective roller blade carrier clamping is postponed. This allows each roller knife safely positioned which also reduces the distance between different roller knives can be controlled exactly. So the production is simplified and the quality when cutting paper is improved.

The Invention will now be illustrated by figures embodiments explained in more detail.

1 is an exploded view of a conventional cutter with a roller blade and an axial rod.

2 is a partial exploded view of a conventional cutter with a roller blade and an axial rod.

3 is an exploded view of a roller blade and an axial rod according to an embodiment of the invention.

4 is one of the 3 corresponding partial exploded view.

5 to 7 illustrate a first, second and third step in placing a roller blade unit on an axial rod according to an embodiment of the invention.

The in the 3 and 4 illustrated apparatus for positioning a roller blade has an axial rod 1 and a plurality of roller blade units disposed thereon 2 each of which comes from a roller knife 20 and a roller blade carrier 21 consists. The roller cutter carrier 21 is made of a material softer than that of the axial rod. For example, there is the axial rod 1 made of iron, while the roller cutter carrier 21 made of plastic. The roller cutter carrier 21 gets from a hole 210 penetrated. The roller blade is upright on one side of the roller blade carrier 21 attached.

First, on the axial rod 1 where a roll knife unit 2 is a roll thickening 10 educated. The number and locations of roll thickening 10 depend on the amount of roller blade units to be installed 2 and the distance between the roller blades 20 from. In the present specific embodiment, there are six roller blade units 2 separated on the axial rod 1 arranged to cut A4 size paper into business cards.

As it is in the 5 is shown, a device 3 that can accurately calculate displacements, used to make the pulley units 2 on the axial rod 1 to move. The device 3 has a stepper motor or servomotor (not shown) that controls the displacement of a translation stage 30 can control exactly. In the present embodiment, the translation stage becomes 30 up and down at the Vorrich tung 3 moved, where he can also be moved horizontally. Also, under the device 3 a pedestal 31 formed around an end of the axial rod with the roller thickenings 10 at the translation table 30 to fix. Then the roller knife units become 2 through which the axial rod is to be stuck, on the pedestal 31 arranged to every hole 210 a roller blade carrier 21 with one end of the axial rod 1 align.

As it is in the 6 is shown, the displacement of the roller blade unit 2 from the other end of the axial rod 1 to the position of the respective roller thickening 10 calculated electronically. The device 3 controls the stepper motor so that it moves the translation table 30 adjusted and the roller blade unit 2 to the position of the associated roller thickening 20 on the axial rod 1 shifts. Since the roller cutter carrier 21 is made of a material softer than that of the axial rod 1 is, arises between a roll thickening 10 and the associated roller cutter carrier 21 a clamping force when the roller blade unit 2 at the position of the roller thickening 10 is pushed onto the axial rod, causing the roller blade unit 2 securely fastened to its position.

As it is in the 7 is shown, the shift table 30 then returned to its original position. By repeating the steps in the 5 to 6 will all roll knife units 2 pressed to their predetermined positions. In addition, the shift for the next roller cutter unit 2 depending on the displacement of the previous roller blade unit 2 be calculated. By subtracting the distance between the two roller blade units from the displacement of the previous roller blade unit, the displacement for the next roller blade unit is obtained. For this reason, the position of the roll thickening must be 10 not too accurate. Some minor errors affect the positional accuracy and attachment strength of the roller blade units 2 Not. Therefore, there is a reliable roller blade shaft, after all roller blade units 2 were pressed to their predetermined positions.

As described, using the method and apparatus according to the invention, the roller blade units 2 fast on an axial rod 1 arranged. There are no pins to be used to a roller blade carrier 21 on an axial rod 1 to fix. Furthermore, no external forces on the axial rod 1 exercised. Each roller blade unit is controlled by electronically controlling the translation table 30 pressed to its predetermined position. This is how the distance between roller knives becomes 20 the roller blade units 2 accurately controlled, resulting in an improvement in the quality of cutting paper.

Claims (5)

Method for positioning a roller knife ( 20 ) of a cutting device, comprising the following steps: a) providing an axial rod ( 1 ), in which a roll thickening ( 10 ) is formed substantially at a position at which a roller blade unit ( 2 ) is to be installed; b) calculating the displacement of the roller blade unit, and adjusting it substantially to the position of the roller thickening according to the calculated displacement; and c) the roller blade unit is engaged with the roller thickening of the axial rod. Method according to claim 1, characterized by Step of controlling the displacement by a stepping motor or a servomotor. The method of claim 1, further characterized by the step of calculating the displacement for a next roller cutter unit Subtracting the distance from the displacement of the previous roller blade unit. Device for positioning a roller blade of a cutting device, comprising: an axial rod ( 1 ); several roller blade units ( 2 ), which are arranged separately on the axial rod and each of which via a roller blade ( 20 ) and a roller blade carrier ( 21 ) for mounting the same, the roller blade carrier having a hole through which the axial rod penetrates; and a roll thickening ( 10 ) on the axial rod, which engages with the hole of the roller blade carrier. Apparatus according to claim 4, according to the invention, the roller blade ( 20 ) upright and secure on one side of the roller blade carrier ( 21 ) is attached.