DE498021C - Perforator oscillating around a fixed axis and activated by an eccentric or the like - Google Patents

Description

Oscillating about a fixed axis, by an eccentric or the like. In action set perforator It is known to be endless, at a uniform speed moving webs of paper or similar materials with the help of perforators holes that swing around a fixed axis and driven by an eccentric or the like will. Such perforators have the disadvantage that they can only be used when the distance between two adjacent perforation lines is relatively small.

These relationships are based on Fig. 1, the one oscillating Perforator of known type schematically reproduces, explained in more detail.

The lower end i of the perforator is mounted pivotably on the axis 2. With its upper end 3, the perforator encloses an eccentric .4 which circles around the shaft 3 at a uniform speed, the eccentric center 6 moving in the direction of the arrow 7 on the circle 8. The lower part 9 of the perforator carries the die io, the upper part ii the pin holder plate 12 with the perforating pins 13 which are congruent in the drawing Die a and punch in the direction of arrow 14 over the die away material web 1 5. The arrangement must be made so that the falling in the direction of movement of the material web component of the speed of the perforating pins at the moment of passage of the pins through the The material web corresponds to the speed of which. If, for example, the length d of the lower part 9 is equal to the length b of the upper part ii of the perforator, the requirement just made is met if. the speed of the upper end of the perforator on the circle 8 is twice as great as the speed of the fabric web. But since every full circular movement corresponds to a perforation, this also means that the circumference of the circle 8 in the present case must be twice as large as the distance between two adjacent perforations in the material web. It is now easy to see that the distance between two adjacent holes in perforators of the type mentioned cannot exceed a certain narrow limit, because as this distance increases, the diameter of the eccentric circle 8 and thus the lateral deflection of the perforator soon reaches such a level that the material web under high tension is distorted to an extent that it cannot cope with.

The invention provides a remedy here. she consists one oscillating about a fixed axis, by an eccentric or the like. In action set perforator for endless webs moving at a constant speed made of paper or the like, which is characterized in that the axis of the eccentric is non-uniform is driven, the degree of non-uniformity being variable. In which the perforator forming the innovation can be the eccentric and thus the deflection of the Perforateurs are kept smaller than with perforators with uniformly moving Eccentric and the same perforation distance. Second, it becomes through the invention allows one and the same perforator in a simple manner for different perforation distances set up. Due to the simplicity of switching from a perforation distance to the perforator forming the subject of the invention differs from the others advantageously from known perforators for variable perforation spacing. While in known perforators the change in the distance between two adjacent perforation lines have two working elements, namely the speed of the drive eXccentric and, ier rash of the perforator. adapted to the speed of the material web must be, it is sufficient for the perforator forming the invention, with unchanged Rash of the perforator. To adjust the drive eccentric.

In the drawing is an embodiment of the subject matter of Invention illustrated, namely show: Dep. 2 and 3 in schematic Play the perforator forming the invention in different positions in FIG Side view; Fig. 4, a semi-schematic representation of the same perforator in front view ..

The part of the perforator that makes the perforation is the same the perforator of the known type described above. The large number of perforating pins accordingly there are two ex = ter q on the wilt 5. provided, one on each Find the perforator. According to the invention, the drive of the eccentric shaft 5 is new; @ It is done by the gear pair 16; 17. The gear 16 is seated with its radial Slot 18 on the square end 19 of the eccentric shaft 5 and can be moved there over the length of the slot transversely to its axis. With help it can be determined by mother in every situation. It's with the one on the axis 21 attached gear 17 connected by the pair of tabs 2z, which the permanent cooperation of the two wheels. The wheel 17 is through the chain drive 23 to 25 of the in stationary bearings a6 rotating shaft 27 at uniform speed powered off.

The one described here, known per se, in connection with a vibrating perforator, however, has not yet been used drive causes the angular speed of the eccentric shaft 5 increases and decreases periodically. she grows when the contact point of the two gears 16 and 17 is the eccentric shaft 5 approaches, and becomes smaller as soon as the point of contact moves away from the eccentric shaft removed. Accordingly, it reaches within a certain position of the eccentric shaft of the slot 18 of the gear 16 the largest or the smallest value, if the Straight line connecting the two centers of the gears 16 and 17 through the axis the eccentric shaft passes through, and it reaches the greatest value when the Axis of the eccentric shaft lies within the two gear centers, and takes the smallest value as soon as it is outside the two center points: In Fig. 3 the first case is shown with thick lines, the second case with thin lines.

The advantages of this arrangement of the drive are best understood if one proceeds from the case that the slotted gear 16 on the eccentric shaft 5 is mounted centrally. In this case the theoretical axis a8 of the gear falls together with the eccentric shaft. If you continue to assume as it was at the beginning what has happened is that the length a of the lower part of the perforator is equal to the length b of the upper part, the circumference of the eccentric circle 8 corresponds to twice that Length of the distance between two adjacent perforations on the material web. Moves you now the gear 16 in its slot 18 by a certain amount, so the wind Point 6 no longer move uniformly on circle 8, sonxlern is at Passage through the lower section of the circle, i.e. during the entry of the Perforating pins in the die, have a greater speed. But that has only makes sense if the length of fabric also moves at increased speed becomes what can easily be achieved with known means. Because the time interval but remained the same between every two successive perforations is (the gear 16 and the eccentric shaft 5 have maintained their speed), means that the spatial distance between two adjacent perforations has increased is. Because now, after increasing the speed of the web, the circumference of the Eccentric circle 8 is no longer twice as large as the distance two adjacent perforations, but smaller, allows the invention forming perforator, as was claimed at the outset, compared to perforators with a uniformly moved eccentric actually a reduction of the diameter of the eccentric circle 8 dependent deflection of the perforator oscillation around the axis 2.

Each new position of the eccentric shaft 5 within the slot 18 of the gear 16 corresponds to a different perforation length. When switching to a other perforation length is sufficient, the gear 16 with its slot 18 on the eccentric shaft 5 and to adapt to the changed paper speed while it, As already mentioned at the beginning, with known perforators, the speed is necessary of the drive eccentric of the perforator and to change the perforator deflection and to coordinate with each other.

The circular gears 16 and i; can by a pair of elliptical Wheels are replaced. This makes it possible to change the perforation spacing canceled. On the other hand, the advantage of the small eccentric diameter and thus remains the small oscillation amplitude exist.

Claims (1)

PATENT CLAIMS: i. Swinging around a fixed axis, thanks to an eccentric o. The like. Moving perforator for endless, moving at a uniform speed Sheets of paper or similar materials, characterized in that the eccentric (.4) is driven at a non-uniform speed. a. Around a fixed axis oscillating perforator according to claim i, characterized in that it is on the shaft (5) of the eccentric (q.) A drive gear (16) is arranged eccentrically, the by one that revolves at a uniform speed and is in engagement with it Gear (17) is driven. 3. Perforator swinging around a fixed axis Claim r and 2 characterized in that the distance between the shaft (5) of the eccentric (4) and the theoretical axis (28) of that arranged on that shaft (5) Gear (i6) is variable. 4. Perforator swinging around a fixed axis according to claim i, characterized in that the eccentric is formed by a pair of elliptical Gears is driven.