AT520588A1 - Apparatus for cutting individual bars from a wire passing in the direction of production and for accurately positioning the ends of the bars - Google Patents

Abstract

In a device for cutting individual rods of a running in the direction of production (P) wire by means of scissors and for accurately positioning the ends of entering after cutting into a wire channel rods, the scissors is designed as flying shears with knives (3), the Perimeter of two wires (2) enclosing the wire (1); in the direction of production (P) of the pair of scissors, a revolver drum (5) with channels (7) extending outwardly along the generatrices of the drum (5) around its circumference is arranged so that the channel (4) 7), which is in the direction of rotation of the drum (5) in a position in front of the uppermost position, in the production direction (P) and can accommodate the just cut rod (4); the advance of this rod (4) taking place as a result of the kinetic energy imparted by the flying shears is decelerated by a friction brake (11) fixedly supported on the device; In addition, a wire advancing device (8) which can be moved back and forth in the production direction (P) is provided, which engages at the rear end (4A) of the cut rods (4) with rod driver elements (9A, 9B, 9C) can engage in the channels (7) and bring the rear end (4A) of the bars (4) into an exactly constant position (4B) with respect to the direction of production (P); the first in the position in front of the uppermost position rod (4) passes after stepwise rotation of the drum (5) in its lowest position, from which it is discharged from the rotated in the lowest position channel (17) down on a shelf.

Description

Summary:

In a device for cutting individual rods to length from a wire running in the production direction (P) by means of a pair of scissors and for precisely positioning the ends of the rods entering a wire channel after being cut to length, the scissors are designed as flying scissors with knives (3) which are arranged on the Circumference of two rollers (2) enclosing the wire (1) are arranged; In the production direction (P) after the scissors, a revolver drum (5) with channels (7) for the bars (4), which are distributed along the generatrix of the drum (5) and are distributed around its circumference, are arranged in such a way that the channel ( 7), which is in the direction of rotation of the drum (5) in a position in front of the uppermost position, lies in the direction of production (P) and can accommodate the rod (4) which has just been cut to length; the advancement of this rod (4) as a result of the kinetic energy communicated by the flying scissors is braked by a friction brake (11) which is fixedly supported on the device; In addition, a wire feed device (8), which can be moved back and forth in the production direction (P), is provided, which acts on the rear end (4A) of the cut-to-length bars (4) with bar driver elements (9A, 9B, 9C) which engage in the channels (7). can intervene and bring the rear end (4A) of the rods (4) into an exactly constant position (4B) in relation to the production direction (P); the rod (4), which is initially in the position in front of the uppermost position, reaches its un1 / 15 after the drum (5) has been rotated step by step

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PATENTANWÄLTE KG

EUROPEAN PATENT AND TRADEMARK ATTORNEYS

A-1200 VIENNA, BRIGITTENAUER LÄNDE 50

DIPL.-ING. DR. TECHN. ELISABETH SCHOBER

DIPL.-PHYS. DR. PHIL. TOBIAS FOX

DIPL.-ING. WOLFGANG NOSKE

The invention relates to a device for cutting individual bars to length from a wire passing through in the production direction by means of scissors and for precisely positioning the ends of the bars entering a wire channel after cutting.

In wire processing plants, individual rods often have to be cut from wires of greater length and the rods then have to be further processed, e.g. for the welding of mesh mats, be brought into a precisely defined position. If the cutting is done using stationary shears, there is the disadvantage that the wire passing through the system has to be stopped for cutting, which causes loss of time and energy consumption, as well as unrest and noise in the production line and can damage the rod surface. To avoid these disadvantages, the use of flying scissors is known, but they have the disadvantage that the rods emerging from the scissors come to lie unevenly after the scissors due to the kinetic energy communicated by the scissors. For further processing, however, the rods always have to be in the same position, so that the ends of the rods have to be aligned with one another, which requires complex work steps and leads to wasted time.

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The object of the invention is to provide a simple and time-saving device which uses flying scissors to cut the bars to length and exactly aligns the length of the cut bars with one another without loss of time.

This is achieved in a device of the type mentioned at the outset in that the scissors are designed as flying scissors with knives which are arranged on the circumference of two rollers which enclose the wire, and in the production direction after the scissors a revolver drum along the generatrix of the drum around its circumference, outwardly open channels for the rods are arranged in such a way that the channel that lies in the direction of rotation of the drum in front of the uppermost channel lies in the direction of production and can receive the rod that has just been cut to length, the feed of which can be achieved by a device stationary, supported friction brake is braked, and that a wire feed device which can be moved back and forth in the production direction is provided, which engages at the rear end of the cut-to-length bars with wire driver elements which can engage in the channels and move the rear end of the bars into an exactly constant position Bring n to the production direction, whereby the rod initially in the position of the channel before its uppermost position comes to its lowest position after gradually rotating the drum, from which it / 15 • ·· ·· -9 3 - · · ♦ • · · · · ·· · · Γ · ·· • · · · ···· · · • · · «· · · · · · • · ·· ··· · · · · · from the rotated to the lowest position Channel is given down on a shelf.

Further features of the device according to the invention can be found in the dependent claims.

The device according to the invention is explained in more detail with reference to an embodiment shown in the drawing. In the drawing, FIG. 1 shows the device schematically in a side view and FIG. 2 shows the device in the production direction, seen from the left in FIG. 1. Fig. 3 is a speed-time diagram illustrating the reciprocation of the bar feeder.

Of a wire running horizontally in the direction of production P, only the center line labeled 1 is shown in FIG. 1. The wire is cut by means of flying scissors between two rotating rollers 2 enclosing it, with knives 3 arranged on its circumference, into individual rods 4 of the same or different, selectable length. In the production direction P after the scissors, a turret drum 5 is arranged with a horizontal axis of rotation 6, which can be rotated stepwise clockwise by means of a rotary drive, not shown. The revolver drum 5 has along the generatrix of the drum 5 distributed around its circumference outwardly open channels 7 into which the cut rods 4 can enter. In the production direction P after the scissors

4/15 ···· · · · · ·· • · ·· · · · · * · · · and in or in front of the front area of the revolver drum 5 is a rod advancing device which can be moved back and forth in the direction of production P. 8 arranged. A travel drive for the rod feed device 8 is designated by 14.

The turret drum 5 is arranged such that the channel 7 in its position 7A, which is in the direction of rotation of the drum 5 at the moment shown in FIG. 2 in front of the topmost position 7B, lies in the production direction P and the rod 4 which has just been cut to length can record. Due to the kinetic energy communicated by the flying scissors, this rod 4 has come to rest with its rear end 4A after a first section a adjoining the interface at any point within a distance b, its front end already within the position 7A located channel 7 of the turret 5 is located. If the rear end 4A of the rod 4 which has come to rest lies within the first third xl of the entire travel distance b of the rod advancing device 8, the advancement takes place by means of a first rod driver element 9A which is arranged on the rod advancing device 8 in the upper region thereof. If the rear end 4A of the rod 4 has come to lie within the second third xl of the entire travel distance b of the rod advancing device 8 as a result of the greater kinetic energy communicated to it, the feed effected by the latter only takes place by means of a second rod driver element 5/15. 5 - · · * • · · · ··· • • 9 ^J · ·· ···· ···· ·· • · · · ···· · · • · · ··· ·· · · · mentes 9Β, which is arranged in the central height range of the rod feed device 8. If the rear end 4Ά of the rod 4 only comes to lie within the third third xl of the entire travel distance b of the rod advancing device 8 due to its even greater speed, the feed effected for the first time by the latter occurs only by means of a third rod driving element 9C, which is in the lower region of the rod advancing device 8 is arranged. If all the rods 4 come to rest with their rear end 4A within the first third xl of the travel distance b, as can usually be the case when the device is operating relatively slowly, all three rod driver elements 9A, 9B, 9C are involved in the advancing process ; in the case of fast operation, only the last rod driver element 9C arranged in the lower region of the rod advancing device 8. The rods 4 inserted into the channels 7 of the revolver drum 5, after the drum 5 has been rotated step by step, finally reach a position in which the channel 7 receiving the respective rod 4 is at the very bottom in the position 7D. In this position, the respective rod 4 can fall out of the channel 7 onto a shelf (not shown in the drawing) or be ejected.

In all cases, it is ensured that the rear end 4A of the cut-off rod 4, which is located somewhere in the region of the travel path b of the rod advancing device 8, is after the discharge from the one in the lowest position 7D

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Channel 7 of the revolver drum 5 is located at exactly the same point 4B.

It goes without saying that the rod driver elements 9A, 9B, 9C which are arranged at different heights on the rod advancing device 8 are also arranged laterally and offset from one another with mutual distances x1 corresponding to the positions of the channels 7 of the revolver drum 5.

Of course, the turning steps of the revolver drum 5 must be coordinated with the back and forth movement of the rod advancing device 8 such that the rod driver elements 9Ά, 9B, 9C are located outside the channels 7 of the drum 5 when the drum 5 is rotated further. In the event of a malfunction in the further rotation of the revolver drum 5 before the rod driver elements 9A, 9B, 9C have completely left the channels 7 of the drum 5, a pawl device 10 is provided which moves the rod driver elements 9A, 9B, 9C about an axis 10A against the action of a spring 10B pivots out of the channels 7 located in the positions 7C.

For braking the kinetic energy of the rod 4, which is communicated by the flying scissors and whose front end is located in the channel 7 of the revolver drum 5 in the uppermost position 7B and slides further forward there, a friction brake 11 is provided which is supported in a stationary manner on the device , The friction brake 11 is with a Rei7 / 15

• · · · · · · · ·· · · · · ···· ·· training pawl 12, which is pivotable towards and away from the rod 4, as long as the rod 4 in the channel occupying the uppermost position 7B 7 of the revolver drum 5 is located. The force with which the friction pawl 12 presses on the rod 4 can be adjusted in accordance with the diameter, the length and the surface properties of the rods 4 such that the rear end 4A of the rod 4, as mentioned above, between the position at a distance from the Interface and a position within the adjoining travel path b of the rod advancing device 8 comes to rest. A pneumatic actuation cylinder for the friction brake 11 is designated 13.

The various positions of the channels 7 of the turret drum 5 on the circumference of the drum 5, each of which is assumed in FIG. 2, are designated differently below in accordance with the respective function performed: the position 7A of the channels 7 arranged in the direction of rotation of the drum 5 before the uppermost position 7B is the one where the front end of the bar 4 just cut off first enters after the scissors. This position 7A of the channels 7 can be referred to as the entry channel. The entry channel 7A, together with the rod 4 which has not yet come to rest therein, moves from the position 7A to the uppermost position 7B by means of a very rapid turning step of the drum 5. There, the rod 4, which is still moving rapidly, is braked by the pressure of the friction pawl 12 arranged on the friction brake 11 which bears on it. The

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Channel 7 located in the uppermost position 7B is accordingly referred to as the brake channel. The channels 7 located in the three positions 7C downstream in the clockwise direction of rotation of the drum 5 are referred to as rectifier channels. In the first two rectifier channels, advancement steps can be carried out by means of the rod driver elements 9A, 9B. With fast operation, a feed step only takes place in the last rectifier channel. The lowest channel 7 in this position 7D is referred to as the delivery channel.

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Claims (7)

claims: 1. Device for cutting individual bars to length from a wire running in the production direction (P) by means of scissors and for exact positioning of the ends of the bars entering a wire channel after cutting, characterized, that the scissors as flying scissors With knives (3) is trained, the at the extent two the Wire (1) on closing roles (2) disposed are, and that in the production direction (P) after Shears a revolver drum (5) with channels (7) for the bars (4) which are distributed along the generatrix of the drum (5) and are distributed around the circumference of the drum so that the channel (7), which rotates in the direction of rotation Drum (5) is in a position (7A) in front of the uppermost position (7B), lies in the direction of production (P) and can accommodate the rod (4) which has just been cut to length, the feed of which by means of a friction brake (11) which is fixedly supported on the device is braked, and that a rod advancing device (8) which is movable back and forth in the production direction (P) is provided, which engages at the rear end (4A) of the cut-to-length rods (4) with rod driver elements (9A, 9B, 9C) which engage in the Channels (7) can intervene and bring the rear end (4Ά) of the rods (4) into an exactly constant position (4B) with respect to the direction of production (P), the first being in position (7A) of the channel (7) its top position 10/15 (7B) located rod (4) after gradually turning the Drum (5) reaches its lowest position, from which it rotated from the position (7D) to the lowest position Channel (7) is given down on a shelf. 2. Device according to claim 1, characterized in that the rod driver elements (9A, 9B, 9C) of the wire feed device (8) in different positions in height and laterally offset according to the positions of the channels (7) of the revolver drum (5) and also in the direction of production (P) and are arranged at a mutual distance (xl). 3. Device according to claim 2, characterized in that with a, preferably three, equally long parts (xl) divided travel (b) of the wire feed device (8) with the exception of the last in the production direction (P) part (xl) each Rod driver element (9A, 9B, 9C) is arranged at the beginning and at the end of the parts (xl). 4. Device according to one of claims 1 to 3, characterized in that the contact pressure of the friction brake (11) according to the diameter, length and surface quality of the rods (4) is adjustable so that the rear end (4A) of the rod ( 4), which enters the channel (7) in the position (7A), which is in the direction of rotation of the drum (5) before the uppermost position (7B), there between a position at a distance (a) the interface and a position after the adjoining travel path (b) of the rod advancing device (8) arrives. 5. Device according to one of claims 1 to 4, characterized in that the friction brake (11) with a on the rod (4) and away from this pawl (12) is formed. 6. Device according to one of claims 1 to 5, character- ized in that the rotating steps of the turret drum (5) with the back and forth movement of the rod advancing device (8) can be coordinated so that the rod driver elements (9A, 9B, 9C ) when turning the revolver drum (5) outside the channels (7). 7. Device according to one of claims 1 to 6, characterized in that the rod driver elements (9A, 9B, 9C) for the malfunction of the further rotation of the revolver drum (5) located in its channels (7) rod driver elements (9A, 9B, 9C) can be released from the outside.