EP1457277A1 - Steel reinforcing wire straightening apparatus - Google Patents

Abstract

The straightening device straightens the structural steel rod (4) over a straightening sector. The sector has at least one roller straightening device (5) and at least one rotor straightening device (10) along it to straighten the rod. The roller and rotor devices can be used alternately. At least one of the roller devices is able to turn.

Description

The invention relates to a device for straightening structural steel wire, wherein the structural steel wire is aligned over a straightening path.

When processing structural steel wire that is unwound from coils, that is Alignment of the starting material of crucial importance for the further Processing.

There are currently two straightening techniques, first the roller straightening system and second the rotor straightening system.

The roller straightening system usually uses two groups of rollers, two in two Layers are offset by 90 ° to each other.

The advantage of this system lies in the low inertial mass of the rollers, the one rapid acceleration and braking allowed. Multi-wire processing is through multiple grooves possible in a simple way.

However, this straightening technique also has various disadvantages. For longer The straightening quality is insufficient. Setting the rollers is difficult and lengthy. There is no consistency in the standard quality. The target quality is strong of the properties of the wire (shape and steel properties). This is the straightening of steel wire from different wire suppliers is almost impossible.

Areas of application for roller straightening technology are mostly machines that are straightened Produce mild steel wire in short individual lengths. With these short individual lengths the constant judging result is not an absolute priority.

The rotor straightening technology uses a rotating body that is equipped with straightening rollers, Straightening nozzles or straightening stones is fitted to each other on its longitudinal axis are staggered. The body turns around its longitudinal axis and straightens in all dimensions. The advantages of rotor straightening technology are as follows:

In most cases, the wire can be adjusted in just a few simple steps be accomplished.

A very high level of consistency in the straightening quality is achieved.

The influence of the material properties of the structural steel on the judging result is low.

Structural steel wire from different manufacturers can usually be done without major conversion work be used.

It follows from the above that the rotor straightening technology for straightening longer rods is absolutely preferable to roller straightening technology.

The disadvantages of this technique lie in the high inertial mass of the rotor, which means that only lower acceleration and braking values can be achieved.

Areas of application for this technology are machines that are due to further processing of the material must deliver a consistently good judging result. These are for example double bending system for large bends, robot systems, Welding equipment etc.

The object of the invention is to a device of the type mentioned create that combines the advantages of the two straightening techniques and their night parts eliminated or at least reduced.

The object of the invention is achieved in that along the straightening path at least one roller straightening device and at least one rotor straightening device for Straightening the structural steel wire are provided.

It is advantageously provided that first in the feed direction of the structural steel wire a roller straightener and then a rotor straightener is arranged.

An exemplary embodiment of the invention is described below with reference to the figures in FIG Described drawings.

Fig. 1

ein schematisch gehaltenes Schaubild einer erfindungsgemäßen Vorrichtung,

Fig. 2

ein Schema einer erfindungsgemäßen Vorrichtung, wobei die Rotorrichtvorrichtung außer Betrieb ist,

Fig. 3

ein Schema der erfindungsgemäßen Vorrichtung, wobei die Rotorrichtvorrichtung in der Arbeitsstellung gezeigt ist, und

Fig. 4 und 5

je eine schematisch gehaltene Seitenansicht einer erfindungsgemäßen Vorrichtung, wobei einmal die Rollenrichtvorrichtung und einmal die Rotorrichtvorrichtung in der Arbeitsstellung gezeigt ist.

Show it:

Fig. 1

2 shows a schematic diagram of a device according to the invention,

Fig. 2

1 shows a diagram of a device according to the invention, the rotor straightening device being out of operation,

Fig. 3

a diagram of the device according to the invention, wherein the rotor straightening device is shown in the working position, and

4 and 5

each a schematic side view of a device according to the invention, the roller straightening device and the rotor straightening device being shown in the working position.

The device 1 according to the invention is coupled to two coil carriers 2, on which store the coils 3 made of structural steel wire 4. The structural steel wire 4 is within the Device 1 first fed to a roller straightener 5 with rollers 6, where it is in one level. The structural steel wire 4 becomes a feed roller 7 fed second straightening device, alternately by a second Roller straightening device 5 or a rotor straightening device 10 can be formed. The Roles of straightening devices 5 and rotor straightening device 10 are both in the Device 1 integrated and come either alternately or together Commitment. It can therefore be a roller straightening device 5 or a rotor straightening device 10 used alone. Several roller straighteners 5 or several rotor straightening devices 10 are used and at least it can a roller straightening device 5 together with at least one rotor straightening device 10 are used. For example, the straightening devices 5, 10 are in the housing 12 the device 1 is pivotally mounted.

If two roller straightening devices 5 are in use, the Structural steel wire 4 through the second roller straightening device 5 in a plane leading to the Straightening plane of the first roller device 5 is offset by 90 °. This situation is in the Fig. 2 shown. Two roller straighteners 5 are in use. The Rotor straightening device 10 is in the rest position.

The rotor device 10 has a housing 8 in which a plurality of straightening bodies 9 are provided Directional nozzles 11 are arranged. The steel wire 4 is through the directional nozzles 11th guided. The directional nozzles 11 are located on the side of a theoretical axis that the directional structural steel wire 4 corresponds. The fact that the directional nozzles 11 to each other are arranged offset, the structural steel wire 4 in the rotation of the housing 8 in directed in all directions. The machine setting at which a roller straightener 5 and a rotor straightening device 10 are used together, is in the Fig. 3 shown.

The roller straightener 5 and the rotor straightener 10 are supported on one Carrier body 14 which is supported by a frame 16. The carrier body 14 is around an axis 15 pivotable, the pivoting movement is carried out by a hydraulic Piston-cylinder unit 18. On the carrier body 14 there is still a motor 17 for the drive the rotor straightening device 10 mounted.

The device 1 is connected to the two straightening devices 5, 10 with a Wire outlet 13 provided. The wire outlet 13 can have one or more Bending devices to be equipped. Likewise, the device 1 a cutting device and / or a bending device for the steel wire is provided his. According to the success, one roller straightening device 5 with several Rotor straightening devices 10 can be combined, as can a rotor straightening device 10 several roller straightening devices 5. A device 1 can also have several Roller straightening devices 5 and a plurality of rotor straightening devices 10 can be equipped.

It is advantageously provided that the roller distances to different Wire diameters are adjustable or that the offset of the rotor nozzles 11 to theoretical axis of the directed structural steel wire 4 is adjustable.

In one embodiment of the invention, the rollers 6 have multiple grooves provided and to enable the simultaneous processing of several structural steel wires 4.

Claims (14)

Device for straightening structural steel wire, wherein the structural steel wire is aligned over a straightening path, along which at least one roller straightening device and at least one rotor straightening device are provided for straightening the structural steel wire, characterized in that at least one roller straightening device (5) and / or at least one rotor straightening device (10) can optionally be brought into a working position and a rest position. Device according to claim 1, characterized in that the roller straightening device (5) and the rotor straightening device (10) are used alternatively. Device according to claim 1 or 2, characterized in that at least one roller straightening device (5) is pivotally mounted. Device according to at least one of claims 1 to 3, characterized in that at least one rotor straightening device (10) is pivotally mounted. Device according to one of claims 1 to 4, characterized in that feed rollers (7) are arranged between a roller straightening device (5) and a rotor straightening device (10). Device according to at least one of claims 1 to 4, characterized in that a cutting device for the structural steel wire (4) is then arranged on the straightening devices (5, 10). Device according to one of claims 1 to 6, characterized in that a bending device for the steel wire is then arranged on the straightening devices (5, 10). Device according to at least one of Claims 1 to 7, characterized in that a wire outlet (13) for longer bars is provided next to the straightening devices (5, 10). Apparatus according to claim 8, characterized in that the wire outlet (13) is equipped with one bending device or several bending devices. Device according to at least one of claims 1 to 9, characterized in that the roller straightening device (5) comprises a plurality of axially parallel rollers (6) which are arranged on both sides of the structural steel wire (4). Device according to one of claims 1 to 9, characterized in that the at least one rotor straightening device (10) comprises a plurality of straightening stones (9) with straightening nozzles (11), the straightening nozzles (11) with respect to an axis which corresponds to the straightened structural steel wire (4 ), are alternately laterally offset. Device according to at least one of claims 1 to 11, characterized in that the roller spacings can be adjusted to different wire diameters. Device according to one of claims 1 to 11, characterized in that the offset of the rotor nozzles (11) to the theoretical axis of the directed structural steel wire (4) is adjustable. Device according to at least one of claims 1 to 12, characterized in that the rollers (6) have a plurality of grooves for the simultaneous processing of a plurality of structural steel wires (4).

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