DE2059145B2 - Wire straightening machine - with crankshaft drive - Google Patents

Abstract

Round or flat wire straightening machine for use in wire mills comprises straightening elements, through which the wire is passed and which are fitted periphally on discs mounted on a crank shaft, the elements being prevented from rotating with the discs from the outside. The design permits the easy resetting and replacing of the die like straightening elements.

Description

The invention relates to a device for straightening flat and round wire as well as narrow ones Belt material in which the material to be straightened runs through straightening elements, which at least ^ a rotating rotor in the axial direction one behind the other with the formation of a wave-shaped row are arranged eccentrically and rotatable relative to the T.äufer.

In a known arrangement (German publication 1 923 995) the whole straightening device rotates around the wire, which is only an axial Transport movement, but no rotary movement

leads. With this sequence of movements it is to be feared that there will be helical lines in the wire surface Form grooves. This scoring is a serious problem when straightening wires. especially when straightening very thin wires. which are processed into small parts. The screams namely can be the cause of high stress concentrations that lead to destruction of the workpiece.

Another known device (German Auslegcschrift 1036 016) that of the initially described Corresponds to the genus, represents an attempt to straighten surface damage to the Avoid wire. A straightening element in the form of a straightening bushing is used as a runner part within the Rotor eccentrically mounted. It was apparently assumed that the alignment bushing because of the friction on the wire running through it would stand still in the circumferential direction and therefore the formation of helical grooves would be avoided. However, it has been shown that the Directional bushing rotates, namely because the drive torque resulting from the friction in the ball bearing is often greater than the braking torque resulting from the friction of the alignment bushing on the wire; it is to be considered that the lever arm entering into the formation of the drive torque around a It is many times greater than the lever arm entering into the formation of the braking torque, and that too when using ball bearings to support the alignment bushing in the rotor because of the through-sign.: n the axial forces resulting from the wire, the resistance to rotation in the bearings is considerable. These too Arrangement therefore does not bring satisfactory results because it does not produce the dreaded scoring can suppress completely and, moreover, because it is very impractical because of the difficulty with Threading the wire through the various straightening bushes in the inner part of the rotor.

3 4

The invention is based on the object of further refinements within the scope of the invention Apparatus of the type mentioned at the beginning are marked in the remaining subclaims.

create in which the formation of helical lines.

Moderately running grooves on the wire surface with exemplary embodiments of the invention are avoided for safety, the straightening elements 5 being described below with reference to the drawing. It for the purpose of threading the wire to be straightened shows materials should be more easily accessible. F i g. 1 two schematically shown, one behind the other

According to the invention, this object is thereby achieved by the arranged devices of the

solves that the straightening elements adjoin the outer running bodies, with the ones carrying the straightening elements

are arranged, which on the type of cur- io outer barrel body of the two devices in the

belwelle designed rotor eccentrically mounted are moved in opposite directions of rotation, and against rotating with the rotor from the outside F i g. 2 shows an outer running body in side view,

are secured. F i g. 3 the in F i g. 2 shown outer race

With the designation outer running body is a per in front view,

on the outside of a rotor and rotatable relative to it. 4 another embodiment of a Richl-

Bar bearing assembly meant. element.

Due to the inventive embodiment, in Fig.] Behind are prevented two devices 10, 20, that superposed in judging Schraubenlinien-, form a continuous förrnige grooves on the wire surface. Wire 15 to be directed. Either of the two devices

The fact that the straightening elements on from a 20 10, 20 has a rotor 3 in the form of a crankshaft Runner penetrated outer running shaft, which with bearing journals 5 in fixed bodies are arranged, they are more easily accessible bearing blocks 4 is mounted. Each runner 3 is with As the directional elements of the known devices, a drive pulley 14 is provided, which has a which are each arranged inside a rotor. belt drive, not shown, is driven. They are therefore easier to replace and in other ways adjustable. The introduction of the material to be straightened in rotation in the opposite direction At the beginning of the work there is also a toilet. Each of the runners 3 has three eccentric courses relieved. tap 6 open. On each crank pin 6 is a

An expedient development of the invention, the outer running body 2 is mounted. The outer race body 2

may consist in that the eccentricity of 30 are shown in Fig. 1 in a view from above. Outer running body with respect to the axis of rotation of the In Figs. 2 and 3 is each an AußenlauiLr.r-

Runner is changeable by the position of the shown by 2 in side or front view. This

Outer running body relative to its bearing on outer running body 2 consists of a central circular

can be adjusted to the runner. As a result, disk 8 and an outer part 7. The circular disk 8

the amplitude of the waves with which this can be rieh- 35 in the outer part 7 if necessary by rotation

The material that has to pass through the device must be rotated around the axis of the circular disk. the

be ried. Circular disk 8 has a bearing at an eccentric point

A particular advantage of this arrangement is for the crank pin 6 concerned. In Fig. 2

also in the fact that the amplitudes are so adjustable, the axis of rotation 17 of the rotor 3 agrees with the

are that they coincide in the constantly changing shaft 40 circular disk axis. When the circular disc 8

planes are of different sizes and thus the transverse rotation in the outer part 7 is adjusted

cut a round that was to be directed in all directions, however, no longer the case. By such a

can be adapted to the material. Adjustment, the eccentricity can be changed.

Another useful development of the In Fi g. 2 the smallest eccentricity is set, Finding can consist in that the axial distance 45, the outer part 7 of the outer running body 2 has the outer running body is changeable. This notice its left outer side in FIG. 2 a straightening element mal sets up an additional degree of freedom in the connection 13 for the wire 15. The straightening element 13 is fitting of the device to the respective to be rieh- here with a guide sleeve for the wire 15 versctende Material. It will be more expedient. The in F i g. 2 by means of the straightening element 13 the distance between the outer running bodies 50 rende dashed circle represents the movement that choose the smaller, the smaller the dimensions the straightening element 13 makes when the rotor 3 roe of the cross-section of the material to be straightened. At its lower end is the outer part 7 of the are. Outer running body 2 is provided with a guide attachment 9

According to a further feature within the scope of the disclosure, that between two guide rollers 11, 12

Finding it is provided that the outer barrel body 55 is mounted so as to be longitudinally displaceable. The two axes of the

a perpendicular to the axis of rotation extending guide rollers 11, 12 extend parallel to

have the guide approach, the axis of rotation 17 of the rotor 3 in a guide.

Is guided longitudinally displaceable. The longitudinally rotating guide rollers 11, 12 can be changed elastically

Slidable leadership of the guide lugs., is ver (not shown), so that the guide lug 9 a

prevents the outer running body from being able to carry out a fan-like pivoting movement with the rotor 60,

rotates around the axis of rotation. when the rotor 3 rotates.

In order to avoid that the material to be straightened, the wire 15, the devices 10, 20 wel-

is twisted when passing through the device, pass through len-shaped, the center line of the

can - as known per se - two waves in opposite directions from the general one (dashed in Fi g. 1)

rotating rotor arranged axially one behind the other 65 shown) through-flow axis 16 is formed and where-

will. As a result, the wave plane that may occur is constantly changing. Here-

Twists in the band-shaped material again through straightening is achieved in all planes, reversed. In Fig. 4 is another embodiment for a

Directional element 23 shown. This consists of areas of the rollers 24, 25, 26 are channel-shaped

a base body 30 hollowed out with a star-shaped recess so that the rollers are at their star point

recess 31. A circular passage opening for the wire 15 in this star-shaped recess

31 three rollers 24, 25, 26 are arranged, which form. This embodiment works almost

about pivot pins 27, 28, 29 are rotatable. The rim 5 bungslos.

1 sheet of drawings

Claims (10)

Patent claims: 1. Device for straightening flat and round wire and narrow strip material, in which the material to be straightened runs through straightening elements which are arranged eccentrically and rotatably with respect to the rotor on at least one rotating rotor in the axial direction to form a wave-shaped straightening section, characterized that the straightening elements (13) are arranged on outer running bodies (2), which are mounted eccentrically on the rotor (3) designed in the manner of a crankshaft and are secured from the outside against Mitrotie Ren with the rotor (3). 2. Device according to claim 1, characterized in that that the eccentricity of the outer running body (2) with respect to the axis of rotation (17) of the rotor (3) can be changed. 3. Device according to claim! or2, thereby characterized in that the axial distance between the outer running bodies (2) can be changed. 4. Device according to one of claims 1 to 3, characterized in that the outer barrel (2) a guide extension (9) perpendicular to the axis of rotation (17) have, which is guided longitudinally displaceably in a guide. 5. Apparatus according to claim 4, characterized in that that the leadership of the side of the guide extension (9) adjacent guide rollers (11, 12) is formed, the axis of rotation of which runs parallel to the axis of rotation (17) and that the distance between the guide rollers (11, 12) can be flexibly changed. so that from the leadership approach (9) fan-like pivoting movements can be carried out when the rotor (3) is rotated. 6. Apparatus according to claim 4 or 5, characterized in that the outer running body (2) are disc-like and each consist of a central circular disc (8) and a die Circular disk (8) surrounding outer part (7) exist, which the straightening element (13) and the Guide approach (9) has that the central circular disc (8) at an eccentric point Has bearing for storage on a crank pin (6) of the rotor and that the central Circular disk (8) can be adjusted relative to the outer part (7) by rotating around the circular disk axis is. 7. Apparatus according to claim 6, characterized in that the individual crank pins (6) of the rotor (3) are so long that the outer running bodies (2) carried by them have a margin for longitudinal displacement on the crank pin (6). 8. Device according to one of claims 1 to 7, characterized in that the straightening elements (13) are each formed by a slot in the outer barrel body (2). 9. Device according to one of claims 1 to 7, for straightening wire with a circular cross-section, characterized in that the straightening elements (23) each consist of at least three star-like arranged rollers (24, 25, 26) which have a groove-shaped hollowed out edge region , the rollers (24, 25, 26) leaving an approximately circular passage opening for the wire (15) in the star center. 10. Device according to one of claims 1 to 9, characterized in that two oppositely rotating rotors (3) axially one behind the other are arranged.