DE3142020A1 - SZ-stranding device having a reversibly driven stranding disc and a tubular store - Google Patents

Abstract

The tubular store (10) of the SZ-stranding device is subdivided into three portions (20, 30, 40) of the same size which have different diameters. The diameters decrease, as seen in the production direction (12). This design allows a simple mounting of the individual portions (20, 30, 40). <IMAGE>

Description

Device for SZ stranding with a

reversing driven stranding disc and a tube storage die The invention relates to a device for SZ stranding with the aid of a reversing device driven stranding disc, in which the stranding elements along one in the stranding axis arranged tubular guide and storage body (tube storage) of the stranding disc are supplied, the pipe storage is not rigidly connected to the stranding disc and is divided in the longitudinal direction into several sections that can be driven separately are trained.

SZ stranding devices in which the drains and the take-offs are fixed standing in space win for a number of reasons in cable manufacturing technology more and more important. In some cases, a device still works today for SZ stranding, as described in DE-PS 682 267. The out of this pressure ~ well-known machine, which is also known as a tubular spool stranding machine works with a rotating stranding disc that holds the stranding elements be fed via a pipe storage.

When stranding with such a tube storage machine, the individual elements partly helically on the outer surface of the pipe storage applied and withdrawn from there with the help of a trigger.

Because the elements are pulled over the pipe storage system during this process as low a coefficient of friction as possible is aimed for in order to reduce the tensile stress to keep the stranding elements low.

If the stranding elements only allow large height radii, must be at Cable constructions with many stranding elements in parallel on the pipe storage are guided, the wrap period can be chosen to be large. But that means there are also large frictional distances that the stranding elements have to overcome comes that the stranding elements when they are around the tubular guide and Having placed storage bodies, exert a "choking effect" on this body and thus increase the friction again.

The invention is based on the object that the stranding elements to reduce the friction exerted on the pipe accumulator. This task is performed according to the Invention achieved in that the individual sections of the tubes store different Have diameter.

In addition to a reduction in friction, this also results in a constructive one Advantages in that the storage of a section in the interior of an adjacent section can be done. If one also takes care that the diameter of each By removing sections in the production direction, a conical one is also achieved Effect that helps to avoid kinking of sensitive stranding elements, because in this way the transitions from the outer large diameters in the feed area of the stranding elements can be carried out more gradually up to the stranding point. Besides the friction conditions are improved by the gradually decreasing diameter.

In the further structural configuration and device according to of the invention, it proves to be particularly advantageous if the drives for all sections on transmission or translation devices together couples. Thereby one becomes the coupling of the drive devices of the individual sections preferably train so that the speed of the sections in the manufacturing direction increases.

The invention is illustrated with reference to the drawing and below described Ausführungsbei game explained in detail.

The single figure shows schematically the drive devices for a pipe storage tank divided into three sections, which is shown below for the sake of brevity is referred to as pipe storage. In the example shown is the pipe storage 10 divided into three equally large sections 20, 30 and 40. The direction of manufacture is marked by the arrows 12. A stranding element 8 is for better illustration drawn in for the sake of it.

The diameters of the individual sections 20, 30, 40 are different rough. In the exemplary embodiment, they are chosen so that the diameter is in the production direction decrease, d. H. the diameter of the section 40 is larger than that of the section 30 and that in turn is larger than that of section 20. The drive of all sections takes place in the present example via a motor 11.

The drive arrangement can of course also be made that each section is assigned a special drive motor.

The first section (counted against the production direction) 20 is Via a stepped pulley 22, a suitable transmission 23 and the drive wheel 24 driven.

The stepped pulley simultaneously drives a first intermediate shaft 31 at. A transmission is generated from this intermediate shaft via suitable intermediate gears 33 and the drive wheel 34 for the second section 30 as well as a second intermediate shaft 41 powered. The second intermediate shaft is used via the transmission 43 and the drive wheel 44 as a drive for the third section 40.

The drive wheel 24 is mounted in a fixed bearing 26. Direct the stranding disk 25 is arranged next to it. Behind as seen in the production direction a winder 16 is provided on the stranding disk, which winds the stranded bond produced wrapped with a holding coil and thus fixed it.

The drive wheel 34 for the second section 30 is in a fixed bearing 36 stored. In this drive wheel is an intermediate stranding disk 35 and the floating bearing 27 for the first section 20 housed. Likewise, the drive wheel 44 is for the third section 40 is mounted in a fixed bearing 46. With this drive wheel is an intermediate stranding disk 45 and the floating bearing 37 for the second section 30 connected. The floating bearing for the third section is labeled 47.

Functional description: From the motor 11 and the step pulley 22 all three sections 20 simultaneously via the described transmission devices, 30 and 40 of the tube storage 10 driven with different Drehzaltrl. the The arrangement is such that the speeds increase in the direction of production. Due to the different speeds of the individual gates, the stranding elements 8, when you begin to loop around the pipe storage, do not constrict it too much, The two intermediate stranding disks 35 and 45 ensure precise installation the Vcrscilclemetlte on the pipe spreader so that it does not roll over the individual pipe sections can come. The friction of the individual stranding elements 8 opposite the pipe storage 10 and its sections 20, 30 and 40 is through this measure is considerably reduced. A further reduction in the coefficient of friction could scored when you hit the pipe memory against the direction of rotation the stranding disc (and the intermediate stranding discs). But that would be with associated with a considerably higher mechanical effort.

1 Figure 4 claims

Claims (4)

Claims 1. Device for SZ stranding with the aid of a reversing driven stranding disc, in which the stranding elements along one in the stranding axis arranged tubular guide and Speic'rkkörCr (tube storage) of the stranding disc are supplied, the pipe storage is not rigidly connected to the stranding disc and is divided into several sections in the longitudinal direction, which can be driven separately are designed, that is, the individual sections (20, 30, 40) of the pipe store (10) have different diameters. 2. Apparatus according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the diameter of the individual sections (20, 30, 40) of the pipe storage Remove (10) in the production direction (12). 3. Apparatus according to claim 1 ututl / or 2, d a d u r c h g e k e n n z e i c h n e t that the drives (24, 34, 44) for all sections (20, 30, 40) over under or. translation devices (22, 23, 24; 31, 33, 34; 41, 43, 44) are coupled to one another. 4. Apparatus according to claim 3, d a d u r c h g-e k e n n z e i c h n e t that the coupling of the drive device (24, 34, 44) of the individual sections (200 30, 40) is designed so that the speed of the sections in the manufacturing direction (12) increases.