DE3003054C2 - Method and device for SZ stranding of power cable cores with a sector-shaped cross-section - Google Patents

Description

The invention is in the field of manufacturing technology for electrical cables and is related to SZ stranding of non-pre-twisted power cable cores with a sector-shaped conductor cross-section.

For better space utilization of the cable cross-section, it is common practice to use cable cores with a sector-shaped conductor cross-section for multi-core power cables in the low and lower medium voltage range (<! 0kV). Up to now, these have been stranded with one another to form a cable core with the same twist direction. Sector cores with and without pre-twist can be used. The stranding of sector cores without pre-twist takes place without reverse rotation: during the stranding process, strong torsional loads act on the sector cores. It is therefore customary to arrange a forced guidance for each wire in front of the stranding nipple, with which the spatial position required for stranding is fixed.

Ways have already been marked in order to strand sector cores with twisting directions that change at intervals. For this purpose, SZ stranding machines, such as those found in the manufacture of telecommunication cables and power lines, must be further developed in order to master the large mechanical forces that occur ^{when stranding non-pre-twisted sector cores due to the large conductor cross-sections (> 35 mm 2).} In a known device of this type, the sector cores directed in front of the stranding nipple are stranded with a stranding device arranged between the first and a second stranding nipple. This revolves with a direction of rotation that changes in sections, so that the sector cores in the first stranding nipple are stranded in the same direction a first time and in the second stranding nipple a second time. The stranding device consists of one or two collet pullers arranged one behind the other (DE-OS 27 42 662). With such a stranding device, the necessary torsional forces can be effectively generated.

ίο The invention takes into account the knowledge that for a trouble-free course of the stranding process in the SZ stranding of non-pre-twisted sector cores not only an effective transfer of the torsional forces to the material to be stranded, but also a favorable one Design of the stranding geometry is necessary, based on a method for SZ stranding of not pre-twisted power cable cores with sector-shaped cross-section, in which each cable core is routed into the Stranding nipple runs in and the cable cores are then stretched with alternating sections Direction of lay are stranded (DE-OS 27 42 662), the invention is accordingly the task based on an improvement in the forced guidance of the stranding elements to ensure that the stranding process is trouble-free design.

To solve this problem it is provided according to the invention that when the impact direction change guided position of each cable core by twisting the cable core around its axis and / or by shifting it of the executives in the longitudinal direction of the cable core and / or by angular displacement of the guide axis is changed with respect to the stranding axis.

The provided according to the invention periodic change in the guided position of the cable cores in The area in front of the stranding nipple takes into account that the cable cores are required for trouble-free SZ stranding Desired spatial position of the respective cable core with respect to the stranding axis and the stranding nipple the speed, the direction of rotation of the stranding device

■ to tion and the withdrawal speed of the cable cores depends. This dependency can be determined empirically or by calculation and thus the guided situation of the Cable cores changed accordingly with a change of lay direction or in the sense of an optimal one Stranding geometry can be adjusted.

In order to constructively implement the change in the guided one provided according to the invention Position of the cable cores is provided in a further development of the invention, a device that consists of several a stranding nipple! arranged positive guides and one arranged behind the stranding nipple, their There is rotational movement periodically changing stranding device and in which each positive guidance with respect to the guide axis rotatably mounted and motorized synchronously to the change in rotational movement of the stranding device is rotatable step by step through small angles and / or with each positive guidance in the longitudinal direction displaceably mounted and displaceable by motor synchronous to the change in rotational movement of the stranding device is and / or in which each forced guidance is fixedly mounted at a pivot point and at a Another point synchronized with the change of rotation of the stranding device in one plane by a motor is slidably mounted. For the optimal design of the stranding process, it can also be advantageous when the stranding or leg washer carrying the constrained guides during the change in rotational movement twist the stranding device in the opposite direction

is cash. In this way it can be achieved that the cable cores despite the change in the rotational movement of the The stranding device maintains its position in the stranding nipple.

Due to the rotatable and / or displaceable mounting of the positive guides it is achieved that the Angular position of each forced guidance in the circumferential direction of the cable core being guided and / or the distance each positive guidance of the stranding nipple and / or the angular position of the axis of each positive guidance with respect to the stranding axis can be changed. As a result, there is a change in the rotational movement of the stranding device with a change in the spatial position of the cable cores in the area between the stranding disc and the Stranding nipple connected. In this way, the stranding geometry in the stranding nipple can change Conditions are optimally adapted. This adaptation takes place synchronously with the change in rotary movement the stranding device. The synchronization is expedient by means of the control device for the The stranding device is driven,

An exemplary embodiment of the new stranding device is shown in FIG. I shown. F i g. 2 shows in cross section Different positions of a forcibly guided power cable core with a sector-shaped conductor cross-section. In the stranding device shown in FIG. 1, the non-pre-twisted, sector-shaped ones run Cross-section having cable cores 2 from spatially fixed storage drums 1 and are over the pulleys 3 are fed to the stranding nipple 5. The SZ stranding of the cable cores 2 takes place with the stranding device arranged directly behind the stranding nipple 5 and rotating with alternating direction of rotation 6, which is a stranding head in the form of a caterpillar belt or clamping jaw take-off acts. At the beginning of the compensating section provided following the stranding device, there is the holding spiral spinner7 intended. The stranded cable cores are pulled off with the pull-off device 8 and opened the winding device 9 wound up. Between the stranding device 6 and the winding device 9 an extrusion line for applying a cable jacket can be arranged.

1 sheet of drawings

Claims (2)

Patent claims: 1. Procedure for SZ stranding of non-pre-twisted ones Power cable cores with sector-shaped Cross-section in which each cable core runs into the stranding nipple and then the cable cores be lingered in the stretched state with sections of alternating direction of impact, d a through characterized in that when the lay direction changes, the guided position of each cable core by twisting the cable core around its axis and / or by relocating the executives in Longitudinal direction of the cable core and / or by angular displacement of the guide axis with respect to the stranding axis is changed. 2. Apparatus for performing the method according to claim 1, consisting of several in front of one Compulsory guides arranged behind the stranding nipple and one arranged behind the stranding nipple, theirs Rotary movement periodically changing stranding device, characterized in that that each positive guide (4) is rotatably mounted with respect to the guide axis and can be rotated step-by-step through small angles by a motor in synchronism with the change in rotational movement of the stranding device (6)
and / or that each ZwangsfüWmng (4) is mounted displaceably in the longitudinal direction and can be displaced by a motor synchronously with the change in rotational movement of the stranding device (6) and / or that each positive guide (4) is fixedly mounted at a pivot point and at another Point synchronous to the rotation., Change of direction of the Stranding device (6) is mounted in one plane and can be displaced by a motor.