DE3112634A1 - Process and apparatus for relieving the tensile force on SZ-stranding machines - Google Patents

Abstract

The invention relates to a process and apparatus for relieving the tensile force on SZ-stranding machines. The aim of the invention is to produce a uniform stranded structure of appropriate quality by means of SZ-stranding machines. The object according to the invention is, therefore, to reduce to a minimum the tensile-force load on the individual stranding elements before entry into the SZ-stranding machine and to achieve a synchronism of the stranding elements with one another. This object is achieved in that the individual stranding elements (wires) coming from run-off stands or other stores are fed to a guide and thereafter are laid around in an ordered manner, at a looping angle phi , over a driven draw-off disc arranged just in front of the stranding apparatus, the circumferential speed V1 of the draw-off disc being a small amount higher than the draw-off speed of the main draw-off or the stranding speed Vs of the stranding apparatus, and the stranding elements being guided from the draw-off disc by way of the perforated disc to the stranding apparatus with a greatly reduced tensile-force load. <IMAGE>

Description

Title of the invention

Method and device for relieving tension on SZ stranding machines Field of application of the invention The invention relates to a method and an apparatus to relieve tensile force on SZ stranding machines used in the manufacture of conductor bundles, Power cables, o. Ä. Serve in which the individual stranding elements of solid Discharge racks or other storage units withdrawn and via a guide device fed to the stranding head and the finished stranded bond via a before the stranding machine arranged extraction device is withdrawn and stored.

Chai characteristics of the known technical solutions for all stranding processes it is essentially a question of being as uniform as possible in the individual stranded strands Applying tensile forces in order to obtain a high-quality strand. This requirement is realized in that the pay-off coils are as uniform as possible be braked. The procedure is similar for other processes. What is essential is that the pull-off forces have a fairly large Y; ert, which is the case with most of the usual ones Stranding process is considered permissible as long as a certain amount of tensile force is not exceeded. The SZ stranding method, in contrast to the other stranding methods, the requirement to relieve the tensile force of the individual stranding elements. This requirement does not depend on the frequency of cracks, but on the individual characteristics to form a reversal point of the SZ stranding.

This point is the critical point in the SZ stranded bond, as this Reversal point occurs even with low tensile loads, but especially with different ones Tensile loads of the individual stranding elements among each other as well as with 3 load jumps, easily roped up or unevenly.

Furthermore, the SZ stranding offers the possibility of the coils, containers or to set up other storage facilities outside the machine. In the interests of a favorable Use of space or traditional observance of the connection to the internal The storage (reel - container) are often transported at a greater distance from the entry point arranged in the machine. The wires are then passed via guide elements (rollers, Nipple) to the stranding machine, so considerable friction occurs and also of Strongly different tensile forces, core to core. Therefore here is the requirement for a tensile force relief even more urgent.

By DE-OS 24 54 777 a device is already known, with an additional take-off device for each stranding element in front of the stranding unit is arranged0 These take-off devices should include the individual stranding elements same speed as the take-off device behind the stranding device pull off and thereby relieve the tensile force of the stranding elements. This device is due to the always different frictional relationships between the individual Pull-off devices not able to achieve the same speeds and therefore the same To achieve tensile forces. This disadvantage should be avoided by the DE-OS 16 40 309 described device can be eliminated.

Beer is a take-off roller between the stores and the stranding device provided, through which the stranding elements are to be withdrawn together. Behind the take-off roller is a weight-loaded dancer store arrange: t, over which the Stranding elements are guided. This dancer memory should once the tensile stress fluctuations compensate and on the other hand serve as an actual value transmitter in a control loop.

The actual values are in the upper and lower end positions of the Dancer role determined by limit switches and act on a control device the drive motor of the take-off roller.

The control loop should set the withdrawal speed or peripheral speed the The take-off roller corresponds to the take-off speed of the stranded structure bring.

The disadvantage of this device is, on the one hand, the additional stress (Bending change) of the stranding elements by the dancer arrangement and on the other hand the high technical effort.

Another disadvantage of this device is that only small Differences in speed can be compensated for via the dancer memory. Step However, the system's own control errors occur, or the stranding system has to be switched off suddenly and be braked, then the speed differences can be controlled via the adjustable Increase in size and cause defects.

Aim of the invention; The aim of the invention is to improve the quality of the means the SZ stranding products and improve the technical and economic Reduce effort.

Statement of the essence of the invention The object provided by the invention is to be solved, consists in developing a method and a device, whereby each individual stranding element before entering the stranding device up to Relieved of tensile force to a minimum and the greatest possible synchronization of the stranding elements is achieved among each other.

According to the invention the object is achieved in that the standing of the Discharge racks or other storage coming stranding elements, z. B. veins, a guide or guide device are fed and then sorted via a just in front of the stranding device arranged and driven take-off pulley with a Wrap angle # are wrapped around, the peripheral speed V1 of the The haul-off disc is a small amount greater than the haul-off speed Vo of the main from the stranding device or its linear stranding speed V5 and the stranding elements from the haul-off disk via a known perforated disk for stranding device with greatly reduced Tensile load be guided.

Furthermore, the invention provides that in the stranding of layers the middle core or cable core is routed over an additional take-off washer, whose circumferential speed is equal to or slightly less than the linear stranding speed V5 is or that the middle wire or cable core through another device is braked accordingly.

The invention also includes that the Abzugscheioe shortly before the Stranding device between the guide or guide device and the perforated disc is arranged and the haul-off disk with its own drive motor without speed control is provided, the speed of which n1 is a peripheral speed V1 of the haul-off disk guaranteed, which is greater than the linear stranding speed V5.

Exemplary embodiment on the basis of the exemplary embodiment shown in the drawing the invention is explained in more detail. 1 shows a plan view of the SZ stranding device FIG. 2 shows a side view according to FIG. 1; FIG. 3 shows a withdrawal disk for the wire withdrawal, at which the peripheral speed is equal to or less than the stranding speed Fig. 4 is a trigger plate according to Fig. 3, in which the peripheral speed of the The take-off pulley is greater than the stranding speed.

The stranding device according to FIGS. 1, 2 consists of the SZ stranding device 3, which is driven by a motor 10 with an alternating direction of rotation. In the stranding direction in front of the stranding device 3 are a guide 6, a take-off disk 5 and a Perforated disk 7 arranged one after the other in the axial direction, the withdrawal disk 5 is driven by a motor 9. In the stranding direction behind the stranding device 3, the main take-off 4 for the finished stranded structure 2 is arranged.

The main train 4 is driven by a motor 8. Behind the SZ-Verseileinrichtung 3 and the main from train 4 can be a tape winder or an extruder line may be arranged; this Part is not shown, created. The stranding elements 1 (cores) removed from the storage or drainage racks are first passed individually over the guides 6 and run from there in an orderly manner on the circumference of the haul-off disk 5. After a wrap angle # of approx. 3600, the individual stranding elements 1 are guided to the fixed perforated disk 7 and reach the stranding device through their axial bores. If necessary, can the number of wraps on the haul-off disk 5 can also be greater than 1. In In this case it is beneficial to support the cleavage of the entanglements For each stranding element (core), deflector rings are to be arranged on the take-off disk 5. Behind of the perforated disk 7, the individual stranding elements 1 become a finished conductor bundle 2 stranded The tape winder arranged behind the stranding device 3 wraps around the Conductor bundle 2 a tape in order to hold the stranded assembly in its position. An extruder line instead of the tape winder would be placed around the bundle of conductors 2 lay an insulating layer that primarily takes on the function of the tape and secondarily would be effective as additional insulation. The take-off speed or stranding speed speed V5 is achieved by the speed of the main train 4, which is, however, in Depending on the speed of the SZ stranding device 3 is set. The speed the haul-off disk 5 is dimensioned so that the peripheral speed V1 of the haul-off disk 5 is always greater than the stranding speed V5. Due to the Speed difference between V1 and Vs changes the wrap angle ) of the individual stranding elements 1 and thus also the size of the entrainment of the stranding elements 1 causing frictional forces. This means that the speed of the individual stranding elements becomes smaller due to slipping on the take-off disk 5 and the stranding speed increases V5 is approaching. As a result, on the other hand, the wrap angle BP becomes again larger and the frictional forces acting on the individual stranding elements increase.

In practice it arises due to the compared to the stranding speed Vs the higher circumferential speed V1 of the haul-off disk 5 an almost stationary one State on, although, as explained above, a constant control process takes place here.

The pull-off forces for the individual stranding elements are therefore in the area between the take-off disk 5 and the stranding device 3 to a value, which only slightly exceeds the value "zero". This not only makes the greatest possible Relief of the tensile forces achieved, but also the same for all stranding elements 1 Conditions created.

Particularly advantageous is the circumstance that the invention without Use of the normally necessary elements of a control loop an automatic control system was created.

This method and this device can be used for SZ-layer stranding to be expanded in the sense that one for the middle wire or the cable core additional take-off pulley with its own drive or just with a braking device is provided whose circumferential speed V2 is equal to 0er slightly less than that Stranding speed is V5.

List of the reference symbols used 1 - Stranding elements 2 - Stranding bond 3 - stranding device - main take-off 5 - take-off disk 6 - guide 7 - perforated disk 8 - motor 9 - motor 10 - motor n1 - speed of the haul-off disk 5 V1 - circumferential speed of the take-off disk 5 Vs - speed Vo - Draw-off speed of the main trigger

Claims (3)

irtindungsansicht 1. Method for relieving tensile force on SZ stranding machines or double twist stranding machines used in the manufacture of conductor bundles, power cables or the like, in which the individual stranding elements of fixed drainage racks or other storage units are removed and attached to the stranding head via a guide device supplied and the finished Vei 'seilverband over a arranged in front of the stranding machine Extraction device is withdrawn and stored, characterized in that the Stranding elements (1) withdrawn from the stores are fed to a guide (G) and then arranged via a and arranged shortly in front of the stranding device (3) Driven haul-off pulley (5) laid around with a wrap angle (# #) the peripheral speed (V1) of the haul-off disk (5) mean low The amount is greater than the drawing speed of the main haul-off (4) or the stranding speed Vs of the stranding device (3) and the stranding elements (1) from the take-off disk (5) with greatly reduced tensile force load via the perforated disc (7) to the stranding device (3) be guided. 2. The method according to item 1, characterized in that in the stranding of layers the middle core or the cable core is routed over an additional pull-off disc whose circumferential speed is equal to or slightly less than the stranding speed (Vs) or the middle core is decelerated. 3. Device for performing the method according to item 1, marked in that the take-off disk (5) just before the stranding device (3) between the guide (6) and perforated disc (7) is arranged and the haul-off disc (5) with its own motor (9) is provided, the speed (n) of which is a peripheral speed (V1) of the take-off pulley (5) ensures that it is greater than the linear stranding speed (Vs) is.