DE3621932A1 - Device for generating an adjustable constant wire tension for winding machines - Google Patents

Abstract

Such devices usually require a wire-braking system which applies the set wire tension. A wire brake which works, for example, electromagnetically is known. For this purpose, the wire is guided via a so-called jockey system. According to the invention, the jockey system (10, 20) consists of at least two pulley arrangements (11 to 14, 21 to 23) which are displaceable at a distance and which supply the wire (100) as a wire-stock store in the manner of a block and tackle, the position of the movable pulley arrangement (21 to 23) being interrogatable via an associated measuring element (25, 26). <IMAGE>

Description

The invention relates to a device for Er generation of an adjustable constant wire tension for winding machines according to the preamble of the patent claim 1.

Automatic winding machines need a controllable one Wire brake, depending on the wire through a wire tension is specified. The maxi times permissible winding speed of a normal winding dimension The machine is powered by the respective wire brake system certainly. This makes the latter a critical point in fully automated systems with such a winding dimension machines that due to their constructive structure and System design per se significantly higher winding rotation allow numbers.

For example from DE-OS 29 51 917 is a controller to control the on an electrical wire in one Winding machine exerted tension known, the elek works tronically. Such a system is comparative wise complex and has not been in practice lasts. Other wire brakes are from DE-PS 29 19 145 and also known from DE-OS 33 36 970, at which is essentially an electromagnetically controllable Wire brake is used, which in the first case is controlled for use in a winding machine  at least during the production of a winding two different, defined wire tension in the Wire are generated. The wire is always over guided a movable boom, the so-called dancer referred to as.

The object of the invention is a device for He generation of an adjustable wire tension for windings specify machines that are mechanically constructed and which in particular also with increasing winding rotation numbers of automatic winding machines can be used, if at the high speeds an unfavorable high / porridge ratio of the object to be wrapped.

The object is according to the characterize solved the features of claim 1. Beneficial Further developments are specified in the subclaims.

The core of the teaching according to the invention is the wire in one pulley-like wire storage is available deliver. A roller system consisting of two ver sliding disc assemblies that work corresponds to the so-called dancer, is with a bottom tentiometer connected to the position of the dancer an adjustable, usually electromagnetic work brake signals. Is that so defined Dancer system on the fixed reel set, that opens the Brake and vice versa. The dancer system can by Compressed air is pushed into its lowest position, where the wire tension is proportional to the pressure. The Working position of the dancer system is about one Potentiometer adjustable.

It is particularly advantageous in the invention that Use of the block and tackle principle for large turning machines may, for example, when pulling over the high edge  of the mandrel occurs, the deflection of the dancer systems by one of the number of times the wire is wrapped the corresponding part is less. With that he will possible that the scheme with a simple rule circle can be made, i.e. but that even one rapidly alternating process for the mass-affected Electromagnetic brake is adjustable.

With the invention, even with unfavorable heights / porridge ratios of the components to be wound or winding coils an almost constant winding tension enough. This means that the constant wire drawing can also increase the fill factors where can be improved by the power to weight ratio.

Further details and advantages of the invention emerge one from the following description of the figures Embodiment with reference to the drawing. Show it

Fig. 1 is a side view and

Fig. 2 is a front view of a mechanically constructed wire guide system for an automatic winding machine.

The figures are described together below.

In Fig. 1 and Fig. 1, 1 means a base plate as a carrier of a dancer system 10 , 20 described in detail below and a controlled electro-magnetic wire brake 30th It can be seen specifically from FIG. 1 that the dancer system 10 , 20 consists of two disk arrangements on the front of the base plate 1 , to which mechanical holding means are assigned on the rear side.

An insertion eyelet 2 , a fixed pin 3 for the upper disk arrangement 10 and a holder 4 for the wire brake 30 are arranged on the base plate 1 . On the back there is a box 5 in which there is a pneumatic cylinder 6 , which is displaceable on a continuous piston rod 7 and can be pressurized with compressed air to assume a lower limit position. A pin 8 is attached to the pneumatic cylinder 6 and supports the movable disk arrangement 20 . In the base plate 1 there is a corre sponding longitudinal groove 9 in which the pin 8 is guided when the pneumatic cylinder 6 and the associated disc arrangement 20 are moved.

The upper disk arrangement 10 as a fixed set of rollers consists, for example, of four individual disks 11 to 14 , in each of which the wire 100 can be guided and deflected; in contrast, the disk arrangement 20 as a movable roller set consists of three individual disks 21 to 23 . Arrangements from three / two or five / four or more individual disks can also be selected. Due to the first deflection of the wire 100 , however, the upper, fixed disk arrangement 10 must each have one more disk than the lower disk arrangement 20 . Overall, a wire supply store is thus formed, which is constructed in a block and tackle-like manner, but the wire supply can be changed by the distance between the two disc arrangements. In principle, further roller sets can also be provided for the construction of the dancer system. The overall structure is kept simple by the choice of two pane arrangements and their vertical alignment.

The course of the wire 100 can be seen from FIG. 2. It runs via the insertion eye 2 and a pre-brake 31 on the electromagnetic brake 30 and from there via a measuring station 35 for the wire tension, which will be discussed further below, on the dancer system 10 , 20th In the arrangement described, the wire 100 performs three loops and then runs away horizontally to the winding station.

Between the two disk arrangements 10 and 20 , two contact rollers 18 and 19 , which are pivotable via lever arms 16 and 17, are arranged, which serve to dampen vibrations of the wire 100 . The lower disk arrangement 20 has a clamping lever 25 which acts as an actuating member for a suitable potentiometer 26 . The respective position of the movable disk arrangement 20 of the dancer system 10 , 20 can thus be detected and processed as an electrical signal. There is a further potentiometer 40 with which the working position of the dancer system 10 , 20 can be pre-adjusted.

The located between the fixed disc assembly 10 of the dancer system 10 , 20 and the magnetic brake 30 measuring station 35 for the wire pull is constructed as a load cell that guides the wire 100 between two fixed rollers 36 and 37 in a defined triangle of force in which a sensor 38 with Strain gauge (DMS) is arranged. As a result, a resulting force can be measured and evaluated in such a way that the wire tension can be read directly.

In the system described, the electromagnetic brake 30 , which is a conventional controllable brake, is controlled by the position of the movable disk arrangement 20 by means of the potentiometer 26 . The disc assembly 20 moves upward, the magnetic brake 30 opens and vice versa. By the compressed air supply of the cylinder 6 , the movable disc arrangement 20 is pressed into the lower position against a fixed stop. The higher the pressure, the higher the wire tension. A suitable working position of the movable disk arrangement 20 can be set via the potentiometer 40 .

The decisive advantage of the described dancer system 10 , 20 with a wire storage according to the block and tackle principle is that when there is a large wire requirement, such as occurs when the wire 100 is pulled off over the high edge of a winding mandrel, the deflection of the movable disk arrangement 20 corresponding to the number of wire loops is smaller is. So only minor movements of the dancer system are necessary. Overall, the control loop for the electromagnetic brake 30 can be simplified. In practice, this means that the mass-sensitive electromagnet brake remains controllable even with rapidly alternating processes.

Claims (14)

1. Device for generating an adjustable constant wire tension for winding machines, with a controllable braking device for the wire, the wire being guided via a so-called dancer system, characterized in that the dancer system ( 10 , 20 ) consists of at least two spaced-apart disk arrangements ( 11 to 14, 21 to 23 ), which provide the wire ( 100 ) as a pulley similar to a wire store, the position of the movable disk arrangement ( 21 to 23 ) being able to be queried via an associated measuring element ( 25 , 26 ). 2. Device according to claim 1, characterized in that two superimposed de disk arrangements ( 11 to 14 , 21 to 23 ) form the dancer system ( 10 , 20 ). 3. Apparatus according to claim 2, characterized in that one disc arrangement ( 11 to 14 ) is articulated to a base plate ( 1 ), while a second disc arrangement ( 21 to 24 ) in a vertical recess ( 8 ) of the base plate ( 1 ) can be moved. 4. Apparatus according to claim 1 and 2, characterized in that the two disc arrangements ( 11 to 14 , 21 to 23 ) each consist of at least one disc, the fixed disc arrangement ( 11 to 14 ) relative to the movable disc arrangement ( 21 to 23 ) has an additional deflection plate, so that the wire ( 100 ) is guided in multiple layers. 5. Device according to one of claims 1 to 4, characterized in that the dancer system ( 10 , 20 ) additionally has two height-adjustable contact rollers ( 18 , 19 ) for damping vibrations of the wire ( 100 ). 6. The device according to claim 1, characterized in that the wire brake ( 30 ) operates electromagnetically and is controlled by the signal from the measuring element ( 25 , 26 ) in dependence on the position of the movable disc arrangement ( 21 to 23 ). 7. The device according to claim 6, characterized in that the measuring element is a of the dancer system ( 10 , 20 ) mechanically adjustable potentiometer ( 26 ). 8. The device according to claim 1, characterized in that the displaceable disk benanordnung ( 21 to 23 ) of the dancer system ( 10 , 20 ) is pressed in the rest position into a lower limit position. 9. The device according to claim 8, characterized in that mechanical, pneumatic cal or hydraulic means for holding the movable disc assembly ( 21 to 23 ) are provided. 10. The device according to claim 9, characterized in that the movable disc arrangement ( 21 to 23 ) with a pneumatic cylinder ( 6 ) for reaching the rest position is connected by means of compressed air. 11. Device according to one of the preceding claims, characterized in that the working position of the movable disc arrangement ( 21 to 23 ) via a potentiometer ( 40 ) can be predetermined. 12. Device according to one of the preceding claims, characterized in that between the wire supply store of the dancer system ( 10 , 20 ) and controllable wire brake ( 30 ) there is a measuring station ( 35 ) for the wire tension. 13. The apparatus according to claim 12, characterized in that the measuring station ( 35 ) consists of a load cell, the wire ( 100 ) between fixed rollers ( 36 , 37 ) in a defined force triangle, in which a sensor ( 38 ) Strain gauge (DMS) is arranged. 14. The apparatus according to claim 13, characterized ge indicates that the ge in the power triangle measured resulting force is evaluated in such a way that the wire tension can be read directly.