EP1188704A1 - Core of a reel and method for its manufacturing - Google Patents

Abstract

The core sleeve, for a spinning bobbin, is composed of a wound strip (11) around a mandrel (14) where the edges of the spiral windings overlap. The core sleeve for a spinning bobbin is formed by spiral windings of a reinforced strip material with a flat and quadratic cross section, durably bonded together. At the overlapping edges of the wound strip, the facing edges (22, 23) are thinner than at the center. The strip material is mostly of plastics, and at least over its surface, to be wound in a spiral and/or a ring. A number of rings of the strip material can be axially next to each other, to grip into each other in a positive fit at their neighboring end sides through a stepped or tapered edge structure, so that the inner surface of one ring edge lies over the outer surface of its neighbor. An Independent claim is included for a core sleeve production process, where the overlapping edges of the wound strip material are bonded together by welding, an adhesive, and the like.

Description

The invention relates to a core for a spinning bobbin and for receiving a windable Good as well as a process for making the core.

Yarns, fabrics, threads and the like are produced on spinning bobbins wound. These have a solid core around which the material to be wound is wrapped becomes. The invention is concerned with the construction and manufacture of such Bobbins core.

The object of the invention is to provide a spool core based on is easy to manufacture.

An inventive core for a spinning bobbin results from the features of Claim 1. In particular flat strip material, such as plastic, is on appropriately wrapped and thus forms the core. The tape material, such as a flat belt, is preferably wound helically and / or helically. The build out a band material allows easy and in terms of diameter and Lengths extremely flexible manufacture.

Advantageously are adjacent sections of the strip material - the latter is also referred to as a winding tape - permanently connected, for example by Weld or glue. With a helical arrangement of the strip material and Welding the same results in an extraordinarily high strength, that of one seamless pipe is not inferior.

Adjacent sections of the strip material preferably overlap one another. The strength and the possibility of permanent connection of the side by side Sections is further increased.

In one embodiment of the invention, opposite edges of the Band material formed thinner than a central area of the same, the thin Edges of adjacent sections overlap. This makes it possible to form the core with continuous thickness despite overlapping areas. Weight is also saved. A constant thickness or wall thickness of the core arises in particular when the overlapping edges are taken together a thickness corresponding to the non-overlapping areas, for example the middle area.

The strip material preferably has a flat, rectangular cross section. In particular the edges are stepped to allow an overlap. Marginal heels or steps have a thickness that is half the thickness of the Tape material otherwise corresponds. Different strengths are also conceivable in the Area of opposite edges. It is important that the overlapping one another Edges taken together a thickness corresponding to the non-overlapping Areas.

The band material is advantageously reinforced, for example by embedded tension members, in particular made of high-strength fibers such as aramid or steel. The tension members are also arranged in the area of the edges of the strip material, at least in the area one of the opposing edges so that when the edges overlap Reinforcements are present over the entire length of the core. But this is imperative Not.

According to a further concept of the invention, the band material is wound in a ring. An endless ring is made from a finite section of the strip material by a Winding formed with only one turn. This ends up abutting each other of the band material connected together.

A core with a longer dimension in the axial direction is formed by permanent ones Connection of several rings.

The method according to the invention results from the features of the patent claim 6, possibly in conjunction with the subsequent subclaims.

Advantageously, the strip material is continuously screw-shaped and / or helical wound and thus forms the extending in the direction of a winding axis Core.

The strip material is preferably wound onto a mandrel, for example one motor driven mandrel. The resulting core is hollow and can be finished be deducted from the mandrel.

The tape material is advantageously in a fixed position - relative to the direction of the Winding axis - stationary. A free end of the wound core migrates continuously in the direction of the winding axis. Finite when using a mandrel The free end "grows" over a free end of the mandrel.

After a development of the method according to the invention, the free Cut off sections of defined length at the end of the wound core. With the same The winding speed depends on the length of the wound core elapsed time. In an automated system, this is a simple matter programmed control possible.

A cutting device provided for severing the section of defined length migrates in the direction of the winding axis during the separation or becomes parallel to it carried. The walking speed is preferably 50 mm / min and corresponds the length growth caused by feeding and winding the strip material of the core. In this way, extremely precise and straight cuts can be made become. A temporary coupling of the cutting device to the is also possible Core, such as by gripping elements that are released after cutting a finished core and hold on to the renewable core again after a push-back movement and hike with this.

Fig. 1

einen gewickelten Kern in Seitenansicht,

Fig. 2

den Kern gemäß Fig. 1 im Querschnitt,

Fig. 3

einen Kern während der Herstellung in Seitenansicht,

Fig. 4

einen Querschnitt durch ein zur Herstellung des Kerns verwendetes Spulband mit Zugträgem,

Fig. 5

einen Kern aus einem einzelnen Ring, wobei dessen Enden noch nicht miteinander verbunden sind,

Fig. 6

eine auseinandergezogene Darstellung zweier Ringe auf einem Dorn zur Bildung eines Kerns, und

Fig. 7

eine auseinandergezogene Darstellung zweier Ringe zur Bildung eines Kerns.

Preferred exemplary embodiments of the invention are explained in more detail below with reference to the drawing. In this show:

Fig. 1

a wound core in side view,

Fig. 2

1 in cross section,

Fig. 3

a core during manufacture in side view,

Fig. 4

2 shows a cross section through a winding tape with tension members used to manufacture the core,

Fig. 5

a core from a single ring, the ends of which are not yet connected,

Fig. 6

an exploded view of two rings on a mandrel to form a core, and

Fig. 7

an exploded view of two rings to form a core.

A core 10 for a spinning bobbin and for receiving a winding material, for example FIG. 1 shows a fiber or a fabric helically wound material. In the present case, this is called strip material 11 designated.

The core 10 is hollow in the manner of a tube, see Fig. 2. The inner diameter is, for example, 300 mm, the length of the core, for example, 350 to 400 mm.

The band material in the manner of a flat belt consists of thermoplastic and is preferably by extrusion or other continuous Process manufactured and can be armored. Fig. 4 shows embedded in the tape material II Tension members 12 which extend in the direction of the strip material and which are preferably run parallel to each other at equal intervals. As a tension member wires, high-strength fibers and the like can be considered.

A device for producing a spool core according to the invention is shown in FIG. 3 outlined. The strip material 11 is fed via a stationary or stationary guide unit 13 fed to a mandrel 14 and comes to rest on this. Spuldom 14 sits on a shaft 15 by suitable bearings 16 for absorbing transverse forces is supported and driven in a manner not shown. The guide unit 13 is located directly on the mandrel 14 in front of the run-up point of the strip material 11.

Due to the guide unit 13, the strip material 11 does not exactly match the mandrel 14 fed transversely to the winding axis 17 but at a small angle to it. The angle is dependent on the width of the strip material 11 and just chosen so that by the winding process on the mandrel 14 immediately adjacent sections of the strip material 11 come to lie side by side without gaps. It is the strip material is helical or like a screw thread around the Spuldorn 14 wrapped around.

A resulting roll 19 becomes continuous through the supplied strip material 11 pushed further and can be almost any length. Expediently a Core 10 with the desired length by an adjustable cutting device 18 from Winding 19 separated. The latter slides on the mandrel 14 so that a free end 20 migrates in the direction of the winding axis 17.

The mandrel 14 can be arranged in the direction of the winding axis 17 (not shown) Jacking devices, for example haul-off caterpillars, may be provided to the described To allow migration of the winding 19 on the mandrel 18.

The mandrel 14 does not extend all the way to the working area of the cutting device 18 and has a cross section that is constant over its length. In a not shown Execution tapers the cross section of the mandrel 14 in the direction of Cutting device 18. This prevents a tight fit of the winding 19 on the mandrel 18 with shrinking strip material 11. The mandrel 14 is then preferably slightly conical.

The cutting device 18 is moving during the cutting process carried free end 20 to enable cuts exactly transverse to the winding axis 17.

After cutting, the free end 20 or the cutting surface surrounding here of the winding 19 and / or the corresponding cutting surface of the separated core 10 treated. The aim is to seal and / or smooth the cut surfaces, in particular the reinforcements or tension members 12 that may be present the cutting surfaces are exposed to heat. Welding can preferably be carried out as Mirror welding, with hot air or as ultrasonic welding.

The band material 11 coming to rest on the mandrel 14 or its one another Adjacent turns are permanently connected to each other. This is shown in Fig. 3, a welding unit 21 is arranged approximately opposite the guide unit 13. lateral Edges 22, 23 of the strip material 11 are directly welded together or permanently connected in another way. This increases the strength of the resulting Core 10. A releasable connection is advantageous if the strip material 11 should be recycled, for example for cores of different diameters and / or lengths.

A surface configuration of the flat surface in the direction of the winding axis 17 is preferred Core 10. Nevertheless, the mutually adjacent sections of the strip material should 11 be well connected. For this purpose, the cross section of the strip material 11 (Fig. 4) designed in a special way. The edges 22, 23 are each formed thinner than the strip material 11 in a central region 24, preferably half as thick in each case. This allows the side edges 22, 23 to overlap each other and still one Form a flat surface of the core 10.

4, the strip material 11 has a flat, rectangular cross section marginal paragraphs 25, 26 on. These come towards each other in the wound core 10 lie. The welding or connection by the welding unit 21 takes place on the the subsequent band material 11 receiving side edge 23 in one The area in which the reduced thickness of the lateral edge 23 begins in FIG. 4 a step end face 27 facing paragraph 26 paragraph 25 angled outer end face 28 to lie.

Instead of the stepped embodiment shown in FIG. 4, the strip material 11 can also have a laterally tapered cross-section. Suitability is important for as flat a surface as possible of the finished core 10, preferably partially Overlap of the strip material 11.

The reinforcement already described by the tension members 12 is preferably not over arranged the entire cross section of the strip material 11. Rather, the tension members 12 only in the central area 24 and in one of the two lateral edges 22, 23 available. 4, no tension members are arranged in the lateral edge 23. As a result this leads to the finished core 10 having tension members along its entire length equidistant from each other. To increase the seams between the adjacent turns of the strip material 11 can also both lateral Edges 22, 23 can be equipped with tension members 12. A recess is also possible the lateral edges 22, 23 as a location for the tension members 12. In particular with relatively thick tension members in relation to the thickness of the side edges, this can be displayed.

The strip material preferably has a width of 120 mm. Instead of one Flat belt can also be divided, so that several run side by side Partial belt, approximately 3 partial belts, each 40 mm wide, for the production of the core 10 be used. The spool dome 14 must then also be next to each other coming partial belts are welded together. The production with Partial belt prevents any twisting and warping of one without division relatively wide strap.

A strip material that is curved or wound into a ring 29 is shown in FIG. 5. Free ends 30, 31 are still to be connected to one another, preferably by welding or Glue. In the simplest case, the ring 29 forms the core 10. Its extension in The axial direction then depends on the width of the strip material 11 used, here preferably up to about 120 mm.

To form longer cores, several rings 29 are juxtaposed in the axial direction arranged and connected to one another in the region of circumferential end faces 32, 33. This is also preferably done by welding or gluing. Particularly suitable Welding methods are mirror welding and ultrasonic welding.

For connecting two rings 34, 35, they are preferably placed on a mandrel 36 raised, which - analogous to the illustration in Fig. 3 - can be motor-driven. A vertical alignment of the mandrel 36 is advantageous. The lower ring 35 comes then to lie on a circumferential shoulder 37 of the mandrel.

To connect the rings 34, 35, self-centering of the same is advantageous. This is achieved by appropriate design of the circumferential end faces 32, 33 6, the end faces are beveled relative to a central axis 38. As soon as the Rings 34, 35 abut each other, these are aligned centered with each other.

7 shows a variation in the design of the peripheral end faces 32, 33 - roughly analogous to Fig. 4. The end faces are stepped. The "receiving" face 32 has an inner circumferential shoulder 39 with an adjacent inner surface 40 on. In contrast, the "entering" end face 33 with an outer circumferential Paragraph 41 and an inwardly offset outer surface 42 provided. With this design, the rings 34, 35 can be inserted into one another and then be permanently connected. In this version in particular there is a thorn as Centering aid unnecessary.

LIST OF REFERENCE NUMBERS

10

core

11

band material

12

tension members

13

Guide unit

14

winding mandrel

15

wave

16

camp

17

winding axis

18

cutter

19

reel

20

free end

21

welding unit

22

side edge

23

side edge

24

middle area

25

paragraph

26

paragraph

27

Step front

28

outer face

29

ring

30

free end

31

free end

32

circumferential face

33

circumferential face

34

ring

35

ring

36

mandrel

37

paragraph

38

central axis

39

inner paragraph

40

Inner surface

41

outer paragraph

42

outer surface

Claims (11)

Core (10) for a spinning bobbin and for receiving a winding material, characterized by a structure made of wound strip material (11). Core according to claim 1, characterized in that adjacent sections of the preferably reinforced band material (11) with a flat, rectangular cross section in particular are permanently connected to one another. Core according to claim 1 or 2, characterized in that adjacent sections of the strip material (11) overlap one another, preferably opposite edges (22, 23) of the strip material (11) being thinner than a central region (24) of the same and the thin ones Edges (22, 23) of adjacent sections overlap one another. Core according to one of the preceding claims, characterized in that the strip material (11) , which is preferably predominantly or at least on its surface, is wound in a helical and / or helical and / or annular manner. Core according to one of the preceding claims, characterized in that a plurality of rings (34, 35) made of band material (11) are connected axially next to one another to form the core (10), preferably adjacent rings (34, 35) having interlocking circumferential end faces ( 32, 33), in particular stepped or bevelled end faces, such that regions (inner surface 40) of the end face (32) of one ring bear in the radial direction on regions (outer surface 42) of the end face (33) of the adjacent ring. Method for producing a core (10) for a spinning bobbin, characterized in that the core (10) is produced by the winding process, a flat strip material (11) being formed by winding the core (10) extending in the direction of a winding axis (17) , Method according to claim 6, characterized in that the strip material (11) is wound in particular in a helical and / or helical manner on a mandrel (14), the winding preferably being carried out with at least partial overlap of adjacent sections of the strip material (11). A method according to claim 6 or 7, characterized in that the band material (11) is welded, glued or otherwise connected to one another in the region of the overlap. Method according to one of the preceding claims, characterized in that the strip material (11) for winding is supplied in a fixed position relative to a winding axis direction (17) and that a free end (20) of the wound core (10) is fed in the direction of the winding axis (17) wanders. Method according to one of the preceding claims, characterized in that sections of defined length are separated from a free end of a winding (19) formed by the winding in order to form the desired cores (10), preferably a cutting device (18) for separating the cores ( 10) of a defined length migrates in the direction of the winding axis (17), and, if necessary, cut surfaces created and / or sections resulting from the separation of a core (10) and / or sections from a winding (19) are sealed and / or smoothed, in particular by welding the cut surfaces , Method according to one of the preceding claims, characterized in that a plurality of rings (34, 35) made of wound strip material (11) are connected to one another in the axial direction to form the core (10).

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