EP0213462B1 - Traversing thread guide - Google Patents

Description

The invention relates to a traversing thread guide for winding machines for winding threads. The traversing thread guide is driven by a rotating reversing thread roller. A sweeping thread roller is understood to mean a roller which has a thread-shaped groove on its circumference, which reverses its slope at the ends of the traversing stroke. The traversing thread guide is moved back and forth over the traversing stroke by rotating the reversing thread roller. The traversing thread guide consists of one piece, e.g. Plastic, and has a boat on one side and the thread guide on the other side. The boat is an elongated structure that adapts to the thread groove and meshes with it. The thread guide is made of a wear-resistant material, e.g. Ceramic, and is embedded in the body of the traversing thread guide. The thread guide has a slot for guiding the thread. Between the thread guide and the shuttle, the traversing thread guide is provided with guide edges that describe an equilateral parallelogram. The plate-shaped thread guide lies on the longer diagonal of the parallelogram. The slot for guiding the thread lies above the intersection of the diagonals of the parallelogram. This traversing thread guide is known from US-A 3 664 596. The known embodiment provides that the guide edges are formed by a diamond-shaped guide plate. This guide plate is used to guide the traversing thread guide in a straight line between two straight guide rails.

These guide rails have a distance which corresponds essentially to the length of the diagonal of the guide plate, which is perpendicular to the thread guide. The guide edges and the shuttle are now inclined to each other so that two opposing parallel guide edges always rest on the two guide rails when the shuttle slides in the reverse thread groove. In the reversal areas, in which the reverse thread groove reverses its slope, the straight guidance is taken over by the other pair of opposite guide edges.

In the known design, these guide rails comprise the guide plate on the front and rear side, so that the traversing thread guide is positively guided both in the circumferential direction and in both radial directions to the reversing thread roller. which are operated at speeds of more than 1,000 m / min thread winding speed.

The traversing speed depends on the winding speed. Furthermore, a very sudden reversal of the traversing thread guide at the stroke ends is required to build up a good cylindrical bobbin. In other words, the reversal thread groove at the stroke reversal points must have a very small radius of curvature. As a result, the traversing thread guide is subjected to high accelerations at the stroke ends. It can therefore be seen that the service life of such a traversing thread guide is limited in particular by abrasion and fatigue.

The object of the invention is to improve the known traversing thread guide, in particular to increase the service life. This solution results from the characterizing part of claim 1.

So far, attempts have been made to solve the service life problem by minimizing the weight and optimizing the material selection. In addition, such large radii of curvature of the reverse thread groove at the stroke reversal points were accepted that were no longer optimal in terms of winding technology.

The invention turns away from the known efforts. It creates a replacement for the parallelogram-shaped guide plate of the known traversing thread guide. Their importance lies in the fact that the leading edges are assigned a further, previously non-existent function. According to the invention, the guide edges are designed in such a way that they are able to compensate and dampen irregularities in the movement to which the traversing thread guide is subjected by disturbances in the straight guidance and unavoidable vibrations and by the reverse accelerations. The first test samples, which were not optimized in terms of design, showed an improvement in service life of more than 30% compared to the optimal designs of the known traversing thread guide.

The inventive idea is realized in that the guide edges are formed on elongated guide webs which are attached to the traversing thread guide in such a way that the guide edges in contact with the guide flanks are elastically resilient and damping movable relative to the traversing thread guide. The guide webs are thus, for example, firmly connected to the traversing thread guide in the middle plane of the shuttle and are designed as thin cantilever arms. The leading edges of these guide webs lie on the sides of a diamond-shaped, equilateral parallelogram. They are arranged in the area of at least one of the obtuse angles of the parallelogram. Preferably, 4 guide webs, that is two on each side, are fixed at one end to the traversing thread guide, but are connected in a resilient manner. The other end of the guide webs protrude into the area of the acute angles of the parallelogram and can be moved there elastically. By choosing the right material, good damping properties can be ensured.

In one embodiment, the guide webs are cantilever-mounted on the traversing thread guide. This means that the guide webs are elastically movable like spring bars clamped on one side. In order to achieve a sufficiently high level of stability and fatigue strength (number of tolerable load changes), it is necessary to make the guide bars relatively thick in the area of their attachment.

In another embodiment of the invention, this is not necessary. Here the guide webs support each other at their free ends. Therefore, in this embodiment, the other guide bar also contributes to the strength of the one guide bar.

Since the guide webs - seen in the radial direction of the reversing thread roller - lie above the shuttle, the shuttle for carrying the thread guide, which is made of wear-resistant material, preferably carries a central web, which is between the guide webs within the simultaneous parallelogram they have outlined, preferably on the large diagonal thereof Parallelogram. The thread guide can be let into this central web.

In this embodiment, it is also possible for the free ends of the guide webs to be supported on the central web. In this embodiment, the central web is also designed as a flexible, spring-elastic web, which on the one hand ensures sufficient spring elasticity for the guide webs, but on the other hand also contributes to the strength and, in particular, fatigue strength of the guide webs.

If the ends of the guide webs are connected to one another or to the central web, this connection can be made particularly soft, so that this connection also contributes to the elasticity of the guide webs.

There are various options for fastening the guide webs to the traversing thread guide. 'In one embodiment it is provided that the guide webs are attached directly to the top of the boat. In this embodiment, at least a part of the underside of the guide webs and - if present also the middle web - is designed so that this part is suitable as a sliding surface from the circumference of the reversing thread roller. In this embodiment it is therefore provided that the guide rails for the straight guide are not U-shaped in cross-section, as in the known embodiment, but L-shaped. The straight guide and fixing of the traversing thread guide in the circumferential direction of the reversing thread shaft is carried out by the parallel flanks of the straight guide. The traversing thread guide is fixed in the radial direction to the reversing thread shaft on the side facing away from the reversing thread shaft by the L flank, which protrudes perpendicularly from the guide flank of the straight guide and on the side facing the reversing thread shaft directly by the reversing thread shaft itself.

Furthermore, it is possible to fasten the guide webs cantilevered on support webs, these support webs being fastened to the top of the boat essentially in its central plane, that is to say on the short diagonal of the parallelogram circumscribed by the guide webs.

In an alternative embodiment it is provided that the supporting webs are fastened to the central web, approximately in its longitudinal center, and parallel to the boat on the central web and carry the guide webs at their free ends. This design is particularly possible and advantageous if the thread guide and the central web, which carries the thread guide, are connected to the boat by a constricted neck, as is the case in a corresponding form in the known traversing thread guide.

An embodiment which is characterized by a very compact, small design with great stability and good spring and damping properties is characterized in that the guide webs are laterally cantilevered on the top of the boat and the middle web is fixed in between. The center web and guide webs are connected to one another by support webs, the support webs also being connected to the boat.

It was previously pointed out that it is also possible, according to the solution of claim 1, 2 and claim 5, to connect the shuttle to the central web and the guide webs or the support webs via a constricted neck. The version, which proves to be particularly suitable for a further optimization of the service life due to its particularly compact design, is characterized in that there is no such constriction, but rather that the guide webs, the center web, and the support webs - if present - directly on the top sit of the boat and that the underside of the guide webs, the middle web, the support webs - if available - is wholly or partly designed as a sliding surface which is suitable for sliding on the surface of the reversing thread roller.

The individual exemplary embodiments are described below, the first exemplary embodiment in a top view (FIG. 1), a partial section through the traversing housing and reversing thread shaft (FIG. 2), a perspective top view (FIG. 3) and a perspective bottom view (FIG. 4) , The second embodiment in a partial section through traversing housing and reversing thread shaft (Fig. 5), the third embodiment in a top view (Fig. 6), the fourth embodiment in a top view (Fig. 7) and both of the latter embodiments in a side view with a partial section through Traversing housing and reverse thread shaft are shown in one plane of the thread groove (Fig. 8).

• Der Changierfadenführer 1 weist auf seiner Vorderseite den über die Führungsschiene 9 hinausragenden, dreieckförmigen Fadenführer 2 auf. Dieser besitzt einen Fadenführungsschlitz 14, in dem der Faden geführt wird. Der Fadenführer 2 ist ein z.B. keramisches, verschleißfestes Plättchen. Er ist mit einer Längskante in den Mittelsteg 3 eingelassen. Der Changierfadenführer 1 besteht im übrigen aus einem Stück, z.B. einem geeigneten thermoplastischen oder duroplastischen Kunststoff. Das Schiffchen 4 ist ein länglicher Körper, der so gekrümmt ist, daß er sich dem Krümmungsradius der Gewindenut 8 der Kehrgewindewelle 7 anpaßt. Außerdem schmiegt sich das Schiffchen 4 auch im Querschnitt und in Längsrichtung der Gewindenut 8 an. Die Gewindenut ist in Fig. 3 gestrichelt eingezeichnet. Auf der Oberseite des Schiffchens sind außer dem Mittelsteg 3 auch die Führungsstege 6 befestigt. Die Führungsstege 6 umschreiben mit ihren Außenkanten 12 ein im wesentlichen gleichseitiges Parallelogramm. Die Führungsstege 6 sind durch Tragstege 5 mit dem Mittelsteg 3 in der Mittelebene des Schiffchens 4 verbunden. Die freien Enden der Führungsstege 6 sind im Rahmen der Materialeigenschaft elastisch federnd und dämpfend beweglich.

1 to 4:

• The traversing thread guide 1 has on its front side the triangular thread guide 2 protruding beyond the guide rail 9. This has a thread guide slot 14 in which the thread is guided. The thread guide 2 is a ceramic, wear-resistant plate, for example. It is embedded in the central web 3 with one longitudinal edge. The traversing thread guide 1 also consists of one piece, for example a suitable thermoplastic or thermosetting plastic. The boat 4 is an elongated body which is curved so that it adapts to the radius of curvature of the thread groove 8 of the reversing thread shaft 7. In addition, the boat 4 nestles in cross section and in the longitudinal direction of the thread groove 8. The thread groove is broken in in Fig. 3 draws. In addition to the central web 3, the guide webs 6 are also attached to the top of the boat. The guide webs 6 circumscribe with their outer edges 12 an essentially equilateral parallelogram. The guide webs 6 are connected by support webs 5 to the central web 3 in the central plane of the shuttle 4. The free ends of the guide webs 6 are elastically resilient and damping movable within the scope of the material property.

It should be noted that for a given direction of rotation of the reversing thread shaft 7, only the guide webs on one side of the traversing thread guide 1 bear directly - in FIGS. 1 and 2 the lower guide webs. The other two - in FIGS. 1 and 2 upper - guide webs essentially have the function of stabilization and may possibly also be omitted or replaced by another shaped guide element, the shape of which changes the tilting movement of the traversing thread guide at the traversing stroke ends around that with the thread guide slot 14 aligned tilting axis allows.

As can be seen in FIG. 2 and also in FIG. 3, the traversing thread guide 1 is supported with the underside 13 of the central web and the guide webs in the radial direction on the surface of the reversing thread shaft 7. The traversing thread guide is guided in the circumferential direction by its guide webs 6 in the guide rails 9. The guide rails 9 are L-shaped. They have two mutually parallel guide flanks 10, on which the two guide webs 6.1, which lie opposite one another, are straight. Each guide rail also has a retaining flank 11, which includes the guide webs and support webs up to the region of the central web and prevents the traversing thread guide from falling out of the thread groove 8. The contours of the guide webs with their guide edges 12 are shaped such that when the thread pitch is reversed, Change the guide ends of the guide bars. While the guide webs 6.1 with the guide edges 12.1 lead in the slope of the thread groove 8 indicated in FIG. 3, the guide webs 6.2 with the guide edges 12.2 take the lead when the slope is reversed. The traversing thread guide can therefore be pivoted at the traversing stroke ends about an axis which is essentially radial to the reversing thread shaft and which is essentially aligned with the guide slot 14 in the thread guide 2.

In Fig. 5 is a Altematiwersion shown in section in the central plane of the boat, in which the central web 3 is connected to the boat 4 by a neck 15. The supporting webs 5 sit laterally on the central web - approximately in the central plane of the shuttle 4 -. The guide webs 6 sit at the ends of the supporting webs 5. In this version, the guide rails 9 are U-shaped. In addition to the guide flank 10, the guide rails have two further flanks 18 which grip around the guide webs 6 on the front and the back of the traversing thread guide.

The traversing thread guides - exemplary embodiments according to FIGS. 6 and 7 - and in addition to FIG. 8, are designed similarly to the previously described exemplary embodiments. Common to the exemplary embodiments is that the thread guide 2, which projects beyond the guide rail 9, is fastened to the front of the traversing thread guide 1.

FIG. 8 shows the alternative version according to FIG. 7 in a side view. The lower guide web and the connecting web are partially cut away - as can be seen in FIG. 7. It can be seen that part of the underside, namely the area which - seen radially to the reversing thread roller - lies below the thread guide, is particularly flat, so that this area can slide on the reversing thread roller and support the traversing thread guide in the radial direction. It can also be seen that the guide webs 6 are designed as a U-profile. Such profiling on the one hand allows good elasticity, i.e. achieve a low spring constant and, on the other hand, high strength, in particular fatigue strength.

• Das Ausführungsbeispiel nach Fig. 6 hat Führungsstege 6, die an ihren freien Enden durch Stützstege 16 mit dem Mittelsteg 3 verbunden sind. Die Stützstege sind ebenfalls biegeweich, vorzugsweise jedoch auch federelastisch ausgebildet. Mit dieser Ausführungsform können die Führungsstege eine besonders niedrige Federkonstante erhalten. Denn die Führungsstege 6 erhalten ihre Festigkeit durch Abstützung an dem Mittelsteg 3. Andererseits wird die Gesamtelastizität nur wenig behindert, weil der Mittelsteg 3 und - selbstverständlich auch - der gegenüberliegende Führungssteg federelastisch ausgebildet sind. Bei dieser Ausführung werden insbesondere Dauerbrüche, die eventuell in dem Bereich entstehen, in dem Führungsstege an die Tragstege 5 angesetzt sind, vermieden.

Otherwise, the exemplary embodiments according to FIGS. 6 and 7 differ from one another and from the exemplary embodiments described above by the following:

• 6 has guide webs 6, which are connected at their free ends by support webs 16 to the central web 3. The support webs are also flexible, but preferably also resilient. With this embodiment, the guide webs can have a particularly low spring constant. This is because the guide webs 6 obtain their strength from being supported on the central web 3. On the other hand, the overall elasticity is only slightly impeded because the central web 3 and - of course - the opposite guide web are designed to be resilient. In this embodiment, permanent breaks, which may occur in the area in which guide webs are attached to the supporting webs 5, are avoided in particular.

In the exemplary embodiment according to FIG. 7, the guide webs 6 are connected to one another at their free ends by support webs 17. Here, too, each individual guide web is designed to be particularly flexible with a low spring constant. The strength is not impaired because the guide web 6 is supported on the opposite guide web 6. The support webs 17 can also be particularly soft.

In order to give an idea of the size relationships, it should be pointed out that the exemplary embodiment according to FIG. 1 is enlarged approximately in a ratio of 1: 3.

Claims (12)

1. A traversing yarn-guide for spooling machines for yam, which is driven by a rotating roll;

the rotating roll is a reversing-thread roll (7) which is provided on its surface with an endless thread groove (8);

the traversing yam-guide (1) consists of a yam- guidance piece (2) in which there is a yarn-guidance slot (14) for the yarn,

a shuttle (4) which engages in the thread groove (8), as well as guide-edges (12) which circumscribe the sides of an equilateral parallelogram and are guided between two parallel guide-flanks (10) of a straight guide (9);

the traversing yam-guide (1) consists of one piece, the yarn-guidance piece (2) and the shuttle (4) being connected rigidly together without the interposition of a hinge, characterized in that the guide-edges (12) are formed on elongated guide-webs (6) which are fastened to the traversing yarn-guide (1) in sucht a way that the guide-edges (12) in contact with the guide-flanks (10) are movable relatively to the traversing yam-guide (1) with elastic springiness and damping action.

2. A traversing yam-guide as in Claim 1, characterized in that the elongated guide-webs (6) are fastened to the traversing yam-guide (1) to project to one side and are made as spring rods clamped in at one end.

3. A traversing yam-guide as in Claim 1 or 2, characterized in that the shuttle (4) carries on the top of it a central bar (3) into which the yarn-guide (2) is let and from which the yam-guide projects, and which lies essentially in the centre of the shuttle (4) longitudinally and at right angles to the shuttle (4).

4. A traversing yam-guide as in Claim 1 or 2, characterized in that the guide-webs (6) are fastened to the top of the shuttle (4).

5. A traversing yam-guide as in Claim 1 or 2, characterized in that the guide-webs (6) are fastened to supporting webs (5) which in turn are fastened to the top of the shuttle (4) essentially in its central plane.

6. A traversing yarn-guide as in Claim 3, characterized in that the guide-webs (6) are fastened to the ends of supporting webs (5) which in turn are fastened at both sides of the central bar (3) and in the region of the central plane of the shuttle (4) and essentially at right angles to the central bar (3).

7. A traversing yam-guide as in Claim 1, characterized in that the guide-webs (6) are fastened to the top of the shuttle (4) to project to the sides, with the central bar (3) fastened essentially centrally between them, and that they all are also firmly connected together through supporting webs (5) which likewise are connected to the shuttle (4) and which lie essentially on the central plane of the shuttle.

8. A traversing yam-guide as in Claim 3 or 6, characterized in that a neck (15) is fastened centrally to the shuttle (4) and the central bar (3) is fastened to the neck (15), whilst the straight guide (9) of the traversing yam-guide (1) exhibits flanks (18) on both sides in the shape of a U, which embrace the guide-webs (6) and that the neck (15) is guided straight between the flanks (18) lying against the underside of the guide-webs (6).

9. A traversing yam-guide as in one of the Claims 1 to 7, characterized in that the parts (3, 5, 6) of the traversing yam-guide (1) which are seated on the shuttle (4) have next the shuttle an underside which is made at least partially as a sliding face for sliding against the surface of the reversing-thread shaft (7) when the shuttle is laid in the thread groove (8), and the straight guide (9) of the traversing mechanism exhibits L-shaped flanks (10, 11) of which those flanks (10) are parallel with one another form a guide-groove in which the guide-webs (6) of the traversing yam-guide, which are respectively parallel with one another, are guided straight, whereas those flanks (11) which lie in one plane embrace the guide-webs (6) along the upper faces lying next the yam guide, as far as into the region of the central bar (3).

10. A traversing yam-guide as in one of the preceding Claims, characterized in that the guide-webs (6) are so constructed that their free ends bear against one another.

11. A traversing yam-guide as in one of the Claims 3 to 9, characterized in that each guide-web (6) is so constructed that its free end bears against the respective free end of the central bar (3).

12. A traversing yam-guide as in one of the preceding Claims, characterized in that the guide-webs (6) exhibit in cross-section a U-shaped profile.

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