EP0680917A2 - Yarn storing device with adjustable yarn delivery resistance - Google Patents

Abstract

A yarn storage appts. comprises a storage drum (1), from which a stock of yarn can be withdrawn through a removal eyelet (5) at a distance from the drum top, and, located coaxially with the storage drum, an annular brake (8) with braking agent (2) effective on the drum boundary (4) where the yarn is withdrawn. The axial position of eyelet and annular brake w.r.t. the storage drum is adjustable. Here the eyelet is adjustable w.r.t. the annular ring in the axial direction such that, merely by constant application of the braking agent avoiding balloon formation, the yarn contact length (alpha 1, alpha 2) is adjustable on a radially inwards curved drum section (3). <IMAGE>

Description

The invention relates to a thread storage device according to the preamble of claim 1.

Such a device is known from US Pat. No. 4,429,723 or EP 0 401 699. The withdrawal tension of the thread is brought about in the generic thread storage device by axially adjusting a brake ring. The brake ring has a braking element. In the prior art, this braking member is formed by a plurality of radially inwardly facing plates, which rest on an end edge of the storage drum, so that the thread is drawn between the plates and the edge region of the storage drum. The brake ring can be adjusted axially to the storage drum together with a thread take-off eye. In the prior art, the axial force of the brake ring varies the contact force of the brake element on the drum edge area and thus the thread tension.

From the design specification 27 16 017 a thread store is known in which the braking force is to be influenced by the axial displacement of a trigger eye. The adjustment of the brake ring is not sensitive enough there, however, and the change in braking force caused by the axial adjustment is not optimal.

The object of the invention is to further develop a generic device in a manner that is advantageous in terms of use.

The object is achieved by the invention specified in claim 1.

The subclaims preferably represent further developments of the invention.

As a result of the configuration according to the invention, there is a thread storage device in which the axial position of the thread take-off eye and brake ring is adjustable not only relative to the storage drum, but also relative to one another. The adjustment of the axial position of the thread take-off eye can be carried out without impairing the braking effect of the braking element. By means of the adjustability of the braking member, a minimal braking effect can be set which is just sufficient to prevent the formation of a balloon. Surprisingly, a second, individually finely adjustable braking element can then be realized, together with a radially inwardly curved drum section for the sole thread support, by the axial adjustability of the draw-off eye. It is preferably provided that in the case of the braking element resting on the drum edge with minimal tension, the thread withdrawal eye is varied such that the thread is pulled at a different angle over the curved edge region of the drum, depending on the axial position of the eye. The friction and thus the braking of the thread is changed accordingly. The closer the distance between the thread withdrawal eye and the end face of the drum, the greater the angle at which the thread rests on the curved edge region. The friction increases accordingly. Likewise, the angular range changes when the distance between the trigger eye and drum varies, in which the thread rests on the rounded section of the trigger eye. So that here too the friction is increased when the support angle is increased. With this device, the braking element only needs to rest on the drum with a minimal, constant contact force; the braking effect only has to be so great that the Balloon formation is prevented. It is even possible that the braking member is spaced from the drum by forming a gap. It is preferably provided that the trigger eye is axially displaceable by a motor. It can be shifted by an electromagnet or by an electric motor. The shift is preferably carried out in time with the weft insertion of a weaving machine. The thread brake can be controlled from the weaving machine. A preferred embodiment of the invention provides that the braking member is designed as a flexible funnel that is cushioned outwards in the direction of its surface normal. This funnel is preferably formed by an internally smooth metal strip which surrounds the front edge of the drum. The thread is drawn off between its inner surface and the outer surface of the front edge region of the drum. The brake ring rests on the edge of the drum with a low spring tension. The drum-side counter surface to the ring can either be toroidal, that is to say curved radially inwards, or be frustoconical. It can be provided that the cone opening angle of the braking member is an acute angle. The cone opening angle of the counter surface on the drum side corresponds to the opening angle of the braking element. The two brake parts then lie flat on one another. The braking strip can be cushioned by means of a foam body surrounding the braking strip, which is elastic. However, a spiral spring or the like acting in the axial direction can also be provided. The trigger eyelet position that can be set at a maximum distance from the end face of the drum should preferably lie in the imaginary tip of the conical surface formed by the inner surface of the braking member. This ensures that when the thread is drawn off, a maximum of a drawdown tangential to the braking surface is guaranteed. This prevents the braking element from lifting due to the thread tension. The braking element then lifts off the drum edge only by the amount of the thread thickness. According to a special development of the invention, which can also have independent meaning, the trigger eye can be displaced in the plane perpendicular to the drum axis. This measure can be used, inter alia, to achieve periodic fluctuations in the thread tension. Depending on the angular position of the thread, it lies at a different angle on the inwardly rounded drum area and has a different take-off tension.

Figur 1

ein erstes Ausführungsbeispiel der Erfindung,

Figur 2

einen vergrößerten Ausschnitt aus Figur 1,

Figur 3

ein zweites Ausführungsbeispiel der Erfindung,

Figur 4

ein drittes Ausführungsbeispiel der Erfindung und

Figur 5

eine vergrößerte Darstellung der Abzugsöse beim zweiten Ausführungsbeispiel.

Exemplary embodiments of the invention are explained in detail below with reference to the attached drawings. Show it:

Figure 1

a first embodiment of the invention,

Figure 2

2 shows an enlarged section from FIG. 1,

Figure 3

a second embodiment of the invention,

Figure 4

a third embodiment of the invention and

Figure 5

an enlarged view of the trigger eyelet in the second embodiment.

The thread storage device shown in Figure 1 or Figure 2 has a storage drum 1, in which a thread is wound in a known manner (see EP 0 401 699). For this purpose, devices, not shown, are provided, such as a wrapping arm orbiting around the drum, and detectors which detect the amount of yarn stored, so that the Winding speed is controlled. Transport means are also provided in the drum surface, which transport the thread turns deposited on the drum surface in the take-off direction. The thread F is drawn off through the thread take-off eyelet 5. The thread take-off eye has its position on the axis of the drum 1. It can be displaced in the axial direction x.

The drum shown in Figures 1 and 2 has a storage area which has a cylindrical shape. At the end of this storage area is a frustoconical braking surface 4. The imaginary tip of the truncated cone of the braking surface 4 forms the position III of the eyelet 5, which is the most distant position from the end surface of the storage drum 1. The frustoconical surface 4 merges in the direction of the thread take-off into a toroidal surface 3. This surface 3 is characterized in that it is bent inwards in the form of a circular section. As can be seen in particular from FIG. 2, the different axial positions of the draw-off eyelet 5 I, II correspond to different contact angles alpha 1, alpha 2 of the thread F on the radially inwardly directed curved surface 3. The angle alpha 1, alpha 2 changes in accordance with the size adjust the friction of the thread on this surface section. The drum surface is smooth in this area.

A brake strip 2 rests on the conical surface section 4 of the drum 1. The brake strip 2 is made of a thin metal foil and forms a truncated cone-shaped inner surface with which the braking member 2 rests flat on the surface 4. The braking member 2 is held by an annular plastic body 7. The plastic is more elastic Foam formed so that the annular strip 2 can dodge elastically.

By axially displacing the brake ring 8, which accommodates the brake strip 2, the contact force of the brake strip 2 on the surface 4 can be adjusted. The brake ring 8 is axially displaceably arranged on a carrier 10 with a holder 12. The contact force of the brake strip 2 on the counter surface 4 is dimensioned so that the braking force is minimal. The braking force should be just so great that no balloon forms when the thread is drawn off. The brake ring is therefore only used to control the balloon. The angle beta, which corresponds to the cone opening angle of the frustoconical braking surface 2, 4, is preferably an acute angle. This maximizes the spectrum of support angles alpha 1, alpha 2.

The spectrum of the contact angles beta 1, beta 2 in the area of the thread take-off eye 5 is also maximized. Due to the design, the two support angles alpha and beta are changed in the same direction. A reduction in the distance between the eyelet 5 and the drum 1 increases both the contact angle alpha and the contact angle beta and thus the overall frictional force.

As a result of the variability in the distance from the eye to the thread brake or storage drum, both the thread support on a radially inwardly curved drum section 3 and the thread support on a curved wall region of the take-off eye 5 can be adjusted.

In the exemplary embodiment according to FIG. 3, the inner surface of the brake strip 2, which is in the shape of a cone, does not rest on a truncated cone surface, but on a curved one Surface 3. Surface 3 describes a quarter circle in cross-section. It passes from the lateral surface of the storage drum 1 into the flat end face of the storage drum 1. In this respect, there is a linear support of the brake strip 2 on the storage drum 1. Since the brake strip 2 rests on the drum surface with a minimal force, there is only a slight risk that washboard-shaped deformations will form in the elastically deflectable brake strip 2.

The thread take-off eye 5 is assigned to a carrier 9 which can be displaced along the carrier 10 by means of a knurled screw 11 or by an electric motor 14. In this case, as schematically shown in the exemplary embodiment, a spindle 13 can be provided, by means of whose rotation the axial position of the arm 9 can be adjusted. The boom 9 can be moved from a maximum distant position III to a maximum next position II. An intermediate position shows the position shown with I. In the position of the thread take-off eyelet 5 represented by III, the thread leaves the braking surface of the brake strip 2 in the tangential direction. The contact angle on the curved surface 3 is then vanishingly small. If now - either by actuation of the knurled wheel 11 or the electric motor 14 - the thread draw-off eye approaches the end face of the drum 1 by displacement in the direction x, the angle of the thread F becomes increasingly obtuse, with the result that the angle with which the thread F rests on the surface 3 of the drum. This increase in the angle alpha 1 to alpha 2 increases the thread braking.

In the embodiment shown in Figure 4, a brake strip 2 is by a coil spring 15, which is arranged on an axially displaceable brake ring 6 is held on the counter surface 4 of the drum. The counter surface 4 is frustoconical. There is therefore a flat support of the two braking surfaces.

The thread eyelet 5 is axially displaceable in the direction x. This schematically illustrated axial displaceability of the thread take-off eyelet is to be done by means of an electromagnet or a high-speed motor, so that it can take place in time with the weft thread entry of a weaving machine. As a result, thread braking can be controlled by a weaving machine. The control signal for driving the displacement mechanism can then come from the weaving machine.

It is further provided that the thread take-off eyelet 5 can be displaced in the direction of a surface which is perpendicular to the drum axis. By shifting the thread take-off eye 5 in this direction y, pulling forces that change periodically in relation to the circumference can be set.

The features of the invention disclosed in the above description, the drawing and the claims can be of importance both individually and in any combination for the implementation of the invention. All the features disclosed are essential to the invention. The disclosure content of the associated / attached priority documents (copy of the prior application) is hereby also included in full in the disclosure of the application.

Claims (8)

Thread storage device with a storage drum (1), from which a thread supply can be removed overhead through a thread take-off eyelet (5) arranged at a distance from the drum end face (1 ') and with a brake ring (8) arranged coaxially to the storage drum, also acting on a thread take-off drum area (4) Braking member (2), the axial position of the thread take-off eyelet (5) and the brake ring (8) being adjustable relative to the storage drum, characterized in that the thread pull-off eye (5) is adjustable in the axial direction relative to the brake ring (8), in such a way that it remains the same , only a balloon formation preventing braking effect of the braking member (2) the thread support (alpha 1, alpha 2) on a radially inwardly curved drum section (3) is adjustable. Thread storage device according to or in particular according to claim 1, characterized in that the thread take-off opening can be displaced by a motor. Thread storage device according to or in particular according to one or more of the preceding claims, characterized in that the thread draw-off eye (5) can be displaced electromagnetically. Thread storage device according to or in particular according to one or more of the preceding claims, characterized in that the thread draw-off eyelet (5) is displaced in time with the weft thread insertion of a weaving machine. Thread storage device according to or in particular according to one or more of the preceding claims, characterized characterized in that the displaceability of the thread take-off eye (5) is controlled by a weaving machine. Thread storage device according to or in particular according to one or more of the preceding claims, characterized in that the braking member (2) is designed as a flexible funnel which is sprung outwards in the direction of its surface normals and which at least in regions lies flat on the frustoconical drum edge region (4). Thread storage device according to or in particular according to one or more of the preceding claims, characterized in that the thread draw-off eye can be displaced in a plane (y) perpendicular to the drum axis. Thread storage device according to or in particular according to one or more of the preceding claims, characterized in that the thread support (alpha 1, alpha 2) on a radially inwardly curved drum section (3) along with a thread support (beta 1, beta 2) on a radially outward curve Inner wall section of the trigger eye (5) is adjustable.

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