EP1036228B1 - Device for regulating the thread tension of doup end threads and standing end threads guided through a gauze selvedge device - Google Patents

Abstract

In a leno selvedge device, an apparatus for adjusting thread tension of the doup ends and of the stationary threads that are guided through the leno selvedge forming device includes a holding structure accommodated directly in front of the leno selvedge device which keeps the stationary thread and/or the doup end under resilient tension. The holding structure includes at least one eyelet, through which thread is threaded. The eyelet is kept under tension by a spring and disposes the thread in a downward direction.

Description

The invention relates to a device for regulating the thread tension the leno and upright threads passed through a leno selvedge device. Such a leno selvedge device is exemplified as a combination of lifting strands and half strands Here are two lifting healds in connection with a half strand known to manufacture a so-called Leno selvedge. Such healds are indirect or direct to the Heald frames attached to a weaving machine. Here is between half strands and lifting heald of the leno thread, the standing thread through the Half-strand eyelet is guided. By alternately walking the Leno thread from one side of the half strand to the other side of the Shark lightning in combination with the upright thread is the weft through the resulting leno edge is tied off. Through the leno edge the fabric is prevented from touching this area.

Immediately in front of such a leno selvedge device, consisting of two Lifting healds and a half heald, or immediately in front of the heald frames there is a so-called thread retainer, which ensures that both the leno thread and the upright thread are always under tension through the lifting heald or the half heald. This is so far required than only by holding down the leno or standing thread it is ensured that the leno thread even with high-speed Weaving machines always with every change of weft from the one side of the half strand can migrate to the other side of the half strand.

Now, however, it is the case that the leno or upright thread opens when the compartment is opened is put under tension due to the extension of the path. In order to keep this tension as low as possible, it is provided that in the area of the bobbins, the lengthening of the leno or upright thread a spring device is compensated. Both the upright thread as well however, the leno thread will be on its way from the lifting healds to deflected several times to the coil, it having been found that due to the many redirections and the resulting Frictional losses equalize the thread tension on the thread Coil no longer at all due to the spring device arranged there is made. This means that the elongation of the thread at The opening of the compartment is essentially due to the elasticity of the thread is provided. On the one hand, this has the disadvantage that the threads are high be claimed; however, there is another major disadvantage in that due to the stress on the threads when opening the compartment and the associated increase in tension in the threads this Threads that are passed laterally past the lifting healds due to the Increase the increased tension on these strands more than the The case would be if the tension remained less. That means that the Wear lifting strands more.

A similar device is known from FR 15 55 223. Here is upstream of a leno selvedge device, the heald The tension of the leno thread in front of the heald is regulated. This is a spring-loaded lever is provided, the lever at the end of the eyelet for shows the leno thread. The disadvantage here is that the leno thread at Compartment opening is always stretched, so that on the one hand the risk of Tearing the thread or cutting the thread in the Leno edge device exists. This is because of the Leno device upstream the heald the regulation of the Thread tension only very much by the corresponding device can be restricted.

The invention is therefore based on the object of a device for Regulation of the thread tension of the turning round through the lifting healds To create upright threads that ensure that at The opening of the thread does not cause the thread to elongate must be applied, but that the thread tension in the The thread remains essentially the same, as already explained itself is cut.

The object is achieved in that a directly in front of the leno device Upright and / or leno thread is kept resiliently under tension is. By arranging such a bracket immediately before Dreherkantenvorrichtung or the lifting strands is achieved that the Thread tension due to the spring action of the holder when the compartment is opened can be compensated. That means there is no elongation of the thread instead of itself. Rather, it is the case that the required at the opening of the compartment Thread path is provided in that the holder is resilient is resilient.

Specifically, it is provided that the holder for at least one eyelet Implementation of the thread or threads includes, the eyelet under the Tension of a spring element is. The bracket also holds the Thread down, similar to a thread retainer, that is, the thread is in Pulled downwards.

According to a feature of the invention, the spring element is a resilient arm formed, the arm at the end for generating the spring force is spirally curved.

It is advantageously provided that the angle between the respective arm and the thread approximately between 70 and 110 °, preferably approximately 90 ° is. This has the advantage that when changing the thread tension and so that the deflection of the spring element is the height of the upright or Leno thread minimally changed, and thus the correct function in the Effect as hold-down is not affected.

Figur 1

zeigt eine schematische Darstellung gemäß dem bisherigen Stand der Technik;

Figur 2

zeigt die erfindungsgemäße Ausbildung.

The invention is explained in more detail below by way of example with reference to the drawings:

Figure 1

shows a schematic representation according to the prior art;

Figure 2

shows the training according to the invention.

According to Figure 1, the bobbin holder is generally designated 1; the coil holder 1 has the two coils 2 and 3 for receiving the upright or Leno thread 4, 5. This bobbin holder 1 also shows resilient Arms 7, 8 to compensate for the different tensions of the threads 4, 5 during unwinding from the spools 2, 3.

The threads 4, 5 are deflected twice at points 10, 20 before they get to the thread retainer designated 30, from where the Threads to the lifting strands 40 are guided. Downstream of the lifting strands 40 is the reed labeled 50 in total. The hold-down device 30 has the task of ensuring that the threads 4, 5 under tension in Direction of arrow 70 are held.

According to Figure 2 it is provided that instead of the hold-down 30 another Thread guide 35 remains, but at 60 the threads 4, 5 through one Bracket 63 are guided, the bracket two resilient arms 62, 66 for each one leno or upright thread, the Threads through eyelets 61, 67 arranged on the ends of the arms 62, 66 be performed. The resilient effect of the arms 62, 66 is in the essentially due to the spiral winding of the arms in the end area 62a, 66a reached. In the enlarged representation according to FIG seen two arms 62, 66 in the drawing plane, one behind the other. The arrow 69 is intended to indicate what the deflection of the resilient arms is when the Leno or upright thread due to the deflection of the lifting strands underneath Tension is set. It is essential here that the angle between the Alignment of the individual threads 4, 5 and the arms 62, 66 here approximately Is 90 ° to the thread tension in each position of the arms in to keep essentially constant. That is, the subject changes now from closed subject position to position "subject open", then the resilient arms 62, 66 able due to their resilient design the required lengthening of the thread by tensioning the spring to give in without the thread itself being much higher Must absorb tension.

Claims (7)

1. Device for adjusting thread tension of the doup ends and of the stationary threads that are guided through a leno selvedge forming device,
   characterized in that a holding device (63) accommodated directly in front of the leno selvedge device keeps the stationary thread and/or the doup end (4, 5) under resilient tension.
2. Device according to claim 1,
   characterized in that the holding device (63) comprises at least one eyelet (61, 67) through which the thread(s) (4, 5) is/are threaded, whereas the eyelet (61, 67) is kept under tension by a spring element (62, 66).
3. Device according to claim 2,
   characterized in that the spring element (62, 66) is configured as a springy arm.
4. Device according to claim 3,
   characterized in that the springy arm (62, 66) is spirally bent at its end to generate the spring force.
5. Device according to one of the previous claims,
   characterized in that the holding device (63) keeps the thread(s) (4, 5) down.
6. Device according to one of the previous claims,
   characterized in that the angle between the arm (62, 66) and the thread (4, 5) amounts to between 70 and 110°, preferably to 90°.
7. Device according to one of the previous claims,
   characterized in that the leno selvedge forming device comprises two lifting healds and one half heald which is taken along by the lifting healds.

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