KR830002354B1 - Tension control feed device - Google Patents

Abstract

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Description

Tension control feeder

1 is an explanatory diagram showing a first embodiment of the present invention.

2 is an enlarged view showing the configuration of the dancing lever of FIG.

* Explanation of symbols for main parts of the drawings

(3): Dancing Lever (4): Both guides

(5), (6): spring 12: feed roller

(13), (14): guide roller

The present invention relates to a tension control feeder of the yarn.

As is known, as a circular loom, a shuttle travels in connection with a shuttle guide of a circular yarn, the engagement of several strands is guided to the position of the shuttle guide, the warp yarn and the engagement pulled out from the shuttle are interwoven, and a cylindrical The fabric is woven. With this type of circular loom, the tension of each work force varies during weaving. In the related art, tension fluctuations of respective engagements are alleviated by dancing levers, respectively.

Each dancing lever has a yarn guide through engaging one end, and the other end is held. Furthermore, each dancing lever is provided with a spring which imparts a rotational moment against the tension of engagement through the yarn guide.

Each dancing lever swings in accordance with the tension change of each field by the action of a spring and absorbs the tension change of the field.

Such a dancing lever of such a type only absorbs a tension change by oscillating a predetermined use within an allowable range, and thus is effective for a tension variation with a small amplitude, but cannot be completely absorbed for a tension variation with a large amplitude. Since the amplitude of the tension fluctuations in the working of the circular loom is large, therefore, the conventional dancing lever is not satisfactory in the circular loom.

This is not limited to circular looms, and other types of looms as well as yarn winding machines can be said to be the same form when the absorbing yarn absorbs large tension fluctuations with the dancing lever.

An object of the present invention is to provide a tension control conveying apparatus which can sufficiently absorb even a tension variation having a large amplitude.

In the present invention, two types of springs are provided to the dancing lever to impart a rotational moment against the tension of the yarn through the yarn guide. One spring swings over the entire allowable range of the dancing lever, while the other spring acts when the position of the dancing lever swinging against one spring within the swing allowance exceeds a certain angular position. Furthermore, the feed roller which rotates upstream from a yarn guide in the feed direction of a yarn, and the guide roller which guides a yarn to the outer peripheral surface of a feed roller are provided. Buyer

Hereinafter, an embodiment of the present invention used for circular looms will be described according to the accompanying drawings.

In the figure, the circular loom has a shuttle 1 which runs in connection with a circular shuttle guide, and a plurality of healds 2 arranged in a circular shape outside the shuttle guide. The cross-section pulled out from the shuttle 1 is interwoven with a plurality of engagements A opened by the respective healds 2, and the cylindrical fabric B is woven.

In this embodiment, the plurality of dancing levers 3 are arranged in a circular correspondence outside the heald 2. Each dancing lever 3 has a yarn guide 4 through engaging A at one end, and the other end is held. In addition, each of the dancing levers 3 is provided with two types of springs 5 and 6 which impart rotational moments against the tension of the engaged A. One end of one spring 5 is connected to the lever portion 7 formed on the dancing lever 3, and the other end is connected to the frame 8. The spring 5 swings over the entire swing allowable range of the dancing lever 3. The other side spring (6)

Each engagement A is guided to the position of the shuttle guide through each heald 2 separately through the yarn guide 4 of each dancing lever 3. Moreover, the feed roller 12 is arrange | positioned upstream rather than the yarn guide 4. Although only one feed roller 12 is shown in FIG. 1 for convenience, in practice, a pair of feed rollers 12 are arranged symmetrically and rotated in a working feed direction by a torque motor or the like, respectively. Engagement A is guided by the guide rollers 13 and 14 to be engaged over a predetermined angle range on the outer circumferential surface of each of the half number transfer rollers 12. The outer circumferential surface of the conveying roller 12 is formed of a material having a suitable coefficient of friction, and as described below, each engaged A has a conveying amount corresponding to each tension by friction with the outer circumferential surface of the conveying roller 12 and is actively Transferred.

Each engagement A is sandwiched between the bar 15 and the U-shaped upper end 16 further upstream than the feed roller 12.

In the circular loom constructed as described above, the engaged A is transported by the shuttle 1 between the bar 15 and the U-shaped upper end 16 as the fabric B is manufactured. ), The yarn guide 4 of the dancing lever 3 is pulled out. Therefore, the tension is applied to the downstream engaging portion A by the U-shaped upper bracket 16.

Each dancing lever 3 swings in accordance with the variation of the tension of each engaging A. As shown in FIG. Since the action force of the spring 5 is sufficiently small, the dancing lever 3 has a tendency to swing counterclockwise by the tension of the engaging A when it is in a clockwise position rather than the angle position in FIG. When the tension of engagement increases and the dancing lever 3 swings counterclockwise beyond the angular position of FIG. 2, the spherical metal fitting 11 engages with the lower periphery of the hole 9, and the spring 6 Swings. Thus, the tension of the engaging A is then balanced with the action of both springs 5,6.

Since the rotational speed of the conveying roller 12 is higher than the consumption speed of the engaging A, when the engaging A is actively conveyed by the conveying roller 12, the tension of the engaging downstream of the conveying roller 12 is lower. Decreases. Accordingly, the dancing lever 3 oscillates clockwise, but when oscillating clockwise than the angular position of FIG. 2, the spring 6 does not oscillate, and thus does not oscillate significantly in the clockwise direction beyond the angular position of FIG. 2. . When the tension of the engaging A is small and the spring 6 does not work, the feeding roller 12 revolves, and the engaging A is actively transferred.

The above-described action is repeated, and therefore, it is possible to sufficiently absorb even large fluctuations in the amplitude of the tension of the engaged A. The position of the dancing lever 3 is within a small angle range centered on the angle position of FIG. maintain.

As is evident from the above embodiment, the present invention can sufficiently absorb even large fluctuations in the amplitude of the yarn tension and achieve the desired object. The same effect can also be obtained by using the present invention for absorption of fluctuations in yarn tension in looms other than circular looms and winding machines of yarns and the like.

Claims (1)

A dancing lever having a yarn guide at one end and the other end is provided with two types of springs that give a rotation moment against the force of the yarn through the yarn guide, and one spring swings over the entire swing allowable range of the dancing lever. On the other hand, the other spring is operated when the position of the dancing lever swinging against one spring exceeds a certain angular position within the swing allowable range, and again rotates in the feed direction of the yarn upstream than the yarn guide. , The guide roller for guiding the thread to the outer peripheral surface of the feed roller, the tension of the yarn characterized in that the yarn is actively transported with a feed amount corresponding to the tension according to the friction with the outer peripheral surface of the feed roller. Conveying device.

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