KR800001324B1 - Apparatus of stalk keeping for helically coiled coupling elements of slide fastener - Google Patents

Abstract

A helical filament for teeth of sliding fastener is formed from straight filament rotated about its axis it is fed from supply. A sliding fastener continuous helical coil element is made by advancing and simultaneously rotating a plastic filament at the same rate and in the same direction as the filament is coiled. The apparatus preface comprises a filament store with a rotor rotatable in a bracket and a nonrotatable guide with an axial passageway and mounted coxially on the rotor.

Description

Filigree storage device for forming coil element of slide fastener

1, 2 and 3 are longitudinal cross-sectional views showing first, second and third embodiments of the present invention, respectively.

The present invention relates to a filigree storage device in which the filigrees supplied from the filigree storage body are wound on the core rod to continuously twist the filigrees in the apparatus for continuously producing the coiled fastener element so that the filigrees are not twisted.

Although various methods and apparatuses for producing this kind of coiled fastener element have been known, it is not possible to manufacture a fastener element using a large storage body and at high speed. One of the major causes is that the ancestor storage device for storing ancestors has the following problems.

Increasing the size of ancestor windings (bobbins, etc.) wrapped with ancestors is very desirable in terms of element quality or operation, since a long, seamless element is produced with one ancestor storage and the number of replacements of the ancestor storage is reduced. Large filigree storage devices have the disadvantage of adversely affecting the quality of coil elements. Namely, in the related art, for example, a filigree storage device is known in which a filigree storage body is provided without applying a rotational force in a proper position, and the filigree storage unit is pulled out of the coiling section in the filigree storage body.

This conventional one has the advantage of increasing the size of the filigree storage body, but the twisting of the ancestors generated every turn of the supply stiffness can not be eliminated because of the twisting of the coiled fastener elements, the size of the occlusal head of the element and the dimensions and shape of the elements It was difficult to obtain a good quality element which affects the back.

It is also known that the ancestor storage body is rotatably installed in order to eliminate the influence of the swivel of the ancestors. For example, by combining the swivel guide rotor, which rotates like the ancestor guide of the coiling part, with the rotatable stile storage body installed in accord with the core of the core, the rotor is rotated in the same way as the coiling rotation. It is known to form a fastener element by winding the supply ancestor to the core roof by rotating while adding rotation in accordance with the amount of the ancestor drawing, as in the electric rotor. However, since this apparatus rotates the filigree storage body beyond the rotation of the coiling part, it is difficult to form a precise fastener element because the tension change of the supply filigree caused by the change of the filigree storage amount is very large.

Therefore, in practice, it is necessary to add a device for compensating for this, and it is also complicated in terms of device such as requiring a cushion start to prevent abnormal tension in the supply line during starting of the machine. In addition, as another conventional device, it is known that the filigree storage body is installed in a direction perpendicular to the shaft center of the mandrel, and the filigree storage body is rolled up to the mandrel of the mandrel by turning the filigree storage body to the mandrel of the mandrel. In particular, since the centrifugal force due to the swing of the filigree storage body is large, only a small filigree storage body could be used. In any case, rotating or turning the filigree storage body at a high speed is difficult to apply by forming the element at a high speed, and only a smaller filigree storage body has a drawback.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned point, and therefore, since a large force is used since the rotational force is not added to the ancestor storage body, and a storage storage device is provided in which the twist is not generated in the ancestors by rotating the ancestors by the rotating rotor. .

Embodiments of the present invention will now be described in detail with reference to the drawings. 1 is a first embodiment of the present invention, where (1) is a filigree storage body wound with filigree (W), (2) is a filigree guide member, and (3) is a rotor.

The rotor 3 is connected to the drive shaft 5 supported by the frame 4 so as to place the drive shaft 5 so as to be rotated by the power of the drive unit 6. In the example of the city, the rotor 3 was made into a toy shape, and the support shaft 7 was protruded in the horizontal direction in the center of the inner surface. The support shaft 7 is formed with a striated through hole 8 which is pulled out by the distribution of the rotor 3. In addition, the ancestor guide piece 9 is provided in the distribution of the rotor 3. The electric filigree guide member 2 is a slip 10 and the guide arm 11 which is fixed to this slip 10 and extended to the upper position of the electric filigree storage body 1, and this slip 10 is an electric rotor ( It is inserted in the support shaft 7 of 3) as a rotating material.

In addition, a protruding portion 12 is formed at the tip of the slip 10. The protruding portion 12 was formed with a filigree through hole 13 which communicates with the electric support shaft 8 and has a head opening. The electric filigree storage body 1 is a rotating material on the electric slip 10. (14) is fixed to the slip 10 with a fixing member to prevent peeling of the filigree storage body (1).

The electric filigree guide member 2 is restrained in place by the rotational restraining means 15. This restraining means will be described below. The eccentric shaft 16 which is eccentric from the axial center of the drive shaft 7 is fixed to the electric protrusion 12. The ancestor guide wheel 18 which has the guide hole 17 on this eccentric shaft 16 is rotatably supported. The outer circumference of the ancestor guide wheel is fitted to the frame 19 by a rotating material. And this ancestor guide wheel 18 is made to rotate like the rotor 3 by the power of the drive part 6 of the electric rotor 3. The filigree W wound on the filigree storage body 1 reaches the filigree through hole 13 of the protrusion 12 through the guide hole 20 of the guide arm 11 and the filigree through hole 8 of the support shaft 7. At the rota (3) and the back is pulled to reach the slits guide 22 in the front through the guide hole (17) of the ancestor guide wheel (18) in the ancestor guide piece (9). In front of the slit guide 22, an element coiling apparatus and a molding conveying apparatus (not shown) are provided.

Based on the above-described configuration, the operation thereof will be described next.

In the coiling apparatus, the ancestors W are continuously coiled, whereby the ancestors W are continuously drawn out of the ancestor storage body 1, and at the same time, the ancestors are twisted by the coiling. By the way, the twist can be prevented from occurring due to the rotation of the rotor 3. That is, the rotor 3 is rotated in the same direction as the coiling direction. At this time, since the rotation of the ancestor guide member 11 is stopped by the eccentric shaft 18, only the ancestor storage body 1 rotates at a low speed in accordance with the drawing amount of the ancestor. Each twist of the rotor 3 is provided with two twists to the ancestors. When the ancestors are swung once with the coiling device, the ancestors are twisted once, so that the electric rotor 3 is rotated 1/2 of the rotation of the coiling unit in order to completely eliminate this twist.

In this way, the ancestors are sent out continuously, without causing any distortion. In this case, since the filigree reservoir 1 rotates according to the supply amount of the filigree, there is no twist in the filigree between the filigree reservoir 1 and the guide arm 11.

Furthermore, since the guide wheel 18 also rotates at the same time as the rotation of the rotor 3, there is no problem in the rotation of the ancestors.

2 and 3 show the second and third embodiments, respectively, and other structures are used for the rotational restraining means of the ancestor guide member 2. The embodiment of FIG. 2 uses gravity as the rotational restraining means, and a weight arm 23 extending downward of the filigree storage body 1 is installed in the filigree guide member 2 and the center arm 24 is attached to the pivot arm 24. ) Is attached.

As a result, the ancestor guide member 2 is controlled by the center 24 at the time of rotation of the rotor 7 and restrained in the correct position. In addition, the embodiment of FIG. 3 is an example of using a rotational restraining means by residual force, and attaches a permanent magnet or a magnet body 25 to the ancestor guide member 2 and opposes the electromagnet 26 to the outer circumference of the rotor 3. It arrange | positioned in the direction, and the rotation of the guide member 2 was restrained by the electromagnet attraction force. According to the third embodiment thereof, as shown in FIG. 3, the axis of the rotor 3 is arranged in the vertical direction or in any other direction.

As described above, according to the present invention, the filigree storage body can be used as a large filigree storage body without being rotated at a high speed and can be used as a large filigree storage body without the twisting of the filigree by the coiling to rotate the filigree by the rotor. Since the ancestors are placed on the circumferential center through the axial center of the ancestor guide member on the ancestor guide member, two or more twists can be given to the ancestor for one rotation of the rotor, thus coiling the rotation of the rotor. It can be less than ½ of negative rotation.

The ancestor storage body rotates thereon according to the amount of drawing of the ancestors, so that there is no twisting caused by drawing of the ancestors.

By using the apparatus of the present invention, it is possible to form precise coiling elements at high speed by using a large filigree storage body.

Claims (1)

Concentrically with the rota, the linear guide member and the ancestor storage body are rotatably mounted independently, and the ancestor through holes are installed in their central axes so that the ancestors pass from the ancestor guide member to the rotor through the central axis of the ancestor storage agent. When the rotor is rotated, the filigree storage body rotates as the filigree draws out, and the filigree guide member is held in a non-rotated state by the rotational restraining means. Storage device.

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