KR20130000061U - Circular weaving loom - Google Patents

Abstract

The present invention relates to a high-density tubular weaving circular loom, in which a plurality of wefts are sequentially supplied at a time to serve the high-density tubular fabric, and the weft yarns are closely packed with each other as the shuttle moves, and is supplied from a plurality of bobbins. The wefts are to be sequentially supplied at regular intervals between the openings of the warp.

Description

High Density Tubular Weaving Circular Looms {CIRCULAR WEAVING LOOM}

The present invention relates to a high-density tubular weaving circular weaving machine in which a plurality of weft yarns are sequentially supplied to serve a high-density tubular fabric in a circular loom while the weft yarns are densely packed together as the shuttle moves.

Circular looms are for weaving tubular fabrics, the configuration of which will be briefly described with reference to the accompanying drawings.

Conventional circular looms are supplied with a weft yarn by rotating a plurality of shuttles installed in the guide member 10 by the rotational force of the rotating motor, and a heald device 20 is formed on the side of the guide member 10 to form an inclined opening. The tubular fabric is woven by supplying the weft yarn while the shuttle rotates between the openings of the warp yarns, and the woven tubular fabric thus woven is moved upward by a rotary device 30 such as a roller installed on the upper portion of the circular loom, if necessary. It is cut and made into a bag or the like.

Looking at the configuration of the heald device in more detail, as shown in Figure 2a, a plurality of cams are formed symmetrical wave-shaped grooves (22a, 23a) are installed on the central axis 24 of the circular loom in the up and down symmetry (22) (23) and heald assembly (25) (26) which forms the opening (27) of the inclination (25a) (26a) while raising / lowering along the cam groove (22a) (23a), and When the cams 22 and 23 formed together make one rotation, the heald assembly 25 and 26 form openings in sections A, B, C, and D of FIG. 2B, and then return to section A again. You will be in office.

According to the conventional cam configured as described above, a plurality of openings are generated at the time of one rotation of the cam (four times according to the cam of FIG. 2A described above). Thus, as shown in FIG. Since 12 is required, when the cam is rotated once, as shown in Fig. 4, the four weft yarns 60 are simultaneously supplied and woven by the four weft yarn widths 40. As shown in FIG.

As a method for weaving a high-density tubular fabric using such a circular loom, there has been a method of winding a weft threaded at a high density into a bobbin installed in a shuttle and passing it between warp yarns. The length of the weft yarn wound around the bobbin is shortened that much, there was a problem that often replace the bobbin.

Accordingly, when the size of the bobbin is increased in order to reduce the number of replacement of the bobbin, the length of the weft wound on the bobbin becomes longer, but the bobbin outer circumference of the weft wound state becomes larger, so that the opening of the inclination should be larger. There was a problem that the size of the loom must be increased.

An example of a tubular fabric using such high-density yarns is geotubes, which are mainly used for protection of lakes in rivers and shores, or for reclamation / reclamation projects. In place of the geotextile, a tube (hereafter referred to as a geotube) is manufactured and a high-pressure pump is used to inject dredging materials such as soil or sand to prevent the loss of soil and sand, while maintaining its shape. It is not only excellent but also very economical.

These geotubes usually have a tensile strength of 80 to 200 KN, an effective height after filling of 1 to 3 m, a filling amount of 1.5 to 12 m ³ / m, a diameter of several meters, and a length of several tens of m-hundred meters. In order to satisfy the requirements, the flat geotextiles made of polypropylene (PP) and polyethylene (PET) are placed in two layers, and the edges are sewn to make a tube shape, or the fabric is formed into a tube shape to form a tube shape. It is formed at regular intervals inlet and drain for

As described above, an object of the present invention is to enable high-density weaving while using existing bobbins and circular looms as they are to obtain a high-density cylindrical fabric such as a geotube having a large diameter and a large tensile strength.

A feature of the present invention for achieving the above object is that a plurality of pairs of healds arranged at equal intervals are inclined while descending by a cylindrical cam mechanism to form an inclined opening, and a shuttle provided with a bobbin is provided to the number of heald pairs described above. In the circular loom which is arranged in a corresponding number and rotates by a rotating member to feed the weft between the openings to serve the tubular fabric, the shuttle is provided with bobbin support means such that a plurality of bobbins are arranged in series in the circumferential direction and from each bobbin The number of weft guides corresponding to the number of bobbins is formed at regular intervals so that the withdrawn wefts are sequentially introduced between the inclined openings, and healds are installed to correspond to the shuttles. It is formed so as to cross a plurality of wefts between one inclined opening is sequentially supplied simultaneously It is to provide a device that allows the high density fabric to serve.

In the circular loom, the fastening means is provided at the front / rear end of the shuttle in which one bobbin is installed, and the same number of shuttles are connected to each opening section by the fastening means using the fastening means. There are other features to providing circular looms.

According to the present invention having the configuration as described above, the weft that is introduced between the inclined yarns of each strand by using a plurality of strands of diameter smaller than the density of the woven fabric is wound around each bobbin, so The longer the length of the weft can be effective to extend the replacement time of the bobbin.

In addition, as mentioned above, since the dimensions of the bobbin are used as it is, the opening width does not have to be increased, and since only the shuttle is replaced in the conventional circular loom, the conventional circular loom can be used as it is, and thus the economic burden is not increased. There is an effect that the opening size of does not become large.

In addition, as described above, bobbins are sequentially installed in one shuttle, and the weft yarns supplied from each bobbin are sequentially inserted between the inclined openings, and a tensile force is generated in the direction of the shuttle due to the progress of the shuttle in this insertion process. Therefore, the weft of each strand that is introduced between the openings of the inclined in the appropriate tension, so that the supply of a tight weft, such as using a body without the use of a separate body is a narrower device has a simple effect.

1 is a perspective view showing a conventional circular loom
Figure 2a is a perspective view showing a conventional heald device
FIG. 2B is a graph showing a movement path of heald in the heald device of FIG. 2A
Figure 3 is a plan view showing the guide member and the shuttle in the conventional circular loom
Figure 4 is a perspective view showing a woven fabric by a conventional circular loom.
Figure 5 is a schematic conceptual view showing a conceptual brief view of the process of serving the tubular fabric according to the present invention
6 is a front conceptual view.
7 and 8 are views showing the structure of the shuttle

With reference to the accompanying drawings, the configuration of the subject innovation for achieving the above object.

Circular loom according to the present invention, as shown in Figure 5 and 6, each of the plurality of bobbins 120 wound around the weft 110 is arranged in series at equal intervals sequentially along the circumference by the shuttle 130, The shuttle 130 is rotated by the rotating member 140 including the rotating plate and the operation roller, the shuttle 130 is rotated in this way, while the heald 160 is raised / lowered by the cylindrical cam mechanism 150 All bobbins 120 installed in the shuttle pass sequentially between the openings 180 of the resulting warp 170 and are configured to serve high density tubular fabric.

The configuration of the shuttle 130 in the above configuration will be described in detail below.

7 is a view showing an embodiment of a shuttle according to the present invention.

In the above configuration, the shuttle 130 is a frame (131) formed in a size that can be installed a plurality of bobbin 120 (using four in the embodiment of the present invention), and is installed in the frame 131 Drive rollers (not shown), support means (132a) and (132b) for installing the plurality of bobbins (120) to be independently rotated on the frame (131), and the frame (131) or support means (132a) and (132b). It is configured to include a weft guide 136 is formed so as to be connected to the weft yarns 110 supplied from each bobbin 120 to be supplied between the openings of the inclined 170 at regular intervals.

In the above configuration, since the frame 131 only needs to extend the length of the conventional shuttle frame, detailed description thereof will be omitted.

The support means 132a and 132b are configured to supply the weft 110 without causing the bobbin 120 to interfere with each other, for example, the bobbin 120 may be perpendicular to the axis of the bobbin 120. It is installed on the frame 131 to the length to space between the bobbin 120 and at the same time to set the installation position of the bobbin and the setting frame 132a in the axial direction of the bobbin 120 It is configured to include a fixed pin 132b to be protruded a predetermined length is fitted with a hollow portion (not shown) of the bobbin 120.

In addition, the weft guide 136 is a protrusion hole 136a through which the weft 110 is penetrated at the end by protruding from the set frame 132a, respectively, each of the guide holes 136a is constant It is arranged to have a gap.

In addition, the heald 160 is the same as the structure used in the already known circular loom, the cylindrical cam mechanism 150 is due to the length of the shuttle 130, the shuttle 130 is a corresponding section The cam groove 152 is formed so that the heald 160 does not cross when passing.

According to the circular loom configured as described above, when the rotary member 140 for rotating the cylindrical cam mechanism 150 and the shuttle 130 is driven by a motor, a heald is formed along the cam groove 152 of the cam mechanism 150. After the 160 forms the opening 180 and the shuttle 130 provided with the plurality of bobbins 120 passes through the section in which the opening 180 is formed, the heald 160 is formed by the cam mechanism 150. The slant 170 intersects as it rises and falls to form a new opening, and the tubular fabric is served because the opening crosses again after another shuttle passes again between them.

In this process, each time the shuttle 130 passes between the openings 180, the plurality of strands of weft 110 are sequentially supplied between the openings 180, and in this process, centrifugal force due to the rotation of the shuttle 130 is caused. As the weft 110 is pulled in the advancing direction of the shuttle 130, the weft 110 to be supplied next pushes the previously supplied weft 110 to the inside, and thus, the plurality of strands of the weft 110 are inclined closely ( Supplied to the openings 180 between 170 to complete the serving of the dense tubular fabric.

In the above configuration, the shuttle 130a is described as an example in which a plurality of bobbins 120 are installed in one frame 131, but as shown in FIG. 8, the corresponding end of the conventional shuttle 130 is shown in FIG. Shuttle 130 having a plurality of bobbin 120 by installing a pair of fastening means 190 for fastening each shuttle 130 so that the shuttle 130 can rotate in the circumferential direction on the rotating member 140, respectively. ) May be formed.

In the above configuration, the fastening means 190 are fastened so that the shuttles 130 to be connected may be somewhat flowed around the fastening means 190, respectively, so that the shuttle 130 can move along the circumference, and the shuttles 130 are connected. ) May be fastened to the fastening hole 192 and the fastening ring 194, or may be connected to each other by a hinge or a link, specific embodiments of such fastening means can be easily designed by those skilled in the art, so detailed description thereof will be omitted.

110: weft 120: bobbin
130, 130a: shuttle 136: weft guide

Claims (2)

A plurality of pairs of healds 160 arranged at equal intervals form an opening 180 of the inclined 170 while being lifted / lowered by the cylindrical cam mechanism 150, and the shuttle 130 provided with the bobbin 120 is In the circular loom which is arranged in a number corresponding to the number of pairs of heald 160, and weaving the tubular fabric by feeding the weft 110 between the opening 180 while rotating by the rotating member 140,
Bobbin support means 132a and 132b are formed in the shuttle 130 such that a plurality of bobbins 120 are arranged in series in the circumferential direction, and the weft yarns 110 drawn from each bobbin 120 are inclined 170. The number of weft guides 136 corresponding to the number of bobbins 120 are sequentially formed so as to be sequentially inserted between the openings 180 of the
The cam mechanism 150 is characterized in that the cam groove 152 is formed so that the opening 180 intersects when one shuttle 130 passes, a plurality of weft yarns between the opening 180 of one inclination 170. A high-density tubular weaving circular loom that allows 110) to be fed at the same time in sequence. A plurality of pairs of healds 160 arranged at equal intervals form an opening 180 of the inclined 170 while being lifted / lowered by the cylindrical cam mechanism 150, and the shuttle 130 provided with the bobbin 120 is In the circular loom which is arranged in a number corresponding to the number of pairs of heald 160, and weaving the tubular fabric by feeding the weft 110 between the opening 180 while rotating by the rotating member 140,
A fastening means 190 is installed at the front / rear end of the shuttle 130 in which one bobbin 120 is installed, and the same number of shuttles 130 are provided for each opening 180 section using the fastening means 190. A high-density tubular weaving circular loom, characterized in that arranged by connecting to the fastening means 190).

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