JPH0220743B2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a method for manufacturing a braided lace that is braided with a latsiel knitting machine or a river lace knitting machine, and provides a braided lace that does not cause run or fray. be.

(Prior art) Of the braided laces, the latsiel lace produced by a latsiel knitting machine has a net-like ground part knitted by a large number of chain stitches and ground thread insertion yarns that connect these chain stitches. , if necessary, by surrounding the desired area of the ground part with a thick hemming thread, meandering the pattern thread within the desired area, or using a combination of these to form a pattern. has been done. In addition, the above-mentioned base thread insertion thread, hemming thread, and pattern thread are held between the needle loop of the chain stitch and the leg of the loop that constitute the ground portion.

On the other hand, in the case of river lace manufactured using a river lace machine, instead of the chain stitch of Ratsiel lace,
While forming a string with many twists using the bobbin thread, back warp, and front warp, a part of the front warp is made to protrude laterally in a loop shape, and the protruding end is connected to the bobbin thread of the adjacent twisted string and the back warp. A net-like ground portion is formed by being held between the overlapping portions of the above, and if necessary, hemming threads or pattern threads are further held between the overlapping portions to form a pattern.

(Problems to be Solved by the Invention) Conventional ratchet laces are knitted using ordinary fiber threads and are based on straight chain lines, so runs are likely to occur. In other words, chain stitch involves inserting a newly formed loop (new loop) of the same ground thread into a ready-made loop (old loop) formed using ground thread, and then repeating this process to form a longer loop. If there is a cut end in one chain stitch, if you pull the loop leg of the cut end,
The new loop is extracted from the old loop, and this in turn spreads to the old loop side, causing the chain stitch to disappear. Therefore, when the obtained lattice lace is cut according to the intended use, or when the base threads constituting the chain stitch are cut by accident, a run will occur from the above-mentioned cut end or cut end, and the entire length of the stitch will be cut. There was a problem with the disappearing. In addition, when a fan-shaped edge pattern, that is, a scallop is formed, and a picotto is made to protrude from this scallop, the base of the picotto is held between the needle loop of the chain stitch and the leg of the loop along with the edging thread and pattern thread. There was a problem that the Pikotsuto would be pulled out for a long time due to the tension, and the neighboring Pikotsuto would disappear.

On the other hand, conventional river lace is braided using regular fiber threads without adhesive properties such as bobbin thread, front warp, back warp, pattern thread, and hemming thread.
Since the loop-shaped protruding ends of the front warp, the pattern threads, and the edging threads were fixed by simply twisting the twisted strings, the cut ends of the twisted strings tend to untwist and unravel, and they also tend to untwist and fray along the edges of the pattern. When the loop-shaped protrusion of the front warp is cut in the horizontal or horizontal direction and pulled, the loop-shaped protrusion of the front warp lined up in several wefts from the cut end is untwisted and the loop-shaped protrusion of the front warp is pulled. The threads, pattern threads, hemming threads, etc., tend to slip out easily. Therefore, when river lace is sewn in the width direction or in the diagonal direction for the manufacture of clothing, stitches may be misaligned along the seams, and the above seams may There was a problem with the fabric fraying and the seam allowance separating.

The present invention provides a method for manufacturing a braided lace made of nylon multifilament yarn, which does not cause the above-mentioned runs or fraying.

(Means for solving the problem) When braiding a braided lace such as ratchet lace or river lace, a regular nylon multifilament yarn for lace is added to any of the constituent yarns such as ground yarn, pattern yarn, and hemming yarn. The melting point consists of a copolymer of nylon 6, nylon 66 and nylon 12 on the surface of
At 110-120℃, heat-adhesive yarn on which a coating with a solid content of 7-25% by weight is formed on the above-mentioned ordinary nylon multifilament yarn for lace, and ordinary nylon for lace as the other constituent yarns. The multifilament yarns are each braided and then heat treated at a temperature at which the coating melts to bond the heat-adhesive threads together and the portions where the heat-adhesive threads intersect with other constituent threads.

The thermoplastic synthetic resin with a low melting point may be one that melts at a temperature lower than the temperature at which ordinary lace threads that make up the base thread, pattern thread, hemming thread, etc. melt or decompose. Common examples include copolymer resins such as polyamide and polyester.

(Function) The heat treatment after braiding bonds the intersections between the heat-adhesive yarns and the intersections between the heat-adhesive yarns and other constituent yarns, so the heat-adhesive yarns can be latched together. When used as the ground thread for chain stitch of lace, ground thread insertion thread, front warp, back warp of river lace, etc., the intersections of ground threads and the intersections of ground threads, pattern threads, and hemming threads are applied throughout the entire area of the braided lace. are adhered to each other to prevent runs and fraying on the entire surface. In addition, when forming a pattern using either or both of pattern threads and edging threads on the ground portion made of the above-mentioned ground threads, if heat-adhesive threads are used for these pattern threads or edging threads, The intersection of the pattern yarn or hemming yarn of the heat-adhesive yarn and the base yarn is thermally bonded, and the propagation of runs and fraying occurring at the ground portion is stopped at the edge of the pattern.

The core yarn and other constituent yarns of the heat-adhesive yarn are nylon multifilament yarns, and the coating of the heat-adhesive yarn is a terpolymer of nylon 6, nylon 66, and nylon 12. Therefore, they can be dyed the same color with the same dye,
No uneven dyeing occurs. Therefore, by setting the solid amount of the coating in the range of 7 to 25% by weight, suitable texture, touch and adhesive strength can be obtained,
If the solid content is less than 7%, adhesion will be insufficient, and if it exceeds 25%, the texture will be hard.

The above heat-adhesive yarn is obtained by melting the above-mentioned low-melting-point terpolymer or dissolving it in a solvent, attaching it to the desired lace yarn using a gluing roller or painting, and drying. obtained by Alternatively, the lace yarn may be heated by a hot air dryer using a heat roller while running the lace yarn in contact with the thermoplastic synthetic resin.

Example 1 Ratsiel knitting machine (RMS-26 manufactured by Karmaiya)
Using this method, the ratchet lace shown in Figure 1 was knitted. In the figure, 1 is a net-like ground part, 2 is a patterned part, 3 is a chain stitch, 4 is a pattern thread, and 5 is a edging thread. As shown in FIG. 2, the ground portion 1 is formed by connecting two chain stitches 3, 3 adjacent on the left and right sides with a ground thread insertion thread 6 meandering between them. In addition, in FIG. 2, one ground thread insertion thread 6 is shown by a solid line, and the rest are shown by dotted lines, and in FIG.
Although not shown, in the patterned part 2 of FIG. 1, the pattern yarn 4 and the hemming yarn 5 are connected to the needle loop 3 of the chain stitch 3 in the same way as the base yarn insertion yarn 6 of FIG.
The transition portions 4a, 5a of the pattern thread 4 and the hemming thread 5 are inserted and held between the loop leg 3b and the pattern pattern portions 2, 2 separated vertically.
is knitted into a floating thread, and after knitting, the ends 4b, 5
It is cut and removed at b.

A low-melting thermoplastic synthetic resin consisting of a 30-denier nylon multifilament yarn and a ternary copolymer of nylon 6, nylon 66, and nylon 12 (trade name "Elder", manufactured by Toray Industries, Inc., melting point 120°C)
A methyl alcohol solution (concentration: 20%, temperature: 27°C) was applied uniformly in the length direction using a gluing roller, and dried to obtain a heat-adhesive yarn with a solid content of the above resin of 17%. This heat-adhesive thread is used as the constituent thread of the chain stitch 3, a 40 denier nylon multifilament thread is used as the ground thread insertion thread, a pressed crimped thread made of a 140 denier nylon multifilament thread is used as the pattern thread 4, and the hemming is carried out. As yarn 5, a crimped yarn made of 210 denier nylon multifilament yarn was used, and after knitting, dry heat treatment was performed at 170℃ for 90 seconds using a heat setting machine.
The coating (low melting point thermoplastic synthetic resin) on the surface of the heat-adhesive yarn constituting the chain stitch 3 was melted, and then dyed and dried in a conventional manner for finishing.

In the obtained product, all of the base yarn insertion yarn 6, pattern yarn 4, and hemming yarn 5 that intersect with the chain stitch 3 are bonded at their intersections by the surface coating of the heat-adhesive yarn forming the chain stitch 3. Therefore, there is no run, and the transition parts 4a and 5a of the pattern thread 4 and the hemming thread 5 are
Even after cutting off the cut end 4b,
There was no fraying from 5b, and no deformation of the handle occurred. In addition, in this example, since thermal adhesive yarn was used for all the chain stitches 3, it was possible to omit the resin processing that is generally performed as a finishing process.

Example 2 As shown in FIG. 3, a river lace consisting of a bobbin thread 11, a front warp 12, and a back warp 13 was machined using a river lace machine (manufactured by Jarden Co., Ltd.,
GOTHRUGH type). however,
Nylon multifilament thread (40 denier) is used as the bobbin thread 11 and front warp 12.
Further, the heat-adhesive yarns of Example 1 were used as the back warp 13, and after braiding and scouring, dry heat treatment was performed at 170°C for 90 seconds using a heat-setting machine, so that the back warp 13 of the heat-adhesive yarn was Attach the part that contacts the bobbin thread 11, that is, the back warp 1 in the twisted string 14.
3. The front warp 12 and the bobbin thread 11 were integrated by adhesion, and then finished by dyeing and drying according to a conventional method.

In the obtained product, the bobbin thread 11, front warp 12, and back warp 13 that make up all the twisted strings 14 are glued to each other, so when sewn along the width direction line and pulled at right angles to the seam, In addition, no misalignment occurred along the seams. Also,
The texture was the same as that of conventional products, and there was no need for resin processing as a finishing treatment.

(Effects of the Invention) This invention involves braiding a lace using heat-adhesive yarn, and heat-treating it after braiding to develop the adhesive properties of the heat-adhesive yarn. The threads are bonded to each other and the intersections of the heat-adhesive thread and other threads are bonded to each other, preventing runs and fraying, and no misalignment of seams occurs when sewing clothes or the like. The above-mentioned heat-adhesive yarn is a terpolymer of nylon 6, nylon 66, and nylon 12 in addition to the normal nylon multifilament yarn used for the ground yarn, pattern yarn, hemming yarn, etc. of braided lace. Since it is coated with a low melting point thermoplastic synthetic resin to give it thermal adhesive properties, it can be subjected to various treatments such as warping, braiding, and dyeing in exactly the same way as when using only ordinary lace thread. It is possible,
There is no yarn cracking or breakage of the heat-adhesive yarn that occurs when using normal lace threads and heat-adhesive threads made only of low-melting-point thermoplastic synthetic resins, and Since the ordinary lace yarn in the heat-adhesive yarn is covered with the thermoplastic synthetic resin coating and reinforced, untwisted filament yarn can be used as the lace yarn. This makes it easier to handle when warping or braiding. The ordinary lace yarn is reinforced with a thermoplastic synthetic resin coating, which does not reduce its strength, so the texture of the braided lace product can be adjusted by freely selecting the amount of coating. , without applying the conventional finishing resin processing and treatment to remove the above-mentioned film other than the adhesive part,
The desired texture can be obtained, and the ordinary lace yarn and other constituent yarns in the heat-adhesive yarn are nylon multifilament yarns, and the synthetic resin coating of the heat-adhesive yarn is made of nylon 6. , nylon 66
Since it is a terpolymer of Nylon 12 and Nylon 12, it is easy to dye and produces a product with no uneven dyeing.

[Brief explanation of drawings]

FIG. 1 is a plan view of a first embodiment of the present invention, FIG. 2 is an organizational chart of the ground section of FIG. 1, and FIG. 3 is an organizational chart of a second embodiment. 1: Ground part, 2: Pattern part, 3: Chain stitch,
4: Pattern thread, 5: Edging thread, 6: Base thread insertion thread, 1
1: bobbin thread, 12: front warp, 13: back warp, 14: twisted string.

Claims (1)

[Claims] 1. When braiding a braided lace such as ratchet lace or river lace, any of the constituent threads such as ground thread, pattern thread, and hemming thread may be coated on the surface of a normal nylon multifilament thread for lace. A thermally adhesive film made of a copolymer of nylon 6, nylon 66 and nylon 12 with a melting point of 110 to 120°C and a solid content of 7 to 25% by weight on the above-mentioned ordinary nylon multifilament yarn for lace. The threads are braided using ordinary nylon multifilament threads for lace as the other constituent threads, and then heat treated at a temperature that melts the above coating to make the threads heat-adhesive to each other and heat-adhesive. A method for manufacturing braided lace characterized by gluing the portions where the yarn intersects with other constituent yarns. 2. A method for manufacturing a braided lace according to claim 1, wherein a heat-adhesive thread is used as the base thread. 3. The method for manufacturing a braided lace according to claim 2, wherein the braided lace is a lattice lace, and the heat-adhesive yarn as the ground thread forms a chain stitch of the lattice lace. 4. The method for producing a braided lace according to claim 2, wherein the braided lace is a lattice lace, and the heat-adhesive yarn as the base thread is a ground thread insertion yarn that connects the chain stitches of the lattice lace. . 5. The method for manufacturing a braided lace according to claim 2, wherein the braided lace is a river lace, and the heat-adhesive yarn as the ground yarn is a back warp of the river lace. 6. The method for manufacturing a braided lace according to claim 2, wherein the braided lace is a river lace, and the heat-adhesive yarn as the base thread is a front warp of the river lace. 7. The method for manufacturing a braided lace according to claim 1, wherein the braided lace has a pattern pattern formed by meandering pattern threads, and a heat-adhesive thread is used as the pattern thread. 8. The method for producing a braided lace according to claim 1, wherein the braided lace has a pattern edged with a hemming thread, and a heat-adhesive thread is used as the hemming thread.