TW200839048A - Knitted lace manufacturing method and knitted lace - Google Patents

Abstract

The invention relates to a knitted lace fabric capable of suppressing deterioration in a sense of beauty and preventing fray of a yarn, and a method of manufacturing the same. A knitted lace fabric 120 obtained after a knitting operation is heated to a temperature which is lower than a melting temperature of a chain stitch yarn 21 and is equal to or higher than a melting temperature of a thermal bonding yarn 23 so that a part of the thermal bonding yarn 23 is partially dissolved. A part of the dissolved portion sticks to the chain stitch yarn 21 and an inserting yarn 22. Consequently, a coupling state of the yarns 21 to 23 is maintained so that the fray of the yarn can be prevented. By breaking the thermal bonding yarn 23, furthermore, it is possible to form a fused portion 100. Also in the case in which a part of the chain stitch yarn 21 constituting a chain stitch structure is divided, accordingly, fray of the chain stitch structure can be inhibited in a bonding portion of the thermal bonding yarn 23 and the fray of the chain stitch structure can be suppressed beyond the bonding portion.

Description

200839048 IX. Description of the invention: [Technical field to which the invention pertains] ^fa = a method of manufacturing a lace and a lace made by the manufacturer. [Prior Art] The lace knit fabric disclosed in Japanese Laid-Open Patent Publication No. SHO63-5 is woven into a fan-shaped portion by heat-supplied heat. The lace knitted fabric is heated, whereby the heat is then smelted. The overlap of the base of the beaded yam with the other yarns is followed by entanglement of the yarn, and the heat of the portion of the swarf is then removed by the exposed portion of the yarn. This prevents the fan-shaped portion of the lace from being opened. The lace knitted fabric disclosed in Japanese Laid-Open Patent Publication No. No. 81-073 is a woven fabric yarn. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The knitted fabric is heated on the side of the fabric, whereby the core yarn of the covered yarn is melted, and the melt is swabbed between the coated yarns to join the U 4 and the (four) melt is solidified. Connect with other yarns. Borrow open. The scalloped portion of the scalloped portion of the squashing edge is formed only in the shape of a fan, and the scalloped portion is formed by heating the lace needle (4) U to 4° in the case of heat. The rest is still a member. After the lace is fanned, the hot banquet, 'and' sometimes is separated from the residual yarn by the 编, ^, ^, ^. In this case, the pick-up portion is formed by the splicing of the yarn to produce the ingot opening. The combination of the yarns is released, and the yarns are self-divided. 123203.doc 200839048 [Invention] It is an object of the present invention to provide a method for preventing yarn lace and a method for producing the same. The manufacturing method of the lace according to the present invention is characterized by comprising: a structuring step of forming a crochet structure formed with a plurality of loop portions 1 by crocheting the yarn, and lowering the melting temperature to be lower than the melting temperature of the crochet yarn The hot yarn is woven into the above crocheted structure to prepare a stretchable knitted fabric; and the heating step is to heat the knitted fabric containing the heat-bonded yarn to a temperature below the squeezing temperature and above the melting temperature of the yarn; and a breaking step, The tension is applied to the knitted fabric of the heat-followed yarn, and the heat after the smelting is then broken into a plurality of parts. According to the present invention, the lace knit fabric is heated to a temperature at which the crocheted yarn is tempered and the temperature of the entangled yarn is higher than the temperature of the yarn (4), by: localization, part of the solution is partially attached to the fishing code:::: = Curing, thereby making the lace crepe made by using the lace knit fabric and preventing the crochet yarn attached to the thermal splicing yarn from being self-heating and then releasing the yarn two: the core (four) yarn is drawn and the yarns of the heat yarn are mutually . In this case, the connection state of each yarn can be maintained to prevent the yarn from being deposited. Force advance:: The breaking step is applied to the knitted fabric containing the heat-bonded yarn, and the elongation of the knitted fabric exceeds the elongation limit of the heat-spun yarn, and the heat is then broken into a plurality of portions. The heat-bonded yarn of (4)_ is broken into a plurality of upper open = melted portions of the welded yarn of the hot-jointed yarn. The refining portion attached to the crocheted yarn becomes a resisting body against the loosening of the skein. For example, the fused portion is caught in the loop portion of the crocheted yarn from 123203.doc 200839048, whereby the crochet yarn can be prevented from being loosened. As described above, according to the present invention, it is possible to prevent the respective yarns of the lace which are produced by heating the lace knitted fabric from being deposited. For example, it is possible to prevent the yarn from being deposited due to the manufacturing process such as sewing or cutting, and to prevent the yarn from being opened due to the use state such as wearing or washing, thereby improving the quality. Further, since the fishing organization is achieved by using a yarn other than the thermal yarn, the shape of the entire lace can be stabilized by making the sentence knitting as the (4) thermal yarn. Further, in the present invention, it is preferable to set the preparation condition of the knitted fabric preparation step and the heating condition of the heating step to make the elongation limit ε 整体 of the entire knitted fabric of the crepe yarn after the heating step larger than The heat after the heating step is followed by the elongation limit of the yarn ε2. According to the present invention, the preparation conditions of the sneezing knitted fabric preparation step and the heating step = the heating condition are such that the expansion limit of the entire knitted fabric after the heating step is larger than the elongation limit of the heat after the heating step. For example, weaving = a stretched yarn, or making the crocheted yarn itself stretchable, thereby producing a knitted fabric having a :: sex. Extending the stretchable knitted fabric by more than the heat step=the heat is followed by the elongation limit of the yarn, whereby the crocheted yarn or the like is removed by heat, and then the yarn is not broken, and the heat-bonded yarn is broken. It can be prevented: the strength of the knitted fabric is reduced 'and the knitted fabric is prevented from blooming. In the present invention, it is preferred that (4) the breaking step described above be carried out. The previous "this month" can simultaneously perform the heating step and the breaking step, thereby allowing the heating step and the breaking step to be performed, thereby shortening the manufacturing time. Example 123203.doc 200839048 If the knitted fabric is finished into a predetermined shape In the heat setting step, the lamp heating step and the breaking step can be simultaneously performed. In this case, only the heat setting step can be performed, and in the same step, the heat of fusion is performed and the subsequent yarn is broken into a plurality of portions. In the present invention, it is preferred that the heating condition of the heating step is further a heating condition in which the heat-spun yarn is melted and the yarn other than the heat-removing yarn contained in the knitted fabric is prevented from being brittle.

According to the present invention, the heat is prevented from being brittle by the heat of the yarn other than the yarn, and (4) (4). Thereby, (4) can be prevented and the strength of the knitted fabric can be prevented from being lowered. Further, in the present invention, it is preferred that the heating condition of the heating step be set as a heating condition for breaking the heat-bonded yarn by melting. According to the present invention, the heat-bonded yarn is broken in the breaking step, and the heating conditions are appropriately set, whereby the heat-bonded yarn is also broken in the heating step. By this, it is possible to increase the amount of breakage of the heat-bonded yarn and to form a more securely formed portion of the anti-resistance body which is loosened by the hook-and-loop squeegee, so that the crochet yarn can be more reliably prevented from being loosened. Further, in the present invention, it is preferred that in the knitted fabric preparation step, a polyester-based thermoplastic polyurethane elastic yarn of 10 denier to 300 denier is used as a thermal yarn to be 170. (; _195. The heating temperature of 〇, heating for 3 〇 sec ~ 9 〇 sec. According to the present invention, by using 10 Danny ~ 300 Danny polyester thermoplastic polyurethane elastic yarn As a heat, the yarn is heated by i7 (rc~i95<3c for 30 SeC to 90 Sec, while preventing the heat removal in the knitted fabric. 123203.doc 200839048 followed by two brittleness and can make the thermal yarn Fully smelting to make the heat again, in the present invention, it is preferred that in the knitting fabric preparation step, the heat is followed by the yarn, and other people insert the yarn, and the above-mentioned 钧 knitting part: The second portion and the second loop portion are alternately connected to each other and arranged in the weft direction: the first loop portion of the second loop of the second loop portion into which the second loop portion is inserted The rear side of the weft circle extends, and is inserted into the y-yarn-like portion of the same segment of the weft direction of the second loop portion of the whirlpool, and is connected to the first loop-like portion of the second-direction rear section, thereby forming a chain shape Extending in the direction of the second circle, weaving the parts with hot yarn and other inserted yarns (9) and then inserting the yarn with other inserted yarns. The directions between the parts are different. 4 According to the present invention, a part of the looped fabric with the thermal yarn and other inserted yarns and the other inserted yarns are inserted into the first loop portion and the second yarn.埶: The direction between the knives is different. This can reduce the contact amount of other inserted yarns and crochet: yarn contact, and can easily make the melted yam adhere to 2 so that it can be easily crocheted. The shape of the joint portion. For example, the hot joint pull/, the insert H can also be used to form the pattern yarn or the jacquard yarn on the lace, or to make the lace preparation stretchable in the present invention, preferably θ . . . . . 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织 针织1 the loop portion and the second loop portion are connected to each other and arranged in the weft direction with a plurality of segments, and the second coil portion of the attention is inserted into the second loop portion. In the anterior section of the latitude direction, the first [yarn-like knives extend in the rear direction of the latitude and the second section Ring shape: the ith yoke portion of the same section of the knives and the direction of the ring, and is connected to the first and v-ring portions of the latitude and rear direction of the latitude, thereby forming a chain shape in the direction of the latitude Further, in the portion where the thermal yarn and the stretch yarn are woven, the direction in which the first loop portion and the second loop portion are inserted by the thermal yarn and the stretch yarn are different.

'According to this month, in the part where the thermal yarn and the stretch yarn are woven, the first yarn loop portion and the second yarn loop portion are inserted by the hot yarn and the stretch yarn. This can reduce the contact between the stretchable yarn and the heat-spun yarn and can easily cause the heat of the smelting to adhere to the crochet yarn, and the welded portion can be formed from the rewable yarn. Moreover, in the case where the heat is followed by the yarn, the knives are separated from the hooks and the flats, and the detachment is ^^^^. ^ ... The yarn and the hook, the bureau, and the v are both kept, and the heat is then separated from the crochet yarn by the Φ __ __. The invention can prevent the thermal yarn from adhering to the telescopic W ^ ^ ', and about the knitting, thereby reducing the separation of the hot connector yarn from the crochet yarn separation. The spliced portion of the singularity is left on the crocheted yarn. Further, the present invention is made by the above-described lace-making lace. According to the present invention, the yarn is fastened by heating the heat-spun yarn A 包含 contained in the above-mentioned lace-knit fabric. This prevents the use of lace: c and strengthens the edges. In addition, you can use M i to create a composition of ecstasy and flying objects. The fines are made by breaking the heat and then the yarn is shaped into a dissolved part, while 123203.doc • 11 - 200839048 further prevents blooming. [Embodiment] Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The knitted fabric is referred to as a first precursor knitted fabric. 20 The heat of the fabric 20 is referred to as a second precursor. In the case where the heat is subsequently broken, the yarn 23 is broken into a plurality of pieces, and the lace knitted fabric 12 is used. FIG. 1 is a view showing the preparation of the portion of the lace needle V (fourth) according to the first embodiment of the present invention. A histogram of a portion of the i-th precursor knitted fabric 20 of the lace knitted fabric m precursor. Fig. 3 is a diagram showing the organization of the W-wrap fabric (4) omitting the yarns other than the crocheted yarn 21 and the heat-bonded yarn 23. In the drawings, the pattern is shown to be easy to understand, and the knitting organization of the lace knitted fabric 12G and the old knitted fabric (four) is in the following state, that is, the yarn loop portion and the second loop shape. The radius of curvature of portion 25 is small and the yarns are very close or in contact. Further, in the present invention, the yarns which are prepared by the yarns 21, 22, and 23, which are knitted by the first precursor, and which are included in the second precursor, are called lace knitted fabrics. Make lace. In the present embodiment, the second precursor knitted fabric 20 is a warp knitted fabric prepared by weaving. The knitted fabric 120 and the first precursor knitted fabric are formed with a plurality of through holes, and a lace pattern is formed by the shape and arrangement of the through holes. Further, the lace knitted fabric 120 and the i-th precursor knitted fabric 2 have a pattern portion in which the amount of the yarn arranged per unit area is dense, and a bottom portion of the yarn disposed per unit area is sparse, and A pattern is formed by the shape and arrangement of the pattern portions and the bottom portion. A lace knitted fabric having such a pattern 123203.doc -12· 200839048 can be used, for example, for women's underwear and the like. The first precursor knitted fabric 20 shown in Fig. 2 is composed of a crochet yarn 21, a hot yarn 23 and an insert yarn 22. The crochet yarn 21 is also sometimes referred to as a warp yarn or a 2 woven yarn. Further, the inserted yarn 22 is sometimes referred to as a weft. The heat-following yarn is a yarn having a lower melting temperature than the other yarns used as the second yarn of the first precursor knitted fabric, and has thermoplasticity.

Fig. 4 is a process chart showing the manufacturing steps of the lace knitted fabric 12 of the present embodiment. In the first step A, the knitting is completed in the step a〇, and the knitting is performed on the knitting fabric to form the pattern on the lace and the design of the knitted fabric for forming the desired texture. Preparation for the object, then proceed to the step to 'start the manufacture of lace knitwear. In the step of the heart, using the knitting machine, the knitting machine is the first one of the fabrics of the lace knitted fabric 120. The knitted fabric preparation step of the precursor knitted fabric is woven according to the design of the π and T t designed in the step a〇. In the weaving order, the yarns 21 and 22 such as the heat-spun yarn 23 are woven into the crochet yarn 21, and the woven fabric 20 of the corpse is not prepared. As a result, the second precursor knitted fabric γ is formed by the crochet yarn 21, and the hot roving yarn 23 is woven into the woven fabric in which a plurality of yoke-like portions are formed. "Weaving" and in the above-mentioned fishing group = body knitted fabric 2. At least one of the yarns included has at least one of the stretchable yarns, and the yarns 21, the heat-spun yarns 23, and the other yarns have at least one type of stretchability. State, and perform the composing action. The second stretchable stretch of the yarn is separated from the woven fabric of the younger brother, and the woven fabric is woven by the sorrow of the sorrow. @+ T ^ ^ - , After the preparation, shrinking, and then having the preparation of the Knitted Fabric 1 precursor, proceed to step 123203.doc •13- 200839048, step a2, in step a2, to prepare the precursor of the step a1 The knitted fabric 20 is heated to a temperature lower than the melting temperature of the crochet yarn 21 and heated to a temperature higher than the melting temperature of the yarn 23. Thereby, a second precursor knitted fabric in which a part of the thermal yarns 23 is partially melted is formed. A part of the melting portion of the second precursor knitted fabric is attached to the crochet yarn 21 and the insertion yarn 22. In this state, the heat-following yarn 23 is solidified, whereby the crochet yarn 21 and the insertion yarn 22 which are connected to the heat-conducting yarn 23 can be prevented from moving away from the heat-attached yarn 23. Further, the yarns 21 and 22 connected to the thermal yarns 23 are brought back to each other by the heat of the yarns 23. The heat-spun yarn 23 which is melted in this manner is attached to the other yarns 2, 22, and then proceeds to step a3. In the step a3, the breaking step is performed, i.e., the tension of the body 2 formed in the step a2, such as the body knitted fabric, is stretched, and the melted heat-bonded yarn 23 is broken into a plurality of portions. When a tensile force is applied to the second precursor knitted fabric, the elongation ε3 of the second precursor knitted fabric exceeds the elongation limit εΐ of the thermal yarn 23, whereby the thermal yarn 23 is broken into a plurality of portions. Thus, after the heat of the melted yarn 23 is broken, the lace knitted fabric 120 shown in Fig. 1 can be formed, and the process proceeds to step a4. In the step a4, after the step a3, the formed lace knitted fabric 120 is refined, and a heat treatment, also referred to as final heat setting, is performed in a fixed form, and the lace fabric is manufactured using such a lace knitted fabric to end the lace knitting. The manufacture of the object 120. As shown in Fig. 1 and Fig. 2, the lace knitted fabric 120 of the present embodiment is similar to the first precursor knitted fabric 20 immediately after the completion of the knitting of the knitted fabric, and 123203.doc -14·200839048: The heat of each yarn is then formed by breaking the yarn 23. In other words, the heat of the knitted fabric 120 follows the yarn 23 intermittently in the weft direction c. The heat of 4 is broken by the yarns 23, and a plurality of fused portions which are arranged at intervals in the weft direction c are formed. The respective melted portions (10) are attached to the yarns 2, 22 and 22 other than the heat-bonded yarn 23 at intervals. Each of the welded portions is cut and displaced from the attached yarns without being associated with the other welded portions (10).

Further, as shown in Fig. 1, the fused portion 100 may be attached to the root yarn other than the heat-bonding yarn 23, or may be attached to a plurality of ridges other than the heat-attached yarn 23. An example of a refining portion is also sometimes attached and attached to the fishing yarn 21 and the inserted yarn 22. 5_ a &> Another fusion portion 100 is sometimes attached and attached to two of the crochet yarns 21 Parts. The yarns 21 and 22 other than the heat-retaining yarn 23 are adhered to the portion of the melted portion 1〇〇, and a raised portion which protrudes from the surface where the exposed portion of the welded portion 1〇〇 is not present is formed. In other words, the yarns 21 and 22 to which the heat-attached yarn 23 is attached are formed by the adhesion of the welded portion 1〇〇. Thereby, the welded portion 1〇〇 of each of the yarns 21 and 22 is attached to become a resisting body against which the respective yarns 21 and 22 are loosened. FIG. 5A and FIG. 5B are diagrams for explaining that the welded portion 1〇〇 is resistant to loosening. Picture. Fig. 5A shows the state in which the broken portion 21A of the crochet yarn 21 is broken. Fig. 5B shows a state in which the crochet yarn 21 is stretched from the breaking portion 21A. In the present embodiment, as shown in Fig. 5A, when the breaking portion 21a is used as the starting point, the crocheting is performed on the rear side of the weft direction C. In the yarn 21, the portion of the crochet yarn 21 adjacent to the breaking portion 21A is sometimes pulled out in sequence, and passes through the weft ring 123203.doc • 15 - 200839048. The first yarn-like portion 24 on the front side of the direction C . However, as shown in Fig. 5B, after the portion to which the hook portion, the hook portion, and the portion of the hook portion of the hook portion 21 are attached reaches the first loop portion 24, the welded portion 1 is hooked to the second loop portion 24. Thus, the welded portion 10G hooks the i-th loop portion 24, thereby resisting the crochet yarn pulling, thereby preventing the crochet yarn 21 from being pulled out. Thereby, the progress of the embossing of the crochet yarn 21 can be prevented, so that the crochet yarn 21 can be prevented from blooming. Further, in Fig. 56, the space 102 of the first loop-like portion 24 is illustrated as being permeable to the size of the melted portion 1〇〇 for easy understanding, but the space 102 of the actual second loop portion 24 is formed as It is sufficiently smaller than the welded portion 1〇〇. Thereby, the effect of preventing the blooming by the hooking of the welded portion 1 can be achieved. Fig. 6A and Fig. 6B are views for explaining a resisting body which is released against the swollen molten deposit, i.e., the welded portion 1〇〇. Fig. 6A shows a state in which the other broken portion 21B of the crocheted yarn 2 is broken. Fig. 6 is a view showing a state in which the crochet yarn 213 is stretched from the other breaking portion 21B. In the present embodiment, as shown in FIG. 6A, after the crochet yarn 21 is stretched on the rear side of the weft direction c with the other breaking portion 21B as a starting point, the portion of the crochet yarn 21 adjacent to the other breaking portion 21B is as shown. Sometimes, the loop portion is pulled out in order, and passes through the first loop portion 24 on the front side of the weft direction C. However, as shown in Fig. 6B, in the crochet yarn 21, the portion of the entangled portion 1 is attached to the inserted yarn 22, and after reaching the first yoke portion 24, the yarn is inserted into the crochet yarn 21, and the hook is hooked. The first loop portion 24 is housed. The yarn thus inserted 22 is hooked to the first loop-like portion 24, thereby being pulled out against the crochet yarn 21, preventing the fishing yarn 21 from being further pulled out. Thereby, the progress of the crochet yarn 2 can be prevented, and the crochet yarn 21 can be prevented from blooming. 123203.doc * 16 - 200839048 Further, in Fig. 6B, 'the state in which one portion of the inserted yarn 22 passes through the space 102 of the i-th yoke portion 24 is illustrated, but there may be a single fiber introduced into the inserted yarn 22 (single In one part of the silk fiber, the residual single fiber is not introduced, and the inserted yarn 22 is caught. In this case, the effect of preventing the blooming by the hooking of the insertion yarn 22 can be sufficiently achieved. Further, it is assumed that even if the welded portion 1〇〇 is separated from the inserted yarn 22, if the welded portion 100 is attached to the crochet yarn 21, the situation shown in Figs. 5A and 5B may be used.

In the same time, the splicing portion 1 〇〇 becomes a resisting body against the loosening, and the skein yarn 21 is prevented from blooming. As described above, according to the present embodiment, the thermal subsequent yarn 23 attached to the (four) knitting yarn 21 is actively broken by the breaking step, and the original shape of the thermal yarn 23 is broken. Thereby, the spliced portion 100 is attached to the crocheted yarn 21 with the heat-bonded yarn 23 interposed therebetween. Thus, the shape of the heat-retaining yarn 23 is changed, and irregularities are formed on the crocheted yarn 2丨. In other words, the crochet yarn 21 is caused to have unevenness in fineness (fineness unevenness). The fused portion _ becomes a resisting body against the loosening of the skein yarn 21, thereby preventing the loosening of the crochet yarn 21 from progressing... Since the yarn-like heat is not left on the lace knitted fabric 120, the yarn 23 is heated, and then the heat is followed by (4) The pattern has less influence, which enhances the aesthetics. In the 'in this embodiment', the setting conditions of the knitted fabric preparation step and the heating conditions of the heating step are set so that the heat removal is followed by the yarn = the total length of the yarn is greater than the heat limit after the heating step. Weaving into the fishing length limit ^ (Sl>e2). For example, the stretch yarn is woven into the skein yarn 21 in an elongated shape L, and the crochet yarn itself is stretchable by the second one, or 123203.doc -17-200839048 is a knitting organization that is easy to stretch. I, 攸 increases the amount of elongation limit η of the entire second precursor knitted fabric other than the heat-removed yarn 23. In this case, the heat of the yarn 23 is used, or the heat is applied to the yarn 23 after the melting limit, or the heat is applied to the yarn 23 after melting. & p 缩小 reduces the amount of elongation limit ε2 of the heat subsequent to the yarn 23 after the heating step. By performing such a ^ ', the elongation amount ε3 ' of the second precursor knitted fabric elongated in the breaking step exceeds the elongation limit amount ε2 of the thermal yarn 23, and the second precursor other than the heat-removing yarn 23 is not formed. Overall length of body knitted fabric

Also εΐ (ε2<ε3<ε1). Thereby, the crochet yarn 21 or the like is removed by the heat-removing yarn, and the heat-resistant yarn 23 is broken, the strength of the lace-knitted fabric 12G is prevented from being lowered, and (6) the lace-knitted fabric can be prevented from being unscrewed. . Further, the heating condition of the heating step is set to a state in which the heat-supplening yarn 23 is smelted, and the heat of the yarn other than the yarns 23 included in the knitted fabric is prevented from being brittle. Further, it is preferred that the heating condition of the heating step is set to a heating condition in which the thermal yarns 23 are broken by melting. Thereby, even before the breaking step, the heat-bonded yarn 23 which is broken into a plurality of portions can be attached to the respective yarns after the heating step. That is, a part of the heat-spun yarn 23 may be melted or the entire heat-supplening yarn 23 may be melted. In other words, the entire yarn 23 can be melted and the original shape of the yarn can not be maintained, and a large welded portion 1 形成 can be formed, whereby the blooming can be more reliably prevented. For example, the heating temperature and the heating time are set in the heating conditions. When the minimum melting temperature at which the heat-bonding yarn 23 is melted is B1, the time from the heating to the softening at the lowest melting temperature of 123203.doc • 18-200839048 is set to D1. When the minimum melting temperature at which the yarn other than the heat-bonding yarn 23 is brittle is B2, the time from the heating at the lowest melting temperature to the softening is D2. In the case of the present embodiment, in the present embodiment, when the heating temperature in the heating step is B3' and the heating time is D3, b1 < B3 < B2, D1 < D3 < D2 is set. In the present embodiment, as the thermal yarn 23, 10 denier to 300 denier is preferably used, and preferably 10 denier to 50 denier polyester-based thermoplastic elastomer elastic yarn. Further, the heating time of 30 sec to 90 sec was heat-treated at a heating temperature of 17 Torr to 195 Torr. Thereby, the heat-combustion yarn 23 is melted, and the residual yarn is prevented from being brittle. Further, the heat-bonded yarn 23 can be broken by melting. Further, since the heat-spun yarn 23 is melted and solidified, it is preferably formed of a material which is brittle, that is, has a reduced strength before melting. For example, in the case where the heating time is fixed, if the heating temperature is less than 170 c, the melted heat is subsequently changed by the subsequent force of the yarn 23 and the residual yarn, and then the yarn is not broken, and then the yarn itself remains, thereby causing The 2nd uranium body knitted fabric becomes hard. Further, when the heating temperature exceeds 19 5, the residual material such as nylon is thermally brittle. On the other hand, in the present embodiment, as described above, the heating temperature is set to 17 (Γ(:~195 υ), thereby preventing the above problem. Further, if the fineness is too large, the thermal yarns 23 are hard to be broken. If the fineness is continued, the force becomes small, and the welded portion 100 cannot be enlarged. In this regard, the fineness of the heat-retaining yarn 23 is set to 10 denier to 300 denier, whereby the ploughing can be performed and the adhesion can be maintained. Increasing the welded portion 1. 123203.doc •19- 200839048 The fineness of the thermal yarn 23 is further set to 10 Danny to 50 denier, thereby preventing the thermal yarn 23 from being conspicuous with respect to the pattern, and the hook can be raised. The adhesion between the braid 21 and the heat-bonded yarn 23 is shown in Table 1. Table 1 shows the result of the blooming test of the lace of the comparative example of the present embodiment in which the thermal yarns 23 are broken and the comparative example in which the thermal yarns 23 are not broken. [Table 1] In the breaking state of the lace-making yarn of the comparative example of the present embodiment, there is a breakage of the yarn, and there is no breakage of the yarn, and the number of times of the washing of the yarn is ◎ (no abnormality is observed) 〇 (observed slightly Open) Polyester 30 times lace The surface of the cut surface is opened (observed slightly open) △ (observed to bloom) The number of washes of the sex test 50 times of the fan-shaped part of the flowering side of the cut surface---- _ ◎ (no abnormality observed) to slightly open) 〇 ( Observed a little open) —----- detected openness __

The deposition test was carried out by using a washing method prescribed by JIS (JaPane Se Industrial Standard). L. (4) 1G3 scouring, and the rinsing was carried out. As shown in Table i, the present embodiment in which the thermal yarns 23 are broken is smaller in comparison with the comparative example in which the thermal yarns 23 are not broken. Therefore, the lace of the present embodiment can be said to be more resistant to precipitation than the comparative example. Further, it is preferable that the thermal yarns 23 are made of a polyimyl formic acid yam elastic yarn which is produced by a melt spinning technique and which is a poly-I-based polyurethane crepe elastic yarn. Thereby, it is possible to prevent the thermal yam 23 from being separated from the crochet yarn 21, so that the breaking of the heat yam 23 is preferably performed. Fig. 7 is a flow chart showing other manufacturing steps of the lace knit 12 。. First, in step M), with step a〇 (4), complete the preparation of knitted fabrics, 123203.doc -20- 200839048, after the production of lace needles, proceed to step Μ, step ,, the same as step ai After the first precursor of the body is knitted into a knitted fabric, the process proceeds to step b2 120 〇' to prepare a knitted fabric preparation step as a lace knitted fabric. Finish

j W & The heat setting step maintains the knit fabric in a predetermined shape. The shape of the example is a flat shape, or is formed, in the state in which the first precursor knitted fabric is stretched, and the first precursor knitted fabric is added, and the first precursor knitted fabric is added, ... , to the melting of the hot connector yarn 23: above the degree. Hunting this heat is then entangled and attached to other yarns. The yarn 23 is solidified (4), and the knitted fabric is maintained in the shape of a dimension (four) maintained during heat setting, and the knitted fabric is prevented from being deformed from the shape. In the heat setting step, the heating step of fusing (4) the heat of the yarn 23 and the breaking step of the knit fabric are carried out. After the heat setting step is completed, the knitted fabric 12 如图 can be formed as shown in the figure, and the step is entered. In the step b3, the lace knitted fabric formed after the step b2 is used, and the lace product including the lace knitted fabric 120 is produced, and the manufacture is completed. π Milk 120 As described above, in the heat setting step of arranging the knitted fabric into a predetermined shape, the heating step and the breaking step are performed in parallel. By performing only the heat setting step =, the heat of the yarn 23 can be melted and the hot yarn 23 can be broken into a plurality of knives. In this way, the heating step and the breaking step of the temple in the same day are condensed by 4 、, and the time is severe.太 > 衣 k 曰. In the form of the sputum, in the step of arranging the knitted fabric into a predetermined shape, ", 疋 yI A, while performing the heating step and the breaking step, but may not be shaped by the heat 123203.doc -21 · 200839048, At the same time, the heating step and the breaking step are performed. Further, the twisting step and the breaking step may be performed in other steps such as the dyeing step. *, ,, as shown in Fig. 3, in the first precursor knitted fabric 2〇 The crochet yarn 21 forms the i-th yoke portion 24 and the second yoke portion 25 by fishing. The yoke portion 24 and the second yoke portion 25 are alternately connected in the weft direction c. The side-by-side $ has a plurality of sections. Here, the first loop-shaped portion 24 is referred to as a knitting needle, and the /-ring is referred to as a second-groove-like portion 2 5 as a sinker loop. φ # 1 yarn loop The second portion 24 is alternately connected to the second loop portion 25 and extends in the weft direction c, thereby forming a warp circle 26. The warp circle 26 is arranged in the weft direction weir and is formed in plural, and the warp circles 26 are mutually Connection, thereby forming a fishing organization, in other words forming a twisted tissue (chain stitchp, crocheted yarn. Appropriate lateral swinging' It is connected to the warp ring 26 adjacent to the warp direction w, thereby forming a crochet structure having a stud preventing function. The portion in which the crochet yarn 21 is laterally swung is referred to as a stopper portion 42. Each of the first loop portions 24 It is formed substantially in a U shape and arranged substantially in parallel in the predetermined weft direction C and the warp direction w orthogonal to the weft direction c. Further, each of the first loop portions 24 is opened in the front direction of the weft direction c The second loop portions 24 are arranged in a row in the warp direction to form a weft, and the i-th loop portions 24 are arranged in a row in the weft direction c to form a warp 26. The second loop portion 25, connected to the i-th yoke portion 24 arranged in the weft direction C. For example, attention is paid to a second yoke portion 25 & one end of the second yoke portion 25a of the attention is connected to The second loop portion 25a of the same segment as the second loop portion 25a is in the same section, and the second loop portion 25a of the second loop portion is directed from the one end toward the other end, and 123203. Doc -22- 200839048 The second yoke-shaped portion 25a of the attention _ a, the yoke of the front section of the yoke direction C The β minute 24b is inserted from one side to the other side and extends to the rear side of the weft direction c, "the second loop portion 25a of the main head is the same portion, and the loop portion 24a is inserted from the other side. On the _ side, the money extends to the rear of the weft direction c, and is connected to the end of the second loop portion 24c of the second loop portion 25a of the second loop portion 25a. 24 and 25 are connected in a chain shape to form a warp ring 26 extending in the weft direction c. The yarns 22 and 23, such as the inserted yarn 22 and the heat-spun yarn 23, are sandwiched between the i-th yarn-like portion 24 and the second yarn. Between the loop portions 25, thereby weaving into the warp ring 26. The outer knitted fabric of the first precursor knitted fabric 20 is covered with the first yarn loop portion 24 by the insertion yarn 22 and the heat subsequent yarn 23. Thus, the outer knitted fabric of the i-th precursor knitted fabric 20 has a clearer pattern and lace pattern formed on the i-th precursor knitted fabric 20 than the back knitted fabric. For example, the second ring-shaped portion 24b of the second winding portion 25a is inserted into the front side of the weft direction of the second yarn-like portion 25a, and the knitted fabric is knitted toward the back. The first yoke-shaped portion 24a of the same segment in the weft direction C of the second yoke-like portion 25a is inserted into the side, and the latitude and the second direction of the latitude direction c! The loop portions 24c are connected. The insert yarn 22 is used to form a lace pattern yarn on the crocheted tissue. The insertion yarns 22 are respectively woven into the warp ring 26 adjacent to the warp direction W, thereby being connected to the two warp rings 26 adjacent to the warp direction W. As shown in FIGS. 1 and 2, the insertion yarn 22 has a laterally oscillating portion extending from one of the warp rings 26 adjacent to one another in the warp direction W to the other side of the warp ring 26, and an insert yarn weave that is woven into the warp circle 26. section. 123203.doc -23 · 200839048 A through hole is formed in the space surrounded by the two laterally oscillating portions and the lateral oscillating portion which are arranged in the weft direction c. The lateral oscillation of the insertion yarn 22 is selectively arranged: the portion is thereby arranged in the shape and configuration of the through hole. Thereby, the lace pattern of the arrangement and shape of the through holes is formed on the "precursor" needle fabric 20. Here, the through hole surrounded by the lateral oscillating portion and the warp ring 26 may be filled by the following grading yarn to form a pattern. 3

The inserted yarn 22 extends toward the outer knitted fabric side as compared with the first loop portion 24. Insert the yarn 22 into the predetermined order! The loop portion 24 and the second loop portion 25 extend between the loops. Further, in the present embodiment, a plurality of insertion yarns 22 are woven into the crochet structure, and the respective insertion yarns 22 are woven in the warp direction W. The position at which each of the insertion yarns 22 is woven is appropriately selected in accordance with the lace pattern formed on the first precursor knitted fabric 2〇. The thermal splicing of the yarn 23 is achieved by a yarn having a melting point lower than the temperature at which the crochet yarn 21 and the inserted yarn are at the melting point. In the present embodiment, the yarn is partially melted in a heated state in the heating step performed after the preparation of the first precursor knitted fabric 20. The heat-removing yarn 23 is for preventing the formation of the first woven fabric yarn 21 of the first precursor knitted fabric 2 and the insertion yarn 2, which is fixed. In the present embodiment, the thermal yarn 2 3 is realized by a non-coated yarn, that is, a bare yarn which is not covered by the coated yarn, a so-called bare yarn, and is melted by a melting temperature of about 190 ° C to 195 ° C. Amino phthalic acid S is achieved by an elastic yarn. The heat-followed yarn 23 is woven into the crocheted structure in an elongated state with respect to the natural state. Further, in the present embodiment, the low heat resistance of the polyurethane elastic yarn is used as the thermal yarn 23. Specifically, a heat-receiving yarn 23 of 123203.doc -24-200839048 is used in Table 2 below. [Table 2]

The setting rate is about 85%. Also, if the heat treatment temperature is 12 〇, the setting rate is

It is about 93%. Further, if the wet heat treatment temperature is 130 ° C, the setting rate is about 93% 〇 ...; the treatment day is 1 minute to maintain the elongation i 〇〇 c /. On the basis of this, if the wet heat treatment temperature is 12 G ° C, the setting rate is about 78%. Further, if the damp heat treatment temperature is set to 140. The setting rate is about 85%. ', the heat then the yarn 23 extends along the circle, and weaves all the yarns forming the warp' I5 knife. Thus, in the crochet organization, the underlying file of the yarn per unit area' The amount of the yarn per unit area is woven into the heat-receiving yarn 23 with the portion of the pattern which is denser than the bottom portion. X. In the present embodiment, the body 1 fabric knitted fabric 20 has a plurality of thermal yarns 23, and each of the heat-resistant yarns 23 is woven into each warp. The thermal yarns are woven in all the regions of the crochet structure so that the thermal yam 2 3 is disposed closer to the first woven fabric side (the vertical portion 25 in FIGS. 1 to 3 and disposed on the yoke portion 24). The outer needle is straight to the front side of the paper surface and is closer to the knitted fabric side than the second loop. The heat-following yarn 23 progresses in a zigzag manner as it progresses in the weft direction c along the corresponding circle of 123203.doc -25-200839048. For example, between the first loop portion 24a and the second loop portion 25a, the hot connector yarn 23 passes from one warp to the other in the weft direction C. Between the first loop portion 24c and the second loop portion 2 5 c of the weft of the first loop portion 24c in the weft direction c (the upper portion of FIGS. 1 to 3) The circle passes through the circle of the other side. Shortly after preparation, the thermal splicing yarn 23 passes closer to the outer knit fabric side than the first yoke portion 24 and extends closer to the back knit fabric side of the first precursor knit fabric 20 than the insertion yarn 22 The area. Thereby, the hot yam yarn 23 and the insertion yarn 22 are inserted into the same region between the first yoke portion 24 and the second yoke portion 25, and the heat yarn 23 is inserted into the first yoke portion knife. 24 is interposed between the inserted yarns 22. Further, the inserted yarn 22 is inserted between the thermal yarns 23 and the second loop-like portion 25. In this case, the crocheted yarn 21 is stretched in the weft direction c, whereby the curvature half of the first loop-like portion 24 and the second loop-like portion 25 becomes smaller, and the hot-joint yarn 2 3 is disposed. The inserted yarn 2 2 is in contact with the first loop-like portion 24 and is in contact with the inserted yarn 22 and the first loop-shaped portion 24. In the present embodiment, in the region between the first yoke portion 24 and the second yoke portion 25 in which the thermal yam 23 and the insertion yarn 22 are inserted, the thermal yam 23 and the insertion yarn 22 cross each other. The first loop portion 24 and the second loop portion 25 are passed through. Specifically, the heat-retaining yarn 23 passes through the side of the first loop portion 24a that is in contact with the second loop portion 25b of the preceding stage (lower in FIGS. 1 to 3) in the weft direction C. The first loop portion 24a and the second loop portion 25a of the same weft ring in the weft direction C are noted. On the other hand, the insertion yarn 22 passes through the attention from the side opposite to the side where the first loop portion 24a of the focus is connected to the second loop portion 25b of the previous section of the weft 123203.doc -26-200839048 direction C. The first loop portion 24a and the second loop portion 25a of the same weft ring in the weft direction C. In this case, the first precursor knitted fabric 20 is pulled in the weft direction C, and the heat-conducting yarn 23 is brought close to the inserted yarn 22 through the portion 31 which passes through the second loop-like portion 25. In the first embodiment, in the first precursor knitted fabric 2, the thermal yarns 23 and the insertion yarns 22 are woven into the crochet yarn 21, and the thermal yarns 23 and the insertion yarns 22 are inserted first. The direction between the loop portion and the second loop portion is different. Thereby, the amount of contact between the inserted yarn 22 and the heat-receiving yarn 23 can be reduced, and the heat of the melted yarn 23 in the heating step can be easily attached to the crochet yarn 21, which is easy to be crocheted in the lace knitted fabric 120. The yarn 21 forms a welded portion 1〇〇. Further, in the present embodiment, the insertion yarn is set in addition to the thermal yarns 23, but other yarns may be used. For example, as a yarn that does not cross the thermal yarns 23 but intersects the thermal yarns 23, it may be used to form a pattern of k, , text, or 彳 b yarns on the laces. Stretchable yarn with stretchability. Moreover, shortly after preparation, the inserted yarn 22 and the hot-joint yarn 23' woven into the crocheted structure are not completely restricted to the crocheted structure, so that the plurality of portions of the inserted yarn 22 in contact with the hot-spun yarn 23 are In some of the parts, sometimes the thermal splicing yarn 23 is disposed closer to the outer knitted fabric side than the inserted yarn 22. Even in this case, in most of the plurality of portions in which the insertion yarn 22 is in contact with the thermal yarns 23, the thermal yarns 23 are disposed closer to the back knitted fabric side than the insertion yarns 22. Further, the crochet yarn 21 and the insertion yarn 22 are made of a multifilament having a fineness of 50 denier or less, particularly 123203.doc -27-200839048 40 denier. The fineness of the crocheted yarn 21 is used for the fineness which is not cut when used as a lace product, and is as fine as possible. For example, it can be realized by various fibers such as nylon (polyamide-based synthetic fiber), rayon, polyester, acrylic, wool, cotton, hemp, rayon, and polypropylene. Further, the various yarns used in the present embodiment are merely exemplified, and other types of yarns may be used. In the present embodiment, the crochet yarn 21 is formed of nylon fibers, and a denier of 30 denier is selected. Further, the insertion yarn 22 is formed of multifilament fibers and the denier is selected to be 30 denier. Further, the thermal yarn 23 is made of a polyurethane elastic yarn having a fineness of 10 denier to 300 denier. Further, in addition to the polyurethane elastic yarn, the thermal yarn 23 may be a material having a relatively low melting temperature and having thermoplasticity, and may be realized by a polyamide-based synthetic fiber or the like. Further, a yarn having no stretchability can be used as the thermal yarn 23. The first precursor knitted fabric 2 of the present embodiment is heated at a melting point of not less than the residual yarn 2 i after the preparation, and is heated at a temperature equal to or higher than the grafting degree of the /3. Thereby, the heat is partially partially melted by one of the yarns 23. One part of the melting portion is attached to the adjacent crochet yarn 21 and the inserted yarn 22. When it is cured in this state, the crochet yarn 21 and the inserted yarn 22 which are connected to the heat-retaining yarn 23 can be prevented from moving away from the yarn 23 by the heat. Further, the respective yarns 21, 22 connected to the thermal yarns 23 can be brought back to each other by heat-following the yarn. Thereby, the connection state of each yarn can be maintained, and the yarn can be prevented from being deposited. Thus, the heat-attached yarn 23 adheres to the attached portion of the other yarn to enhance the firmness of the crochet structure. Specifically, the i-th loop portion % and the second loop portion 25 are followed by the thermal yarns 23. Thereby, even if a part of the skein 21 123203.doc -28- 200839048 is broken, the second yoke portion 25 can be prevented from moving away from the first yoke portion 24. Thereby, the crochet yarn 21 can be prevented from being loosened at the subsequent portions of the first loop-like portion 24 and the second loop-like portion 25, so that the loosening of the crochet yarn 21 can be prevented from exceeding the succeeding portion. Thereby, the second precursor knitted fabric 20A before the breaking of the thermal yarns 23 also has an effect of preventing loosening. Hereinafter, the effect of preventing the blooming of the second precursor knitted fabric 20A will be described. Figure 8 is a view for explaining the prevention of the second precursor knitted fabric 2〇a of the present embodiment.

The loosened drawing is shown in Fig. 9 which shows the drawing of the lace knitted fabric 1A of the comparative example. Fig. 8 shows a second precursor knitted fabric 20A obtained by heating the ith precursor knitted fabric 2 woven with the thermal yarns 23. Further, the lace knitted fabric 10A of the comparative example shown in Fig. 9 indicates the lace knitted fabric 10A to which the thermal yarns 23 are not woven. In the lace knitted fabric 1A of the comparative example shown in Fig. 9, when the two second loop portions 25 arranged in the weft direction C are cut at the broken portions 4, 41, the weft direction C The broken portion 4〇 of the rear stage is stretched to the side of the outer knitted fabric', thereby causing partial breakage of the crocheted yarn 21, and the crocheted structure is loosened in the yaw direction C from the broken portion 40. In the lace knitted fabric 10A of the comparative example, the loosening of the crocheted structure progresses in the front direction of the weft direction, reaches the stopper portion 42, and the release portion 42 suppresses the loosening. Thus, in order to shorten the progress of the loosening, the stopper portion 42 must be added. If the stopper portion 42 is added, the number of yarns extending in the warp direction W is increased, which impairs the transparency of the lace needle _10A. 2 precursor knitted fabric 2〇a This is the same segment on each latitude ring, as shown in Fig. 8, in the middle of the embodiment, the thermal yarn 23 extends in the weft direction C, because 123203.doc -29 - The first loop portion 24 of 200839048 is followed by the second loop portion 25. In the second precursor knitted fabric 20 of the present embodiment, when the two second loop portions 25 arranged in the weft direction C are cut at the broken portions 4A and 41, even in the rear direction of the weft direction C The rupture portion 4 〇 is stretched to the outer side of the object, and is also closer to the latitude direction C · k than the rupture portion 4 后 of the rear section of the latitude direction C, and there is a first loop-like portion 24 and The second loop portion 25 is followed by the portion 44, thereby preventing the crocheting from loosening by the trailing portion 44 and preventing further progression of the release. Thereby, the second precursor knitted fabric can prevent the crochet structure from being loosened as compared with the lace knitted fabric 10A of the comparative example. Further, since the loosening is suppressed by the subsequent portions 43, 44, the stopper portion 42 can be reduced or removed, and the feeling of transparency of the lace can be improved as compared with the comparative example. Further, in the present embodiment, the first loop-shaped portion 24 and the second loop-shaped portion 25 in the same direction in the weft direction C in the weft direction c are followed by each other, so that even one of the second loop-shaped portions 25 is partially broken. It can also prevent the warp ring from breaking in the direction of the weft circle C. As described above, in the present embodiment, the thermal yarns 23 are formed by extending along the warp. Therefore, the crochet structure can improve the fastness of the weft direction C and improve the durability. Fig. 10 is a view for explaining the preparation of the second precursor knitted fabric of the present embodiment, and Fig. 11 is a view showing the preparation of the lace knitted fabric A of the comparative example. Fig. 10 shows a second precursor knitted fabric 20A obtained by heating the first precursor knitted fabric 20 in which the thermal yarns 23 are woven. Further, the 彳t* jersey fabric 10A of the comparative example shown in Fig. 11 indicates the lace knitted fabric 10A which is not woven into the thermal yam 23. In Fig. 1 and Fig. 11, the insertion yarn 22 is woven through a plurality of warp rings. As shown in Fig. 11, in the lace knitted fabric 1A of the comparative example, when the inserting yarn 22 is cut at 123203.doc • 30-200839048, the splitting portion 45 is more than one or more than the broken portion 45. The portion 46 of one side of the warp direction w of the plurality of warps is stretched to the warp direction W-side, thereby causing the break portion 45 to be separated from the warp, and the insert yarn 22 is detached from the lace knit fabric 1A. For example, the insertion yarn 22 is prevented from moving by the frictional force with the crochet yarn 21, and therefore the insertion yarn 22 may be offset or detached from the woven portion by a large force.

As shown in the figure, in the second precursor knitted fabric 2〇a of the present embodiment, the thermal yarns 23 are woven into the respective warp yarns 26, so that the warp insertion yarns 22 are attached to the first one. The loop portion 24 and the second loop portion 25. In the second precursor knitted fabric 2A of the present embodiment, when the inserted yarn 22 is cut at the broken portion 45, even if the inserted yarn 22 is more than the broken portion c, it exceeds one or a plurality of warp circles. The portion on the side of the direction w is stretched to the warp direction w-side, and also because the insertion yarn 22 and the succeeding portions 47, 48 of the warp circle 26 are followed, thereby preventing the broken portion 45 from being detached from the warp ring, thereby inserting the yarn The offset of 22 progressed. As described above, in the present embodiment, the insertion yarn 22 is fixed to the fishing line by the adhesive force of the heat-bonding yarn 23, so that the insertion yarn can be prevented from being displaced and detached. Further, the warp rings 26 adjacent to each other in the warp direction W are respectively joined to each other via the insertion yarns 22, so that the interval between adjacent warp circles can be prevented from widening or narrowing, and the lace pattern of the lace knitted fabric 120 can be prevented from being disordered. As described above, according to the present embodiment, it is possible to prevent the respective banknotes forming the second precursor knitted fabric 20A from being opened. Further, even if the woven fabric of the first precursor knitted fabric is broken into a plurality of portions to form the lace knitted fabric 120, the lace knitted fabric 120 can be further improved by the second precursor knitted fabric 20A. Doc -31 * 200839048 : Stop ', · Open the effect. In this way, it is possible to prevent the yarn from being produced by the sewing of the lace knitted fabric i2, and the yarn can be prevented from being opened due to the wearing state such as wearing or washing, thereby improving the quality. Further, according to the present embodiment, the surface portion of the heat-retaining yarn 23 is a bare yarn having a smelting property. Thus, when the precursor knitted fabric 2 is heated, the portion of the thermal yarn 23 that comes into contact with the crochet yarn 21 is smeared, and the crochet yarn 21 is adhered. Further, the portion of the sand 23 which is in contact with the inserted yarn 22 is thermally fused and adhered to the inserted yarn 22. As described above, according to the present embodiment, the exposed portion of the yam yarn 23 that is in direct contact with the other yarn adheres to the other noisy portion. Therefore, the amount of adhesion of the thermal yam 23 to the other yarn can be increased, and the adhesion can be improved. Thereby, it is possible to more reliably prevent the respective yarns from being deposited. Further, the non-coated yarn, that is, the bare yarn which is not covered by the covered yarn, realizes the crepe yarn 23, whereby the amount of the bottom yarn can be further reduced, and the density difference between the bottom portion and the yarn portion of the pattern portion can be increased, thereby improving The lace knit fabric has a 12-inch transparency and makes the pattern clearer. According to this (4) blame 'weaving in the entire area of the crochet organization, then (4) 'Therefore, it is possible to prevent the entire knit fabric of the lace knitted fabric from being opened:, for example, even if the lace knitted fabric 12 is sewed or cut at any position, It is also possible to prevent the yarn from being sewn from the sewn portion and the cut portion. Further, since the entire knitted fabric of the lace knitted fabric 12 can be prevented from being opened, the use of the lace knitted fabric (10) of the present embodiment as the knitted fabric for the eyelashes can prevent the lash-like portion from being opened. In addition, Lin cuts the pattern of the lace knitted fabric (4) cut at any position and can prevent the cutting portion from being opened, and can also be applied to wide lace. Further, since the lace knitted fabric 120 can be prevented from being entirely spread, it is also possible to use the lace knitted fabric 12 之一 in one of the outerwears requiring durability. As described above, according to the present embodiment, it is possible to prevent the entire yarn of the lace knitted fabric 12 from being opened, so that the use can be expanded. Further, according to the present embodiment, the thermal yarns 23 and the insertion yarns 22 are woven into the crochet structure by being inserted between the first loop-like portion 24 and the second loop-like portion 25. The lace knitted fabric 120 is opposite to the insertion yarn 22 woven into the crochet structure, and the surface on the side where the i-th yarn-like portion 24 is disposed is the back surface, and the surface on the opposite side is the surface. In the present embodiment, the portion where the thermal yarns 23 and the inserted yarns 22 are woven together is inserted, and the inserted yarn 22 is placed next to the surface direction zi as compared with the heat of the yarns 23. Thus, when the lace knitted fabric 12 is observed from the surface, the thermal yarns 23 and the first loop-like portions 24 are hidden by the inserted yarns 22. Thus, the heat-retaining yarn 23 can be hidden by inserting the yarn 22, so that it is difficult to observe the heat-attached yarn 23 from the surface. Thereby, the pattern formed on the lace knitted fabric 120 can be made clear. Further, even if the heat is subsequently melted, the influence on the pattern observed from the surface can be reduced. Further, by the heat, the 'y 23 passes between the first loop-like portion 24 and the inserted yarn 22, so that the second loop-shaped adjacent knife 24 and the inserted yarn 22 are followed, thereby preventing the insertion of the yarn 22 from The crochet organization is separated. Further, in the present embodiment, in the region between the first ring-shaped portion 24 and the second loop-like portion 25 in which the thermal yarns 23 and the insertion yarns 22 are inserted, the yarns 23 and the inserted yarns 22 are thermally bonded. Passing the loop-like portion in the different directions; = k ^ / hour 'stretching the lace knitted fabric 12 in the warp direction W, whereby the regions surrounded by the heat-bonded yarn 23 and the inserted yarn 22 are mutually The direction of the circle 123203.doc •33·200839048 w is close to the first precursor knitted fabric 2 in a state in which the heat-following yarn 23, the insertion-portion 24 and the second loop-like portion 25 are close to each other. Heating is performed whereby a portion of the thermal yarns 23 can be partially melted in the proximity portion 34, thereby: two subsequent heats are applied to the yarns 23, the inserted yarns 22, the i-th yarn-like portions 24, and the second loop portion 25 force.

Further, in the present embodiment, the fineness of the heat-bonded yarn 23 is set to ι〇丹尼~3〇〇Danny, and the fineness of the woven yarn is set to 2〇 Danny~7〇丹匕. If the fineness of the yarn 23 is less than 1 G Danny, there is a concern that the heat of the lace is melted and the yarn is completely melted. Further, even if the heat is subsequently melted, the other yarn and the thermal yarn 23 are insufficiently bonded. Concerns. In this case, sometimes 々, 、, 、, 疋 open. Further, if the fineness of the heat-retaining yarn 23 exceeds that of Danny, the difference in density between the bottom portion and the yarn portion of the yarn portion in the heat-bonding yarn 23 becomes small, and the permeability of the side of the yarn 彳b is lowered, so that the aesthetic feeling is lowered. In addition, the compilation edge becomes hard. On the other hand, in the present embodiment, the fineness of the thermal yarns 23 is set to 10 denier to 300 denier, whereby the blooming of the yarn can be eliminated, and the deterioration of the feeling can be suppressed. Further, since the fineness of the heat-bonded yarn 23 is 7 〇 or less, it is possible to further suppress the deterioration of the aesthetic feeling. Fig. 12 is a side view showing a preparation portion of the raschel warp knitting machine 60 for preparing the first precursor knitted fabric 20 of the first embodiment. The first precursor knitted fabric 20 can be prepared by, for example, a reverse jacquard raschel warp knitting machine. The reverse jacquard raschel warp knitting machine 60 (hereinafter simply referred to as the knitting machine 60) has a yarn guiding mechanism that guides the crochet yarn 21, the insertion yarn 22, and the heat-removing yarn 23 to a knitting position disposed near the crochet 72. 73. In this embodiment, the thermal yarns 23 are guided by 123203.doc -34-200839048: the position 7_mechanism is compared with the yarn guiding mechanism that guides the inserted yarn 22 to the knitting machine 3, and is disposed in the knitting machine, and is placed in the knitting machine. From the back side of the crochet 72 toward the hook portion, here the so-called knitting machine: the body of the knitting machine has a yarn guiding mechanism, which is followed by a buckle: the jacquard rods 62, 63, a plurality of patterns and ground real

The knitting yarn 21 is threaded by the ground box 65, the insertion yarn 22 is passed by the jacquard rods 62, 63, and the "heating yarn 23 is passed through the yarn of the heat-receiving yarn box 61. χ, the yarn which will be used to form the pattern pattern When the pattern yarn is woven into the warp circle, the pattern yarns are threaded by a plurality of tread boxes 64. Hereinafter, the case where the entangled yarn is woven by the insertion of the inserted yarns 22 will be described. In this manner, each of the yarn guiding mechanisms 61 to 65 captures the knitting position of the crochet yarn 朝向 toward the crochet 72, and is radially arranged 'and follows the knitting machine toward the direction in which the crochet yarn 21 is caught by the crochet 72. The floor box 65, the plurality of patterns 筘 64, the jacquard bars 62, 63 and the heat entanglement yarn 61 are arranged. Thus, each yarn is arranged in the order of the crocheted yarn 2丨, the plurality of pattern yarns, the inserted yarns, and the heat-spun yarns 23 from the predetermined knitting position behind the knitting machine. The crochet 7 2 is orthogonal to the front and rear directions of the knitting machine. A plurality of them are arranged in the direction and fixed to the needle holder 69 as a holding mechanism for holding the crochet 72. The needle holder 69 moves the crochet 72 up and down. Further, the needle holder 69 operates, and the respective yarn guiding mechanism 61 Each of the yarns of the -65 guide yarns is guided to a predetermined preparation position. Each of the yarn guiding mechanisms 61 to 65 synchronizes the corresponding yarns with the lifting movement of the crochet 72, and the space behind the knitting machine corresponds to the yarns of the crochet 72. The needle front yarn (coil knitting motion) which moves in the direction in which the crochet 72 is arranged, and the space in front of the knitting machine correspond to the yarns of the crochet 72, and are moved in the direction in which the fishing needle 72 is arranged in the direction of I23203.doc -35-200839048 The needle back crepe (in addition to the two pendulums to perform these "movements" also moves in a direction orthogonal to the direction in which the fishing needles 72 are arranged, that is, a so-called swing (shake motion). Specifically, there is a movement. 1 swinging swing The movement of the sling (72) is performed by the side of the crochet 72, and the yarn corresponding to the crochet 72 from the space behind the knitting machine _, the space behind the machine to the space in front of the knitting machine is moved. As the second swinging action

The swinging (pre-swing) operation is performed by the side of the crochet 72 to move the yarns on the opposite side of the space from the space in front of the fishing machine to the space behind the knitting machine. The guide members attached to the respective yarn guiding mechanisms 61 to 65 are operated, and the corresponding yarns are passed through the periphery of the crochet 72 along a predetermined path to form a knitted fabric of the corresponding yarns. Knitted fabric 20. Moreover, the prepared i-th precursor knitted fabric 2 is assisted by the compensating action of the stitching combing rod 71, and is passed through the grid-like rod 68' and disposed on the winding portion near the preparation portion. Thereby, the i-th precursor knitted fabric 20 is taken up. In addition, the preparation part has a stitch combing rod (10) ch comb bar 71, a trick plate bar 6^ a tongue rod (t〇ngue 7〇. The tongue rod is formed at the front end portion and is corresponding to each hook The plurality of tongues. The knitting machine (9) prepares the above-mentioned correcting precursor by the action of the yarn guiding mechanisms 61 to 65 and the needle holder 69. Figs. 13A to 13E show a crochet" and a mantle 65 for explaining the crochet portion. In the cross-sectional view of the operation, the crocheting portion of the crochet yarn 21 is prepared in the order of the figure nA to the UE. The crochet 72 is formed with a hook portion 5 of the crochet yarn 21 at the front end portion, and is formed at the base portion. A crochet lever 5 is formed at the end. 123203.doc -36 - 200839048 Also at the front end of the tongue lever 70, a tongue 52 for opening the opening formed by the fishing portion (9) is formed. The crochet 72 and the tongue 52 It is formed to be lifted and lowered separately with respect to the mantle. Referring to Figures 13A to 13B, first, only the warp circle %, the flat yarn will be described, and the insert yarn 22 woven into the warp ring 26 and the heat yarn 23 will be described. As shown in Fig. 13 ,, the mantle 65 is placed in front of the crochet 72, and the hook 卩50 is hooked by the crochet yarn 2 The new first loop portion 24"' tongue 52 is formed to block the opening of the hook portion 5. Next, as shown in Fig. 13B, the hook and +72 rise toward the mantle 65 with respect to the tongue 52. Thereby, the opening of the hook portion is opened, and the i-th yoke portion 2 of the crochet yarn 21 hooked by the hook portion 50 is detached from the hook portion 5 而 and moved to the crochet lever 5 1. Next, as shown in Fig. 13C The mantle 65 is swinged back with respect to the crochet 72. Next, the mantle 65 performs the front yarn of the needle and further swings forward. Thereby, the yoke 21 of the yarn is guided by the mantle 65 to wind the crochet 72. In this manner, the new 苐 1 yoke portion 24k is opened. The new first yoke portion 24k is hooked by the hook portion 50. Next, as shown in Fig. 13D, the tongue plate 52 is hooked. The portion 50 rises and blocks the opening of the hook portion 5. At this time, the old y-yarn loop portion 24j formed on the crochet lever 51 and the new portion of the hook portion 5 are formed on the crochet hook 51. 1 yarn loop portion 24k. Next, as shown in Fig. 13E, the crochet 72 is lowered together with the tongue 52, whereby the old first loop portion 24j is separated from the crochet 72 and moved to the grid plate (triek Plat) e) 53. In the state in which the crochet 72 is disposed in the cellar 65, the hook portion 50 hooks the new yoke-like portion 24k formed by the crochet yarn 21, and is in substantially the same state as that of Fig. 13A. Moreover, by repeating the action cycle shown in FIG. 13E to FIG. 13E to 123203.doc-37-200839048, FIG. 13E, the red yarn loop portion 24 is sequentially formed, and the ith yarns are sequentially formed and formed. The ring 26β of the second loop portion 25j of the loop portion 2訇, 2 is connected to the loop 26β in the present embodiment, the ground box is appropriately subjected to the needle back yarn, thereby making the plurality of warp rings 26 in the weft direction c connection. The first precursor knitted fabric 20 of the present embodiment can be prepared by knitting the insertion yarns such as the insertion yarns 22 and the thermal yarns 23 into the warp loops 26 while performing the above-described preparation of the warp loops 26. 14A to 14C are cross-sectional views showing the operation of the jacquard lever 62 and the heat-receiving yarn 61, and operate in the order of Fig. 14A to Fig. 14; Fig. 14A corresponds to Fig. 13C, and Fig. 14B corresponds to In Fig. 13D, the figure corresponds to Fig. 13E, and a figure showing the jacquard rod 62 and the heat-receiving yarn 筘61 is additionally added. In the knitting machine 6〇, the jacquard rod is guided by the crochet yarn. The crucible 65 is disposed behind the knitting machine, and is placed behind the knitting machine as the heat-receiving yarn 筘 61 for the thermal yarn, as shown in Figs. 14A and 14C. In a state in which the mantle 65 is disposed behind the knitting machine with respect to the crochet 72, the jacquard lever 62 and the thermal yarn entanglement 61 are disposed behind the knitting machine with respect to the crochet 72. Further, as shown in the figure, When the crucible 65 is disposed in front of the knitting machine with respect to the crochet 72, the jacquard lever 62 and the thermal yarn entanglement 61 are disposed in front of the crochet 72. Further, the jacquard lever 62 and the thermal yarn are 筘61, as shown in the figure. As shown in Fig. 14b, the back of the mantle 65 is oscillated, and the back of the needle is placed, thereby being guided. The yarn heats the yarn 23 and the inserted yarn 22 across the crochet yarn 21. In this state, after the new yarn loop is formed by the crochet yarn 21, the heat-bonded yarn 23 and the inserted yarn 22 are woven 123203.doc - 38- 200839048. The yarn loop is inserted into the yarn loop. The heat-threaded yarn 61 and the jacquard rod 62 are operated in synchronization with the swinging motion of the floor box 65. The jacquard rod 62 is disposed in front of the knitting machine with the heat-receiving yarn 61. Thereby, when the entangled portion formed by the mantle 65 is woven with the thermal yarn 23 and the inserted yarn 22, the yarn is guided to the hot position of the yarn 23, which is compared with the yarn. The insertion yarn 22 is placed at the rear of the knitting machine, and the insertion yarn 22 is positioned on the surface side of the first precursor knitted fabric 20 as compared with the thermal yarn 23. The FIGS. 15A and 15B show the S in FIG. Fig. 15A shows the organization diagram of the crochet yarn 21, and Fig. 15B shows the texture diagram of the thermal roving yarn 23. For example, the crochet 72 located at any position is set as the i-th crochet 72a, which will be relative to the first crochet. 72a, the crochet 72 adjacent to the w-side of the warp direction is set as the second crochet 72b, and will be opposite to the second crochet 72b. The crochet 72 adjacent to the w-side of the warp direction is the third crochet 72c. The interval between the first crochet 72a and the crochet 72 disposed on the other side of the warp direction w with respect to the j-th crochet 72a is 1 between the crochets L1, the interval between the i-th crochet 72a and the second crochet 72b is the second crochet L2, and the interval between the second crochet 72b and the third crochet 72e is set to be the third crochet L3' The interval between the third crochet 72c and the hook disposed on the side in the warp direction w__ with respect to the third crochet 72C is referred to as the crochet line L4. Each of the crocheted yarns 21 is subjected to a yarn guiding position, and the crochet yarns 21 are subjected to the same knitting operation. In the first latitude ring C1, 裟壬^ μ ¥ re-explain the crochet yarn guide structure # hooking the second crochet 72b to the crochet yarn 21, and the other parts succinctly illustrate the remaining crochet yarn guide 123203.doc -39 - 200839048 To the component. Nursing: In the first latitude ring C1, the crocheted yarn guiding member of the first crochet is called the back swaying of the younger crochet, and the front yoke is placed and the front sway is performed by the second fishing needle U. In the second weft loop, the crocheted yarn guide member of the eye is swayed by the back of the shackle L2, and the yarn is placed in front of the needle and is swung forward.

In the third latitude ring C3, the crocheted yarn guiding member, the needle-back crepe to the fourth crochet-to-needle L4, is back-swinged in the continuation of the needle-to-needle L4, and the yarn is twisted before the needle and passed through the third crochet L3. Swing forward. In the middle of the fourth latitude, the attention-grabbing yarn-scissing guide member is moved (4) in the third (fourth), and the yarn is placed before the needle and the front swing is performed by the fourth crochet L4. In the fifth weft ring 5, the crochet yarn guiding member is instructed to swing back in the fourth crochet line L4, and the yarn is placed in front of the needle and the front swing is performed by the third needle L3. The sixth latitude ring (10) performs the same operation as the fourth latitude ring C4, and the seventh latitude ring C7 performs the same operation as the fifth latitude ring C5. In the middle of the 8th latitude, the fishing line guide member of the 'eye catching yarn' is placed in the fourth crochet line L4, and the back side of the fourth crochet line L4 is swayed by the front needle. L3 swings forward. In the ninth latitude and longitude, the crochet yarn guide member of the crochet yarn guide member is moved to the second crochet L2, and the back oscille is performed between the second crochets L2, and the yarn is placed before the needle and passed between the third crochets L3. swing. In this way, the guide member provided for each crochet yarn 21 is used, and the action of hooking the specific crochet yarn by each crochet 72 is applied to each of the latitudes. Thereby, a crochet portion extending in a chain shape can be formed. Further, in the present embodiment, the flat loom 60 is in the process of hooking the crochet yarn 21 by the crochet 72 in each of the latitudes, 123203.doc 200839048. Thereby, the second loop-shaped portion Μ can be laterally swung to the other side of the warp direction direction and the warp direction, and connected to the warp ring 26 adjacent to the warp direction w, thereby forming a twist preventing Open function fishing organization. The heat is then applied to the yarn box 61, and the heat-supplening yarn 23 is swung in synchronization with the floor tank 65. The heat-conducting yarns 23 are subjected to the heat-conducting yarns of the respective yarns 23, and the heat-combustion yarns 23 are subjected to the same knitting operation. In the latitude ci, the heat-conducting yarn guide member is placed on the heat-conducting yarn 23 between the second crochets L3, and the remaining heat-conducting yarn guiding members are omitted. As shown in Fig. 4, the i-th latitude (4), the hot-sorted yarn guide member 'in the second crochet L2, after the needle f is placed, reaches the third crochet (1), and the second latitude C2, 3 After the needle is twisted, the needle reaches the second crochet and the second crochet Lh focuses on the yarn guiding member, and the second latitude coil C1 and the second latitude ring are sequentially repeated in the second latitude. In this manner, the heat-receiving yarn 23 is moved by the heat (4) to the ground (4), and the ground is reciprocated between the adjacent two crochets to perform the back-stitching. In addition, for inserting yarns other than hot splicing yarns, for example, inserting yarns (4), the jacquard bars 62 and the grounding box 65 are also synchronized, and the needle backing yarns are repeatedly turned over at a predetermined distance and direction at predetermined positions. . Similarly, for the yam yarn, the oscillating motion of the tread box 64 and the floor box 65 is repeated at the predetermined position in the pre-separation direction and the direction of the yam. In this manner, the heat-removing yarn box 61, the jacquard rods 62, 63, the plurality of 64, the ground box 65, and the knitting needles 72 are knitted, whereby the s-region can be formed: 123203.doc -41 - 200839048 ===: fabric portion The machine 6° is disposed on the first precursor knitted fabric by sequentially arranging the ground (4), the jacquard bars 62 and 63, and the heat-receiving yarn (4) to the rear of the knitting machine, and the second yarn 22 is disposed on the first precursor knitted fabric. Can form the first one shown in Figure 2

Figure 16 is a flow chart showing the manufacturing sequence of the lace product. First, in step s, the pattern of the lace to be prepared is specified, and then the process proceeds to step S1 in step S1, and the crochet yarn 21, the inserted yarn 22, the hot yarn 23 and the textured banknote are prepared to become the step sG. The mode of the predetermined pattern is input to the operation program of each yarn guiding mechanism of the knitting machine 60. Next, the knitting machine (6) is moved to flatten the first precursor knitted fabric 20 having a desired pattern. After the preparation of the first precursor knitted fabric 2, the process proceeds to step d. In step S2, the ith color of the ith precursor knitted fabric 2 prepared in the step 31 is rubbed, and after completion of the dyeing, the process proceeds to step s3. In step s3, in order to align the first precursor knitted fabric 20, the i-th precursor knitted fabric 2 is heated to a predetermined temperature. At this time, the first precursor knitted fabric 2〇 is heated in a state of being stretched in the warp direction w. Thereby, the knitted fabric is finished, and a part of the above-mentioned thermal yarns 23 is melted and adhered to other adjacent yarns. After heating the first precursor knitted fabric 20 at a predetermined temperature and a predetermined time, the process proceeds to step S4. In the present embodiment, the shape was maintained at 180 ° C to 195 ° C for 60 seconds, whereby the knitted fabric 120 was produced. In the lace knitted fabric 120, since the first precursor knitted fabric 20 is heated, one of the heat-retaining yarns 23 is fixed to the other yarns. Further, the knitted fabric 120 is stretched as compared with the step S2, so that the heat subsequent yarn 23 is broken into a plurality of portions. 123203.doc -42- 200839048 In step S4, the lace knit fabric] lace knitwear! 2G, by manufacturing the cut product, the process proceeds to step 85, and the work is finished. On the side, the lace is manufactured in the step s5. The cutting step is 囡I 甘 w 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因 因Therefore, in the case of cutting a man or sewing, it is possible to prevent each, /, and the sky from opening, and to improve the yield of the lace products, thereby telling the rate of the lace products, and thus the s Prepare... Promote Qiaobei. Also, for the manufacture

In the case of 'I-side products, the flat quilting of the fishing rods and the firmness of the weaving are also strengthened, so that it can be prevented from being opened by wearing or washing, and the knitting can be improved. The long-term nature of the products. In the heating step indicated by the gamma step S3, the second precursor knitted fabric 2 is heated in a state in which the knitted fabric of the precursor is stretched in the direction w, thereby "inserting the yarn 22 and The heat then the yarn defect is close to the loop knife 24 25 . Thereby, the yarn-like portions 24, 25 can be firmly attached to the inserted yarn 22 by the thermal yarns 23. Fig. 17 is a schematic diagram showing the structure of a portion of the precursor knitted fabric 20B of the second embodiment of the present invention. The first precursor knitted fabric 2〇β according to the second embodiment is different from the first precursor knitted fabric 20 of the first embodiment in that the thermal yarns 23 are different in the direction of the second loop-shaped portion 25, and the other components are different. the same. Therefore, the same configurations as those of the first precursor knitted fabric 20 of the first embodiment will be denoted by the same reference numerals, and will not be described. In the present embodiment, the thermal yarns 23 pass through the second loop-like portion 25 in the same direction as the insert yarn 22, and are inserted between the first loop-like portion 24 and the insert yarn 22. Specifically, the thermal yarns 23 and the insertion yarns 22 are opposite to the side of the first yarn loop portion 24a of the first and second yarn loop portions B1 of the front section C1 in the weft direction. The side 'passes the second loop-like portion 25a of the same first loop portion 仏 in the same direction as the weft direction. Thus, the 'hot splicing yarn 23 is inserted into the second yoke portion 25' in the same direction as the insertion yarn 22, whereby the contact portion of the insertion yarn 22 with the heat splicing yarn 23 can be increased, and the heat splicing yarn 23 can be increased and then inserted. The force of the yarn 22. Thereby, the insertion yarn 22 can be more reliably prevented from being opened. Further, as another embodiment, the hot yam 23 and the inserted yarn 22 pass through the first yoke portion 24a and the second yoke portion in the front direction of the weft direction c are connected to the side 25b. The case where the second yarn-like portion 25a of the i-th yarn loop portion and the weft direction C are the same is also included in the present invention. Further, the thermal yam 23 is passed from the first yoke portion 24a of the attention to the second yam portion 25b of the uranium portion in the weft direction C, and passes through the first yoke portion 24a of the attention. The second loop portion 25a of the same direction in the ring direction c, and the insertion yarn 22 is opposite to the side of the first loop portion 24& which is attached to the second loop portion 25b of the front portion of the weft direction C The case of the second loop-like portion 25a which is the same as the first loop portion 24a in the weft direction C is also included in the present invention. Fig. 18 is a schematic diagram showing the structure of a portion of the first precursor knitted fabric 20D according to the third embodiment of the present invention. Fig. 19 is a schematic diagram showing the knitting of the first precursor knitted fabric 20D in a mode in which the yarns other than the crochet yarn 21, the heat-bonding yarn 23, and the stretch yarn 27 are omitted. The third embodiment! Compared with the first precursor knitted fabric 20B of the second embodiment, the precursor knitted fabric 20D is woven with a heat-removable yarn 23 in addition to 123203.doc-44·200839048, and is further woven with a stretchable stretcher. 27, while the other components are the same. The same components as those of the i-th precursor knitted fabric 20 of the i-th embodiment are denoted by the same reference numerals, and their description is omitted. In the i-th precursor knitted fabric 2D of the third embodiment, the first stretch fabric knitted fabric 20D is knitted by stretching the stretchable yarn 27 in addition to the heat-inserted fabric 23. shrink. Thereby, the flexibility of the i-th precursor needle fabric 20D can be imparted. For example, a stretchable yarn may be a polyamine phthalate elastic yarn, a so-called spandex. The stretchable yarn 27 extends over the inserted yarn 22! The loop portion 24 side. Further, the bellows 27 and the heat-receiving yarn 23 are woven into the crochet structure through the second loop-like portion 25 in the direction of intersection. In other words, the thermal yarns 23 extend in the direction different from the stretch yarns 27 and are woven. The stretchable yarns 27 are woven into the respective warp rings, and pass through in a zigzag manner as the respective warp circles progress in the weft direction C. In the present embodiment, the stretchable yarn 27 passes through the first loop portion 24a and the weft which are in focus from the side of the second loop portion 24a which is in focus and the second loop portion 25b in the forward direction of the weft direction C. The second loop-like portion 25a of the same segment in the ring direction. Further, the insertion yarn 22 and the heat-removing yarn 23 pass through the attention of the side opposite to the side where the second yarn-like portion 24a of the preceding portion in the weft direction C is connected to the second yarn-like portion 251). The yarn loop portion 24a is the same second loop portion 25a as the weft direction c. Thereby, the stretchable yarn 27, the thermal yarns 23, and the inserted yarns 22 pass through the same yarn loop portion, and the stretch yarns 27, the heat-bonding yarns 23, and the insert yarns 22 intersect. As in the third embodiment, even when the stretch yarn 27 is woven into the first precursor knitted fabric 20D, the same effect as in the first embodiment can be obtained. 123203.doc -45-200839048. That is, each of the yarns is prevented from being flared by the heat of the subsequent yarns 23 followed by the other yarns. Further, the thermal yarns 23 can be prevented from being detached from the crochet structure by the stretch yarns 27 and the crochet yarns 21, that is, the so-called staple fibers are detached. Further, in the third embodiment, the j-th precursor knitted fabric 20D is stretched in the warp direction w, whereby the regions surrounded by the stretchable yarn 27 and the inserted yarn 22 are close to each other in the warp direction w, and heat is generated. 23. The insertion yarns 22, the stretchable yarns 27, the first loop-like portions 24, and the second loop-like portions 25 are in close proximity to each other. In this manner, the second precursor knitted fabric 20D is heated in a state of being stretched in the warp direction w, whereby one portion of the thermal yarns 23 can be partially melted in the approach portion 34, thereby improving the heat subsequent to the yarn and stretching. The adhesion of the yarn 27, the inserted yarn 22, the first loop portion 24, and the second loop portion 25. In the present embodiment, the insertion yarn 22 and the thermal yarns 23 are extended in the same direction, whereby the contact portion where the thermal yarns 23 are in contact with the insertion yarns 22 can be increased, so that the insertion yarns 22 can be more reliably prevented from coming off. Further, the heat is followed by the yarn 23 and the spun yarn 27, whereby the heat subsequent yarn 23 is followed by the stretch yarn 27, so that the restriction portion of the stretch yarn 27 can be reduced. Thereby, it is possible to prevent the staple fibers from coming off while suppressing the decrease in the stretchability of the lace knitted fabric. Further, in the first embodiment knitted fabric 20, both the thermal yarns 23 and the stretch yarns 27 are woven into the crochet yarns 21, and the thermal yarns 23 and the stretch yarns 27 are inserted. The direction between the yarn loop portion and the second loop portion Z is different. Thereby, the contact amount of the stretched yarn 27 in contact with the heat-supplemented yarn 23 can be reduced, and the heat which is melted in the heating step can be easily attached to the squeegee 123203.doc-46-200839048 21 at the boundary: In the knitted fabric 120, the welded portion 100 can be easily formed on the crochet yarn 21. In some cases, the thermal yarns 23 and the stretch yarns 27 are similar to the polyurethane type #1, and the yarns 21 are nylon (polyamide-based synthetic fibers) and the like. . In this case, if the thermal yarns 23 are attached to the stretch yarns 27 formed of the same material, it is difficult to separate them, and if they are attached to the crochet yarns 21 formed of different materials, they are easily separated. In this case, when the thermal yarns 23 are attached to both of the stretch yarns 27 and the crochet yarns 21, the heat-up yarns 23 are easily separated from the crochet yarns 21. In the present embodiment, the heat-resistant yarn 23 is prevented from adhering to both of the stretch yarn 27 and the crochet yarn 21, so that the possibility of separating the heat-bonded yarn 23 from the crochet yarn 21 can be reduced, and the welded portion 1 can be made 〇 The crucible tends to remain on the crochet yarn 21. Fig. 20 is a schematic diagram showing the construction of a portion of the first precursor knitted fabric 2〇E according to the fourth embodiment of the present invention. In the first precursor knitted fabric 2〇E of the fourth embodiment, the stretching direction of the stretchable yarns 27 is different from that of the first precursor knitted fabric 20D of the third embodiment, and the other configurations are the same. In the present embodiment, the stretch yarn 27 passes through the first yarn loop portion 24a which is in focus from the side opposite to the side where the second yarn loop portion 24a of the focus is connected to the second loop portion 25b in the front direction of the weft direction C. The second loop-like portion 25a is in the same section as the weft direction c. Thus, when both the stretchable yarn 27, the inserted yarn 22, and the thermal yarn 23 pass through the same second loop portion 25, they pass in the same direction. The stretchable yarns 27, the inserted yarns 22, and the thermal yarns 23 pass through portions of the same second loop-like portion, and the yarns 22, 23, 27 are located close to each other. Thereby, when the thermal yarns 23 are melted, the inserted yarn can be improved. 123203.doc -47- 200839048 The adhesion to the stretch yarn 27. Figure 21 shows the third embodiment of the third and fourth embodiments! Side view of the preparation section of the back side knit fabric 20D, 20E, the back side jacquard raschel warp knitting machine 6〇c. In the knitting machine 60, between the jacquard rod 62 and the thermal yarn (4), a stretch yarn which is a yarn guiding mechanism for guiding the stretch yarn 27 to the knitting position 73 is disposed! The other configuration of the port 66_ is the same as that of the knitting machine shown in Fig. i2, and thus the description thereof is omitted. So equipped with telescopic yarn! For the g 66 and the heat-receiving yarn (4), the yarn for the stretch yarn 筘 66 and the heat-resistant yarn box 61 are disposed closer to the back than the yarn 22 is inserted. Thereby, when the lace knitted fabric 12 is observed from the outside, the stretched yarn 27 and the heat-spun yarn 23 are hidden by the inserted yarn 22. Thereby, the pattern of the knitted fabric can be made clear. Further, the first precursor knitted fabric shown in the third and fourth embodiments can be prepared by differentiating the movements of the jacquard bars 62 and 63, the stretch yarn #366, and the heat-supplening yarn box 61. 20D, 20E. In addition, the use of 伸缩 筘 热 热 筘 筘 筘 筘 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 In this case, in the lace knitted fabrics of the third and fourth embodiments, the stretchable yarn and the heat-resistant yarn are opposite to each other. The case of replacing the upper and lower positions of the yarn of such a stretched yarn and the heat-spun yarn is also included in the present invention. χIn addition to the above-mentioned reverse jacquard weaving machine, the jacquard weaving machine 62, 63 is placed on the front side knit fabric of the front jacquard weaving machine which is closer to the front of the knitting machine than the pattern yarn, and the heat-inserted yarn 23 is woven therein. In the case of the present invention, it is also included in the present invention. Fig. 22 is a view showing the organization of a portion of the first precursor knitted fabric 20F of the fifth form of the present invention. The β ^ ^ 乂 乂 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The case of being close to the outside is also included in the present invention. Fig. 23 is a side view showing the preparation portion of the reverse jacquard raschel warp knitting machine 60F for preparing the first precursor knitted fabric 2〇f of the fifth embodiment. In the knitting machine 60, a heat-receiving yarn 61 is disposed in front of the knitting machine in comparison with the jacquard 62. The other configuration is the same as that of the knitting machine shown in Fig. 20, and thus the description thereof is omitted. Even in the first precursor knitted fabrics 2B, 20D to 20F of the second to fifth embodiments, after the preparation step, the heating step and the breaking step are performed, whereby the same effect as in the first embodiment can be obtained. . Further, the above-described embodiment of the present invention is merely an exemplification of the invention, and can be modified within the scope of the invention. For example, in the present embodiment, the entangled structure having the fading prevention function is woven with the thermal yam 23 and the inserted yarn 22. However, the basic knitted fabric may be formed into a crochet structure, and is not limited thereto. The above crochet organization. For example, the same effect can be obtained even if the second loop portion of the crochet yarn 2 is not undulating in the lateral direction, that is, the crochet structure having no splay prevention effect. Further, as the basic knitted fabric, in addition to the basic crochet structure, it may be a gauze knitted fabric or an elastic fabric structure. By forming an elastic woven structure, it has elasticity in a plurality of directions and a clear pattern can be formed. x ’ as the basic knit fabric, it can also be wide lacing (all 〇ver lace) and narrow lace. Further, the lace knitted fabric produced by the knitting machine of the present embodiment has stretchability because the spandex elastic fiber is woven into the crochet structure. The present invention is not limited thereto. The present invention also encompasses a lace knit fabric prepared by a knitting machine which is not woven into a spandex (four) fiber as a knitting machine of another embodiment of the present invention 123203.doc-49-200839048. In this case, it is not stretchable and becomes a so-called hard lace knit ^. ^The fabric several yarns 23 can also be the lower the stretchability or the non-stretchability, and the 'hot joint=3 can also be broken after the (4), and the material of the above material is further, in this embodiment, The inserted yarn is used as a pile yarn as a textured yarn. Further, the 'heat-retaining yarn 23 does not need to be woven to all the crocheting parts 2': it is woven into the two-knife knives at intervals in the warp direction w and the weft direction c. In the above-described embodiment, the structure of the knitted fabric of the above-described embodiment is exemplified, and the type of the knitted fabric as the base, the method of inserting the yarn, the crochet yarn, and the type of each of the inserted yarns can be appropriately changed. It can be a non-coated yarn or a covered yarn of... Further, in the above-described embodiment, the following (1)-type lace knitted fabric may be provided, and the plurality of yarn-shaped portions may be formed into a fishing organization, including: : the bottom of the fishing yarn, which is in the crocheted structure and has a sparse melting-production joint... the temperature is lower than the degree of the crochet yarn, and the yarn is denser. And the right-into the crocheted tissue is woven with the above-mentioned hot splicing yarn and the portion into which the yarn is inserted. ^ Insert from the mouth tea The lace knit fabric has a bottom per unit, and the density of the yarn is worse than that on the knitted fabric = =:: and a lace knitted fabric having a pattern. The lace knit is heated to: I23203.doc -50- 200839048 The melting temperature of the yarn is not full and the temperature of the heat is above the melting temperature of the yarn, and the heat is then partially partial. The part of the dissolved part is the crocheted yarn and the inserted yarn. Curing in this state, whereby the knitting fabric produced by the knitted fabric can prevent the money from joining the yarn to the crochet yarn and the yarn, and the yarn is swept away by the heat and then the yarn is removed. The yarns which are connected to the thermal yarn are connected to each other, thereby maintaining the connection state of the yarns and preventing the yarn from being opened. The adhesion of the crocheted structure is enhanced by the adhesion of the heat-bonded yarn to the other yarns. Even if the partial rupture of the crocheted yarn forming the crocheted structure can prevent the crocheted tissue from being loosened at the attached portion, thereby suppressing: the loosening of the two tissues exceeds the attached portion. χ, the inserted yarn intersects the crocheted yarn Partially attached to the part of the heat-conducting yarn, thereby preventing the insertion of the yarn from the fishing tissue or the deviation of the yarn. When the thermal yarn is extended to the adjacent two crochet yarns, the yarn is inserted through the thermal yarn. Then, in each of the fishing yarns, the two adjacent crochet yarns can be prevented from falling away from each other. Thus, for the laces produced by heating the lace knitted fabric, the yarns can be prevented from being opened. For example, the flower can be prevented from being prepared. The sewing state, such as sewing or cutting, causes the yarn to bloom 'and the wearing or washing; the yarn is deposited to improve the quality. Moreover, the fishing organization is made up of: yarns other than the yarns. The heat-resistant yarn is used as a crochet yarn, whereby the overall shape of the lace can be stably formed. '''', for example, when a crochet structure is formed by using a thermal yarn, a crochet structure remains in order to remain after heating. However, it is necessary to make the heat of the yarn thicker, which leads to the formation of the bottom yarn ', which results in the density of the bottom and the yarn of the pattern portion. 123203.doc •51·200839048 The difference is reduced. For this, a hook different from the heat yarn is used. The yarn is woven to form a crochet structure, so that it is not necessary to thicken the heat-bonded yarn in order to retain the crochet structure, and the crochet yarn and the heat-bonded yarn can be thinned. Thereby, the unit volume of the yarn forming the bottom portion can be reduced. ® ' Increases the density of the bottom and the pattern portion of the yarn i. This can improve the transparency of the lace, and make the pattern clear. Also, reduce the amount of heat and the melting of the yarn, reduce the melting part Lace overall The resulting & 曰 "can prevent the pattern from being damaged. Further, the crochet yarn can be made thinner, so that the lace can be made soft, in other words, it can be easily deformed. Thus, for example, the lace can be preferably used as an underwear. (7) A type of lace knitted fabric, characterized in that the heat is extended in the direction of the weft circle formed by the joining of a plurality of loop portions, and is woven into the fishing fabric. The heat extending along the weft loop is followed by the yarn weaving. The human to the crochet organization can improve the firmness of the knitting direction of the fishing woven fabric, thereby reducing the undulating portion of the crocheted yarn formed, that is, the stopping portion, in order to prevent the crocheting of the crocheted tissue. Formed on the lace-up of the lace knit fabric = the stop portion ' thereby preventing an undesired v from extending between adjacent warps, thereby further improving the appearance. = The type of lace knit fabric is characterized in that 'The above heat is followed by a surface yarn knife having a hot melt bare yarn. The surface of the yarn is partially fused with hot melt. Thus, if the := fabric is heated, the portion of the yarn that is in contact with the skein of the yarn is smelted and adhered to the skein. Further, the portion of the heat-bonded yarn which is in contact with the inserted yarn 123203.doc -52- 200839048 is melted and adhered to the inserted yarn. Thus, the exposed portion of the heat-contacted yarn which is in contact with the other yarn becomes the portion where the other yarn is attached, so that the heat-attached yarn is attached to the other yarns, and the adhesion can be improved. Thereby, it is possible to more reliably prevent the respective yarns from being spliced by the non-coated yarn, that is, the bare yarn not covered by the coated yarn, thereby achieving the thermal connection=, thereby further reducing the amount of the bottom yarn and increasing the bottom. The density of the pattern banknotes is poor, so that the transparency of the lace can be improved, and the pattern can be made clear. (4) A lace knit fabric that wins directly. The whole cause of the crochet organization::: The entire area of the tissue is woven with hot yarn, so it can prevent the yarn from being woven on the body. For example, even if the lace is cut at any position, the yarn can be prevented. The sewn portion and the cut portion are deposited. = It prevents the yarn from being laid out on the whole of the lace, so it can be expanded. For example, it can prevent the lace from being entirely spread. Therefore, the braided edge can also be used for one part of the durable top. (5) A lace knitted fabric characterized by the above-mentioned crochet portion! The yarn loop portion is alternately connected to the second loop portion, and the first yarn of the plurality of the second loop portions in which the second loop portion is inserted is inserted in the weft direction of the second loop portion in the weft direction. The loop portion extends in the rear section of the weft direction and is inserted into the same section of the second loop portion of the above-mentioned second loop portion! The yarn loop is connected to the first loop-like portion of the rear section of the weft direction, whereby the shape is chain-shaped and extends in the direction of the weft, and is woven into the portion of the heat-bonded yarn and the insert, '/ Inserting the yarn into the first loop portion of the yarn and the second yarn 123203.doc -53-200839048 between the yarn and the loop portion of the first loop portion, and the heat is then inserted between the yarns and the inserts == yarn And inserting the yarn into the first loop portion and the second loop portion and weaving the person to the crochet structure. The insertion of the lace knit fabric relative to the woven tissue H, the fiscal class + A,, the side of the dog's yarn-like portion is the back surface: eight, the surface of the enamel is the surface. In the common weaver, there is a thermal yarn and a yarn inserted on the outside of the yarn. Thus, in the case of the surface knitted fabric, by inserting the yarn, the heat-conducting yarn and the phantom yarn are hidden until the yarn is slid into the yarn, so that it is difficult to observe the yarn from the surface. In this case, it is prepared for heating the lace knit fabric. It can be a month for the formed ® case. Further, even if the heat is followed by the yarn dissolution = ', the change of the pattern observed from the surface can be reduced. The straw is passed between the first loop portion and the inserted yarn by the hot yarn, and the loop portion of the loop is followed by the insert yarn, and the insertion yarn is prevented from being detached from the hook fabric. And (6) - a lace knitted fabric characterized in that (4) in the knitting organization, the sentence, the flat, and the weave are woven into the portion having the heat-spun yarn and the portion in which the stretchable stretch yarn is knitted. The shrinking yarn of the raw 〗 〖 woven into the crocheted structure in an extended state, thereby (4) to prepare the lace stretchability, and, in this way, the lace is prepared in accordance with the formula = 仃 heating 'the heat is then connected to the stretch yarn In the part, the heat joint portion 7 is attached to the stretch yarn. Thereby, it is possible to prevent the telescopic yarn from being detached from the sewed portion, for example, to prevent the stretched yarn from being detached from the sewn portion. 123203.doc -54· 200839048 Thus, by weaving the thermal yarn into the crocheted structure, it is also possible to prevent the stretch of the lace yarn from being deposited. Further, even if it is prepared after the preparation, it is also possible to prevent the yarns from shifting by the heat of the yarn. Thereby, it is possible to prevent the pattern of the lace pattern during the expansion and contraction from being different from that before the expansion and contraction: the pattern of the flower border is large, so that the beauty of the lace can be maintained for a long period of time. (7) Lacing made by the lace knitted fabric described above. By heating the lace knitted fabric, the heat contained in the lace knitted fabric is partially melted, and the firmness of the yarn is enhanced. Thereby, it is possible to prevent the lace formation formed by using the lace knitted fabric. In addition, the crochet structure is formed by using a crochet yarn different from the thermal yarn, so that it is not necessary to thicken the heat-spun yarn for the residual crochet structure, but to make the heat-bonded yarn and the crochet yarn thinner, thereby The amount of unit volume of the yarn forming the bottom is reduced, and the difference in density between the bottom and the yarn of the tread portion is increased. Thus, the above-described lace knitted fabric is used to manufacture the lace-opening, and the density difference between the yarn of the bottom portion and the pattern portion can be increased, so that the transparency of the lace can be made high, and the pattern can be made clear, and the deterioration of the appearance can be suppressed. The present invention can be implemented in other various forms without departing from the main features of the present invention. Accordingly, all aspects of the above-described embodiments are merely exemplary, and the scope of the present invention is not limited by the scope of the specification. Further, all modifications or changes belonging to the scope of the invention are intended to be within the scope of the invention. [Simple Description of the Drawings] 123203.doc -55- 200839048 The objects, features and advantages of the present invention can be clarified by the following figures. BRIEF DESCRIPTION OF THE DRAWINGS The following is a detailed description of a part of the fabric. Fig. 1 is a schematic diagram showing the organization of the flowering portion of the embodiment of the present invention. Weaving: Γ: Formula, showing the organization of a part of the first precursor of the front body of the lace knit fabric. Figure 3 is a view of omitting yarns other than crocheted yarns and hot yarns.

The organization chart of the body knitted fabric 20. FIG. 5 is a manufacturing step diagram showing the lace knitted fabric of the present embodiment. FIG. 5A and FIG. 5B are diagrams for explaining a resisting body against the loosening of the welded portion. FIGS. 6A and 6B are for explaining the resisting welded portion. Loosen the map of the resisting body. Figure 7 is a flow chart showing other manufacturing steps of the lace knit fabric. Fig. 8 is a view for explaining the preparation for preventing the loosening of the second precursor knitted fabric of the embodiment. Fig. 9 is a view showing the preparation of a lace knitted fabric of a comparative example. Fig. 1 is a drawing for explaining the deposition of the second precursor knitted fabric of the present embodiment. Fig. 11 is a view showing the preparation of a lace knitted fabric of a comparative example. Fig. 12 is a side view showing the preparation portion of the raschel warp knitting machine for compiling the ith precursor knitted fabric of the first embodiment. 13A to 13E are views for explaining the action of the crochet and the mantle of the crochet part 123203.doc-56-200839048. Fig. 14A to Fig. 14C are sectional views for explaining the operation of the jacquard rod and the heat-removing yarn by the nucleus. 15A and 15B are diagrams showing the organization of the s region in Fig. 3. Figure 16 is a flow chart showing the manufacturing sequence of the lace product. Fig. 17 is a schematic diagram showing the structure of a part of the first precursor knitted fabric ′ according to the second embodiment of the present invention. Fig. 18 is a schematic diagram showing the structure of a part of the first precursor knitted fabric of the third embodiment of the present invention. Fig. 19 is a view showing a knitting structure of the first precursor knitted fabric in which the yarns other than the crochet yarn, the heat-bonded yarn, and the stretch yarn are omitted. Fig. 20 is a schematic diagram showing the construction of a part of the first precursor knitted fabric of the fourth embodiment of the present invention. Fig. 21 is a side view showing the preparation portion of the reverse jacquard raschel warp knitting machine for preparing the ith precursor knitted fabric of the third and fourth embodiments. Fig. 22 is a schematic diagram showing the construction of a part of the first precursor knitted fabric of the fifth embodiment of the present invention. Fig. 23 is a side view showing the preparation portion of the reverse jacquard raschel warp knitting machine for preparing the first precursor knitted fabric of the fifth embodiment. - [Major component symbol description] 20 1st precursor knitted fabric 21 crocheted yarn 22 Inserted yarn 23 Thermally bonded yarn 123203.doc • 57- 200839048 24 1st looped portion 25 2nd looped portion 26 Fishing part 120 lace knit fabric C latitudinal direction w through the circle direction 123203.doc -58 -

Claims (1)

200839048 X. Patent application scope: r A manufacturing method for fabricating lace, comprising: a knitting fabric preparation step of forming a crochet structure formed by a plurality of loop-shaped portions by crocheting yarn, and crocheting the same a heat-conducting yarn having a melting temperature lower than a melting temperature of the crocheted yarn is woven into the tissue to prepare a stretchable knitted fabric; The heating step 'heats the knitted fabric containing the heat-bonded yarn to a temperature below the melting temperature of the crocheted yarn and above the melting temperature of the yarn; and/or the step of applying a tension to the knitted fabric containing the heat-bonded (four), and heats the molten The yarn is then broken into a plurality of parts. 2. The method for manufacturing a lace according to the claim item, wherein the preparation condition in the knitting fabric preparation step and the heating condition in the heating step are set so that the total amount of elongation of the knitted fabric other than the heat removal yarn after the heating step is Ε1 is greater than the amount of elongation d of the heat of the yarn after the heating step. 3. A method of manufacturing a lace according to the item 1 or 2, wherein the heating step and the breaking step are simultaneously performed. 4. The method for producing a lace according to any one of claims 1 to 3, wherein the heating condition of the heating step is set such that the heat-spun yarn is melted and the yarn other than the heat-retaining yarn contained in the knitted fabric is prevented. Brittle heating conditions. The manufacturing method of the lace according to any one of claims 1 to 4, wherein the heating condition in the heating step is set as a heating condition in which the hot connector yarn is broken by melting. 6. The manufacturing method of the lace of any of the items 1 to 5, in which the needle I23203.doc 200839048 fabric preparation step, makes (4) Danny-Gadani's poly-thermoplastic polyurethane carboxylic acid elasticity The yarn is heated as a thermal yarn and heated at a heating temperature of net for 30 sec to 9 〇see. 7. The method for manufacturing a lace according to any one of claims 1 to 6, wherein in the knitting fabric preparation step, in addition to the weaving of the thermal yarn, the other yarns are woven, and the crochet system is woven. The y-yarn loop-shaped portion and the second-yarn loop-shaped port p-knife are further connected to each other and have a plurality of segments arranged in the weft direction, and the second loop-shaped portion is inserted through the yoke direction of the second loop-shaped portion. a first-yarn loop-shaped file extending in the rear direction of the weft direction, and inserting the second loop-shaped portion: a yarn-like portion of the same section in the direction of the weft, and a first loop-shaped portion of the rear section of the weft direction Connecting, thereby forming a chain shape and extending in the direction of the weft, and in the portion where the thermal yarn and the other inserted yarn are woven, and the second yarn ring portion and the second insertion yarn are inserted with the heat insertion yarn and the other insertion yarn. The directions between the loop portions are different. The manufacturing method of the lace according to any one of claims 1 to 7, wherein in the knitting fabric preparation step, in addition to the woven fabric, the stretchable yarn is stretched into a stretchable stretch yarn. In the crochet portion, the first loop portion and the second loop portion are alternately connected to each other, and a plurality of segments are arranged in the weft direction, and the second loop portion of the second loop portion is inserted through the second loop portion. a second loop portion of the front section of the weft direction extending in the direction of the weft direction, and inserted into the first loop portion of the same direction of the weft direction of the second loop portion, and the rear portion of the weft direction The first loop portion connection ' is formed in a chain shape and extends in the direction of the weft loop, and is woven into the portion having the heat-conducting yarn and the stretch yarn, and is inserted into the heat-conducting yarn and the stretch yarn 123203.doc 200839048 The direction between the first loop portion and the second loop portion is different. 9_ A lace fabric produced by the method of manufacturing the flower edge of any one of claims 1 to 8. 123203.doc