TW200400014A - Slide fastener - Google Patents

Abstract

The present invention is characterized by fitting a fastener element (3) to one edge part (12) of a fastener tape (2), and sewing a sewing thread (6) extending in a longitudinal direction of the fastener tape to the fastener tape (2) near an installation part (5) where the fastener element (3) is installed. A shield coating (7) by plating or fire-resistant additive is simply coated on the fastener tape (2), whereby an electromagnetic wave shield performance and a fire-resistant performance can be provided to the fastener tape (2).

Description

200400014 π) 发明 Description of the invention [Technical field to which the invention belongs] The present invention relates to a zip with electromagnetic wave screen performance of a screen electromagnetic interference wave, or flame retardant performance which is not easy to ignite. [Prior art] In recent years, "Zippers with special properties such as electromagnetic wave shielding performance and flame retardancy" have been required to effectively display the special properties and provide them inexpensively without degrading quality. For example, as shown in FIG. 8, the conventional electromagnetic wave shielding zipper is formed by weaving a thin metal wire mesh 9 7 as the electromagnetic wave shielding member 9 8 into a bag shape, and inserting the core material forming the core braided portion 96 into one side edge. Electromagnetic wave shielding zippers 9 and 9 with fastener tapes 95 and metal fastener elements 94 fixed to the core braid portion 96 are generally known (see Japanese Patent Sho Sho 5 7 -60773 (Sho Sho 58-164290). Microfilm). The electromagnetic wave shielding zipper shown in FIG. 8 mentioned above is a special form of the electromagnetic wave shielding member constituting the zipper tape. When the electromagnetic wave shielding performance is provided, special manufacturing equipment is required. Cheap electromagnetic wave shielding zipper and electromagnetic wave shielding with good quality are provided Difficult to zip. [Summary of the Invention] The main object of the present invention is to provide a zipper with special properties such as electromagnetic wave shielding performance and flame retardant performance. Therefore, the zipper tape of its constituent members does not need to use a specially manufactured zipper tape. Zipper (2) (2) 200400014 To reduce the cost of products, we can provide good quality and cheap zipper at low cost. Another object of the present invention is to solve the following problems. Provided is a zipper tape that can be easily manufactured with a very simple structure and is curved. When the zipper tape is sewn to a material to be sewn, the zipper tape does not have a wrinkle in the sewing. The present invention also provides a zipper which can fold a zipper band back into two, and can easily constitute a stable form to attach a zipper element. Provided is a zipper which can reinforce the folded back of the zipper tape into two and obtain a zipper for convenient and secure mounting of the zipper element. Provided is a zipper for reinforcing a folded portion that folds back a zipper band into two and the side, which is particularly convenient for firmly mounting a single-body zipper element. Provided is a zipper tape that can specify a zipper tape shape having simple and special properties on a zipper tape, and supplies products at low cost. Provide zipper tapes that can easily combine electromagnetic wave shielding performance and flame retardancy. To achieve the above object, the present invention adopts the following configuration. The slide fastener of the present invention is characterized in that a zipper element 3 is attached to a side edge portion 12 of the zipper tape 2 and a zipper tape 2 adjacent to the mounting portion 5 where the zipper element 3 is attached is sewn to a continuous suture in the length direction of the zipper tape. 6. In addition, the fastener tape 2 of the portion where the fastener element 3 is mounted may be single or double. In this configuration, a zipper element is attached to one side edge portion of the zipper tape, and stitches are stitched near the attachment portion where the zipper element is attached, so that the zipper tape can be tightened in the longitudinal direction and one side edge portion can be bent toward the inside of the band. Thereby, it has the effect of -6- (3) (3) 200400014, which provides the excellent quality of the zipper stringer which can be sewnly attached to the object to be sewn at a low price without causing seam folding. The slide fastener of the present invention is characterized in that: one side edge portion 12 of the fastener tape 2 is folded back toward the inside to form a bent portion 4; a zipper element 3 is mounted on the bent portion 4 of the overlapping structure; and a zipper element 3 is mounted. The zipper tape 2 near the mounting portion 5 is stitched with a continuous suture 6 extending in the longitudinal direction of the zipper tape 2. This structure is formed by folding one side edge portion of the zipper tape toward the inside and overlapping to form a bent portion. Here, The zipper element is attached to the bent portion, which can reinforce the zipper tape, and has the effect that the zipper element can be installed in a stable state. The slide fastener of the present invention is characterized in that a core material 8 formed in various shapes is inserted into the bent portion 4 formed by the side edge portion 12 of the fastener tape 2 to reinforce it, and the core material 8 is spaced apart from each other. The zipper element 3 is attached to the bent portion 4, and the zipper tape 2 near the attachment portion 5 of the zipper element 3 is attached, and a seam 6 continuous in the longitudinal direction of the zipper tape 2 is sewn. The core material 8 is preferably a core material 8 in which a core braid 10 is attached to a side edge of the support sheet 11. In this structure, by inserting the core material through the bent portion of the zipper tape, or inserting the core material through the bent portion and the vicinity of the side, the zipper element is installed in the state of the core material to reinforce the edge portion of the zipper tape. The effect that the zipper element can be firmly attached in a stable state. The core material has a core braid to further enhance the reinforcing effect. In the slide fastener of the present invention, the slide fastener element 3 has a bite head] 6 ′ and a pair of leg portions 15 protruding from the bite head portion 16, and the leg portions 15 hold the bent portion 4 -7- (4) (4 ) 200400014 is better for installation. With this configuration, even if the fastener element is made of metal, the fastener element can be firmly attached to the fastener tape in a stable state. In the slide fastener of the present invention, the fastener tape 2 is made of fiber, and the whole of the tape 2 is a slide fastener having a uniform structure. In this configuration, since the zipper tape is made of fiber, the entire belt is formed by a uniform structure. Therefore, when a plating solution or a coating agent is used, the zipper tape can be uniformly penetrated into the entire belt. The zipper tape can be easily plated by plating. Electromagnetic wave shielding processing or flame retardant coating processing. The fastener tape is preferably a woven belt of plain weave made of warp yarns and weft yarns, which has the effect that products of good quality can be processed at low cost. In the slide fastener of the present invention, it is preferable that the surface of the fastener tape 2 is plated with a metal having a special performance mechanism and has electromagnetic wave shielding performance. In the fastener tape of the present invention, it is preferable that the surface of the fastener tape 2 is coated with the flame retardancy of a special performance mechanism and also has flame retardancy. In such a structure, since the surface of the fastener tape is plated or a flame retardant is applied to the surface, the surface of the fastener tape can be easily provided with electroplated electromagnetic wave shielding performance, and the flame retardant can be obtained on the surface of the fastener tape. The flame retardant performance produced by the coating has the effect that it can be cheaply processed into high-quality products, and the effect that can be achieved by the present invention is extremely significant. [Embodiment] The embodiment of the slide fastener according to the present invention will be specifically described below with reference to the drawings. (5) (5) 200400014 The first figure] shows a slide fastener according to the present invention. The first feature of this zipper is that it has a special performance mechanism in its basic function. Specifically, since the fastener stringer 丨 has electromagnetic wave shielding performance on the fastener tape 2, a metal plating is applied to the surface of the fastener tape 2 to form a shielding film 7. In addition, in order to provide the flame-retardant performance of the fastener tape 2 as well, a flame retardant is applied to the surface of the shielding film 7 formed on the surface of the fastener tape 2 to form a flame-resistant coating film 7. The second feature is that before the fastener element 3 is attached to the fastener tape 2 of the fastener stringer 1, regardless of whether the edge portion of the tape 2] 2 is provided with a core material 8, the suture 6 can be sewn on the fastener tape 2 and the edge portion of the tape 2 can be sewn. As shown in FIG. 7, when the zipper stringer 1 is attached to the object to be bent inwardly as a whole, a sewing wrinkle is formed on the surface of the zipper tape 2. And the symbol 20 in the figure is a zipper head, the symbol 21 is an open metal piece, and the symbol 22 is an upper stop. As shown in Fig. 2, the fastener tape 2 of the fastener stringer 1 is formed of a single piece of tape. The fastener tape 2 is made of polyester or polyurethane fibers as the warp and weft yarns. The base material of the fastener tape 2 is made by weaving a plain weave with warp and weft yarns. Welding (for example, immersing the zipper tape 2 in a copper-nickel melt, and performing electric ore on both sides of the tape) to form the shielding film 7. Among them, "the plain tape structure used in the zipper tape 2 is because the whole structure is uniform" The plating solution or the flame retardant can easily penetrate the entire tape uniformly and can be processed at low cost. However, the overall uniform structure of the belt is not just plain weave. Other structures can also be used, or weaves can be woven or interlaced non-woven fabrics. In any case, it is better to apply (6) (6) 200400014 plating or flame retardant coating to the surface of the fastener tape 2 in a straight form. When the belt is bent, it is difficult to arrange many strips in the electroplating bath in order, and it is extremely difficult to continuously transfer the coating equipment for processing. Therefore, the fastener tape 2 is preferably processed in a straight state. The fastener tape 2 on which the shielding film 7 is formed on both sides is stitched along the lengthwise direction of the fastener tape 2 in the vicinity of the edge portion 12 on one side, that is, the vicinity of the installation portion 5 where the fastener element 3 is attached, thereby the fastener tape 2 is sewn. It is tightened in the longitudinal direction so that the edge portion 12 of the fastener tape 2 is formed in a shape curved inwardly with respect to the longitudinal direction. The sewing pattern of the sewing thread 6 is preferably a flat stitching method, which can simply save yarn and make the zipper tape 2 inexpensively. As shown in FIG. 2, the zipper tape 2 that is fixed and bent is inserted into the inner edge of the zipper tape 2 through the coiled line of the core tape 10 and the leg portion 15 of the zipper tape 2 uses double threads. The seam-mounting yarn 18 is mounted on the zipper tape 2. Therefore, the flat seam stitches 6 are arranged near the connecting portions 17 of the coil-shaped line fastener element 14. In addition, when the zipper element 3 is attached to the curved zipper tape 2, there is no obstacle except that the curved zipper band 2 is kept in an actual straight state. In addition, when the completed curved zipper stringer 1 is sewn to the object, even when the other side edge of the zipper tape 2 can be tightened in the longitudinal direction even if it is sewn with a sewing machine, the surface with the zipper tape 2 does not appear. The wavy phenomenon has the advantage of so-called sewing wrinkles. In this embodiment, after forming a shielded film 7 formed by electroplating on the surface of the fastener tape 2 and imparting flame retardance to the fastener tape 2, a flame retardant additive such as inorganic salt and phosphoric acid is applied to the shield of the fastener tape 2 and processed. Table -10- (7) (7) 200400014 of the film 7 makes it have flame retardant performance, and is processed to form a zipper stringer 1 having electromagnetic wave shielding performance and flame retardant performance. In addition, it is not necessary to have flame retardancy, or a flame retardant coating 7 may be formed instead of plating. The linear fastener element I4 attached to the fastener tape 2 may be not only a coil shape but also a toothed linear fastener element 14. In addition, 15 in the figure indicates the bite head. The above embodiment has the effects shown below. A fastener element 3 is attached to one edge portion of the fastener tape 2, and a suture 6 is sewn near the attachment portion of the fastener element 3, so that the edge portion can be bent inward. The surface of the fastener tape 2 is electroplated to form a coating film, and a flame retardant is applied to the surface to form a coating film 7, which can simply be provided with electromagnetic wave shielding performance generated by electroplating and flame retardancy when the flame retardant is applied. The effect of cheap processing to form products of excellent quality. At this time, since the zipper tape 2 is made of fiber, since the plating solution and the flame retardant can penetrate the entire belt uniformly, the zipper tape 2 can perform the electromagnetic wave shielding processing or the flame retardant coating processing by electroplating very simply. It has the effect of cheap processing to form a product of excellent quality. As described above, according to this embodiment, it is possible to simply manufacture a zipper having the electromagnetic wave shielding performance and flame retardancy of the film 7, and to reduce the cost of the product. Even when the zipper stringer 1 is mounted on the object, it can be provided at a low cost. The effect of sewing a zipper with excellent quality without wavy due to the curved zipper tape 1:. The slide fastener stringer 1 shown in Fig. 3 is the same as the embodiment shown in Figs. 1 and 2 above, and a shielding film 7 is formed on both the front and back surfaces of the fastener tape 2. -11-(8) (8) 200400014 The differences are as follows. In this embodiment, 'the edge portion 12 of the zipper tape 2 is folded back inward to provide a bending portion 4, and the side edges of the zipper tape 2 itself are sewn with the flat seam 6] 9 sides, and the seam 6 is tightened to make the zipper tape 2 Bend while reinforcing the edge 1 2. In addition, the surface of the bent portion 4 of the zipper tape 2 in the bent state inserts the core braid j 0 through the coil-shaped linear zipper element 14, and the zipper stringer 1 is completed by using the double-threaded seam-attaching yarn 18. According to the present embodiment described above, in addition to the effects of the embodiment shown in Figs. 1 and 2 described above, the following effects can be exhibited. One side edge portion of the fastener tape 2 is folded back inward to form a bent portion 4. The bent portion 4 is provided with a zipper element 3, which can reinforce the edge portion of the zipper tape 2, and has the effect that the zipper element 3 can be mounted in a stable state. The slide fastener stringer 1 shown in FIG. 4 is the same as the third embodiment, and a bent portion 4 is formed on the fastener tape 2 of the slide fastener stringer 1. A shielding film 7 is formed on both the front and back surfaces of the bent portion 2. The differences are as described below. In this embodiment, the zipper tape 2 is folded back between the overlapped zipper tapes 2 with a core material 8 formed by a flat reinforcing sheet 9 to reinforce the bent portion 4 of the zipper tape 2. Among them, the 'reinforcing sheet 9 is a thin and wide band made of fibers such as polyester or polyurethane, continuous with the longitudinal direction of the fastener tape 2. In addition, the zipper tape 2 is stitched with flat stitches 6 on the side edges 19 sides, and is formed into a curved shape as a whole. Then, the two-thread lock stitching yarn 18 is used to install the core braid 10 to penetrate the surface of the bend 4 Coil-shaped line zipper element 1 4. According to the present embodiment described above, in addition to the effects of -12- (9) (9) 200400014 of the embodiment of FIG. 3 described above, the following effects are shown. Inserting the core material 8 through the bent portion of the fastener tape 2 and attaching the fastener element 3 with the core material 9 interposed therebetween can reinforce the edge portion of the fastener tape 2 'and have the effect that the fastener element 3 can be firmly attached in a stable state. The zipper stringer shown in FIG. 5] is the same as the embodiment shown in FIG. 3 above. The front and back surfaces of the zipper tape 2 will have the electromagnetic wave shielding performance of both the shielding film 7 or the flame retardant coating film 7. The zipper tape 2 is folded back into two bent portions 4. The differences are as described below. φ In this embodiment, a core material 8 formed by inserting a core braid I 0 of a synthetic fiber such as bundled polyester or polyamine into the bent portion 4 forms a raised edge portion 1 2 'and stitches the vicinity of the edge portion 12 The flat seam 6 forms a mounting portion 5 which attaches a metal zipper element 13 formed by a pair of leg portions 15 protruding from the engaging head portion 16 and the engaging head portion 6 and a fastener tape 2 The whole is curved inward as shown in FIG. 7. In the zipper tape 2 formed by bending, the leg portions 15 of the metal zipper element 13 are clamped and fixed from the front surface to the raised edge portion φ 1 2 formed by the core material 8. At this time, the vicinity of the mounting portion 5 of the metal fastener element 13 attached to the fastener tape 2 is formed so that the seam 6 is present. Further, the zipper element 13 may be formed of not only a metal product but also a synthetic resin material to form the band edge portion 12 to form the zipper element 3 sandwiching the bent portion 4. In addition, the symbol [0 scoop] 6 in the figure indicates the bite of the head. According to the present embodiment 'described above, there is an effect related to the embodiment of Fig. 4 described above. The zipper stringer shown in FIG. 6] In the zipper stringer 13- (10) (10) 200400014 1 of the zipper string 2 shown in FIG. 5 above, the front and back sides of the band are provided with shields. The zipper tape 2 is folded back, and the core material 8 is inserted through the two overlapping zipper tapes. The core material 8 is a woven or knitted piece of the same support sheet as the above-mentioned reinforcing sheet 9. It is folded back, and a core braid 10 such as a round braid is inserted at the bent portion to form the core material 8. The core material 8 is inserted through the bent portion 4 of the zipper tape 2 and the zipper tape 2 is reinforced in the vicinity of the side. One side edge of the zipper tape 2 forms a raised edge portion 1 2, and the support piece 1 of the bent portion 4 is inserted. ] The side edges 1 9 A of the zipper tape 2 are superimposed on top and bottom, and are stitched with seams 6 to form the mounting portion 5 where the zipper element 13 can be mounted, and the zipper tape 2 as a whole is formed in a curved shape as shown in FIG. 7. . The leg portions 15 of the metal zipper element 13 are clamped and fixed from the front and the back to the raised edge portions 12 forming the curved zipper tape 2 and the stitches 6 arranged on the zipper tape 2 are present in the zipper The zipper stringer 1 is formed in a manner near the feet 15 of the element 13. According to the present embodiment described above, in addition to the effects of the embodiment shown in Fig. 3, the following effects can be exhibited. A core material 8 with a core braid 10 is inserted into the side edge of the bent portion 4 of the zipper tape 2 and the vicinity of the side, and the zipper element 3 is installed in the state where the core material 8 is spaced, which can be reinforced. The edge portion of the fastener tape 2 has the effect of firmly attaching the zipper element 3 in a stable state, in particular, the zipper element 3 formed of a single body made of metal or resin. [Industrial Applicability] The present invention can be used for storage items such as bags or various items such as clothing. (11) 200400014 The zipper element provided in the switch part is particularly used as an electromagnetic wave provided with a shieldable electromagnetic interference wave. Shielding performance and / or flame retardant with difficult ignition. [Brief Description of the Drawings] FIG. 1 is a front view of a slide fastener according to an embodiment of the present invention. Fig. 2 is a cross-sectional view of a zipper stringer including a coil-shaped linear fastener element of a zipper. Fig. 3 is a cross-sectional view of the same zipper stringer according to another embodiment. Fig. 4 is a cross-sectional view of the same zipper stringer according to another embodiment. Fig. 5 is a cross-sectional view of a zipper side member of a metal single body zipper element including a zipper. Fig. 6 is a cross-sectional view of the same zipper stringer showing the other embodiment. ⑩ Figure 7 is a front view of the curved zipper strap. Fig. 8 is a perspective view of a conventional electromagnetic wave shielding slide fastener. Main component comparison table 1: Zipper stringer 2: Zipper strap 3: Zipper element 4: Bend section 15- (12) (12) 200400014 5: Mounting section 6: Suture 7: Shielding film 8: Core material 9 : Reinforcing sheet I 〇: Core braid II: Support sheet 1 2: Side edge part 1 3: Zipper element 1 4: Line zipper element 1 5: Foot part 16: Biting head 1 7: Connecting part 1 8: Mounting Yarn 1 9: Side edge 1 9 A: Side edge 2 0: Zipper head 2 1: Open metal 2 2: Upper stop 9 4: Zipper element 9 5: Zipper tape 9 6: Core braided portion 9 7: Metal mesh 9 8: Electromagnetic wave shielding member> 16- (13) 200400014 9 9: Electromagnetic wave shielding zipper

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Claims (1)

200400014 Π) Scope of patent application] · A zipper, which is characterized in that: at one side edge portion (12) of a zipper strap (2), a women's zipper element (3), at a mounting portion of the zipper element (3) Nearby sutures (6). 2. The zipper according to the item in the scope of the patent application, wherein a side edge portion (1 2) of the pull-tab band (2) is folded back toward the inside to form a bent portion (4), and the bent portion (4) 4) Install the zipper element (3) on it. 3 · —A kind of pull button 'is characterized in that one side edge portion of the zipper tape (2) is folded back toward the inside to form a bent portion (4), and a women's zipper is put on the bent portion (4) Element (3), a suture (6) near the mounting portion (5) of the zipper element (3), and the zipper according to item 2 or item 3 of the patent application scope, wherein A core material (8) is inserted through the bent portion (4), and a zipper element (3) is mounted in a state of the core material U). 5. A zipper, characterized in that one side edge portion of the zipper tape (2) is turned back toward the inside to form a bent portion (4), and a core material is inserted into the bent portion (4). 8) Attach the zipper element (3) to the bent portion (4) with the core material (8) spaced apart, and stitch the suture (6) near the mounting portion (5) of the zipper element (3). 6. The zipper described in item 4 or item 5 of the scope of patent application, wherein the core material (8) is provided with a core braid (10) on one side edge of the support sheet (Π). 7. The zipper according to any one of the items 2 to 6 in the scope of the patent application, wherein the zipper element (3) is installed sandwiching the fold (4). -18- (2) (2) 200400014 8 · The zipper described in item 7 of the scope of patent application, wherein the above-mentioned zipper element (3) is made of metal and has a bite head (i 6) and a self-biting head (1) 6) A protruding foot (; [5), the foot (] 5) is formed by clamping the bent portion (4). 9 · The pull button according to any one of the items [] to 8], wherein the above-mentioned fastener tape (2) is made of fiber and penetrates a plating solution or a flame retardant. 10. The zipper according to item 9 in the scope of the patent application, wherein the pull-strap (2) is composed of a plain weave. 1 1. The zipper described in any one of items 1 to 10 of the scope of the patent application, wherein the surface of the above-mentioned zipper tape (2) is electroplated to have electromagnetic wave shielding properties. 1 2 · The zipper described in any one of claims 1 to 11 in the scope of the patent application, wherein the surface of the fastener tape (2) has flame retardancy coated with a flame retardant. -19-