Watertight fastener and method for manufacturing same

Information

  • Patent Grant
  • 11877628
  • Patent Number
    11,877,628
  • Date Filed
    Thursday, December 12, 2019
    5 years ago
  • Date Issued
    Tuesday, January 23, 2024
    11 months ago
Abstract
A watertight fastener includes a pair of fastener tapes; fastener elements provided on a side of one end edge part along a longitudinal direction of the fastener tapes; and a slider engaging and disengaging the fastener elements. On a surface of the fastener tapes opposite to the fastener elements, a waterproof seal layer is provided along the longitudinal direction at a position at which the fastener elements are provided. A width of the waterproof seal layer in a direction orthogonal to the longitudinal direction is narrower than a width of the slider. With the pair of fastener tapes being closed by engagement of the fastener elements, end parts of the waterproof seal layer close to the end edge parts of the fastener tapes come into contact with each other without overlapping in a thickness direction and without a gap to be in close contact in a liquid-tight manner.
Description
CROSS-REFERENCE TO RELATED APPLICATION

This application is a 371 application of the International PCT application serial no. PCT/JP2019/048618, filed on Dec. 12, 2019. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.


TECHNICAL FIELD

The present invention relates to a watertight fastener having a waterproofing function and a method for manufacturing the same.


RELATED ART

Conventionally, watertight fasteners are provided with a waterproof layer on one surface of a slide fastener to provide a waterproofing function. For example, slide fasteners disclosed in Patent Documents 1 and 2 are provided with a pair of tapes, fastener elements respectively provided along mutually adjacent end edge parts of the pair of tapes, and a slider for engaging and disengaging the pair of fastener elements. The fastener elements in a coil shape are provided on one surface of the pair of tapes, and a waterproof seal material layer is adhered to the entirety of another surface.


A slide fastener disclosed in Patent Document 3 is also provided with fastener elements in a coil shape on one surface of a pair of tapes. A waterproof sealant is coated on this surface where the fastener elements are provided, and the waterproof sealant flows into a gap of the fastener elements and is filled and cured at mutually adjacent end edge parts of the pair of tapes to be in close contact without a gap in a closed state of the pair of tapes.


CITATION LIST
Patent Literature



  • [Patent Document 1] Japanese Patent Application Laid-Open No. 2011-104371

  • [Patent Document 2] Japanese Utility Model No. 1-14168

  • [Patent Document 3] U.S. Pat. No. 8,689,408



SUMMARY OF INVENTION
Problem to be Solved by Invention

The watertight fasteners of the related art above have a complicated manufacturing process, and it has not been considered to provide a waterproofing function in a simple manner. Since the slide fastener disclosed in Patent Document 3 has a waterproof sealant infiltrated into the gap between the fastener elements, the waterproof sealant resists the movement of the slider, the operability at the time of engagement or disengagement is not good, and the fastener tape is not flexible. Further, there is a problem that it is difficult to evenly flow the waterproof sealant between the fastener elements.


The present invention has been made in view of the problems of the related art above, and it is an objective of the present invention to provide a watertight fastener and a method for manufacturing the same which have a simple configuration and can easily obtain waterproofing properties according to a simple manufacturing method.


Means for Solving Problem

The present invention provides a watertight fastener including: a pair of fastener tapes; fastener elements provided on a side of one end edge part along a longitudinal direction of one surface of the fastener tapes; and a slider for engaging and disengaging the fastener elements. On a surface of the fastener tapes on a side opposite to a side on which the fastener elements are provided, a waterproof seal layer with a predetermined width is provided along the longitudinal direction at a position at which the fastener elements are provided. A width of the waterproof seal layer in a direction orthogonal to the longitudinal direction is narrower than a width of the slider. The waterproof seal layer does not come into contact with the fastener elements, and with the pair of fastener tapes being closed by engagement of the fastener elements, end parts of the waterproof seal layer close to the end edge parts of the fastener tapes are shaped to come into contact with each other without overlapping each other in a thickness direction and without a gap to be in close contact in a liquid-tight manner.


The width of the waterproof seal layer in the direction orthogonal to the longitudinal direction may be substantially equal to or narrower than a distance between two ends of the pair of fastener elements in an engaged state. The waterproof seal layer may be formed of, for example, silicone resin.


Along the end edge part of the fastener tape, the fastener element is provided on another surface of the fastener tape at the end edge part which is folded double at a folding line so that the another surface of the fastener tape is convex, and the slider is engaged with the end edge part.


A waterproof layer is provided on a surface of the fastener tape on a side opposite to the fastener element, the waterproof seal layer is provided on a surface of the waterproof layer, and the waterproof seal layer is narrower than a width of the waterproof layer. The waterproof layer may be formed of, for example, a polyurethane resin.


The present invention provides a method for manufacturing a watertight fastener including the following steps. Fastener elements are attached on a side of one end edge part along a longitudinal direction of one surface of a pair of fastener tapes to form slide fastener chains, and the fastener elements are engaged with each other to close the pair of slide fastener chains. A synthetic resin is coated with a predetermined width along the longitudinal direction, on the side of the end edge part of a surface of the fastener tapes which is on a side opposite to the fastener elements, and a coating width of the synthetic resin is formed to be narrower than a width of a slider. The coated synthetic resin is cured and the synthetic resin is cut along the end edge part to form a pair of left and right waterproof seal layers of the pair of fastener tapes. Afterwards, the slider for performing engagement and disengagement is attached to the pair of fastener tapes.


A waterproof layer may be provided on the surface of the fastener tape on a side opposite to the fastener element, the synthetic resin may be coated on a surface of the waterproof layer, and the synthetic resin may be cut along the end edge part to provide the waterproof seal layer.


Effects of Invention

The watertight fastener and the method for manufacturing the same of the present invention have a simple configuration and can easily obtain waterproofing properties according to a simple manufacturing method. Further, in the present invention, since the slider has a configuration sliding without contacting the waterproof seal layer, the sliding resistance of the slider is small and the operability of the slider is good. The reason lies in that, since the resin forming the waterproof seal layer has a higher frictional resistance with respect to the slider as compared with the fastener tape, in the case of a configuration in which the slider slides on the surface of the waterproof seal layer, a relatively large sliding resistance would act on the slider. Further, since the waterproof seal layer is about the width of the fastener element, and the waterproof seal layer is not coated on the other portion of the fastener tape, the waterproof seal layer does not impair the flexibility of the fastener tape. In addition, since the coated synthetic resin is cut along the longitudinal direction with the pair of fastener tapes being closed to provide a pair of left and right waterproof seal layers, the end parts where the pair of left and right waterproof seal layers close each other can be finished neatly, and the waterproof seal layers can be reliably in close contact without overlapping in the thickness direction and without a gap being opened to exert a watertight function.





BRIEF DESCRIPTION OF DRAWINGS


FIG. 1 is a front view of a watertight fastener according to a first embodiment of the present invention.



FIG. 2 is a rear view of the watertight fastener according to the first embodiment of the present invention.



FIG. 3 is an enlarged cross-sectional view of the watertight fastener according to the first embodiment of the present invention.



FIG. 4 is an enlarged cross-sectional view of a position where a slider is attached in the watertight fastener according to the first embodiment of the present invention.



FIG. 5 is an enlarged cross-sectional view of a watertight fastener according to a second embodiment of the present invention.



FIG. 6 is an enlarged cross-sectional view of a position where a slider is attached in the watertight fastener according to the second embodiment of the present invention.





DESCRIPTION OF EMBODIMENTS

Hereinafter, a watertight fastener according to a first embodiment of the present invention and a method for manufacturing the same will be described with reference to the drawings. FIG. 1 to FIG. 4 show the first embodiment of the present invention, and a watertight fastener 10 of this embodiment has a pair of fastener tapes 12, and a fastener element 16 fixed to an end edge part 12a of each fastener tape 12 together with a core thread 14. The fastener elements 16 provided at the end edge parts 12a of the pair of left and right fastener tapes 12 are each formed by forming one resin monofilament into a coil shape, and are sewn by fixing threads 18 together with the core threads 14.


As shown in FIG. 3, along the end edge parts 12a along a longitudinal direction of the fastener tapes 12, a surface 12b of the fastener tape 12 is convexly folded double at a folding line 13 to overlap a back surface 12c, and the fastener element 16 is fixed to a surface 12b side of the overlapped portion. The fastener element 16 is composed of an engagement head part 16a having an end part crushed and widened in a radial direction, and a leg part 16b extending from the engagement head part 16a to a fastener tape 12 side. The fastener elements 16 provided at the mutually opposing end edge parts 12a of the pair of fastener tapes 12 are formed as a configuration in which the respective engagement head parts 16a are engaged and do not separate from each other in the engaged state. The engagement head part 16a protrudes slightly outward beyond the folding line 13.


On the surface 12b side of the fastener tape 12, at a position opposed to the fastener element 16 provided on the fastener tape 12 folded double at the folding line 13, a waterproof seal layer 20 is provided substantially centered on the folding line 13, with a predetermined width in a direction orthogonal to the longitudinal direction of the fastener tape 12. The waterproof seal layer 20 is formed of silicone resin, which is a synthetic resin, and is provided on each of the pair of fastener tapes 12, and with the pair of fastener tapes 12 being engaged with the folding lines 13 opposing each other, end parts 20a, which are flushly continuous with the folding lines 13, of the pair of waterproof seal layers 20 are in contact with each other in a liquid-tight manner.


Further, the waterproof seal layer 20 is provided only on the surface 12b side of the fastener tape 12 and does not come into contact with the fastener element 16. The waterproof seal layer 20 is formed so that the portion at the end part 20a corresponding to the folding line 13 is slightly thicker than the other portion. A width of the waterproof seal layer 20 in a direction orthogonal to the longitudinal direction may be formed to be narrower than a width of a slider 24 to be described later. Alternatively, the waterproof seal layer 20 may also have a width substantially equal to or narrower than a distance between two ends of the pair of fastener elements 16 in the engaged state.


In the watertight fastener 10, a slider 24 for engaging and disengaging the fastener elements 16 is mounted on the fastener tapes 12 of a predetermined length to which the fastener elements 16 and the waterproof seal layers 20 have been attached. As shown in FIG. 4, the slider 24 is engaged with the end edge parts 12a folded back at the folding lines 13 of the fastener tapes 12, and is located on a back surface 12c side of the fastener tape 12.


Next, a method for manufacturing the watertight fastener 10 of this embodiment will be described. First, a fastener element 16 is attached to an end edge part 12a of a long fastener tape 12 to form a long slide fastener chain. With the fastener elements 16 of a pair of long slide fastener chains being engaged with each other, silicone resin is coated and cured with a predetermined width along the longitudinal direction of the slide fastener chains at a position where folding lines 13 of the long fastener tapes 12 come into contact with each other. At this time, the silicone resin is coated only on a surface 12b side of the fastener tape 12 and does not reach the fastener element 16.


Then, the cured silicone resin is cut along the folding line 13 in a direction substantially at a right angle with respect to the surface 12b and is divided into two parts on the left and right. The cut surface becomes a pair of left and right end parts 20a, and with the watertight fastener 10 being closed by a slider 24, the end parts 20a come into contact with each other without overlapping each other in the thickness direction and without a gap to be in close contact in a liquid-tight manner. When the silicone resin is coated, a center in the width direction is thick due to its viscosity, and the vicinity of the end part 20a located at the center in the width direction is formed to be thick.


Afterwards, the long slide fastener chain provided with the waterproof seal layer 20 is cut to a predetermined length, and a slider 24 is attached to form the watertight fastener 10. Nonetheless, it is also possible that, after cutting the slide fastener chain to a predetermined length, the silicone resin may be coated with a predetermined width, the silicone resin may be cut along the longitudinal direction of the slide fastener chain, and a slider 24 may be attached to form the watertight fastener 10.


According to the watertight fastener 10 of this embodiment and the method for manufacturing the same, with a simple configuration, using a simple manufacturing method, it is possible to easily obtain waterproofing properties at the engagement portion of the fastener elements 16 of the slide fastener. Since the silicone resin forming the waterproof seal layer 20 has a large frictional resistance with respect to the slider 24 as compared with the fastener tape 12, in the case of a configuration in which the slider 24 slides on the surface of the waterproof seal layer 20, a larger sliding resistance would act on the slider 24. However, since the slider 24 of the watertight fastener 10 of this embodiment is configured to slide without contacting the waterproof seal layer 20, the sliding resistance when moving the slider 24 is small, and the operability of the slider 24 is good. Further, since the waterproof seal layer 20 is about the width of the fastener element 16 and the waterproof seal layer 20 is not coated on the other portion of the fastener tape 12, the waterproof seal layer 20 does not impair the flexibility of the fastener tape 12. Further, a thread for attaching to a sewing material to be attached is pierced through the fastener tape 12, and if the waterproof seal layer 20 is at the sewing position, it would be difficult to sew, and the flexibility after sewing would also be deprived. For the above reasons, the waterproof seal layer 20 is preferably about the width of the fastener element 16.


Further, according to the watertight fastener 10 of this embodiment and the method for manufacturing the same, since the silicone resin is coated along the longitudinal direction in a narrow range of a predetermined width including the folding line 13, the work of forming the waterproof seal layer 20 is performed in a short time with high efficiency. By cutting the coated silicone resin in the longitudinal direction, the end parts 20a can be finished neatly, and with the pair of fastener tapes 12 being closed, the end parts 20a, which are the cut surfaces, are reliably in close contact with each other in a watertight manner without overlapping each other or having a gap. In the waterproof seal layer 20, at the time of coating, the vicinity of the center in the width direction has a high shape due to the viscosity of the silicone resin, and after curing, the vicinity of the cut end parts 20a has the greatest thickness and can be in close contact with each other by a wide area. The manufacturing method is simple, can obtain the waterproofing function at low costs, and can be widely used in the sports field, the outdoor field, the casual field, etc.


Next, a second embodiment of the present invention will be described with reference to FIG. 5 and FIG. 6. Herein, the same members as those in the above embodiment will be labeled with the same reference signs, and descriptions thereof will be omitted. A watertight fastener 30 of this embodiment has a pair of fastener tapes 12, and a fastener element 16 fixed to an end edge part 12a of each fastener tape 12 together with a core thread 14. As shown in FIG. 5, the fastener element 16 is attached to a back surface 12c along the end edge part 12a of the fastener tape 12. An engagement head part 16a of the fastener element 16 protrudes slightly outward beyond the end edge part 12a.


A surface 12b of the fastener tape 12 is covered with a thin waterproof layer 32. The waterproof layer 32 is, for example, a polyurethane film. An end part 32a of the waterproof layer 32 on an end edge part 12a side of the fastener tape 12 protrudes slightly outward beyond the end edge part 12a. Therefore, with the pair of fastener tapes 12 being engaged with each other with the end edge parts 12a opposing each other, the end parts 32a of the pair of waterproof layers 32 are pressed against and contacted with each other in a liquid-tight manner. The waterproof layer 32 covers a seam of a fixing thread 18 which appears on the surface 12b of the fastener tape 12.


On a surface 32b of the waterproof layer 32 on a side opposite to the fastener tape 12, a waterproof seal layer 34 is provided along the end part 32a, with a predetermined width in a direction orthogonal to the longitudinal direction of the fastener tape 12. The waterproof seal layer 34 is formed by coating silicone resin and is provided on each of the pair of fastener tapes 12, and with the pair of fastener tapes 12 being engaged with each other with the end edge parts 12a opposing each other, end parts 34a, which are flushly continuous with the end parts 32a of the waterproof layer 32, of the pair of waterproof seal layers 34 are pressed against and contacted with each other in a liquid-tight manner. Further, the waterproof seal layer 34 is provided only on the surface 12b side of the fastener tape 12 and does not come into contact with the fastener element 16. The waterproof seal layer 34 is formed so that the portion at the end part 34a corresponding to the end part 32a is slightly thicker than the other portion. A width of the waterproof seal layer 34 in a direction orthogonal to the longitudinal direction may be formed to be narrower than a width of the slider 24, or may be a width substantially equal to or narrower than a distance between two ends of the pair of fastener elements 16 in the engaged state.


Next, a method for manufacturing the watertight fastener 30 of this embodiment will be described. First, a fastener element 16 is attached to a back surface 12c of an end edge part 12a of a long fastener tape 12 to form a slide fastener chain, and with the fastener elements 16 of a pair of long slide fastener chains being engaged with each other, a waterproof layer 32 is formed on a surface 12b of the long fastener tape 12. The waterproof layer 32 may be formed by pasting a polyurethane film or coating a polyurethane resin.


Then, silicone resin is coated and cured with a predetermined width on the surface of the waterproof layer 32 opposed to a position where the fastener elements 16 are engaged. Along a central part where the end edge parts 12a of the pair of fastener tapes 12 oppose each other, the cured silicone resin is cut substantially at a right angle with respect to the surface of the cured silicone resin and the waterproof layer 32 to form an end part 34a of the waterproof seal layer 34 and an end part 32a of the waterproof layer 32 and divide the cured silicone resin into left and right parts. The cut surface becomes a pair of left and right end parts 32a and 34a, and with the watertight fastener 30 being closed, the end parts 32a and 34a come into contact with each other without overlapping each other in the thickness direction and without a gap to be in close contact in a liquid-tight manner. Accordingly, the waterproof layer 32 and the waterproof seal layer 34 are provided to overlap each other, and the opposing end parts 32a and 34a are in close contact with each other in a liquid-tight manner and have a high waterproofing function.


Afterwards, the long slide fastener chain provided with the waterproof layer 32 and the waterproof seal layer 34 is cut, and a slider 24 is attached to form the watertight fastener 30. Nonetheless, it is also possible that, after cutting the slide fastener chain to a predetermined length, the waterproof layer 32 and the waterproof seal layer 34 may be provided, and the slider 24 may be attached to form the watertight fastener 30. When the silicone resin is coated, the thickness of the center in the width direction is thick due to its viscosity, and the end part 34a located at the center in the width direction is thick.


In the watertight fastener 30, the slider 24 is mounted on the fastener tapes 12 of a predetermined length to which the fastener element 16, the waterproof layer 32, and the waterproof seal layer 34 are attached. As shown in FIG. 6, the slider 24 is mounted with the fastener tapes 12 interposed therebetween.


According to the watertight fastener 30 of this embodiment, the same effect as the watertight fastener 10 of the above embodiment is obtained. Since the waterproof layer 32 is provided on the surface 12b of the fastener tape 12, and the waterproof seal layer 34 is provided on the surface 32b of the waterproof layer 32, the waterproofing function at the portion of the fastener tape 12 is high. Since the waterproof layer 32 is provided, the width of the waterproof seal layer 34 can be narrowed. When the waterproof seal layer 34 is coated, the vicinity of the center in the width direction has a high shape due to its viscosity, and the vicinity of the end parts 34a has the greatest thickness and can be in close contact with each other by a wide area.


The watertight fastener of the present invention and the method for manufacturing the same are not limited to the above-described embodiments, and the synthetic resin such as silicone resin may be a chemically synthesized material containing synthetic rubber that may be coated and may be closely attached in a watertight state after curing. The configurations of the fastener element and the slider may be freely changed, and the width and the length of the fastener tape may also be freely set according to the use. The materials of the waterproof seal layer and the waterproof layer may be materials other than those described above.

Claims
  • 1. A watertight fastener comprising: a pair of fastener tapes (12), each having one surface (12c) and another surface (12b);fastener elements (16) provided on a side of one end edge part (12a) along a longitudinal direction of the fastener tapes (12), the end edge part (12a) being folded double at a folding line (13) to overlap the one surface (12c), so that the another surface (12b) of the fastener tape (12) is convex and the fastener element (16) being provided on an another surface (12b) side of the fastener tape (12); anda slider (24) for engaging and disengaging the fastener elements (16), the slider (24) being engaged with the end edge part (12a),wherein on the another surface (12b) of the fastener tapes (12) on a side opposite to a side on which the fastener elements (16) are provided, a waterproof seal layer (20) with a predetermined width is provided along the longitudinal direction at a position at which the fastener elements (16) are provided, and a width of the waterproof seal layer (20) in a direction orthogonal to the longitudinal direction is narrower than a width of the slider (24), andthe waterproof seal layer (20) does not come into contact with the fastener elements (16), and with the pair of fastener tapes (12) being closed by engagement of the fastener elements (16), end parts (20a) of the waterproof seal layer (20) close to the end edge parts (12a) of the fastener tapes (12) are flushly continuous with the folding lines (13) and shaped to come into contact with each other without overlapping each other in a thickness direction and without a gap to be in close contact in a liquid-tight manner.
  • 2. The watertight fastener according to claim 1, wherein the width of the waterproof seal layer (20) in the direction orthogonal to the longitudinal direction is substantially equal to or narrower than a distance between two ends of the pair of fastener elements (16) in an engaged state.
  • 3. The watertight fastener according to claim 1, wherein the waterproof seal layer (20) is formed of silicone resin.
  • 4. A method for manufacturing a watertight fastener, comprising: attaching fastener elements (16) on a side of one end edge part (12a) along a longitudinal direction of a pair of fastener tapes (12), each having one surface (12c) and another surface (12b) to form slide fastener chains, the end edge part (12a) being folded double at a folding line (13) to overlap the one surface (12c), so that the another surface (12b) of the fastener tape (12) is convex and the fastener element (16) being provided on an another surface (12b) side of the fastener tape (12), and engaging the fastener elements (16) with each other to close the pair of slide fastener chains;coating a synthetic resin with a predetermined width along the longitudinal direction, on the side of the end edge part (12a) of the another surface (12b) of the pair of fastener tapes (12) which is located on a side opposite to the fastener elements (16), wherein a coating width of the synthetic resin is formed to be narrower than a width of a slider (24);curing the coated synthetic resin and cutting the synthetic resin along the end edge part (12a) to form a pair of left and right waterproof seal layers (20) of the pair of fastener tapes (12); andafterwards, attaching the slider (24) for performing engagement and disengagement to the pair of fastener tapes (12), the pair of left and right waterproof seal layers forming one liquid-tight waterproof seal layer (20) when the fastener chains are closed, wherein the waterproof seal layer (20) does not come into contact with the fastener elements (16), and with the pair of fastener tapes (12) being closed by engagement of the fastener elements (16), end parts (20a) of the waterproof seal layer (20) close to the end edge parts (12a) of the fastener tapes (12) are flushly continuous with the folding lines (13) and shaped to come into contact with each other without overlapping each other in a thickness direction and without a gap to be in close contact in a liquid-tight manner.
PCT Information
Filing Document Filing Date Country Kind
PCT/JP2019/048618 12/12/2019 WO
Publishing Document Publishing Date Country Kind
WO2021/117177 6/17/2021 WO A
US Referenced Citations (19)
Number Name Date Kind
3490109 Helmut Jan 1970 A
3501816 Helmut Mar 1970 A
4724586 Tsubokawa Feb 1988 A
4888859 Horita Dec 1989 A
5386616 Norvell Feb 1995 A
6343408 Neugebauer Feb 2002 B1
6427294 Shibaike Aug 2002 B1
8689408 Chou Apr 2014 B2
8756768 Williams Jun 2014 B2
10271618 La Rocca et al. Apr 2019 B2
10800081 Chou Oct 2020 B2
11529778 Chou Dec 2022 B2
20020017010 Neugebauer Feb 2002 A1
20060282995 Liou Dec 2006 A1
20100125982 Chou May 2010 A1
20160255920 La Rocca et al. Sep 2016 A1
20180360172 Chou Dec 2018 A1
20200221831 Zhang Jul 2020 A1
20210107244 Chou Apr 2021 A1
Foreign Referenced Citations (17)
Number Date Country
2749326 Jan 2006 CN
2838352 Nov 2006 CN
201480203 May 2010 CN
102481038 May 2012 CN
103815624 May 2014 CN
108771308 Nov 2018 CN
209436409 Sep 2019 CN
S59108502 Jun 1984 JP
S60180516 Nov 1985 JP
S6151119 Jan 1986 JP
H0114168 Apr 1989 JP
2000312604 Nov 2000 JP
2008194066 Aug 2008 JP
2011104371 Jun 2011 JP
I616155 Mar 2018 TW
2011030442 Mar 2011 WO
2014010019 Jan 2014 WO
Non-Patent Literature Citations (3)
Entry
“Search Report of Europe Counterpart Application”, dated Oct. 21, 2022, pp. 1-8.
International Search Report (Form PCT/ISA/210) of PCT/JP2019/048618, dated Mar. 3, 2020, with English translation thereof, pp. 1-5.
Office Action of China Counterpart Application, with English translation thereof, dated Sep. 4, 2023, pp. 1-28.
Related Publications (1)
Number Date Country
20220395063 A1 Dec 2022 US