This application is a national stage application of PCT/JP2014/064917, which is incorporated herein by reference.
The present invention relates to an element for a fastener chain and a fastener chain employing a plurality of the elements.
As fastener chains, a fastener chain is known, which includes a pair of rectangular tapes having a length direction and a width direction and a pair of element rows fixed on core portions extending along opposing side edge portions of the pair of tapes, in which each element rows is constituted of a plurality of elements.
As conventional examples of elements, an element is known, which includes a body portion fixed on the core portion of the tape, a neck portion protruding from the body portion toward the opposing tape, a pair of shoulder portions protruding from the neck portion toward both sides in the length direction, an engaging head portion protruding from the neck portion toward the opposing tape, and a pair of groove portions formed in both sides, in the length direction, of the engaging head portion and communicated with each other in the length direction (see Patent Document 1).
As viewed in the width direction, the pair of groove portions and the pair of shoulder portions are formed to be parallel to an extending direction of the core portion on which the element itself is fixed. Accordingly, in a case where a fastener chain is made using a plurality of such elements, if no external force is exerted on the closed fastener chain, the core portion extends in a straight line shape, and the fastener chain extends in a straight line shape to be parallel to an extending direction of the core portion as viewed in the width direction.
Patent Document 1: Japanese Patent Application Publication No. 2006-149707A
By the way, if the elements are engaged with each other, a gap is formed between the shoulder portion and the groove portion, which are engaged with each other, and the fastener chain can be curved by an extend corresponding to the gap. However, even if the gap exists, the fastener chain when the elements are engaged with each other is kept parallel to the extending direction of the core portion as viewed in the width direction, if no external force is exerted on the fastener chain. The element is just one in which a curved shape of the fastener chain can be passively formed.
However, if there is a fastener chain which can actively form such a curved shape, it can be said that a slide fastener employing the fastener chain is preferable to be attached to and used with an object having a curved portion.
The present invention has been made keeping in mind the above problems, and an object thereof to provide an element and a fastener chain employing the element suitable to actively form a curve shape.
An element for a fastener chain according to the present invention includes a body portion fixed on a core portion of a tape extending in a length direction and a width direction, the core portion extending in the length direction on one side edge portion, in the width direction, of the tape; a neck portion protruding from the body portion to extend away from the tape in the width direction; a pair of shoulder portions protruding from both surfaces, in the length direction, of the neck portion; an engaging head portion protruding from the neck portion to extend away from the tape in the width direction; and a pair of groove portions formed in both surfaces, in the length direction, of the engaging head portion. Also, the element for the fastener chain of the present invention is characterized in that as viewed in the width direction, at least one of the pair of shoulder portions and the pair of groove portions is configured to be inclined with respect to a reference direction, which is an extending direction of the core portion on which the body portion is fixed.
Herein, the phrase “as viewed in the width direction, at least one of the pair of shoulder portions and the pair of groove portions is configured to be inclined with respect to a reference direction, which is an extending direction of the core portion on which the body portion is fixed” is intended to mean that a case where all of the pair of shoulder portions and the pair of groove portions are parallel to the reference direction is excluded. Also, specified examples of the element include elements according to the following (1) to (6).
The element according to (1) is configured so that as viewed in the width direction, three or less of the pair of shoulder portions and the pair of groove portions are inclined with respect to the reference direction and the remainder is parallel to the reference direction.
The element according to (2), which is a further specified example of the element according to (1), is configured so that as viewed in the width direction, the pair of groove portions are parallel to the reference direction and the pair of shoulder portions are inclined with respect to the reference direction.
The element according to (3), which is a further specified example of the element according to (2), is configured so that as viewed in the width direction, a parallel groove width dimension W1, as measured in a direction perpendicular to the reference direction, of dimensions of each of the groove portions which are parallel to the reference direction, an inclined shoulder-portion thickness dimension T1, as measured in a direction perpendicular to an inclining direction, of dimensions of each of the shoulder portions which are inclined, and an inclined shoulder-portion height dimension H1, as measured in a direction perpendicular to the reference direction, of dimensions of each of the shoulder portions satisfy the following relationship: H1>W1>T1.
The element according to (4), which is a further specified example of the element according to (2) or (3), is configured so that as viewed in the width direction, the pair of shoulder portions are inclined to be symmetrical with respect to the neck portion as a symmetry axis.
The element according to (5), which is a further specified example of the element according to (1), is configured so that as viewed in the width direction, the pair of shoulder portions are parallel to the reference direction and the pair of groove portions are inclined with respect to the reference direction.
The element according to (6), which is a further specified example of the element according to (5), is configured so that as viewed in the width direction, a inclined groove width dimension W2, as measured in a direction perpendicular to an inclining direction, of dimensions of each of the groove portions which are inclined, a parallel shoulder-portion thickness dimension T2, as measured in a direction perpendicular to the reference direction, of dimensions of each of the shoulder portions which are parallel to the reference direction, and a second parallel shoulder-portion thickness dimension H2, as measured in a direction perpendicular to the inclining direction of each of the groove portions, of dimensions of each of the shoulder portions satisfy the following relationship: H2>W2>T2.
Further, a fastener chain according to the present invention includes a pair of tapes extending parallel to each other in a length direction and arranged to oppose each other in a width direction, and a pair of element rows fixed on core portions of the pair of tapes, in which the core portions are, respectively, opposing side edge portions of the pair of tapes. Also, the fastener chain of the present invention is characterized in that the pair of element rows includes a plurality of elements fixed on each of the tapes along the length direction, in which the element of the present invention is employed for at least two elements, which are arranged to be engaged with each other, of the plurality of elements.
According to a specified example of the fastener chain of the present invention, each of the element rows includes first elements and second elements, each of the first elements is the element described above and the second elements are different from the first elements, in which each of the second elements includes a body portion, a neck portion, a pair of shoulder portions and a pair of groove portions, and also is configured so that as viewed in the width direction, the pair of shoulder portion and the pair of groove portions thereof are parallel to a reference direction, which is an extending direction of the core portion on which the body portion is fixed.
According to the element of the present invention, as viewed in the width direction, at least one of the pair of shoulder portions and the pair of groove portions is inclined with respect to the extending direction of the core portion on which the body portion is fixed. Therefore, if a fastener chain employs the element of the present invention, the fastener chain can actively form a curved shape when being closed.
The present invention relates to an element for a fastener chain and a fastener chain employing a plurality of the elements, and a slide fastener employing the fastener chain is attached to and used with an object, such as bags and clothes. In
As shown in
In the following references to directions, a front side refers to an upper side in
As described above, the fastener chain 2 is constituted of a pair of fastener stringers 3, 3, and the slider 4 is configured to be movable in the front and rear direction along opposing right and left side edge portions of the pair of fastener stringers 3, 3. The pair of fastener stringers 3, 3 includes a pair of tapes 7, 7 extending in the front and rear direction, which is a length direction thereof, and arranged in parallel to each other in the right and left direction, which is a width direction thereof, a pair of element rows 8, 8 fixed along opposing right and left side edge portions of the pair of tapes 7, 7, a pair of stops 5, 5 positioned adjacent to a front side of a movement range of the slider 4 and thus defining a forward movement limit position for the slider 4, and a pair of stops 6, 6 positioned adjacent to a rear side of the movement range of the slider 4 and thus defining a rearward movement limit position for the slider 4.
As shown in
The slider body 4a has an element passage (not shown) formed to extend in the front and rear direction therethrough, and a pair of tape insertion passages (not shown) communicated with the element passage and, respectively, opened to right and left sides. The pair of element rows 8, 8 pass through the element passage, and each tape 7 passes through the respective tape insertion passages.
As shown in
As shown in
As shown in
As shown in
As shown in
The body portion 91 is configured to bite the opposing side edge portion of one tape 7, on which the body portion itself is fixed, on a side facing the other tape 7 in such a manner that the side edge portion is sandwiched from upper and lower sides thereof.
The neck portion 92 and the engaging head portion 93 are configured as follows. Both ends of the neck portion 92 in the length direction are arranged to be recessed inward in the length direction relative to both ends of the body portion 91. Also, both ends of the engaging head portion 93 in the length direction are arranged to protrude outward in the length direction relative to both ends of the neck portion 92 and also are positioned inward in the length direction relative to both ends of the body portion 91. Thus, as viewed in the length direction, the element 9 is configured so that the neck portion 92 is narrower than the engaging head portion 93 and the body portion 91. Also, the neck portion 92 and the engaging head portion 93 are configured so that thicknesses thereof are generally the same as that of the body portion 91.
The first and second shoulder portions 94a, 94b and the first and second groove portions 95a and 95b are different depending on kinds of elements 9. As kinds of elements 9, a standard element 9n and an element 9a according to the present invention are present. In order to describe differences between the elements 9n and 9a, as viewed in the width direction, an extending direction of the core portion 7a on which the element itself (body portion 91) is fixed, more specifically an extending direction of a part, on which the body portion 91 is attached, of the core portion 7a, is defined as a reference direction D. By the way, the reason why the reference direction D does not simply refers to an “extending direction of the core portion 7a,” but to the “extending direction of the core portion 7a on which the element itself (body portion 91) is fixed,” is that when the fastener chain 2 employing the element 9a of the present invention is closed, the “extending direction of the core portion 7a” means an extending direction of the entire core portion 7a and thus an extending direction curved to correspond to the fastener chain 2, but the “extending direction of the core portion 7a on which the element itself (body portion 91) is fixed” means an extending direction of a part, on which the body portion 91 is fixed, of the core portion 7a and thus is always kept as an extending direction of a straight line regardless of a form of the fastener chain 2. Meanwhile, in the figures, the reference direction D is drawn at a location corresponding exactly to ½ of a thickness dimension (dimension in the upward and downward direction) of the element 9.
One example of the standard element 9n is the element described in the section Background Art and as shown in
In addition, as shown in
Like the first and second groove portions 95a, 95b of the parallel engagement element 9n, the first and second groove portions 95a, 95b of the inclined engagement element 9a are formed in a middle portion, in the upward and downward direction, of the engaging head portion 93 and thus are arranged at the same positions in the upward and downward direction, even if the inclined engagement element 9a is upside down. Also, in the shown example, the first and second groove portions 95a, 95b are communicated with each other to define one groove extending in a straight line shape along the length direction, and as viewed in the width direction, are formed to be parallel to the reference direction D. In addition, the first and second groove portions 95a, 95b communicated with each other in the length direction are formed to be opened toward the opposing tape 7 (in a direction along which they extends in parallel away from the core portion 7a in the width direction).
Because as viewed in the width direction, the first and second shoulder portions 94a, 94b have a shape symmetrical with respect to the neck portion 92 as the symmetry axis, detailed configurations of the first shoulder portion 94a will be mainly described and if necessary, the second shoulder portion 94b will be supplementarily described.
The first shoulder portion 94a is configured to protrude from middle portions, in the upward and downward direction, of both surfaces, in the length direction, of the neck portion 92. In more specifically explaining the protruding direction as viewed in the width direction, the protruding direction of the first shoulder portion 94a is inclined at a predetermined angle α with respect to the reference direction D. In the shown example, the first shoulder portion 94a is inclined to gradually extend downward as it goes away from the neck portion 92 in the length direction.
A thickness dimension T1 of the first shoulder portion 94a inclined as shown in
Also, as viewed in the upward and downward direction, a distal end of the first shoulder portion 94a (an end thereof away from the neck portion 92) in the length direction is positioned at a more front side in the length direction (front and rear direction) than the engaging head portion 93 and the body portion 91, and a side, which corresponds to the entire length in the length direction of the neck portion 92, of sides of the distal end of the first shoulder portion 94a is formed to be parallel to the width direction. Also, in addition to protruding from the neck portion 92, the first shoulder portion 94a is configured to protrude in the width direction from a surface of the body portion 91, which faces the opposing tape 7. Further, as viewed in the upward and downward direction, a side of a distal end of the first shoulder portion 94a in the width direction is formed to be parallel to the length direction. In addition, a corner portion between the side of the distal end of the first shoulder portion 94a in the length direction and the side of the distal end of the first shoulder portion 94a in the width direction is formed to be chamfered in a convexly rounded shape.
As shown in
More specifically, one fastener stringer 3 (right side in
Further, the other fastener stringer 3 (left side in
Alternatively, the elements 9a of the first embodiment may be engaged with the parallel engagement elements 9n. But, the inclined engagement elements 9a of the first embodiment and the parallel engagement elements 9n have therebetween a relationship making engagement therebetween difficult as compared with the case where the inclined engagement elements 9a of the first embodiment are engaged with each other. The reason is that for example, on the front side of the neck portion 92 in the length direction (front and rear direction), as viewed in the width direction, the first shoulder portion 94a and the first groove portion 95a in the inclined engagement element 9a of the first embodiment intersect each other at a predetermined angle α, whereas the second shoulder portion 94b and the second groove portion 95b in the parallel engagement element 9n do not intersect each other, but extend parallel to the reference direction D. However, as described above, in the case where the parallel engagement elements 9n, 9n are engaged with each other, clearances (gaps) for allowing smooth engagement and disengagement are formed between the first shoulder portion 94a and the second groove portion 95b and also between the first groove portion 95a and the second shoulder portion 94b, which are engaged with each other. In the inclined engagement element 9a of the first embodiment, the first and second shoulder portions 94a, 94b are inclined at a predetermined angle α with respect to the reference direction D, but if the predetermined angle is a gentle angle (it is difficult to specify what degree the angle is), it is possible to engage the inclined engagement element 9a of the first embodiment with the parallel engagement element 9n using clearances therebetween. By the way, a thickness dimension (dimension in the upward and downward direction) of the first and second shoulder portions of the parallel engagement element 9n is the same as the inclined shoulder-portion thickness dimension T1 of the inclined engagement element 9a, and a groove width dimension (dimension in the upward and downward direction) of the first and second groove portions of the parallel engagement element 9n is the same as the parallel groove width dimension W1 of the inclined engagement element 9a.
If a slide fastener 1 including the fastener chain 2 of the first embodiment as described above is closed, the parallel engagement element 9a is engaged with the inclined engagement elements 9a of the first embodiment, respectively, on both sides thereof in the length direction, and also a part, in which the inclined engaging elements 9a of the first embodiment located in front of the parallel engagement element 9n are engaged with each other, and a part, in which the inclined engaging elements 9a of the first embodiment of the present invention located in the rear of the parallel engagement element 9n are engaged with each other, are obtained. In addition, curved shapes formed, respectively, as the inclined engaging elements 9a of the first embodiment located in front and the rear of the parallel engagement element 9n are engaged with each other are reversed to each other, so that the fastener chain 2 of the first embodiment is curved in an S-shape as a whole. Therefore, when the fastener chain 2 is closed, such curved shape can be actively formed.
A variant of the inclined engagement element 9a according to the first embodiment of the present invention is shown in
More specifically, as viewed in the width direction, for example, two upper and lower surfaces of the first shoulder portion 94a are exactly two surfaces oriented in a direction perpendicular to the protruding direction of the first shoulder portion 94a (two surfaces parallel to the protruding direction), and a distal portion of the lower surface of the two surfaces (upper and lower surfaces) is formed as the distal-portion inclined surface 94h. Therefore, the lower surface of each of the first and second shoulder portions 94a, 94b has an inclined surface 94i (inclined surface inclined at a predetermined angle α with the reference direction D) and the distal-portion inclined surface 94h.
A variant of the fastener chain 2 of the first embodiment employs as an element the variant of the inclined engagement element 9a of the first embodiment. Also, a slide fastener 1 including the variant of the fastener chain 2 of the first embodiment is shown in
Further, an inclined engagement element 9a according to a second embodiment of the present invention, as shown in
As shown in
An inclined engagement element 9a according to a third embodiment of the present invention, as shown in
An inclined engagement element 9a according to a fourth embodiment of the present invention, as shown in
More specifically, as viewed in the width direction, the first and second shoulder portions 94a, 94b have a so-called point symmetric relationship therebetween. Namely, the center of the neck portion 92 in the upward and downward direction is the center of point symmetry, and a form of the first shoulder portion 94a when being rotated by 180° about the center is a form of the second shoulder portion 94b.
An inclined engagement element 9a according to a fifth embodiment of the present invention, as shown in
The present invention is not limited to the foregoing embodiments and accordingly appropriate modifications thereof may be made without departing from the spirit and scope of the invention. Although in the foregoing embodiments, as viewed in the width direction, one side of the first and second shoulder portions 94a, 94b and the first and second groove portions 95a, 95b is inclined with respect to the reference direction D and the other side is parallel to the reference direction D, the element of the present is not necessarily limited to such a relationship and accordingly may have a relationship that both are inclined. Also, although in the foregoing embodiments, the first groove portion 95a and the second groove portion 95b are communicated with each other to define one groove extending in a straight line shape or bent in a V-shape, the element of the present invention is not limited to such configurations, and accordingly, if not shown, the first groove portion and the second groove portion may be respectively formed by two separate grooves, which are not communicated with each other (more specifically, the first groove portion and the second groove portion may be formed to be partitioned by the center, in the length direction, of the engaging head portion).
Further, although in the foregoing embodiments, the element row 8 of one of the pair of fastener stringers 3, 3 is constituted of elements 9a according to one embodiment of the present invention (inclined engagement elements=first elements) and parallel engagement elements 9n (second elements) and the other element row 8 is constituted of parallel engagement elements 9n, the fastener chain of the present invention is not limited to such a configuration, and accordingly, each element row 8 may be constituted of inclined engagement elements 9a and parallel engagement elements 9n.
1 Slide Fastener
2 Fastener Chain
3 Fastener Stringer
4 Slider
4
a Slider Body
4
b Pull Tab Attachment Portion
4
c Pull Tab
5 Stop
6 Stop
6
a Separable Pin
6
b Retainer
6
c Retainer Pin
6
d Retainer Body
7 Tape
7
a Core Portion
8 Element Row
9 Element
9
a Inclined Engagement Element (First Element)
9
n Parallel Engagement Element (Second Element)
91 Body Portion
92 Neck Portion
93 Engaging Head Portion
94
a First Shoulder Portion
94
b Second Shoulder Portion
94
h Distal-Portion Inclined Surface
94
i Inclined Surface
95
a First Groove Portion
95
b Second Groove Portion
W1 Parallel Groove Width Dimension
W2 Inclined Groove Width Dimension
T1 Inclined Shoulder-Portion Thickness Dimension
T2 Parallel Shoulder-Portion Thickness Dimension
H1 Inclined Shoulder-Portion Height Dimension
H2 Second Parallel Shoulder-Portion Thickness Dimension
C Clothes
D Reference Direction
α, α1, α2 Predetermined angle
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/064917 | 6/5/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/186217 | 12/10/2015 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2385020 | Morin | Sep 1945 | A |
2385021 | Morin | Sep 1945 | A |
9215912 | Kondo | Dec 2015 | B2 |
9220324 | Nunn | Dec 2015 | B1 |
20060130292 | Kondo et al. | Jun 2006 | A1 |
20160227887 | Kojima | Aug 2016 | A1 |
Number | Date | Country |
---|---|---|
47-037061 | Sep 1972 | JP |
2006-149707 | Jun 2006 | JP |
2006-167191 | Jun 2006 | JP |
Entry |
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International Search Report, PCT International Patent Application No. PCT/JP2014/064917, dated Aug. 19, 2014. |
Written Opinion of the International Searching Authority issued for PCT/JP2014/064917. |
Number | Date | Country | |
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20170135445 A1 | May 2017 | US |