This application is a national stage application of PCT/JP2009/053691 filed on Feb. 27, 2009 which claims the benefit of Japanese Application No. 2008-50579 filed on Feb. 29, 2008, both of which are incorporated herein by reference in their entireties.
The present invention relates to a male snap part and a female snap part constituting a snap fastener or a pair of snap buttons.
A snap fastener has been widely used for clothes, bags and the like, in which a cylindrical projection of the male snap part (male snap) is engaged with and disengaged from a projection receiving, cylindrical depression of the female snap part (female snap). Generally, the male snap's projection includes, at its distal end, an annular, outer bulge (male bulge) which bulges outward in the radial direction, while a cylindrical portion defining the female snap's depression includes, at its open end, an annular, inner bulge (female bulge) which bulges inward in the radial direction. In an initial state (a non-deformed state) of the male and female snaps, the outer diameter of the male bulge is slightly larger than the inner diameter of the female bulge. The projection of the male snap and/or the depression of the female snap have the capability to elastically deform (or flexibility) in the radial direction. When the male snap is attached to and detached from the female snap, the male and female bulges are engaged with each other, which deforms the former radially-inwardly and/or the latter radially-outwardly, making the outer diameter of the male bulge temporarily equal to the inner diameter of the female bulge. Once the male bulge has passed over the female bulge, they return to their respective initial states (the male and/or female bulges do not always completely return to the initial states when both snaps are coupled to each other).
Metallic male and female snaps are less deformable elastically than resinou snaps. To compensate for a shortfall of the elasticity, an additional element such as a C-shaped spring and a M-shaped spring has been added into a metal female snap, as disclosed in Japanese Examined Utility Model Application Publication Nos. H02-21929 and H03-54566, etc. However, with such an additional element, manufacturing steps and costs increase.
In metallic snaps, it has been known to provide a plurality of slits, in the circumference direction, into the projection of the male snap and/or the depression-defining portion of the female snap in order to make them more deformable elastically, as shown in U.S. Pat. Nos. 1,732,837 and 1,896,044, etc.
With the above-mentioned slits, however, it is difficult to obtain an appropriate elasticity. For example, if slits are formed in the male snap's projection relatively deeply from its top to the bottom, then the projection's elasticity will increase while its coupling strength (or detaching resistance) with respect to the female snap's depression decreases, causing the snaps to be detached too easily. On the other hand, if slits are short or shallow in the projection from its top, its elasticity may be insufficient, and therefore the force required in attaching and/or detaching the snaps rises too much.
[Patent Document 1] Japanese Examined Utility Model Application No. 02-21929
[Patent Document 2] Japanese Examined Utility Model Application No. 03-54566
[Patent Document 3] U.S. Pat. No. 1,732,837
[Patent Document 4] U.S. Pat. No. 1,896,044
An object of the present invention is to provide a metallic male snap part having an appropriate and sufficient, elastic deformability in its projection, and being able to enhance coupling strength without an additional element.
Another object of the present invention is to provide a metallic female snap part having appropriate and sufficient, elastic deformability in its cylindrical portion defining the depression, and being able to enhance coupling strength without an additional element.
In order to solve the above-mentioned problems, according to the present invention, there is provided a male snap part (male snap) made of metal having a cylindrical projection to detachably engage with a projection receiving, cylindrical depression of a female snap part (female snap), wherein the projection includes a plurality of relatively highly deformable portions at predetermined angle intervals in the circumference direction of the projection, and a plurality of remaining portions, each remaining portion being arranged between adjacent two of the highly deformable portions in the circumference direction, the highly deformable portions being more deformable elastically in the radial direction of the projection than the remaining portions, and wherein each of the highly deformable portions has a relatively large, outer bulge bulging more outward in the radial direction at the upper part of each highly deformable portion than the upper part of each of the remaining portions.
In the present invention, the projection of the metallic male includes the highly deformable portions and the remaining portions, the highly deformable portions and the remaining portions being alternately arranged in the circumference direction. Here, supposing that the elasticity of the whole projection of the male snap were the same as that of a projection with only the highly deformable portions and with no remaining portions, it would be too easy to engage the projection with the depression of the female snap, and the coupling strength between the projection and the depression would considerably decrease. On the other hand, supposing that the elasticity of the whole projection were the same as that of a projection with only the remaining portions and with no highly deformable portions, it would be too hard to engage the projection with the depression, and the coupling strength therebetween would considerably increase. For the present invention, since there are alternately arranged the highly deformable portions and the remaining portions in the projection, it is possible to raise the coupling strength rather than that with the projection having only highly deformable portions while making the engaging action between the projection and the depression easier than with the projection having only remaining portions.
Further, in the present invention, since each highly deformable portion has the large outer bulge at its upper part, which bulges more outward in the radial direction than the upper part of each remaining portion, when the coupled projection and depression are separated, the coupling strength or detaching resistance therebetween increases by the large outer bulges being considerably caught by the female bulge.
In the present invention, the number of the large outer bulges provided in the circumference direction of the projection of the male snap can be preferably three to eight or more.
In the present invention, as a metal material for making the male snap, copper alloy such as brass, aluminum alloy such as aluminum, and the like can be used.
In one embodiment of the present invention, each of the remaining portions (low deformable portions) has a relatively small, outer bulge bulging less outward in the radial direction at the upper part of each remaining portion than the large outer bulge of each highly deformable portion.
In one embodiment of the present invention, the projection includes longitudinal slits which are formed from the top of the projection to partition the projection into the highly deformable portions and the remaining portions (low deformable portions).
In one embodiment of the present invention, the projection is composed of an outer cylindrical portion, an inner cylindrical portion and a top portion which connects the upper ends of the outer and inner cylindrical portions; the longitudinal slits are formed from the top portion to the outer and inner cylindrical portions; and the projection further includes lateral slits formed in through the outer cylindrical portion, each of the lateral slits connecting the lower ends, in the outer cylindrical portion, of two longitudinal slits which define each highly deformable portion therebetween.
According to another present invention, there is provided a female snap part (female snap) made of metal having a projection receiving, cylindrical depression to detachably engage with a cylindrical projection of a male snap part (male snap), and a cylindrical portion (depression-defining portion) which defines the depression therein, wherein the cylindrical portion includes a plurality of relatively highly deformable portions at predetermined angle intervals in the circumference direction of the cylindrical portion, and a plurality of remaining portions, each remaining portion being arranged between adjacent two of the highly deformable portions in the circumference direction, the highly deformable portions being more deformable elastically in the radial direction of the cylindrical portion than the remaining portions, and wherein each of the highly deformable portions has a relatively large, inner bulge bulging more inward in the radial direction at the upper part of each highly deformable portion than the upper part of each of the remaining portions.
In the present invention, the cylindrical portion defining the depression of the metallic female includes the highly deformable portions and the remaining portions, the highly deformable portions and the remaining portions being alternately arranged in the circumference direction. Here, supposing that the elasticity of the whole depression-defining portion of the female snap were the same as that of a depression-defining portion with only the highly deformable portions and with no remaining portions, it would be too easy to engage the depression of the female snap with the projection of the male snap, and the coupling strength between the depression and the projection would considerably decrease. On the other hand, supposing that the elasticity of the whole depression-defining portion were the same as that of a depression-defining portion with only the remaining portions and with no highly deformable portions, it would be too hard to engage the depression with the projection, and the coupling strength therebetween would considerably increase. For the present invention, since there are alternately arranged the highly deformable portions and the remaining portions in the depression-defining portion, it is possible to raise the coupling strength rather than that with the depression-defining portion having only highly deformable portions while making the engaging action between the depression and the projection easier than with the depression-defining portion having only remaining portions.
Further, in the present invention, since each highly deformable portion has the large inner bulge at its upper part, which bulges more inward in the radial direction than the upper part of each remaining portion, when the coupled depression and projection are separated, the coupling strength or detaching resistance therebetween increases by the large inner bulges being considerably caught by the male bulge.
In the present invention, the number of the large inner bulges provided in the circumference direction of the cylindrical portion of the female snap can be preferably three to eight or more.
In the present invention, as a metal material for making the female snap, copper alloy such as brass, aluminum alloy such as aluminum, and the like can be used.
In one embodiment of the present invention, each of the remaining portions (non-deformable portions) has a relatively small, inner bulge bulging less inward in the radial direction at the upper part of each remaining portion than the large inner bulge of each highly deformable portion.
In one embodiment of the present invention, the cylindrical portion includes longitudinal slits to partition the cylindrical portion into the highly deformable portions and the remaining portions.
In one embodiment of the present invention, the female snap part further has an outer circumference portion extending from the upper end of the cylindrical portion outward in the radial direction, wherein the longitudinal slits extend to the outer circumference portion, wherein the outer circumference portion includes lateral slits, each of the lateral slits connecting the ends of two longitudinal slits which define each highly deformable portion therebetween.
The metallic male snap part according to the present invention is capable of enhancing coupling strength with a female snap part by giving appropriate and sufficient elastic deformability to its projection without an additional element such as a spring. Especially, the male snap can exercise high detaching resistance because the large outer bulges of the highly deformable portion are caught by a female bulge when the male and female snaps are pulled to be separated from each other horizontally in the opposite directions.
The metallic female snap part according to the present invention is capable of enhancing coupling strength with a female snap part by giving appropriate and sufficient elastic deformability to its depression-defining portion without an additional element such as a spring. Especially, the female snap can exercise high detaching resistance because the large inner bulges of the highly deformable portion are caught by a male bulge when the female and male snaps are pulled to be separated from each other horizontally in the opposite directions.
Hereinafter, preferred embodiments of a male snap part (male snap) and a female snap part (female snap) according to the present invention will be described with referent to the drawings. In the following, directions such as upper, lower, right, left, etc. are based on the drawings being referred to.
The projection 20 is partitioned into, by way of example, eight segments 26 (26a, 26b) by making eight longitudinal slits 25 from the top of the projection 20 at intervals of 45° in the circumference direction. Each longitudinal slit 25 cuts through the top portion 23 and then through the outer and inner cylindrical portions 21 and 22 to the extent of approximately half the height of the projection 20. Accordingly, in the outer and inner cylindrical portions 21 and 22, there are slit-free areas 21′, 22′ (see
Though the above-mentioned male snap part 1 can be used with the after-mentioned female snap part 2 according to the present invention, the male snap 1 is normally used with conventional female snaps.
Since the male snap 1 includes the highly deformable segments 26a and the low deformable segments 26b alternately in the circumference direction, its coupling strength between the male and female snaps 1 and 3 is greater than that of male and female snaps with only highly deformable segments, and it is easier to attach and detach the male snap 1 to and from the female snap 3 than male and female snaps with only low deformable segments. Further, since the large bulges 24a of the highly deformable segments 26a can be considerably caught by the female bulge 51′ of the female snap 3, the coupling strength (or the detaching resistance) between the snaps 1 and 3 increases. Furthermore, the alternate large bulges 24a and small bulges 24b in the circumference direction in the male snap 1 can enhance the resistance for the projection 20 to rotate relative to and within the depression of the female snap 3. Accordingly, for instance, the male snap 1 is not detached from the female snap 3 too easily against a force so as to separate the coupled snaps 1 and 3 horizontally in the opposite directions, by keeping the large bulges 24a of the highly deformable segments 26a caught by the female bulge 51′ while the segments 26a are elastically deformed.
Next, a female snap part (female snap) 2 according to an embodiment of the present invention will be described.
In the inner cylindrical portion 32 and the flat top portion 31c, there are provided, by way of example, six highly deformable segments 36a at intervals of 60° in the circumference direction, the segments 36a being separated from the other part of the cylindrical and flat top portions 32, 31c by inverted U-shaped slits 37. Each of the slits 37 is composed of a pair of parallel longitudinal slits 37a, and an arc-shaped slit (a lateral slit) 37b connecting the ends, in the flat top portion 31c, of the parallel longitudinal slits 37a. In the inner cylindrical portion 32, there are six remaining portions 36b between adjacent two of the highly deformable portions 36a in the circumference direction. The remaining portions 36b are hereinafter referred to as the “non-deformable segments 36b.” Each of the highly deformable segments 36a is connected only to the inner base portion 33 and is slightly tilted to inward in the radial direction from its lower end at the boundary with the inner base portion 33. Accordingly, the highly defromable segments 36a are much more elastically deformable in the radial direction than the non-deformable segments 36b. The non-deformable segments 36b can be slightly and elastically deformable. Further, the inner bulges (large inner bulges) 35a in the highly deformable segments 36a bulge more inward in the radial direction than the inner bulges (small inner bulges) 35b in the non-deformable segments 36b.
Though the above-mentioned female snap part 2 can be used with the above-mentioned male snap part 1 according to the present invention, the female snap 2 is normally is used with conventional male snaps.
Since the female snap 2 includes the highly deformable segments 36a and the non-deformable segments 36b alternately in the circumference direction, its coupling strength between the female and male snaps 2 and 4 is greater than that of female and male snaps with only highly deformable segments, and it is easier to attach and detach the female snap 2 to and from the male snap 4 than female and male snaps with only non-deformable segments. Further, since the large bulges 35a of the highly deformable segments 36a can be considerably caught by the male bulge 61 of the male snap 4, the coupling strength (or the detaching resistance) between the snaps 2 and 4 increases. Furthermore, the alternate large bulges 35a and small bulges 35b in the circumference direction in the female snap 2 can enhance the resistance for the projection 60 of the male snap 4 to rotate relative to and within the depression 50 of the female snap 2. Accordingly, for instance, the female snap 2 is not detached from the male snap 4 too easily against a force so as to separate the coupled snaps 2 and 4 horizontally in the opposite directions, by keeping the large bulges 35a of the highly deformable segments 36a caught by the male bulge 61 while the segments 36a are elastically deformed.
Number | Date | Country | Kind |
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2008-50579 | Feb 2008 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2009/053691 | 2/27/2009 | WO | 00 | 12/2/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/107782 | 9/3/2009 | WO | A |
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Number | Date | Country | |
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20110113600 A1 | May 2011 | US |