The present invention generally pertains to snap fasteners. More specifically, the present invention pertains to water migration resistant snap fasteners. In embodiments, a snap fastener has radial patterned circles of gripping protrusions which securely grip a fabric or substrate and resist water migration from one side of the fabric or substrate to an opposite side of the fabric or substrate in the area of the snap fastener. Embodiments of the present invention can be particularly useful when used with waterproof or water resistant fabrics or substrates. The snap fasteners can provide effective resistance to water migration while maintaining effective holding strength of the snap fasteners to the waterproof fabric or substrate. The present invention also pertains to related methods, such as methods of making and using water migration resistant snap fasteners.
Water or liquid migration resistance is desirable for snap fasteners used in outdoor applications, for example, military applications, and other applications in which the snap fasteners come into contact with water, moisture or other liquids. Water migration refers to water, moisture or other liquids passing from one side of a fabric to which the snap fastener is attached to the opposite side of the fabric.
Snap fasteners which resist water migration exist. However, existing snap fasteners which resist water migration can be improved.
Referring to
The snap fastener attachment 10 of
It is desirable for snap fasteners attached to the fabric to stay in the attached position without rotation or sideways movement. This requirement applies generally to snap fasteners, including the snap fasteners of
Ordinary snap fasteners, such as the snap fastener attachment 10 of
Referring to
Accordingly, existing snap fasteners, particularly snap fasteners intended to resist water migration, have experienced problems and can be improved. Thus, needs exist to improve snap fasteners for the reasons mentioned above and for other reasons.
The present invention provides new snap fasteners which resist water migration from one side of a fabric or substrate to which the snap fastener is attached to the opposite side of the fabric or substrate. Embodiments of water migration resistant snap fasteners of the present invention have radially offset patterned circles of gripping protrusions which do not penetrate through the fabric. Also, the radially offset patterned circles of gripping protrusions securely grip the fabric and maintain the snap fasteners in the proper location on the fabric.
The water migration resistant snap fasteners of the present invention can be particularly useful in applications where the snap fasteners come into contact with water, moisture or other liquids. The water migration resistant snap fasteners can be used in military applications, outdoor applications, and other applications where water, moisture or liquid migration resistance is desired. The water migration resistant snap fasteners may be made of plastic materials which resist water, moisture or other liquids. Of course, the water migration resistant snap fasteners can be made of other materials, such as metal materials.
In an embodiment of the present invention, a water migration resistant device is attachable to a fabric and releasably engagable with a mating snap fastener member. The water migration resistant device has a first member having an engagement portion on a first side and being releasably engagable with the mating snap fastener member. The first member has a fabric contact side opposite the first side. A plurality of first fabric gripping protrusions are provided on the fabric contact side of the first member. The first fabric gripping protrusions are non-fabric-penetrating protrusions. A second member is lockingly engagable to the first member and has a fabric contact side. A plurality of second fabric gripping protrusions are provided on the fabric contact side of the second member. The second fabric gripping protrusions are non-fabric-penetrating protrusions. The plurality of first and second fabric gripping protrusions are offset from each other such that during use of the water migration resistant device the first and second members are lockingly engaged with each other with the fabric captured between the first and second members without the first and second fabric gripping protrusions penetrating the fabric.
The plurality of first fabric gripping protrusions may be arranged in a circular pattern about a center of the water migration resistant device. The plurality of second fabric gripping protrusions may be arranged in a circular pattern about the center of the water migration resistant device and radially offset from the plurality of first fabric gripping protrusions.
The plurality of first fabric gripping protrusions may be arranged at a radial distance from the center which is greater than a radial distance from the center for the plurality of second fabric gripping protrusions.
Adjacent individual first fabric gripping protrusions of the plurality of first fabric gripping protrusions may be circumferentially spaced apart from each other by a gap, and the individual first fabric gripping protrusion may have a length which is longer than a length of the gap.
Adjacent individual second fabric gripping protrusions of the plurality of second fabric gripping protrusions may be circumferentially spaced apart from each other by a gap, and the individual second fabric gripping protrusion may have a length which is longer than a length of the gap.
The first member may be a snap fastener stud or a snap fastener socket. The second member may be a snaptop.
The first and second members may be made of plastic.
At least one of the plurality of first and second fabric gripping protrusions may have a triangular shape in cross-section in which a first side of the triangular shape is a base side of the triangular shape on the respective first member or second member, an apex of the triangular shape is opposite the first side, a second side of the triangular shape forms an angle Y at the apex which is about 45° or less, and a third side of the triangular shape forms an angle X at the apex of about 45°. The second side of the triangular shape having the angle Y of the first fabric gripping protrusion may face the second side of the triangular shape having the angle Y of the second fabric gripping protrusion.
In another embodiment of the present invention, a water migration resistant device is attachable to a fabric and releasably engagable with a mating snap fastener member. The water migration resistant device has a water migration resistant snap fastener member having a body portion having an engagement portion on a first side of the body portion releasably engagable with the mating snap fastener member and a fabric contact side opposite the first side. A plurality of first fabric gripping protrusions are provided on the fabric contact side of the body portion of the snap fastener member. The first fabric gripping protrusions are non-fabric-penetrating protrusions. A water migration resistant snaptop is lockingly engagable to the water migration resistant snap fastener member and has a body portion having a fabric contact side. A plurality of second fabric gripping protrusions are provided on the fabric contact side of the body portion of the snaptop. The second fabric gripping protrusions are non-fabric-penetrating protrusions. The plurality of first and second fabric gripping protrusions are offset from each other such that during use of the water migration resistant device the water migration resistant snap fastener member and the water migration resistant snaptop are lockingly engaged with each other with the fabric captured between the water migration resistant snap fastener member and the water migration resistant snaptop without the first and second fabric gripping protrusions penetrating the fabric.
The plurality of first fabric gripping protrusions may be arranged in a circular pattern about a center of the water migration resistant device. The plurality of second fabric gripping protrusions may be arranged in a circular pattern about the center of the water migration resistant device and are radially offset from the plurality of first fabric gripping protrusions.
The plurality of first fabric gripping protrusions may be arranged at a radial distance from the center which is greater than a radial distance from the center for the plurality of second fabric gripping protrusions.
Adjacent individual first fabric gripping protrusions of the plurality of first fabric gripping protrusions may be circumferentially spaced apart from each other by a first gap. The individual first fabric gripping protrusion may have a length which is longer than a length of the first gap. Adjacent individual second fabric gripping protrusions of the plurality of second fabric gripping protrusions may be circumferentially spaced apart from each other by a second gap. The individual second fabric gripping protrusion may have a length which is longer than a length of the second gap.
The plurality of first and second fabric gripping protrusions may have a triangular shape in cross-section in which a first side of the triangular shape is a base side of the triangular shape on the body portion of the respective snap fastener member or snaptop, an apex of the triangular shape is opposite the first side, a second side of the triangular shape forms an angle Y at the apex which is about 45° or less, and a third side of the triangular shape forms an angle X at the apex of about 45°. The second side of the triangular shape having the angle Y of the first fabric gripping protrusion faces the second side of the triangular shape having the angle Y of the second fabric gripping protrusion.
In another embodiment of the present invention, a water migration resistant snap fastener is attachable to a fabric and has a stud having a socket engagement portion on a first side and a fabric contact side opposite the first side. A plurality of first fabric gripping protrusions are provided on the fabric contact side of the stud and are arranged in a generally circular pattern. The first fabric gripping protrusions are non-fabric-penetrating protrusions. A first snaptop is lockingly engagable to the stud with the fabric therebetween during use. The first snaptop has a fabric contact side. A plurality of second fabric gripping protrusions are provided on the fabric contact side of the first snaptop and are arranged in a generally circular pattern. The second fabric gripping protrusions are radially offset from the first fabric gripping protrusions and are non-fabric-penetrating protrusions. A socket has a stud engagement portion on a first side and a fabric contact side opposite the first side. The stud and the socket are releasably engagable with each other. A plurality of third fabric gripping protrusions are provided on the fabric contact side of the socket and are arranged in a generally circular pattern. The third fabric gripping protrusions are non-fabric-penetrating protrusions. A second snaptop is lockingly engagable to the socket with the fabric therebetween during use. The second snaptop has a fabric contact side. A plurality of fourth fabric gripping protrusions are provided on the fabric contact side of the second snaptop and are arranged in a generally circular pattern. The fourth fabric gripping protrusions are radially offset from the third fabric gripping protrusions and are non-fabric-penetrating protrusions.
Embodiments of the present invention may have various features and provide various advantages. Any of the features and advantages of the present invention may be desired, but, are not necessarily required to practice the present invention.
Advantages of the present invention can be to provide new snap fasteners.
Further advantages of the present invention can be to provide water migration resistant snap fasteners.
Another advantage of the present invention can be to resist or even prevent water, moisture or other liquids from migrating from one side of a fabric to an opposite side of the fabric in the area that the snap fastener is attached to the fabric.
A further advantage of the present invention can be to provide a waterproof seal between a snap fastener, such as a plastic snap fastener, and a fabric.
Other advantages may include providing new methods of making and using water migration resistant snap fasteners.
Additional features and advantages of the present invention are described in, and will be apparent from, the following Detailed Description of the Invention and the figures.
a is a plan view of a stud of a water migration resistant snap fastener according to the present invention and
a is a plan view of a socket of the water migration resistant snap fastener according to the present invention and
a is a plan view of a snaptop of the water migration resistant snap fastener according to the present invention and
One example of a water migration resistant snap fastener according to the present invention is shown in
a is a plan view showing the stud 36 of the water migration resistant snap fastener and
Referring to
Referring to
The stud 36 and the socket 38 of the water migration resistant snap fastener can be removably snapped together. More specifically, the spring action engagement portions 46, 68 of the stud 36 and the socket 38 can be resiliently engaged and disengaged with each other. The spring action engagement portion 46 of the stud 36 has an outer diameter along with and inner diameter of the spring action engagement portion 68 of the socket 38 which allows for a resilient spring action interference fit. An outward facing annular protrusion 74 on the spring action engagement portion 46 of the stud 36 resiliently slides past a corresponding inward facing annular protrusion 76 on the spring action engagement portion 68 of the socket 38 during engagement and disengagement of the stud 36 and the socket 38.
Referring to
The gripping protrusions 58, 72, 82, which are a significant feature of the present invention, will now be described in detail with reference to
Referring to
Referring to
The patterned circles of gripping protrusions 58, 72, 82 do not penetrate the fabric 42. Rather, the patterned circles of gripping protrusions 58, 72, 82 are structured so that the fabric 42 wraps around the patterned circles of gripping protrusions 58, 72, 82. One reason resistance to water migration through the fabric 42 is maintained is because the patterned circles of gripping protrusions 58, 72, 82 do not penetrate the fabric 42.
Referring to
One advantage of the gripping protrusions 58, 72, 82 is the water migration resistant snap fastener has a watertight seal against the fabric 42. Referring to the existing snap fastener 10 of
Referring to
When the snaptop 40 is engaged with the stud 36 or the socket 38, the gripping protrusions 82 of the snaptop 40 are offset radially relative to the respective cooperating gripping protrusions 58 of the stud 36 or the gripping protrusions 72 of the socket 38. The number of gaps 88 and gripping protrusions 82 of the snaptop 40 can be different relative to the number of the gaps 84, 86 and the gripping protrusions 58, 72 of the stud 36 and the socket 38 to provide circumferential staggering of the offset patterned circles of gripping protrusions 58, 72, 82. The circumferential staggering of the offset patterned circles of gripping protrusions 58, 72, 82 can provide enhanced gripping of the fabric 42.
Referring to
Embodiments of the present invention can provide important advantages. For example, embodiments of the water migration resistant snap fastener can securely hold the fabric 42 by squeezing the fabric 42 without penetrating the fabric 42 and by using friction created by forming alternately thick and thin fabric portions to grip the fabric 42. Embodiments of the present invention applied to waterproof fabric 42 can provide watertight seals between the fabric 42 and the stud 36 and snaptop 40 and between the fabric 42 and the socket 38 and snaptop 40. A particularly watertight seal against water migration can be at the location fc1 shown in
Another feature or advantage of embodiments of the present invention is that the stack height of the water migration resistant snap fastener has a low-profile. In other words, the overall height of the water migration resistant snap fastener is not excessively large as with some existing snap fasteners. The heights of the assembled stud 36 and snaptop 40 and the assembled socket 38 and snaptop 40 are low as well as the overall height of the snap fastener when the stud 36 and the socket 38 are snapped together. The low-profile of the water migration resistant snap fastener can be achieved while maintaining the secure attachment to the fabric 42 and maintaining the watertight seals against the fabric.
The present invention can be practiced with many changes made to the disclosed examples of the water migration resistant snap fastener. Also, any portion or portions of the water migration resistant snap fastener or the entire water migration resistant snap fastener socket can be made of any desired material or combination of materials. For example, the water migration resistant snap fastener may be made of plastic material. Of course, other materials can be used alone or in combination with plastic materials, for example metal materials.
It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present invention and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.
Number | Name | Date | Kind |
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1646053 | Clark | Oct 1927 | A |
2012241 | Dill | Aug 1935 | A |
2548004 | Duefrene | Apr 1951 | A |
6006406 | Chung | Dec 1999 | A |
Number | Date | Country |
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U-55-72407 | May 1980 | JP |
Y2-63-8246 | Mar 1988 | JP |
10108712 | Apr 1998 | JP |
11346809 | Dec 1999 | JP |
Y1-20-0401536 | Nov 2005 | KR |
Number | Date | Country | |
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20090089978 A1 | Apr 2009 | US |