The resilient snap connector system includes a resilient connector strap selectively coupled to a first connector and a second connector spaced from the first connector to form a bridged connection between the first and second connectors. In a typical use, the first connector is fixed to a deformable object, such as a tarp, and the second connector is fixed to another object, such as a hull. The resilient connector strap enables connection between the objects when the separation distance may be too long for normal engagement of the connectors by stretching to accommodate the separation. A pull tab is provided on the resilient connector strap to assist in the stretching and coupling.

According to an example aspect of the present invention, there is provided a female snap connector with a base and a cap which opposes the base and forms a depth for the snap connector. The female snap connector further includes a socket that is formed into the cap for receiving the stud of a co-operational male snap connector. The base material of the female snap connector is or comprises a conductive polymer. The socket is set to deform elastically for complying to the passage of the complementary shape of the stud within the socket during insertion and removal of the stud in the depth dimension of the female snap connector.

A garment system includes a garment, a first male connector, and a female connector. The first male connector is coupled with the garment and includes a base and a first ridge coupled with and protruding from the base. The first ridge defines an aperture and has a first ridge outer wall, a first ridge inner wall, and a first ridge central portion extending therebetween. The first ridge further includes a ramp extending from the aperture toward the base at a non-zero angle, and a shelf coupled with the ramp and defining a securing cavity. The female connector is configured to be coupled with the first male connector and includes a cap and a rim. The rim is coupled with and protrudes from the cap, and extends substantially around the cap. A tab is coupled with the rim inner wall and is sized to fit within the aperture.

Provided is a male snap button (10) including a metal male snap body (20), and a fixing member (30) for fixing the male snap body (20) to a fabric (1). The male snap body (20) includes: a male-side engagement part (21) in annular shape capable of being removably engaged with a female-side engagement part (60) of a female snap button (40); and multiple claws (27). The male-side engagement part (21) defines an opening (28) that exposes the fabric (1) inside in a radial direction thereof. A diameter (D1) of the opening (28) is greater than a length (W1) in the radial direction from an outside edge of the opening (28) in the radial direction to an outside edge of the male snap body (20) in the radial direction. The fixing member (30, 30a) includes claw accommodation parts (33) to receive the claws (27).

A female snap assembly includes a cage and an engagement member. The cage defines a receiving region, and the engagement member is within the receiving region. The engagement member includes a base, an inner engagement wall extending from base, and an outer engagement wall extending from the base. In some examples, the engagement member defines a channel between the inner engagement wall and the outer engagement wall. In various examples, the inner engagement wall defines at least one notch extending through the inner engagement wall.

Provided is a male snap button (10) including a metal male snap body (20), and a fixing member (30) for fixing the male snap body (20) to a fabric (1). The male snap body (20) includes: a male-side engagement part (21) in annular shape capable of being removably engaged with a female-side engagement part (60) of a female snap button (40); and multiple claws (27). The male-side engagement part (21) defines an opening (28) that exposes the fabric (1) inside in a radial direction thereof. A diameter (D1) of the opening (28) is greater than a length (W1) in the radial direction from an outside edge of the opening (28) in the radial direction to an outside edge of the male snap body (20) in the radial direction. The fixing member (30, 30a) includes claw accommodation parts (33) to receive the claws (27).

A mount secures an object to sheets of material with one or more material thicknesses. The mount includes an inner plate and an outer plate. The outer plate includes a coupler for the object and one or more contact surfaces associated with one or more material thicknesses. The inner plate includes a retention structure to engage a contact surface of the outer plate. The outer plate may comprise a locking element to A mounting system includes a mount and a coupler integrated with the object to be secured to a sheet of material. The object may be a camera and the mount may be a camera mount.

A snap button includes a male component and a female component which couple and uncouple as a result of effort in a main axial direction. The male component has a base from which there protrudes a rounded head, which is provided with a neck which is narrower than the head. The female component has a hollow body with an opening within which the head of the male component is introduced. Two flexible bars of a plastics material are mounted in the hollow body, the flexible bars having the ends thereof blocked. The distance between the central zones of the two flexible bars is lower than the dimension of the head of the male component so that they can be flexibly forced away from each other by a force exerted by the head of the male component and to resiliently move back towards each other when the force stops.

Embodiments disclosed herein relate to magnetic fasteners capable of transitioning between a locked state and an unlocked state. In some embodiments, the magnetic fastener includes a first fastening portion and a second fastening portion configured to interface with one another. The first fastening portion may include a first pin with a channel configured to receive a second pin disposed on the second fastening portion. The channel may include a recess and the second pin may include a projection complementary to the recess such that the projection may be disposed within the recess when the respective central axes of the first and second fastening portions are offset. Thus, a portion of the recess may abut the projection when the respective central axes of the first and second fastening portions are offset, thus locking the first and second fastening portions relative to one another. Conversely, when the respective central axes of the first and second fastening portions are aligned, the projection may not be disposed within the recess, and accordingly, the first and second fastening portions may be capable of being unfastened from one another.

Embodiments disclosed herein relate to magnetic fasteners capable of transitioning between a locked state and an unlocked state. In some embodiments, the magnetic fastener includes a first fastening portion and a second fastening portion configured to interface with one another. The first fastening portion may include a first pin with a channel configured to receive a second pin disposed on the second fastening portion. The channel may include a recess and the second pin may include a projection complementary to the recess such that the projection may be disposed within the recess when the respective central axes of the first and second fastening portions are offset. Thus, a portion of the recess may abut the projection when the respective central axes of the first and second fastening portions are offset, thus locking the first and second fastening portions relative to one another. Conversely, when the respective central axes of the first and second fastening portions are aligned, the projection may not be disposed within the recess, and accordingly, the first and second fastening portions may be capable of being unfastened from one another.