WO2019125710A1 - Magnetic fasteners providing an electrical connection - Google Patents
Magnetic fasteners providing an electrical connection Download PDFInfo
- Publication number
- WO2019125710A1 WO2019125710A1 PCT/US2018/062748 US2018062748W WO2019125710A1 WO 2019125710 A1 WO2019125710 A1 WO 2019125710A1 US 2018062748 W US2018062748 W US 2018062748W WO 2019125710 A1 WO2019125710 A1 WO 2019125710A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- fastening element
- male
- female
- male fastening
- stud
- Prior art date
Links
Classifications
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D1/00—Garments
- A41D1/002—Garments adapted to accommodate electronic equipment
- A41D1/005—Garments adapted to accommodate electronic equipment with embedded cable or connector
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41F—GARMENT FASTENINGS; SUSPENDERS
- A41F1/00—Fastening devices specially adapted for garments
- A41F1/002—Magnetic fastening devices
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B17/00—Press-button or snap fasteners
- A44B17/0047—Press-button fasteners consisting of three parts
-
- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B17/00—Press-button or snap fasteners
- A44B17/0064—Details
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/6205—Two-part coupling devices held in engagement by a magnet
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/627—Snap or like fastening
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R33/00—Coupling devices specially adapted for supporting apparatus and having one part acting as a holder providing support and electrical connection via a counterpart which is structurally associated with the apparatus, e.g. lamp holders; Separate parts thereof
-
- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B17/00—Press-button or snap fasteners
Definitions
- Magnetic snap fasteners are commonly used to provide convenient releasable coupling of two or more components and/or materials in articles such as clothing, bags, purses, shoes, and the like.
- Magnetic snap fasteners typically include a male portion attached to a first component or base material that is designed to releasably mate with a female portion attached to a second component or base material. Accordingly, mating of the male and female portions of the fastener facilitate coupling the first and second components together.
- the female portion includes a magnet and the male portion includes a material that is magnetically attracted to the magnet contained in the female portion. Accordingly, the magnetic attraction between the male and female portions enables the releasable coupling of the male and female portions of the magnetic fastener.
- Magnetic snap fasteners are commonly used to provide convenient releasable coupling of two or more components and/or materials in articles such as clothing, bags, purses, shoes, and the like.
- Magnetic snap fasteners typically include a male portion attached to a first component or base material that is designed to releasably mate with a female portion attached to a second component or base material. Accordingly, mating of the male and female portions of the fastener facilitate coupling the first and second components together.
- the female portion includes a magnet and the male portion includes a material that is magnetically attracted to the magnet contained in the female portion. Accordingly, the magnetic attraction between the male and female portions enables the releasable coupling of the male and female portions of the magnetic fastener.
- Exemplary embodiments of the present embodiment can provide an electrically conductive magnetic snap fastener for releasably coupling a first material to a second material.
- the fastener can include a male fastening element affixable to the first material, where the male fastening element can include an integrally formed stud and stud flange.
- the electrically conductive magnetic snap fastener can further include a female fastening element affixable to the second material, where the female fastening assembly can include a cover, a backplate, and a magnet disposed within a cavity defined by the cover.
- the male fastening element and the female fastening element can be magnetically couplable to each other such that the male fastening element can contact the female fastening element to form a conductive electrical path through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
- the male fastening element can contact the cover of the female fastening element, and the conductive electrical path can be formed through at least the male fastening element, the cover and the back plate.
- the integrally formed stud and stud flange can be formed from a single piece of ferromagnetic material by stamping or drawing.
- the backplate can include at least one leg for affixing to the second material. Further, the at least one leg can be integrally formed as part of the backplate.
- the backplate can include at least one drawn tubular post that serves as a rivet for affixing to the second material. Further, the drawn tubular post can be integrally formed as part of the backplate.
- the drawn tubular post can include a crush-fit post.
- Another embodiment of the present invention can provide a component of a magnetic snap fastener for releasably coupling a first material to a second material.
- the fastener can include a male fastening element affixable to the first material.
- the male fastening element can include an integrally formed stud and stud flange formed from a single piece of material by stamping or drawing.
- the component of a magnetic snap can further include a female fastening element affixable to the second material.
- the female fastening assembly including a cover, a backplate, and a magnet disposed within a cavity defined by the cover, where the backplate can include at least one integrally formed leg.
- the male fastening element and the female fastening element can provide magnetic coupling to releasably couple the first and second materials.
- the male fastening element can contact the cover of the female fastening element, and a conductive electrical path can be formed through at least the male fastening element, the cover and the back plate.
- the integrally formed stud and stud flange can be formed from a single piece of ferromagnetic material by stamping or drawing.
- the male fastening element can be disposable.
- the male fastening element can also be affixed to the first material by a press-fit or crush-fit arrangement.
- Yet another exemplary embodiment of the present invention can provide a magnetic snap fastener for releasably coupling a first material to a second material.
- the fastener can include a female fastening element affixable to the second material.
- the female fastening assembly can include a cover, a backplate, and a magnet disposed within a cavity defined by the cover. Further, the backplate including at least one integrally formed leg.
- the magnetic snap fastener can further include a male fastening element affixable to the first material.
- the male fastening element can include an integrally formed stud and stud flange formed from a single piece of ferromagnetic material by stamping or drawing.
- the male fastening element and the female fastening element can provide magnetic coupling to releasably couple the first and second materials.
- the male fastening element can be disposable.
- the male fastening element can be affixed to the first material by a press-fit or crush-fit arrangement.
- Yet another exemplary embodiment of the present invention can provide an electrical device including a first portion having a male fastening element affixed thereon, where the male fastening element can include an integrally formed stud and stud flange.
- the electrical device can further include a second portion having a female fastening element affixed thereon, where the female fastening assembly can include a cover, a backplate, and a magnet disposed within a cavity defined by the cover.
- the male fastening element and the female fastening element can be magnetically couplable to each other such that the male fastening element contacts the female fastening element to form a conductive electrical path from the first portion to the second portion through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
- the electrical device can further include a sensor.
- the sensor can include at least one of a heart sensor or a fitness tracker.
- Yet another exemplary embodiment can provide a magnetic snap fastener component including a male fastening element affixable to a base material.
- the male fastening element can include an integrally formed stud and stud flange and configured to magnetically couple with a female fastening element having a magnet and create a conductive electrical path through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
- FIG. 1A is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention
- FIG. 1 B is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention
- FIG. 2 is an exploded view of an exemplary fastening element of the magnetic snap fastener shown in Figs. 1 A and 1 B;
- FIG. 3A is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention
- FIG. 3B is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention
- Fig. 4 is an exploded view of an exemplary fastening element of the magnetic snap fastener shown in Figs. 3A and 3B;
- FIG. 5 is a cross-sectional view of yet another exemplary fastening element of a magnetic snap fastener according to an embodiment of the present invention.
- FIG. 6 is an illustration of an exemplary magnetic snap fastener according to an embodiment of the present invention
- Fig. 7 is a perspective view of an exemplary magnetic snap fastener according to an embodiment of the present invention
- Fig. 8A is a cross-sectional view of the male components for an exemplary magnetic snap fastener according to an embodiment of the present invention
- Fig. 8B is a cross-sectional view of the male components for an exemplary magnetic snap fastener according to an embodiment of the present invention.
- Fig. 8C is a cross-sectional view of the male components for an exemplary magnetic snap fastener according to an embodiment of the present invention.
- Embodiments of the present invention generally relate to magnetic snap fasteners that can provide an electrical connection for the conduction of electrical signals without the use of a separate electrical conductor.
- embodiments of the present invention are described with respect to magnetic fasteners, the systems and methods described herein are not limited thereto, and can be applicable to any type of fastener or coupling device.
- FIGs. 1A and 1 B show exemplary magnetic fastener 1000 in a separated/unmated arrangement and a mated/coupled arrangement, respectively, according to an embodiment of the present invention.
- magnetic fastener 1000 can include female portion 1100 and male portion 1200.
- Female portion 1100 and male portion 1200 can each be attached to a component and/or base material (not shown) and can be configured to releasably mate with each other (e.g., include complementary shapes) so as to releasably couple the components and/or base materials to which they are attached.
- a component and/or base material not shown
- each other e.g., include complementary shapes
- female portion 1 100 can include back plate 1 102, cover 1 108, magnetic ring 1 106 disposed within cover 1 108, and central channel 1 1 10 extending therethrough.
- cover 1 108 can define a substantially cylindrical ring-shaped cavity, and magnetic ring 1 106 can be disposed therein.
- Male portion 1200 can include stud flange 1202 and stud 1204.
- male portion 1200 can be a one-piece stud, such that stud flange 1202 and stud 1204 are integrally formed.
- male portion 1200 can be stamped, formed, or drawn from the ferromagnetic material from which it is made so that flange 1202 and stud 1204 are integrally formed from a single piece of material, such as sheet metal. This can provide an inexpensive and efficient magnetic closure which could be used for garments, apparel, and many other applications. According to certain exemplary embodiments, male portion 1200 can be made inexpensively such that it is a disposable component. For example, male portion 1200 can be designed to be disposable after one or more uses.
- Back plate 1 102 of female portion 1 100 can include one or more legs 1 104, which can facilitate coupling female potion 1 100 to the component and/or material (e.g., printed circuit board, etc.) to be coupled.
- legs 1 104 can be integrally formed as part of back plate 1 102 (e.g., formed by folding portions of back plate 1 102 to form legs 1 104) and back plate 1 102 can include a ferromagnetic and/or conductive material.
- cover 1 108 can include a continuous rim 1 108a, which can secure back plate 1 102 without the need for additional mechanical attachment mechanisms to secure back place 1 102.
- cover 1 108, magnet 1 106 and back plate 1 102 can be configured to create a seal therebetween such that fluids cannot enter the internals of magnetic fastener 1000.
- magnetic fastener 1000 can include additional washers or other sealing elements to prevent fluids from entering the internals of magnetic fastener 1000.
- male portion 1200 includes a metal ferromagnetic material so that it is magnetically attracted to magnetic ring 1 106 of female portion 1 100.
- the shape of the male portion 1200 and female portion 1 100 channel the magnetic flux of magnetic ring 1 106 of female portion 1 100 through the center of magnetic ring 1 106 of female portion 1 100 so that the flux of the magnet is used effectively to magnetically attract male portion 1200 and female portion 1 100 to one another.
- male portion 1200 and female portion 1 100 can include coupling elements to facilitate coupling of the male portion 1200 and female portion 1 100 to their respective component and/or base material.
- male portion 1200 and female portion 1 100 can include, e.g., connectors, solder pads, etc. to facilitate coupling male portion 1200 and female portion 1 100 to their respective component and/or base material (e.g., PCBs, connectors, etc.) and provide an electrical connection between their respective components and/or base materials (e.g., PCB, connector, etc.).
- male portion 1200 can be coupled to its component and/or base material via a post (e.g., metal, plastic, plastic coated with conductive material, etc.) disposed within the ball of stud 1204 so that male portion 1200 can be crush fit or press fit onto its component and/or base material.
- a post e.g., metal, plastic, plastic coated with conductive material, etc.
- male portion 1200 can be coupled onto component/base material 102 via post 120.
- Figures 8A, 8B, and 8C show exemplary attachments of male portion 1200 to a component/base material, such as, for example, plastic, textile, or other material.
- Fig. 8A shows coupling of the stud 1204 onto post 120 via, for example, a press fit or crush fit type attachment.
- Fig 8B shows stud 1204 coupled to a crush attached post 120 (e.g.,“crush- fit”).
- post 120 can be designed and configured such that tip portion 120a can be crushed/deformed when compressed within a cavity of stud 1204.
- the portion configured to“crush” within a hollow cavity of stud 1204 as male portion 1200 is coupled to material 102 can include an electrical conductive material and can contact an interior surface of the ball of stud 1204 to provide electrical conductivity.
- post 120 can be made from sheet metal or machined form solid material.
- Post 120 can include a hollow tube with an open or closed tip, or alternatively, post 120 can include a semi tubular solid post.
- stud 1204 and post 120 can be driven together until the tip of the post 1202 is deformed/crushed and expands within the cavity of the stud 1204 to lock the two components together.
- Fig 8C shows the stud 1204 coupled to post 120 via a drive or press fit arrangement.
- the diameter of post 120 is preferably greater than the diameter of the opening in the back of stud 1204 such that the frictional force created between an interior surface of stud 1204 and post 120 holds the two components together. Similar to the crush-fit arrangement shown in Fig. 8B, contact of post 120 with an interior surface of stud 1204 can provide electrical conductivity in this arrangement.
- legs 1 104 of female portion 1 100 can provide electrical connectivity of female portion 1 100 to its component and/or base material. Accordingly, when male portion 1200 is mated to female portion 1 100, an electrical connection can be provided from male portion 1200 (e.g., via stud 1204 or stud flange 1202) to female portion 1 100 (e.g., via cover 1 108 or back plate 1 102) without requiring an additional separate conductor.
- female portion 1 100 and male portion 1200 are magnetically attracted to each other in view of magnetic ring 1 106 and the ferromagnetic material of male portion 1200.
- the shape of the male portion 1200 and female portion 1 100 channel the magnetic flux of magnetic ring 1 106 of female portion 1 100 through the center of magnetic ring 1 106 of female portion 1 100 so that the flux of the magnet is used effectively to magnetically attract male portion 1200 and female portion 1 100 to one another.
- male portion 1200 can include a magnet and female portion 1 100 can include a ferromagnetic material.
- the magnetic attraction can releasably mate male portion 1200 to female portion 1 100 and the contact between male portion 1200 and female portion 1 100 can provide the electrical connection, without the need for a separate conductor.
- stud 1204 can be received in central channel 1 1 10, and the magnetic attraction releasably couples male portion 1200 to female portion 1 100.
- Fig. 1 B shows magnetic fastener 1 100 in a mated, coupled arrangement.
- the electrical connection can be made through the contact made between stud flange 1202 and cover 1 108 without a separate conductor.
- Fig. 1 B shows magnetic fastener 1 100 in a mated, coupled arrangement.
- the electrical connection can be made through the contact made between stud flange 1202 and cover 1 108 without a separate conductor.
- stud 1204 and back plate 1 102 can be configured such that when male portion 1200 is coupled to female portion 1 100, stud 1204 contacts back plate 1 102 to form an electrical connection. Accordingly, the electrical connection between male portion 1200 and female portion 1 100 can be provided by the contact between stud 1204 and back plate 1 102.
- Fig. 2 shows an exploded perspective view of female portion 1 100. As shown in Fig. 2, female portion 1 100 can include cover 1 108, magnet ring 1 106, back plate 1 102, and central channel 1 1 10 extending therethrough. Magnet ring 1 106 can be received in cover 1 108, and back plate 1 102 can be coupled to cover 1 108 to maintain magnet ring 1 106 within cover 1 108. Also shown in Fig. 2 are legs 1 104, which can be integrally formed as part of back plate 1 102.
- FIGs. 3A and 3B show exemplary magnetic fastener 1000’ in a separated/unmated arrangement and a mated/coupled arrangement, respectively, according to another embodiment of the present invention.
- magnetic fastener 1000’ is substantially similar to magnetic fastener 1000, however, as shown in Figs. 3A and 3B, back plate 1 102’ of female portion 1 100’ is closed such that closed-end central channel 1 1 10’ does not extend therethrough.
- magnetic fastener 1000’ can include female portion 1 100’ and male portion 1200’.
- Female portion 1 100’ and male portion 1200’ can each be attached to a component and/or base material (not shown) and can be configured to releasably mate with each other (e.g., include complementary shapes) so as to releasably couple the components and/or base materials to which they are attached.
- female portion 1 100’ can include back plate
- cover 1 108’ can define a substantially cylindrical ring-shaped cavity, and magnetic ring 1 106’ can be disposed therein.
- Male portion 1200’ can include stud flange 1202’ and stud 1204’.
- male portion 1200’ can be a one-piece stud, such that stud flange 1202’ and stud 1204’ are integrally formed.
- male portion 1200’ can be stamped, formed, or drawn from the ferromagnetic material from which it is made, such as sheet metal, so that stud flange 1202 and stud 1204 are integrally formed from a single piece of material. This can provide an inexpensive and efficient magnetic closure which could be used for garments, apparel, handbags, and many other applications.
- male portion 1200’ can be made inexpensively such that it is a disposable component.
- male portion 1200’ can be designed to be disposable after one or more uses.
- Back plate 1 102’ of female portion 1 100’ can include one or more legs 1 104’, which can facilitate coupling female potion 1 100’ to the component and/or material (e.g., printed circuit board, etc.) to be coupled.
- legs 1 104’ can be integrally formed as part of back plate 1 102’ (e.g., formed by folding portions of back plate 1 102’ to form legs 1 104’) and back plate 1 102’ can include a ferromagnetic and/or conductive material.
- cover 1 108’, magnet 1 106’ and back plate 1 102’ can be configured to create a seal therebetween such that fluids cannot enter the internals of magnetic fastener 1000’.
- magnetic fastener 1000’ can include additional washers or other sealing elements to prevent fluids from entering the internals of magnetic fastener 1000’.
- male portion 1200’ includes a metal ferromagnetic material so that it is magnetically attracted to magnetic ring 1 106’ of female portion 1 100’.
- the shape of the male portion 1200’ and female portion 1 100’ channel the magnetic flux of magnetic ring 1 106’ of female portion 1 100’ through the center of magnetic ring 1 106’ of female portion 1 100’ so that the flux of the magnet is used effectively to magnetically attract male portion 1200’ and female portion 1 100’ to one another.
- male portion 1200’ and female portion 1 100’ can include coupling elements to facilitate coupling of the male portion 1200’ and female portion 1 100’ to their respective component and/or base material.
- male portion 1200’ and female portion 1 100’ can include, e.g., connectors, solder pads, etc. to facilitate coupling male portion 1200’ and female portion 1 100’ to their respective component and/or base material (e.g., PCB, connector, etc.) and provide an electrical connection between their respective components and/or base materials (e.g., PCBs, connectors, etc.).
- male portion 1200’ can be coupled to its component and/or base material via a post (e.g., metal, plastic, plastic coated with conductive material, etc.) disposed within the ball of stud 1204’ so that male portion 1200’ can be crush fit or press fit onto its component and/or base material.
- Male portion 1200’ can employ coupling arrangements similar to those described herein with respect to male portion 1200 and shown in Figs. 8A-8C.
- legs 1 104’ of female portion 1 100’ can provide electrical connectivity of female portion 1 100’ to its component and/or base material.
- male portion 1200’ when male portion 1200’ is mated to female portion 1 100’, an electrical connection can be provided from male portion 1200’ (e.g., via stud 1204’ or stud flange 1202’) to female portion 1 100’ (e.g., via cover 1 108’ or back plate 1 102’) without requiring an additional separate conductor.
- female portion 1 100’ and male portion 1200’ are magnetically attracted to each other in view of magnetic ring 1 106’ and the ferromagnetic material of male portion 1200’.
- the shape of the male portion 1200’ and female portion 1 100’ channel the magnetic flux of magnetic ring 1 106’ of female portion 1 100’ through the center of magnetic ring 1 106’ of female portion 1 100’ so that the flux of the magnet is used effectively to magnetically attract male portion 1200’ and female portion 1 100’ to one another.
- male portion 1200’ can include a magnet and female portion 1 100’ can include a ferromagnetic mater or male portion 1200’ and female portion 1 100’ can both include magnets.
- the magnetic attraction can releasably mate male portion 1200’ to female portion 1 100’ and the contact between male portion 1200’ and female portion 1 100’ can provide the electrical connection, without the need for a separate conductor.
- stud 1204’ can be received in closed-end central channel 1 1 10’, and the magnetic attraction releasably couples male portion 1200’ to female portion 1 100’.
- Fig. 3B shows magnetic fastener 1 100’ in a mated, coupled arrangement.
- the electrical connection can be made through the contact made between stud flange 1202’ and cover 1 108’ without a separate conductor.
- stud 1204’ and back plate 1 102’ can be configured such that when male portion 1200’ is coupled to female portion 1 100’, stud 1204’ contacts back plate 1 102’ to form an electrical connection. Accordingly, the electrical connection between male portion 1200’ and female portion 1 100’ can be provided by the contact between stud 1204’ and back plate 1 102’.
- Fig. 4 shows an exploded perspective view of female portion 1 100’.
- female portion 1 100’ can include cover 1 108’, magnet ring 1 106’, back plate 1 102’, and closed-end central channel 1 1 10’ extending through cover 1 108’ and magnet ring 1 106’.
- Magnet ring 1 106’ can be received in cover 1 108’, and back plate 1 102’ can be coupled to cover 1 108’ to maintain magnet ring 1 106’ within cover 1 108’.
- legs 1 104’ which can be integrally formed as part of back plate 1 102
- Fig. 5 shows another exemplary female portion 1 100” according to yet another embodiment of the present invention.
- female portion 1 100 is substantially similar to female portion 1 100 and female portion 1 100’ shown in Figs 1A and 1 B, however, as shown in Fig. 5, channel 1 1 10” of female portion 1 100” includes beveled portions 1 1 10a disposed at an opening end of channel 1 1 10” to facilitate mating with a male portion, such as any of the male portions (e.g., male portions 1200 and 1200’) described herein.
- Fig. 6 shows exemplary magnetic fastener 1000 in a separated/unmated arrangement with each of the male and female portions attached to their respective components and/or base materials.
- female portion 1 100 can be attached to component/base material 100 and male portion 1200 can be attached to component/base material 102.
- stud 1204 can include features such as a flared protrusions 1204a to facilitate the coupling and mating of male portion 1200 with female portion 1 100.
- components/base materials 100 and 102 are preferably releasably coupled to each other.
- Fig. 7 shows a further perspective view of exemplary magnetic fastener 1000 in a separated/unmated arrangement showing flared protrusions 1204a of stud 1204, which can facilitate the releasably mating of male portion 1200 with female portion 1 100.
- male portion 1200 is preferably formed (e.g., stamped, formed, or drawn from the ferromagnetic material from which it is made) so that flange 1202 and stud 1204, including protrusions 1204a, are integrally formed from a single piece of material.
- Exemplary embodiments of the present invention can be utilized on a wide variety of products and devices.
- the exemplary magnetic snap fasteners according to embodiments of the present invention can be used on various garments (e.g., coats, jackets, pants, shirts, sweaters, etc.), accessories (e.g., bags, jewelry, hats, umbrellas, etc.), or any other product that requires any type of closure and/or fastener.
- the exemplary magnetic snap fasteners according to embodiments of the present invention can also be used on devices or products requiring an electrically conductive fastener or closure.
- the exemplary magnetic snap fasteners can be used on wearable devices and medical devices, such as heart monitors, electrocardiogram devices (EKG), watches, fitness trackers, navigation devices, media players, devices employing sensors, headphones, eyewear (e.g., googles, glasses, virtual-reality googles, etc.), gloves, garments having sensors and/or smart fabrics, etc.
- coupling the male and female portions of the exemplary magnetic fasteners can, for example, provide a conductive electrical connection to enable electrical connectivity between two portions of the device or product when the fastener is closed/coupled.
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- Slide Fasteners, Snap Fasteners, And Hook Fasteners (AREA)
- Details Of Connecting Devices For Male And Female Coupling (AREA)
Abstract
An electrically conductive magnetic snap fastener for releasably coupling a first material to a second material, the fastener including a male fastening element affixable to the first material, the male fastening element including an integrally formed stud and stud flange and a female fastening element affixable to the second material, the female fastening assembly including a cover, a backplate, and a magnet disposed within a cavity defined by the cover. The male fastening element and the female fastening element being magnetically couplable to each other such that the male fastening element contacts the female fastening element to form a conductive electrical path through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
Description
MAGNETIC FASTENERS PROVIDING AN ELECTRICAL CONNECTION
CROSS-REFERENCE TO PRIOR APPLICATIONS
[0001 ] This application claims priority to U.S. Provisional Application Serial No. 62/608,292, filed on December 20, 2017, the contents of which are herein incorporated by reference in its entirety.
FIELD
[0002] Magnetic snap fasteners are commonly used to provide convenient releasable coupling of two or more components and/or materials in articles such as clothing, bags, purses, shoes, and the like. Magnetic snap fasteners typically include a male portion attached to a first component or base material that is designed to releasably mate with a female portion attached to a second component or base material. Accordingly, mating of the male and female portions of the fastener facilitate coupling the first and second components together. In a typical magnetic fastener, the female portion includes a magnet and the male portion includes a material that is magnetically attracted to the magnet contained in the female portion. Accordingly, the magnetic attraction between the male and female portions enables the releasable coupling of the male and female portions of the magnetic fastener.
BACKGROUND
[0003] Magnetic snap fasteners are commonly used to provide convenient releasable coupling of two or more components and/or materials in articles such as
clothing, bags, purses, shoes, and the like. Magnetic snap fasteners typically include a male portion attached to a first component or base material that is designed to releasably mate with a female portion attached to a second component or base material. Accordingly, mating of the male and female portions of the fastener facilitate coupling the first and second components together. In a typical magnetic fastener, the female portion includes a magnet and the male portion includes a material that is magnetically attracted to the magnet contained in the female portion. Accordingly, the magnetic attraction between the male and female portions enables the releasable coupling of the male and female portions of the magnetic fastener.
[0004] Recently, advances in technology have enhanced the portability of many electrical devices, and this has contributed to a dramatic increase in wearable devices and wearable technology. These types of devices can employ magnetic snaps, and can benefit from fasteners that can also simply and elegantly conduct electrical signals. For example, it may be useful for snaps employed in wearable devices such as heart monitors to provide electrical connections to conduct electrical signals. These devices can also utilize inexpensive components which can be disposed of after a single use.
SUMMARY
[0005] Exemplary embodiments of the present embodiment can provide an electrically conductive magnetic snap fastener for releasably coupling a first material to a second material. The fastener can include a male fastening element affixable to the first material, where the male fastening element can include an integrally formed stud and stud flange. The electrically conductive magnetic snap fastener can further include a
female fastening element affixable to the second material, where the female fastening assembly can include a cover, a backplate, and a magnet disposed within a cavity defined by the cover. The male fastening element and the female fastening element can be magnetically couplable to each other such that the male fastening element can contact the female fastening element to form a conductive electrical path through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
[0006] According to certain exemplary embodiments, the male fastening element can contact the cover of the female fastening element, and the conductive electrical path can be formed through at least the male fastening element, the cover and the back plate. The integrally formed stud and stud flange can be formed from a single piece of ferromagnetic material by stamping or drawing. According to certain aspects, the backplate can include at least one leg for affixing to the second material. Further, the at least one leg can be integrally formed as part of the backplate. According to certain aspects, the backplate can include at least one drawn tubular post that serves as a rivet for affixing to the second material. Further, the drawn tubular post can be integrally formed as part of the backplate. The drawn tubular post can include a crush-fit post.
[0007] Another embodiment of the present invention can provide a component of a magnetic snap fastener for releasably coupling a first material to a second material. The fastener can include a male fastening element affixable to the first material. Further, the male fastening element can include an integrally formed stud and stud flange formed from a single piece of material by stamping or drawing.
[0008] According to certain exemplary embodiments, the component of a magnetic snap can further include a female fastening element affixable to the second material. The female fastening assembly including a cover, a backplate, and a magnet disposed within a cavity defined by the cover, where the backplate can include at least one integrally formed leg. The male fastening element and the female fastening element can provide magnetic coupling to releasably couple the first and second materials.
[0009] According to certain exemplary embodiments, the male fastening element can contact the cover of the female fastening element, and a conductive electrical path can be formed through at least the male fastening element, the cover and the back plate. The integrally formed stud and stud flange can be formed from a single piece of ferromagnetic material by stamping or drawing. According to certain embodiments, the male fastening element can be disposable. The male fastening element can also be affixed to the first material by a press-fit or crush-fit arrangement.
[0010] Yet another exemplary embodiment of the present invention can provide a magnetic snap fastener for releasably coupling a first material to a second material. The fastener can include a female fastening element affixable to the second material. The female fastening assembly can include a cover, a backplate, and a magnet disposed within a cavity defined by the cover. Further, the backplate including at least one integrally formed leg. The magnetic snap fastener can further include a male fastening element affixable to the first material. The male fastening element can include an integrally formed stud and stud flange formed from a single piece of ferromagnetic material by stamping or drawing. Further, the male fastening element and the female fastening element can provide magnetic coupling to releasably couple the first and second materials.
[001 1 ] According to certain embodiments, the male fastening element can be disposable. The male fastening element can be affixed to the first material by a press-fit or crush-fit arrangement.
[0012] Yet another exemplary embodiment of the present invention can provide an electrical device including a first portion having a male fastening element affixed thereon, where the male fastening element can include an integrally formed stud and stud flange. The electrical device can further include a second portion having a female fastening element affixed thereon, where the female fastening assembly can include a cover, a backplate, and a magnet disposed within a cavity defined by the cover. The male fastening element and the female fastening element can be magnetically couplable to each other such that the male fastening element contacts the female fastening element to form a conductive electrical path from the first portion to the second portion through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
[0013] According to certain exemplary embodiments, the electrical device can further include a sensor. The sensor can include at least one of a heart sensor or a fitness tracker.
[0014] Yet another exemplary embodiment can provide a magnetic snap fastener component including a male fastening element affixable to a base material. The male fastening element can include an integrally formed stud and stud flange and configured to magnetically couple with a female fastening element having a magnet and create a conductive electrical path through the male fastening element and the female fastening
element when the male fastening element and the female fastening element are magnetically coupled to each other.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] The features and advantages of the present invention can be more readily understood from the following detailed description with reference to the accompanying drawings, wherein:
[0016] Fig. 1A is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention;
[0017] Fig. 1 B is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention;
[0018] Fig. 2 is an exploded view of an exemplary fastening element of the magnetic snap fastener shown in Figs. 1 A and 1 B;
[0019] Fig. 3A is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention
[0020] Fig. 3B is a cross-sectional view of an exemplary magnetic snap fastener according to an embodiment of the present invention
[0021 ] Fig. 4 is an exploded view of an exemplary fastening element of the magnetic snap fastener shown in Figs. 3A and 3B;
[0022] Fig. 5 is a cross-sectional view of yet another exemplary fastening element of a magnetic snap fastener according to an embodiment of the present invention;
[0023] Fig. 6 is an illustration of an exemplary magnetic snap fastener according to an embodiment of the present invention;
[0024] Fig. 7 is a perspective view of an exemplary magnetic snap fastener according to an embodiment of the present invention;
[0025] Fig. 8A is a cross-sectional view of the male components for an exemplary magnetic snap fastener according to an embodiment of the present invention;
[0026] Fig. 8B is a cross-sectional view of the male components for an exemplary magnetic snap fastener according to an embodiment of the present invention; and
[0027] Fig. 8C is a cross-sectional view of the male components for an exemplary magnetic snap fastener according to an embodiment of the present invention.
DETAILED DESCRIPTION
[0028] Embodiments of the present invention generally relate to magnetic snap fasteners that can provide an electrical connection for the conduction of electrical signals without the use of a separate electrical conductor. Although embodiments of the present invention are described with respect to magnetic fasteners, the systems and methods described herein are not limited thereto, and can be applicable to any type of fastener or coupling device.
[0029] Figs. 1A and 1 B show exemplary magnetic fastener 1000 in a separated/unmated arrangement and a mated/coupled arrangement, respectively, according to an embodiment of the present invention. As shown in Figs. 1A and 1 B, magnetic fastener 1000 can include female portion 1100 and male portion 1200. Female portion 1100 and male portion 1200 can each be attached to a component and/or base material (not shown) and can be configured to releasably mate with each other (e.g., include complementary shapes) so as to releasably couple the components and/or base materials to which they are attached.
[0030] As shown in Figs. 1A and 1 B, female portion 1 100 can include back plate 1 102, cover 1 108, magnetic ring 1 106 disposed within cover 1 108, and central channel 1 1 10 extending therethrough. According to an embodiment, cover 1 108 can define a substantially cylindrical ring-shaped cavity, and magnetic ring 1 106 can be disposed therein. Male portion 1200 can include stud flange 1202 and stud 1204. According to certain exemplary embodiments, male portion 1200 can be a one-piece stud, such that stud flange 1202 and stud 1204 are integrally formed. For example, male portion 1200 can be stamped, formed, or drawn from the ferromagnetic material from which it is made so that flange 1202 and stud 1204 are integrally formed from a single piece of material, such as sheet metal. This can provide an inexpensive and efficient magnetic closure which could be used for garments, apparel, and many other applications. According to certain exemplary embodiments, male portion 1200 can be made inexpensively such that it is a disposable component. For example, male portion 1200 can be designed to be disposable after one or more uses. Back plate 1 102 of female portion 1 100 can include one or more legs 1 104, which can facilitate coupling female potion 1 100 to the component and/or material (e.g., printed circuit board, etc.) to be coupled. According to certain exemplary embodiments, legs 1 104 can be integrally formed as part of back plate 1 102 (e.g., formed by folding portions of back plate 1 102 to form legs 1 104) and back plate 1 102 can include a ferromagnetic and/or conductive material. Optionally, cover 1 108 can include a continuous rim 1 108a, which can secure back plate 1 102 without the need for additional mechanical attachment mechanisms to secure back place 1 102. Further, cover 1 108, magnet 1 106 and back plate 1 102 can be configured to create a seal therebetween such that fluids cannot enter the internals of magnetic fastener 1000. Optionally,
magnetic fastener 1000 can include additional washers or other sealing elements to prevent fluids from entering the internals of magnetic fastener 1000. Preferably, male portion 1200 includes a metal ferromagnetic material so that it is magnetically attracted to magnetic ring 1 106 of female portion 1 100. For example, the shape of the male portion 1200 and female portion 1 100 channel the magnetic flux of magnetic ring 1 106 of female portion 1 100 through the center of magnetic ring 1 106 of female portion 1 100 so that the flux of the magnet is used effectively to magnetically attract male portion 1200 and female portion 1 100 to one another.
[0031 ] Additionally, male portion 1200 and female portion 1 100 can include coupling elements to facilitate coupling of the male portion 1200 and female portion 1 100 to their respective component and/or base material. According to certain exemplary embodiments, male portion 1200 and female portion 1 100 can include, e.g., connectors, solder pads, etc. to facilitate coupling male portion 1200 and female portion 1 100 to their respective component and/or base material (e.g., PCBs, connectors, etc.) and provide an electrical connection between their respective components and/or base materials (e.g., PCB, connector, etc.). For example, male portion 1200 can be coupled to its component and/or base material via a post (e.g., metal, plastic, plastic coated with conductive material, etc.) disposed within the ball of stud 1204 so that male portion 1200 can be crush fit or press fit onto its component and/or base material.
[0032] As shown in Figs. 8A-8C, male portion 1200 can be coupled onto component/base material 102 via post 120. Figures 8A, 8B, and 8C show exemplary attachments of male portion 1200 to a component/base material, such as, for example,
plastic, textile, or other material. Fig. 8A shows coupling of the stud 1204 onto post 120 via, for example, a press fit or crush fit type attachment.
[0033] Fig 8B shows stud 1204 coupled to a crush attached post 120 (e.g.,“crush- fit”). For example, post 120 can be designed and configured such that tip portion 120a can be crushed/deformed when compressed within a cavity of stud 1204. Further, the portion configured to“crush” within a hollow cavity of stud 1204 as male portion 1200 is coupled to material 102 can include an electrical conductive material and can contact an interior surface of the ball of stud 1204 to provide electrical conductivity. According to exemplary embodiments, post 120 can be made from sheet metal or machined form solid material. Post 120 can include a hollow tube with an open or closed tip, or alternatively, post 120 can include a semi tubular solid post. As shown in Fig. 8A, stud 1204 and post 120 can be driven together until the tip of the post 1202 is deformed/crushed and expands within the cavity of the stud 1204 to lock the two components together.
[0034] Fig 8C shows the stud 1204 coupled to post 120 via a drive or press fit arrangement. In this configuration, the diameter of post 120 is preferably greater than the diameter of the opening in the back of stud 1204 such that the frictional force created between an interior surface of stud 1204 and post 120 holds the two components together. Similar to the crush-fit arrangement shown in Fig. 8B, contact of post 120 with an interior surface of stud 1204 can provide electrical conductivity in this arrangement.
[0035] Further, legs 1 104 of female portion 1 100 can provide electrical connectivity of female portion 1 100 to its component and/or base material. Accordingly, when male portion 1200 is mated to female portion 1 100, an electrical connection can be provided from male portion 1200 (e.g., via stud 1204 or stud flange 1202) to female portion 1 100
(e.g., via cover 1 108 or back plate 1 102) without requiring an additional separate conductor.
[0036] In operation, female portion 1 100 and male portion 1200 are magnetically attracted to each other in view of magnetic ring 1 106 and the ferromagnetic material of male portion 1200. For example, the shape of the male portion 1200 and female portion 1 100 channel the magnetic flux of magnetic ring 1 106 of female portion 1 100 through the center of magnetic ring 1 106 of female portion 1 100 so that the flux of the magnet is used effectively to magnetically attract male portion 1200 and female portion 1 100 to one another. Alternatively, male portion 1200 can include a magnet and female portion 1 100 can include a ferromagnetic material. The magnetic attraction can releasably mate male portion 1200 to female portion 1 100 and the contact between male portion 1200 and female portion 1 100 can provide the electrical connection, without the need for a separate conductor. For example, stud 1204 can be received in central channel 1 1 10, and the magnetic attraction releasably couples male portion 1200 to female portion 1 100. Fig. 1 B shows magnetic fastener 1 100 in a mated, coupled arrangement. According to an exemplary embodiment of the present invention, the electrical connection can be made through the contact made between stud flange 1202 and cover 1 108 without a separate conductor. Alternatively, as shown in Fig. 1 B, stud 1204 and back plate 1 102 can be configured such that when male portion 1200 is coupled to female portion 1 100, stud 1204 contacts back plate 1 102 to form an electrical connection. Accordingly, the electrical connection between male portion 1200 and female portion 1 100 can be provided by the contact between stud 1204 and back plate 1 102.
[0037] Fig. 2 shows an exploded perspective view of female portion 1 100. As shown in Fig. 2, female portion 1 100 can include cover 1 108, magnet ring 1 106, back plate 1 102, and central channel 1 1 10 extending therethrough. Magnet ring 1 106 can be received in cover 1 108, and back plate 1 102 can be coupled to cover 1 108 to maintain magnet ring 1 106 within cover 1 108. Also shown in Fig. 2 are legs 1 104, which can be integrally formed as part of back plate 1 102.
[0038] Figs. 3A and 3B show exemplary magnetic fastener 1000’ in a separated/unmated arrangement and a mated/coupled arrangement, respectively, according to another embodiment of the present invention. As shown in Figs. 3A and 3B, magnetic fastener 1000’ is substantially similar to magnetic fastener 1000, however, as shown in Figs. 3A and 3B, back plate 1 102’ of female portion 1 100’ is closed such that closed-end central channel 1 1 10’ does not extend therethrough. Similar to magnetic fastener 1000, magnetic fastener 1000’ can include female portion 1 100’ and male portion 1200’. Female portion 1 100’ and male portion 1200’ can each be attached to a component and/or base material (not shown) and can be configured to releasably mate with each other (e.g., include complementary shapes) so as to releasably couple the components and/or base materials to which they are attached.
[0039] As shown in Figs. 3A and 3B, female portion 1 100’ can include back plate
1 102’, cover 1 108’, magnetic ring 1 106’ disposed within cover 1 108’, and closed-end central channel 1 1 10’ extending therethrough. According to an embodiment, cover 1 108’ can define a substantially cylindrical ring-shaped cavity, and magnetic ring 1 106’ can be disposed therein. Male portion 1200’ can include stud flange 1202’ and stud 1204’. According to certain exemplary embodiments, male portion 1200’ can be a one-piece
stud, such that stud flange 1202’ and stud 1204’ are integrally formed. For example, male portion 1200’ can be stamped, formed, or drawn from the ferromagnetic material from which it is made, such as sheet metal, so that stud flange 1202 and stud 1204 are integrally formed from a single piece of material. This can provide an inexpensive and efficient magnetic closure which could be used for garments, apparel, handbags, and many other applications. According to certain exemplary embodiments, male portion 1200’ can be made inexpensively such that it is a disposable component. For example, male portion 1200’ can be designed to be disposable after one or more uses. Back plate 1 102’ of female portion 1 100’ can include one or more legs 1 104’, which can facilitate coupling female potion 1 100’ to the component and/or material (e.g., printed circuit board, etc.) to be coupled. According to certain exemplary embodiments, legs 1 104’ can be integrally formed as part of back plate 1 102’ (e.g., formed by folding portions of back plate 1 102’ to form legs 1 104’) and back plate 1 102’ can include a ferromagnetic and/or conductive material. Further, cover 1 108’, magnet 1 106’ and back plate 1 102’ can be configured to create a seal therebetween such that fluids cannot enter the internals of magnetic fastener 1000’. Optionally, magnetic fastener 1000’ can include additional washers or other sealing elements to prevent fluids from entering the internals of magnetic fastener 1000’. Preferably, male portion 1200’ includes a metal ferromagnetic material so that it is magnetically attracted to magnetic ring 1 106’ of female portion 1 100’. For example, the shape of the male portion 1200’ and female portion 1 100’ channel the magnetic flux of magnetic ring 1 106’ of female portion 1 100’ through the center of magnetic ring 1 106’ of female portion 1 100’ so that the flux of the magnet is used
effectively to magnetically attract male portion 1200’ and female portion 1 100’ to one another.
[0040] Additionally, male portion 1200’ and female portion 1 100’ can include coupling elements to facilitate coupling of the male portion 1200’ and female portion 1 100’ to their respective component and/or base material. According to certain exemplary embodiments, male portion 1200’ and female portion 1 100’ can include, e.g., connectors, solder pads, etc. to facilitate coupling male portion 1200’ and female portion 1 100’ to their respective component and/or base material (e.g., PCB, connector, etc.) and provide an electrical connection between their respective components and/or base materials (e.g., PCBs, connectors, etc.). For example, male portion 1200’ can be coupled to its component and/or base material via a post (e.g., metal, plastic, plastic coated with conductive material, etc.) disposed within the ball of stud 1204’ so that male portion 1200’ can be crush fit or press fit onto its component and/or base material. Male portion 1200’ can employ coupling arrangements similar to those described herein with respect to male portion 1200 and shown in Figs. 8A-8C. Further, legs 1 104’ of female portion 1 100’ can provide electrical connectivity of female portion 1 100’ to its component and/or base material. Accordingly, when male portion 1200’ is mated to female portion 1 100’, an electrical connection can be provided from male portion 1200’ (e.g., via stud 1204’ or stud flange 1202’) to female portion 1 100’ (e.g., via cover 1 108’ or back plate 1 102’) without requiring an additional separate conductor.
[0041 ] In operation, female portion 1 100’ and male portion 1200’ are magnetically attracted to each other in view of magnetic ring 1 106’ and the ferromagnetic material of male portion 1200’. For example, the shape of the male portion 1200’ and female portion
1 100’ channel the magnetic flux of magnetic ring 1 106’ of female portion 1 100’ through the center of magnetic ring 1 106’ of female portion 1 100’ so that the flux of the magnet is used effectively to magnetically attract male portion 1200’ and female portion 1 100’ to one another. Alternatively, male portion 1200’ can include a magnet and female portion 1 100’ can include a ferromagnetic mater or male portion 1200’ and female portion 1 100’ can both include magnets. The magnetic attraction can releasably mate male portion 1200’ to female portion 1 100’ and the contact between male portion 1200’ and female portion 1 100’ can provide the electrical connection, without the need for a separate conductor. For example, stud 1204’ can be received in closed-end central channel 1 1 10’, and the magnetic attraction releasably couples male portion 1200’ to female portion 1 100’. Fig. 3B shows magnetic fastener 1 100’ in a mated, coupled arrangement. According to an exemplary embodiment of the present invention, the electrical connection can be made through the contact made between stud flange 1202’ and cover 1 108’ without a separate conductor. Alternatively, as shown in Fig. 3B, stud 1204’ and back plate 1 102’ can be configured such that when male portion 1200’ is coupled to female portion 1 100’, stud 1204’ contacts back plate 1 102’ to form an electrical connection. Accordingly, the electrical connection between male portion 1200’ and female portion 1 100’ can be provided by the contact between stud 1204’ and back plate 1 102’.
[0042] Fig. 4 shows an exploded perspective view of female portion 1 100’. As shown in Fig. 4, female portion 1 100’ can include cover 1 108’, magnet ring 1 106’, back plate 1 102’, and closed-end central channel 1 1 10’ extending through cover 1 108’ and magnet ring 1 106’. Magnet ring 1 106’ can be received in cover 1 108’, and back plate 1 102’ can be coupled to cover 1 108’ to maintain magnet ring 1 106’ within cover 1 108’.
Also shown in Fig. 4 are legs 1 104’, which can be integrally formed as part of back plate 1 102
[0043] Fig. 5 shows another exemplary female portion 1 100” according to yet another embodiment of the present invention. As shown in Fig. 5, female portion 1 100” is substantially similar to female portion 1 100 and female portion 1 100’ shown in Figs 1A and 1 B, however, as shown in Fig. 5, channel 1 1 10” of female portion 1 100” includes beveled portions 1 1 10a disposed at an opening end of channel 1 1 10” to facilitate mating with a male portion, such as any of the male portions (e.g., male portions 1200 and 1200’) described herein.
[0044] Fig. 6 shows exemplary magnetic fastener 1000 in a separated/unmated arrangement with each of the male and female portions attached to their respective components and/or base materials. As shown in Fig. 6, female portion 1 100 can be attached to component/base material 100 and male portion 1200 can be attached to component/base material 102. According to certain exemplary embodiments, as shown in Fig. 6, stud 1204 can include features such as a flared protrusions 1204a to facilitate the coupling and mating of male portion 1200 with female portion 1 100. As male portion 1200 and female portion 1 100 are releasably mated to each other, components/base materials 100 and 102 are preferably releasably coupled to each other.
[0045] Fig. 7 shows a further perspective view of exemplary magnetic fastener 1000 in a separated/unmated arrangement showing flared protrusions 1204a of stud 1204, which can facilitate the releasably mating of male portion 1200 with female portion 1 100. As shown in Fig. 7, male portion 1200 is preferably formed (e.g., stamped, formed, or drawn from the ferromagnetic material from which it is made) so that flange 1202 and
stud 1204, including protrusions 1204a, are integrally formed from a single piece of material.
[0046] Exemplary embodiments of the present invention can be utilized on a wide variety of products and devices. For example, the exemplary magnetic snap fasteners according to embodiments of the present invention can be used on various garments (e.g., coats, jackets, pants, shirts, sweaters, etc.), accessories (e.g., bags, jewelry, hats, umbrellas, etc.), or any other product that requires any type of closure and/or fastener. The exemplary magnetic snap fasteners according to embodiments of the present invention can also be used on devices or products requiring an electrically conductive fastener or closure. For example, the exemplary magnetic snap fasteners can be used on wearable devices and medical devices, such as heart monitors, electrocardiogram devices (EKG), watches, fitness trackers, navigation devices, media players, devices employing sensors, headphones, eyewear (e.g., googles, glasses, virtual-reality googles, etc.), gloves, garments having sensors and/or smart fabrics, etc. In these applications, coupling the male and female portions of the exemplary magnetic fasteners can, for example, provide a conductive electrical connection to enable electrical connectivity between two portions of the device or product when the fastener is closed/coupled.
[0047] The embodiments and examples shown above are illustrative, and many variations can be introduced to them without departing from the spirit of the disclosure. For example, elements and/or features of different illustrative and exemplary embodiments herein may be combined with each other and/or substituted with each other within the scope of the disclosure. For a better understanding of the disclosure, reference
should be had to any accompanying drawings and descriptive matter in which there is illustrated exemplary embodiments of the present invention.
Claims
1 . An electrically conductive magnetic snap fastener for releasably coupling a first material to a second material, the fastener comprising:
a male fastening element affixable to the first material, the male fastening element including an integrally formed stud and stud flange; and
a female fastening element affixable to the second material, the female fastening assembly including a cover, a backplate, and a magnet disposed within a cavity defined by the cover,
the male fastening element and the female fastening element being magnetically couplable to each other such that the male fastening element contacts the female fastening element to form a conductive electrical path through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
2. The electrically conductive magnetic snap fastener of claim 1 , wherein the male fastening element contacts the cover of the female fastening element, and the conductive electrical path is formed through at least the male fastening element, the cover and the back plate.
3. The electrically conductive magnetic snap fastener of claim 1 , wherein the integrally formed stud and stud flange are formed from a single piece of ferromagnetic material by stamping or drawing.
4. The electrically conductive magnetic snap fastener of claim 1 , wherein the backplate includes at least one leg for affixing to the second material.
5. The electrically conductive magnetic snap fastener of claim 1 , wherein the backplate includes at least one drawn tubular post that serves as a rivet for affixing to the second material.
6. The electrically conductive magnetic snap fastener of claim 4, wherein the at least one leg is integrally formed as part of the backplate.
7. The electrically conductive magnetic snap fastener of claim 5, wherein the drawn tubular post is integrally formed as part of the backplate.
8. The electrically conductive magnetic snap fastener of claim 5, wherein the drawn tubular post includes a crush-fit post.
9. A component of a magnetic snap fastener for releasably coupling a first material to a second material, the fastener comprising:
a male fastening element affixable to the first material, the male fastening element including an integrally formed stud and stud flange formed from a single piece of material by stamping or drawing.
10. The component of a magnetic snap fastener of claim 9, further comprising a female fastening element affixable to the second material, the female fastening assembly
including a cover, a backplate, and a magnet disposed within a cavity defined by the cover, the backplate including at least one integrally formed leg, and
the male fastening element and the female fastening element providing magnetic coupling to releasably couple the first and second materials.
11. The component of a magnetic snap fastener of claim 10, wherein the male fastening element contacts the cover of the female fastening element, and a conductive electrical path is formed through at least the male fastening element, the cover and the back plate.
12. The component of a magnetic snap fastener of claim 10, wherein the integrally formed stud and stud flange are formed from a single piece of ferromagnetic material by stamping or drawing.
13. The magnetic snap fastener of claim 9, wherein the male fastening element is disposable.
14. The magnetic snap fastener of claim 9, wherein the male fastening element is affixed to the first material by a press-fit or crush-fit arrangement.
15. A magnetic snap fastener for releasably coupling a first material to a second material, the fastener comprising
a female fastening element affixable to the second material, the female fastening assembly including a cover, a backplate, and a magnet disposed within a cavity defined by the cover, the backplate including at least one integrally formed leg; and
a male fastening element affixable to the first material, the male fastening element including an integrally formed stud and stud flange formed from a single piece of ferromagnetic material by stamping or drawing, the male fastening element and the female fastening element providing magnetic coupling to releasably couple the first and second materials.
16. The magnetic snap fastener of claim 13, wherein the male fastening element is disposable.
17. The magnetic snap fastener of claim 13, wherein the male fastening element is affixed to the first material by a press-fit or crush-fit arrangement.
18. An electrical device, comprising:
a first portion having a male fastening element affixed thereon, the male fastening element including an integrally formed stud and stud flange; and
a second portion having a female fastening element affixed thereon, the female fastening assembly including a cover, a backplate, and a magnet disposed within a cavity defined by the cover,
the male fastening element and the female fastening element being magnetically couplable to each other such that the male fastening element contacts the female fastening element to form a conductive electrical path from the first portion to the second
portion through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
19. The electrical device of claim 14, further comprising a sensor.
20. The electrical device of claim 14, wherein the sensor includes at least one of a heart sensor or a fitness tracker.
21 . A magnetic snap fastener component, the fastener component comprising:
a male fastening element affixable to a base material, the male fastening element including an integrally formed stud and stud flange and configured to magnetically couple with a female fastening element having a magnet and create a conductive electrical path through the male fastening element and the female fastening element when the male fastening element and the female fastening element are magnetically coupled to each other.
Priority Applications (3)
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JP2020530519A JP7123140B2 (en) | 2017-12-20 | 2018-11-28 | Magnetic snap fasteners for electrical connection |
CN201880078261.1A CN111479481B (en) | 2017-12-20 | 2018-11-28 | Magnetic fastener providing electrical connection |
EP18892702.4A EP3727066A4 (en) | 2017-12-20 | 2018-11-28 | Magnetic fasteners providing an electrical connection |
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US16/021,863 US10609967B2 (en) | 2017-12-20 | 2018-06-28 | Magnetic fasteners providing an electrical connection |
US16/021,863 | 2018-06-28 |
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WO2019125710A1 true WO2019125710A1 (en) | 2019-06-27 |
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US11172717B2 (en) | 2017-12-20 | 2021-11-16 | Romed Fasteners, Inc. | Magnetic fastener providing electrical connection and having female member with solid cover |
US11789276B1 (en) * | 2020-04-06 | 2023-10-17 | Apple Inc. | Head-mounted device with pivoting connectors |
JP2023546808A (en) * | 2020-10-01 | 2023-11-08 | ヒーラブルス リミテッド | Electronic device casing for bonding to clothing |
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- 2018-06-28 US US16/021,863 patent/US10609967B2/en active Active
- 2018-11-28 EP EP18892702.4A patent/EP3727066A4/en active Pending
- 2018-11-28 WO PCT/US2018/062748 patent/WO2019125710A1/en unknown
- 2018-11-28 JP JP2020530519A patent/JP7123140B2/en active Active
- 2018-11-28 CN CN201880078261.1A patent/CN111479481B/en active Active
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See also references of EP3727066A4 |
Also Published As
Publication number | Publication date |
---|---|
JP7123140B2 (en) | 2022-08-22 |
US20190183187A1 (en) | 2019-06-20 |
EP3727066A1 (en) | 2020-10-28 |
JP2021512656A (en) | 2021-05-20 |
EP3727066A4 (en) | 2021-09-08 |
US10609967B2 (en) | 2020-04-07 |
CN111479481B (en) | 2023-05-16 |
CN111479481A (en) | 2020-07-31 |
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