CN213598322U - Quick angulation fastener and assembly - Google Patents

Abstract

A quick angulation fastener and combination, wherein, quick angulation fastener includes female portion and male portion, makes the female portion fasten to the male portion fast through attaching the female portion to the surface of male portion and making the female portion shift around the main rotation axis angularly with respect to the male portion. The combination includes a portable device, an object that is quickly securable to the portable device, and a quick angle fastener that is employed by the portable device to quickly secure to the object by affixing the outer surface of the female portion to an outer surface of the male portion, thereby inserting the plurality of arcuate locking leaf springs of the male portion into the plurality of arcuate locking slots in the female portion, and angularly displacing the female portion relative to the male portion about the primary axis of rotation.

Description

Quick angulation fastener and assembly

Technical Field

In general, the present invention is in the field of mechanics and manufacturing articles. In particular, the present invention relates to a quick angulation fastener and assembly.

Background

It is believed that the prior art is represented by the following patent documents: US8608502, US9787021, US2011192857, US2016040825, US9869423, US6888940, US9608366, WO2018187278, WO2018222612, JP2017534305 and JP 5364788.

WO2018187278 discloses a swivel accessory for use with a socket accessory attached to a mobile electronic device. The rotary attachment of WO2018187278 includes a bearing assembly dimensioned to receive a socket attachment, and a gripping member carried by an inner surface of the bearing assembly. The bearing assembly in WO2018187278 facilitates rotation of a portion of the rotary attachment relative to the socket attachment. The gripping member in WO2018187278 is adapted to securely engage a portion of a socket attachment.

US8608502 discloses a connection between two components that may use one or more metal pins that extend magnetically when the components are engaged; and an inclined groove that retracts and unlocks the pin when the member is rotated. During engagement, the components in US8608502 are locked in place by pins. Disengagement may be performed by rotating the two components relative to each other. The attachment mechanism may include one or more magnets mounted on one or both of the components. The magnet may be arranged to attract the component in US8608502 when the component is in the locked orientation and to repel the magnet when the component is rotated to the unlocked position. The connection mechanism of US8608502 may include an electrical connection between the components.

US9787021 discloses a connector unit for connecting at least two cables, the connector unit comprising a male portion, a female portion, and a shuttle piston. The shuttle piston of US9787021 comprises: at least one magnetic connection means for establishing a magnetic connection between the shuttle pistons; and at least one magnetic aid of the male portion; and at least one latching structure for establishing a force-fit connection between the shuttle piston and the female portion. The male part in US9787021 comprises: a magnetic connection aid for interacting with the magnetic connection means of the shuttle piston to establish a magnetic connection between the shuttle piston and the male part; and an interaction region to interact in a force-fitting manner with at least one rear latch of the female part. The female part in US9787021 comprises a rear latch for establishing a force-fit connection and for interacting in a force-fit manner with at least the interaction area of the male part.

Disclosure of Invention

According to some embodiments, a quick angulation fastener includes a female portion and a male portion, the female portion including: an outer surface facing an outer side of the concave portion; an inner surface facing an inner side of the concave portion; a plurality of arcuate locking grooves disposed in a radially symmetric arrangement about a primary axis of rotation; and an attachment portion on an inner surface of the concave portion, the attachment portion configured for adhering to a portable device; the male portion includes: an outer surface facing outside the convex portion; an inner surface facing the inside of the convex portion; a plurality of arcuate locking leaf springs disposed in a radially symmetrical arrangement about a primary axis of rotation; wherein the plurality of arcuate locking leaf springs extend substantially parallel and offset relative to the outer surface of the male portion; wherein the plurality of arc-shaped locking plate springs are respectively matched with the plurality of arc-shaped locking grooves; and an attachment portion on the male portion inner surface, the attachment portion configured for adhering to an object; wherein the female portion is quickly securable to the male portion by affixing the outer surface of the female portion to the outer surface of the male portion, thereby inserting the plurality of arcuate locking leaf springs of the male portion into the plurality of arcuate locking slots in the female portion and angularly displacing the female portion relative to the male portion about a primary axis of rotation.

According to some embodiments, the female portion and/or the male portion further comprises an attachment mechanism configured for securing the portion to a portable device or object.

According to some embodiments, the arc locking leaf spring is made of hardened metal, thereby imparting some elasticity to the arc locking leaf spring.

According to some embodiments, the female portion further comprises a magnet configured to attract the male portion, thereby facilitating alignment and proximity of the female portion with the male portion.

According to some embodiments, the female portion further comprises a plurality of locking holes disposed in a radially symmetrical arrangement about the primary axis of rotation and angularly offset with respect to the plurality of arcuate locking grooves, respectively.

According to some embodiments, wherein the plurality of arc-shaped locking leaf springs further comprise a protrusion formed on a terminal portion of the arc-shaped locking leaf spring.

According to some embodiments, the female portion further comprises a plurality of locking holes disposed in radially symmetrical arrangement about the primary axis of rotation and in angularly offset relation to the plurality of arcuate locking grooves, respectively, and wherein the plurality of arcuate locking leaf springs further comprise a protrusion formed on a terminal portion of the arcuate locking leaf spring, wherein the arcuate locking leaf spring is configured to slide within the arcuate locking groove until the protrusion on the arcuate locking leaf spring is inserted into the locking hole, thereby securing the female portion to the male portion.

According to some embodiments, the assembly comprises: a portable device; a female portion of a quick angulation fastener, the female portion comprising: an outer surface facing an outer side of the concave portion; an inner surface facing an inner side of the concave portion; a plurality of arcuate locking grooves disposed in a radially symmetrical arrangement about a primary axis of rotation, wherein a portion of the inner surface of the female portion is attachable to a portable device; an object that can be quickly secured to a portable device; a male portion of a rapid angulation fastener, the male portion comprising: an outer surface facing outside the convex portion; an inner surface facing the inside of the convex portion; a plurality of arcuate locking leaf springs disposed in a radially symmetric arrangement about the primary axis of rotation, wherein the plurality of arcuate locking leaf springs extend substantially parallel and offset relative to an outer surface of the male portion, wherein the plurality of arcuate locking leaf springs are respectively mated with the plurality of arcuate locking slots, wherein a portion of an inner surface of the male portion is attachable to an object; wherein the portable device is quickly secured to the object by affixing the outer surface of the female portion to the outer surface of the male portion, thereby inserting the plurality of arcuate locking leaf springs of the male portion into the plurality of arcuate locking slots in the female portion, and angularly displacing the female portion relative to the male portion about the primary axis of rotation.

According to some embodiments, the object to which the portable device is to be quickly secured is a mount, holder, panel, or portable accessory.

Definition of

As referred to herein, the term "readily connectable" should be construed as a unit that may be conveniently connected to other components. The term "readily connectable" also means easily disconnectable or detachable. The term "readily connectable" is satisfied by being arranged to be readily connected or coupled iteratively.

As referred to herein, the terms "match" and/or "mateable" should be construed to mean that the cross-sectional area and/or shape of one element is equal to or substantially similar to the cross-sectional area and/or shape of another element.

As referred to herein, the term "structured" should be interpreted to include any geometric shape, layout or contour that is more complex than a shape implemented as a single cylinder, ellipse, polygon, or any combination thereof. Thus, shapes that are implemented as simple single cylindrical, elliptical, and/or polygonal layouts or profiles do not constitute examples of structured geometries.

As used herein, "operably connected" and "operably coupled" mean connected in a manner that allows the disclosed apparatus and its various components to operate effectively in the manner described herein.

As referred to herein, the term "portable device" should be construed in a non-limiting manner as any portable device, including in particular any portable electronic device, including: personal Digital Assistants (PDAs), pagers (also commonly known as buzzers), smart phones, mobile phones, tablet computers, tablet phones, personal laptops, and the like.

Whenever in the following description, and in particular in the appended claims, verbs (whether in basic form or in any tense) are used with vernouns or with present or past participles, these terms, and preferably others, should be construed as actual or inferred, especially to mean performed only optionally or potentially and/or only at any time in the future.

The terms "substantially" and "essentially" or similar relative terms should be interpreted according to their ordinary dictionary meaning, i.e., mostly, but not completely.

As used herein, the term "or" is an inclusive "or" operator, equivalent to the term "and/or," unless the context clearly dictates otherwise; however, as used herein, the term "and" is also a substitute operator that is equivalent to the term "and/or" unless the context clearly dictates otherwise

It should be understood, however, that neither the foregoing brief summary nor the foregoing specific definitions are intended to limit the interpretation of the invention to the specific forms and examples, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the scope of the invention.

Drawings

The present invention will be understood and appreciated more fully from the following detailed description, taken in conjunction with the accompanying drawings.

FIG. 1 is an elevation view of an embodiment of a quick angulation fastener of the present invention;

fig. 2a is a rear view of an embodiment of the quick angulation fastener of the present invention;

fig. 2b is a rear view of an embodiment of the quick angulation fastener of the present invention;

fig. 3 is an isometric view of an embodiment of the quick angulation fastener of the present invention;

FIG. 4 is an exploded perspective view of an embodiment of the quick angulation fastener of the present invention;

FIG. 5 is a perspective view of another embodiment of the quick angulation fastener of the present invention;

fig. 6 is a perspective view of an example of a female portion of a quick angulation fastener of the present invention;

fig. 7A is a perspective view of a preferred embodiment of the quick angulation fastener of the present invention in a locked configuration;

fig. 7B is a perspective view of a preferred embodiment of the quick angulation fastener of the present invention in a closed configuration;

fig. 8 is a rear view of a preferred embodiment of the quick angulation fastener of the present invention in a locked configuration;

fig. 9 is an exploded perspective view of a preferred embodiment of the quick angulation fastener of the present invention in an open configuration.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof have been shown by way of example in the drawings. The figures are not necessarily to scale, nor are the components necessarily to scale; on the contrary, emphasis is placed upon clearly illustrating the principles of the present invention.

Detailed Description

Illustrative embodiments of the invention are described below. In the interest of clarity, not all features of an actual implementation are described in this specification. It will of course be appreciated that in the development of any such actual embodiment, numerous implementation-specific decisions must be made to achieve the developers' specific goals, such as compliance with technical or business-related constraints, which will vary from one implementation to another. Moreover, it will be appreciated that such a development effort might be complex and time-consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the art having the benefit of this disclosure.

Referring now to fig. 1-4, fig. 1-4 illustrate perspective front, rear, perspective, and exploded views of a quick angulation fastener 10, according to some embodiments of the present disclosure. The quick angulation fastener 10 includes a female portion 18 and a male portion 26. In some examples, the concave portion 18 is embodied as a circular shape. Female portion 18 and male portion 26 of quick angulation fastener 10 have mating shapes as defined above. Female portion 18 of quick angulation fastener 10 is configured to be easily connected or fastened to male portion 26 of quick angulation fastener 10, as defined above.

In some preferred embodiments, the concave portion 18 includes an arcuate slot 20. The arcuate slot 20 in the female portion 18 is configured to receive the locking pin 14 of the male portion 26. According to some embodiments, the locking pin 14 of the male portion 26 terminates in a cup. The cup of the terminal portion of the locking pin 14, which provides the male portion 26, is optionally slightly domed, configured to be easily inserted into the arcuate slot 20 through the insertion hole 21. The cup portion providing the terminal portion of the locking pin 14 comprises an outer diameter or circumference that exceeds the outer diameter or circumference of the locking pin 14.

In some embodiments, the body of the locking pin 14 is configured to slide within the arcuate slot 20 as the female portion 18 and the male portion 26 of the fastener 10 are angularly moved relative to each other. The locking pin 14 of the male portion 26 is also configured to rest within the fastening hole 25 of the female portion 18. Preferably, the locking pin 14 of the male part 26 is configured to be fixed in the fastening hole 25 of the female part 18 by means of the snap ridge 23.

According to some embodiments of the present invention, the female portion 18 includes a pivot hole 17. The pivot hole 17 of the female portion 18 is configured to receive the pivot pin 16 of the male portion 26. In some examples, the pivot pin 16 terminates in a cup. The cup providing the terminal portion of the male portion 26 the pivot pin 16 is optionally slightly domed configured for convenient insertion into the pivot hole 17 of the female portion 18. The cup portion providing the terminal portion of the pivot pin 16 has an outer diameter or circumference that exceeds the outer diameter or circumference of the pivot pin 16.

The assembly of the quick angulation fastener 10 is in the closed configuration when the locking pin 14 of the male portion 26 is inserted into the insertion hole 21 in the female portion 18 and the pivot pin 16 is inserted into the pivot hole 17 of the female portion 18. In some preferred embodiments of the present invention, the male portion 26 is configured to pivot about the axis of the pivot pin 16, and the pivot pin 16 is inserted into the pivot hole 17 of the female portion 18. As the locking pin 14 is caused to slide angularly further along the arcuate slot 20 into the fastening hole 25, the assembly of the quick angulation fastener 10 is in a fixed configuration.

According to some embodiments of the present invention, the concave portion 18 may be attached to an adhesive element 12, the adhesive element 12 being configured to adhere to a device, preferably a portable device as defined above, typically an electronic portable device. In some examples, the adhesive element 12 includes glue, while in other examples, the adhesive element 12 is a magnet, while in still other examples, the adhesive element 12 includes any mechanical or structural attachment mechanism, such as a screw, rivet, or interlocking structural element.

According to some embodiments of the present invention, male portion 26 comprises a combination of disk-shaped bodies having arcuate grooves 32. The disk-shaped body of male portion 26 includes pivot pin hole 28 and locking pin hole 29. In some preferred embodiments, the disk-shaped body of male portion 26 further includes a magnet slot 34, magnet slot 34 configured to receive a magnet 30, magnet 30 configured to facilitate alignment and access of female portion 18 with male portion 26.

According to some embodiments of the present invention, the arc-shaped recess 32 in the disc-shaped body of the male part 26 is configured to accommodate the pin holder 15, including the arc-shaped platform, the anchor locking pin 14 and the pivot pin 16. For example, the pin bosses 15 are disposed in arcuate recesses 32 in the disks of the male portion 26 and then sealed in place by the arcuate cover 24.

Referring now to fig. 5 and 6, fig. 5 and 6 show perspective views of another embodiment of a quick angulation fastener 40, wherein various features may be interchanged with elements of any of the other embodiments described in the specification. According to some embodiments, the quick angulation fastener 40 includes a male portion 42 and a female portion 44. In some examples, the male portion 42 includes a pivot pin 46 and a locking pin 48. The pivot pin 46 and the locking pin 48 terminate in a cup.

In some embodiments, the concave portion 44 includes an arcuate slot 50 and a pivot hole 51. In some preferred embodiments, the arcuate slot 50 includes a fastening hole 52 and an insertion hole 54. The insertion hole 54 is preferably configured to initially receive the locking pin 48. The locking pin 48 slides angularly further within the arcuate slot 50. Finally, the locking pin 48 is fixed in the fastening hole 52. The locking pin 48 is preferably secured in the fastening hole 52 by snap ridges 53.

Referring now to fig. 7 and 9, fig. 7 and 9 illustrate yet another preferred embodiment of a quick angulation fastener 60, wherein various features may be interchanged with elements of any of the other embodiments described in the specification. According to some embodiments, the quick angulation fastener 60 includes a female portion 62, a male portion 80, an adhesive element 64, and a magnet 65.

In some embodiments, concave portion 62 typically defines arcuate slots 70 and 71. In some embodiments, the convex portion 80 typically forms an arcuate locking leaf spring 66 and 67. The arcuate slots 70 and 71 are configured to receive the arcuate locking leaf springs 66 and 67. The arc-shaped locking leaf springs 66 and 67 are erected axially from the planar surface of the male portion 80 and then extend radially substantially parallel to the planar surface of the male portion 80.

In some preferred embodiments, the female portion 62 defines locking holes 72 and 73, the locking holes 72 and 73 being disposed radially offset from the arcuate slots 70 and 71. The arc-shaped locking leaf springs 66 and 67 are configured to slide within the arc-shaped slots 70 and 71 until protrusions formed on the arc-shaped locking leaf springs 66 and 67 are inserted into the locking holes 72 and 73 to secure the female portion 62 to the male portion 80.

In some preferred embodiments, the arc locking leaf springs 66 and 67 are made of hardened metal, thereby imparting some resiliency to the arc locking leaf springs 66 and 67. In some examples of the current invention, the arc locking leaf springs 66 and 67 are manufactured as leaf springs. This feature protects the mechanism of the rapid angulation fastener 60 from frictional fatigue and makes it durable.

According to some embodiments, the fastener 60 comprises an adhesive element 12, the adhesive element 12 being configured to adhere to a device, preferably a portable device as defined above, typically an electronic portable device. In some examples, adhesive element 12 comprises glue, while in other examples, adhesive element 12 is a magnet, while in still other examples, adhesive element 12 comprises any mechanical or structural attachment mechanism, such as a screw, rivet, or interlocking structural element.

According to some embodiments, female portion 62 includes a locking tab 100 configured for securing magnet 65. According to some embodiments, magnet 65 is configured to attract male portion 80 through female portion 62 in order to facilitate alignment and access of female portion 62 relative to male portion 80.

It will be appreciated by persons skilled in the art that the present invention is not limited by what has been particularly shown and described hereinabove. Rather, the scope of the invention is defined by the following claims.

Claims (10)

1. A quick angulation fastener, characterized in that it comprises:

(a) a concave portion, the concave portion comprising:

(I) an outer surface facing outside of the concave portion;

(II) an inner surface facing the inside of the concave portion;

(III) a plurality of arcuate locking grooves disposed in a radially symmetrical arrangement about a primary axis of rotation;

(IV) an attachment portion on the inner surface of the concave portion, the attachment portion configured for adhering to a portable device;

(b) a male portion, the male portion comprising:

(I) an outer surface facing outside the male portion;

(II) an inner surface facing the inside of the male portion;

(III) a plurality of arcuate locking leaf springs disposed in a radially symmetrical arrangement about the primary axis of rotation;

wherein the plurality of arcuate locking leaf springs extend parallel and offset relative to the outer surface of the male portion;

wherein the plurality of arc-shaped locking leaf springs are respectively matched with the plurality of arc-shaped locking grooves;

(IV) an attachment portion on the inner surface of the male portion, the attachment portion configured for adhering to an object;

wherein the female portion is quickly secured to the male portion by affixing the outer surface of the female portion to an outer surface of the male portion, thereby inserting the plurality of arcuate locking leaf springs of the male portion into the plurality of arcuate locking grooves in the female portion, and angularly displacing the female portion relative to the male portion about the primary axis of rotation.

2. The quick angulation fastener according to claim 1, wherein at least one member is selected from the group consisting of the female portion and the male portion, at least one member further comprising an attachment mechanism configured for securing the portion to the portable device or the object.

3. The quick angulation fastener according to claim 1, wherein the arc locking leaf spring is made of hardened metal, thereby imparting some elasticity to the arc locking leaf spring.

4. The quick angulation fastener according to claim 1, wherein the female portion further comprises a magnet configured to attract the male portion, thereby facilitating alignment and proximity of the female portion with the male portion.

5. The quick angulation fastener according to claim 1, wherein said female portion further comprises a plurality of locking holes disposed in radially symmetrical arrangement about said major axis of rotation and angularly offset with respect to said plurality of said arcuate locking grooves, respectively.

6. The quick angulation fastener according to claim 1, wherein the plurality of arc locking leaf springs further comprise a protrusion formed on a terminal portion of the arc locking leaf springs.

7. The quick angulation fastener according to claim 1, wherein said female portion further comprises a plurality of locking holes disposed in radially symmetrical arrangement about said major axis of rotation and in angularly offset relation to said plurality of arcuate locking grooves, respectively, and wherein said plurality of arcuate locking leaf springs further comprise protrusions formed on terminal portions of said arcuate locking leaf springs, wherein said arcuate locking leaf springs are configured to slide within said arcuate locking grooves until said protrusions on said arcuate locking leaf springs are inserted into said locking holes, thereby securing said female portion to said male portion.

8. An assembly characterized in that it comprises:

(a) a portable device;

(b) a female portion of a quick angulation fastener, the female portion comprising:

(I) an outer surface facing outside of the concave portion;

(II) an inner surface facing the inside of the concave portion;

(III) a plurality of arcuate locking grooves disposed in a radially symmetrical arrangement about a primary axis of rotation;

wherein a portion on the inner surface of the concave portion is attachable to the portable device;

(c) an object that can be quickly secured to the portable device;

(d) a male portion of a rapid angulation fastener, the male portion comprising:

(I) an outer surface facing outside the male portion;

(II) an inner surface facing the inside of the male portion;

(III) a plurality of arcuate locking leaf springs disposed in a radially symmetrical arrangement about a primary axis of rotation;

wherein the plurality of arcuate locking leaf springs extend parallel and offset relative to the outer surface of the male portion;

wherein the plurality of arc-shaped locking leaf springs are respectively matched with the plurality of arc-shaped locking grooves;

wherein a portion of the inner surface of the male portion is attachable to the object;

wherein the portable device is quickly secured to the object by affixing the outer surface of the female portion to an outer surface of the male portion, thereby inserting the plurality of arcuate locking leaf springs of the male portion into the plurality of arcuate locking slots in the female portion, and angularly displacing the female portion relative to the male portion about the primary axis of rotation.

9. The combination of claim 8, wherein the female portion further comprises a magnet configured to attract the male portion, thereby facilitating alignment and proximity of the female portion with the male portion.

10. The combination of claim 8, wherein the female portion further comprises a plurality of locking holes disposed in a radially symmetrical arrangement about the major axis of rotation and at an angular offset relative to the plurality of arcuate locking grooves, respectively, and wherein the plurality of arcuate locking leaf springs further comprise a protrusion formed on a terminal portion of the arcuate locking leaf spring, wherein the arcuate locking leaf spring is configured to slide within the arcuate locking groove until the protrusion on the arcuate locking leaf spring is inserted into the locking hole, thereby securing the female portion to the male portion.

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