阅读说明：本技术 锁定机构 (Locking mechanism ) 是由 A·哈米尔 A·拉迪亚 于 2018-09-17 设计创作，主要内容包括：锁定机构的插座(202),该插座包括：具有第一开口(200)的第一端(206)以及第二端(306),所述第一开口围绕一插座轴线(221)形成插座的第一周边(203),第二开口围绕所述插座轴线形成插座的第二周边(303),所述两端之间的距离形成插座的深度(304)；第一侧壁(308),其延伸插座的深度延续第一周边的第一部分(203A)；第二侧壁(318),其从第一端延伸并且小于插座的深度延续第一周边的第二部分(203B),其中,在与第一周边的第二部分对齐的第二端处,所述第二端比第一端的第一开口宽,并且限定了垂直于插座的轴线的锁定表面(312),所述表面包括用于与插塞(102)的互补锁定机构(124)配合的锁定机构(314)。(A receptacle (202) of a locking mechanism, the receptacle comprising: a first end (206) having a first opening (200) forming a first perimeter (203) of the socket about a socket axis (221) and a second end (306) forming a second perimeter (303) of the socket about the socket axis, the distance between the two ends forming a depth (304) of the socket; a first sidewall (308) extending the depth of the receptacle for a first portion (203A) of the first perimeter; a second sidewall (318) extending from the first end and continuing a second portion (203B) of the first perimeter less than the depth of the receptacle, wherein at a second end aligned with the second portion of the first perimeter, the second end is wider than the first opening of the first end and defines a locking surface (312) perpendicular to the axis of the receptacle, the surface including a locking mechanism (314) for mating with a complementary locking mechanism (124) of the plug (102).)

1. A receptacle of a locking mechanism, the receptacle comprising:

a first end having a first opening defining a first perimeter of the receptacle about a receptacle axis and a second end defining a second perimeter of the receptacle about the receptacle axis, the distance between the ends defining a depth of the receptacle;

a first sidewall extending the depth of the receptacle for a first portion of the first perimeter;

a second sidewall extending from the first end and extending less than the depth of the receptacle for a second portion of the first perimeter, wherein at a second end aligned with the second portion of the first perimeter, the second end is wider than the first opening of the first end and defines a locking surface perpendicular to the axis of the receptacle, the surface including a locking mechanism for mating with a complementary locking mechanism of the plug.

2. The receptacle of claim 1, further comprising:

a plurality of said first side walls, each first side wall extending the depth of the receptacle for a first portion of the first perimeter;

a plurality of said second side walls, each second side wall extending from the first end and continuing for a second portion of the first perimeter less than the depth of the receptacle, wherein at a second end aligned with each second portion of the first perimeter, said second end is wider than the first opening of the first end and defines a second perimeter of the receptacle and a locking surface perpendicular to the axis of the receptacle, said surface comprising a locking mechanism for mating with a complementary locking mechanism of a respective plug.

3. A socket according to any preceding claim, wherein the locking mechanism comprises a protrusion from the locking surface.

4. A socket according to any preceding claim, wherein the locking mechanism comprises a cut-out portion of the locking surface.

5. A socket according to any preceding claim, wherein the first opening comprises a polygon.

6. The receptacle of claim 5, wherein the polygon has rounded corners.

7. A socket according to any preceding claim, wherein the second perimeter comprises a first portion comprising an arc formed by rotation of the first opening about the socket axis.

8. The receptacle of any one of claims 5 to 7, wherein the second perimeter includes a second portion having a shape complementary to a corner of the polygon.

9. A socket according to any of claims 7 or 8, wherein the first and second portions of the second perimeter are located on either side of the locking mechanism.

10. A socket according to any one of claims 7 to 9, wherein the second peripheral edge is arranged to complement a corresponding plug when mated with the locking mechanism of the socket.

11. A socket according to any preceding claim, arranged such that the respective plug is rotated between 25 and 65 degrees to engage the locking mechanism.

12. A socket according to any preceding claim, located on a handheld device.

13. A socket according to any preceding claim, located on a housing of a handheld device.

14. A socket according to any preceding claim, wherein the second end comprises a second opening and the second opening is wider than the first opening.

15. The receptacle of any one of claims 1 to 13, wherein the second end comprises a closed end.

16. A plug of a locking mechanism, the plug comprising:

a first end;

a second end;

a neck surrounding a plug axis and extending between a first end and a second end;

the second end includes a lock extending radially beyond the neck and perpendicular to the plug axis; wherein

The locking portion includes a locking surface proximate the neck, the locking surface including a locking mechanism for mating with a complementary locking mechanism of the receptacle.

17. The plug according to claim 16 further comprising a plurality of locking mechanisms.

18. The plug according to claim 16 or 17 wherein the locking mechanism comprises a protrusion from the locking surface.

19. The plug according to any one of claims 16 to 18 wherein said locking mechanism comprises a cut-out portion of said locking surface.

20. The plug according to any one of claims 16 to 19 wherein said locking portion comprises a polygon.

21. The plug according to claim 20 wherein said polygon has rounded corners.

22. The plug according to any one of claims 16 to 21 wherein each locking mechanism is located at or near a corner of the polygon.

23. The plug according to any one of claims 16 to 22 wherein said first end is located on a handheld device accessory.

24. A locking mechanism comprising the receptacle of any one of claims 1 to 15 and the plug of any one of claims 16 to 23.

Technical Field

The present invention relates to a locking mechanism for a device and is particularly suitable for, but not limited to, attachment to a mating accessory of a handheld device.

Background

Many locking mechanisms have been developed to attach a handheld electronic device to a mating accessory such as a windshield mount or bicycle handlebar mount. Such known locking mechanisms typically include a clamping mechanism that is not specific to the size of the device or accessory. As a result, such known mechanisms may not enable a secure connection between the accessory or device, and whether the connection between the handheld device and the companion accessory is secure may depend on the user's settings. Other locking mechanisms operate by moving parts, such as spring assemblies or snap connections. These mechanisms are susceptible to deformation and breakage, limiting their useful life. In addition, the locking mechanism tends to be bulky, and thus cannot be used in some situations or with certain accessories, thereby reducing its versatility.

Accordingly, the present invention discloses an improved locking mechanism that overcomes the above-mentioned disadvantages.

Disclosure of Invention

According to a first aspect, there is provided a socket as defined in claim 1 of the accompanying claims. Accordingly, the present invention provides a receptacle for a locking mechanism, the receptacle comprising a first end having a first opening forming a first perimeter of the receptacle about a receptacle axis and a second end forming a second perimeter of the receptacle about the receptacle axis, the distance between the two ends forming the depth of the receptacle; a first sidewall extending the depth of the receptacle for a first portion of the first perimeter; a second sidewall extending from the first end and extending less than the depth of the receptacle for a second portion of the first perimeter, wherein at a second end aligned with the second portion of the first perimeter, the second end is wider than the first opening of the first end and defines a locking surface perpendicular to the axis of the receptacle, the surface including a locking mechanism for mating with a complementary locking mechanism of the plug.

Optionally, the socket further comprises a plurality of said first side walls, each first side wall extending the depth of the socket for a first portion of the first perimeter; a plurality of said second side walls, each second side wall extending from the first end and continuing for a second portion of the first perimeter less than the depth of the receptacle, wherein at a second end aligned with each second portion of the first perimeter, said second end is wider than the first opening of the first end and defines a second perimeter of the receptacle and a locking surface perpendicular to the axis of the receptacle, said surface comprising a locking mechanism for mating with a complementary locking mechanism of a respective plug.

Optionally, a socket according to the present invention, wherein the locking mechanism comprises a protrusion protruding from the locking surface.

Optionally, a socket according to the invention, wherein the locking mechanism comprises a cut-out portion of the locking surface.

Optionally, the socket according to the present invention, wherein the first opening comprises a polygon.

Optionally, a socket according to the invention, wherein the polygon has rounded corners.

Optionally, a socket according to the invention, wherein the second perimeter comprises a first portion comprising an arc formed by rotation of the first opening about the socket axis.

Optionally, a socket according to the invention, wherein the second perimeter comprises a second portion having a shape complementary to a corner of the polygon.

Optionally, a socket according to the invention, wherein the first and second portions of the second perimeter are located on either side of the locking mechanism.

Optionally, a socket according to the present invention, wherein the second perimeter is arranged to complement a corresponding plug when engaged with the locking mechanism of the socket.

Optionally, the receptacle of the present invention is arranged such that the corresponding plug is rotated between 25 and 65 degrees to engage the locking mechanism.

Optionally, the socket of any preceding claim is located on a handheld device.

Optionally, the socket of any preceding claim is located on a housing of a handheld device.

Optionally, a socket according to any preceding claim, wherein the second end comprises a second opening and the second opening is wider than the first opening.

Optionally, the invention provides the socket wherein the second end comprises a closed end.

According to a second aspect, there is provided a plug of a locking mechanism, the plug comprising: the plug comprises a first end, a second end, a neck surrounding a plug axis and extending between the first end and the second end, the second end comprising a locking portion extending radially beyond the neck and perpendicular to the plug axis, wherein the locking portion comprises a locking surface closest to the neck, the locking surface comprising a locking mechanism for mating with a complementary locking mechanism of the socket.

Optionally, the plug further comprises a plurality of locking mechanisms.

Optionally, the plug according to the present invention, wherein the locking mechanism comprises a protrusion protruding from the locking surface.

Optionally, in the plug according to the present invention, wherein the locking mechanism comprises a cut-out portion of the locking surface

Optionally, in the plug according to the present invention, wherein the locking portion comprises a polygon.

Optionally, in the plug according to the present invention, wherein the polygon has rounded corners.

Optionally, in a plug according to the invention, each locking mechanism is located at or near a corner of the polygon.

Optionally, the plug according to the present invention, wherein the first end is located on a handheld device accessory.

According to a third aspect there is provided a locking mechanism comprising a socket according to any one of claims 1 to 15 and a plug according to any one of claims 16 to 23.

According to a fourth aspect, the present invention provides a method of manufacturing any other aspect, the method comprising providing a socket and/or plug of the other aspect.

Optionally, the neck of the plug is integrally formed with the locking portion of the second end.

Optionally, the neck of the plug is a different component than the locking portion of the second end.

Optionally, the neck of the plug is integrally formed with a surface of the mating accessory.

Preferred and optional features are defined in all respects in the dependent claims.

Drawings

Embodiments will now be described, by way of example, with reference to the accompanying drawings, in which

FIG. 1A shows a top view of a plug assembly on a mating accessory;

FIG. 1B shows a side view of the plug assembly on a mating accessory;

FIG. 1C shows a front view of the plug assembly on the mating accessory;

FIG. 2A shows a top view of a receptacle assembly of a handheld device housing;

FIG. 2B illustrates a bottom view of the jack assembly on the handheld device housing of FIG. 2A;

FIG. 2C shows a side view of the jack assembly on the handheld device housing of FIG. 2A;

FIG. 2D illustrates a front view of the receptacle assembly of FIG. 2A;

FIG. 2E shows a perspective view of the jack assembly on the handheld device housing from the front;

FIG. 2F shows a close-up view of the receptacle of FIG. 2E;

FIG. 3A shows a rear view of a jack assembly on a handheld device housing;

FIG. 3B shows a perspective rear view of the receptacle assembly on the handheld device;

FIG. 3C shows a close-up view of the receptacle of FIG. 3B;

FIG. 4 is a perspective view of a mating accessory with a plug assembly and a handheld device housing with a receptacle assembly arranged to be locked together but not yet locked, an

FIG. 5 is a perspective view of a mating accessory having a plug assembly and a handheld device housing having a receptacle assembly, both assemblies in a locked configuration.

Summary of the invention

The locking mechanism according to the invention comprises a socket, preferably located on a device. The socket may comprise part of the device, or may comprise part of an outer housing, clip or other attachment means for the device, which may be a handheld device. The locking mechanism further comprises a plug arranged to mate with the socket, the plug preferably being located on or comprising part of a mating accessory of the device.

Detailed Description

Fig. 1A-1C illustrate a plug assembly 102 on a mating accessory of a handheld mobile device or other handheld or portable device. The illustrated mating accessory is a card bag, but it should be understood that plug assembly 102 may be attached to any mating accessory. The plug 102 has a neck 104 having a first end 108 and a second end 110, wherein the first end 108 of the neck is attached to a surface 112 of the mating accessory 100 such that the neck 104 protrudes from the surface 112 of the mating accessory 100. The neck 104 may be integrally formed with the surface 112 of the mating accessory or may be attached to the surface 112 of the mating accessory by any known fastening means. The second end 110 of the neck includes a locking portion 106, such as a locking panel 106A, which is preferably integrally formed with the second end 110. The locking portion has a first surface 114 and a second surface 116. The surfaces 114, 116 of the locking portion 106 lie in spaced planes that may be parallel to one another and the distance of spacing thereof is defined by the depth of the side walls 118.

At least one of the first surface 114 or the second surface 116 of the locking portion 106 may extend radially beyond the circumference of the second end 110 of the neck and perpendicular to the plug axis 121. In an exemplary embodiment, the locking portion 106 of the plug 102 is shaped to form a polygon having rounded corners 120. The locking portion 106 is arranged to fit into a first opening 200 of a receptacle 202 (see fig. 2D, 2E, 2F discussed later), which may be located on a housing of a handheld device 204 or directly on the device itself. In the exemplary embodiment, the radius of the rounded corner 120 on the lock 106 is less than the radius of an equivalent circle described by the lock panel 106 when the lock panel 106 is rotated about the plug axis 121.

The second surface 116 may be referred to as the locking surface of the locking portion 106, with at least one male locking mechanism located on the second surface 116 or, depending on their relative size, the locking portion located between the first surface 114 and the second surface 116. In the case where the locking portions 106 have a polygonal shape, each locking mechanism may be located at or near the corner of one polygon. Fig. 3D shows an example of the locking mechanism 124 being located on the locking panel 106A (perspective view). The locking mechanism 124 protrudes from the second surface 116 and may be shaped as a dome or a rod with a dome top such that the stem of the locking mechanism holds the corresponding female die locking mechanism in place. The locking mechanism may be formed in any shape suitable for cooperating with a corresponding female locking mechanism. The rounded top of the locking mechanism facilitates rotational movement of the plug 102 and receptacle 202 to ultimately lock and unlock the two components. In the exemplary embodiment shown in fig. 1A and 1B, the locking mechanism 124 is located on the second surface 116 of the locking portion 106. The at least one locking mechanism is sized and positioned to mate with a corresponding female locking mechanism, optionally a locking notch or cutout, in the receptacle 202. The female die locking mechanism may be shaped as a reverse dome to match the dome shape of the locking mechanism 124.

In the following description, the drawings illustrate a receptacle having a first end with a first opening and a second end with a second opening. It should be understood that the second end may comprise a closed end. The working principle of the socket is the same for both variants. In the case of a closed end, any reference to the plane of the second end should be understood as an abutment to the closed second end.

Fig. 2A-3C illustrate a handheld device 204 or a receptacle assembly 202 on the housing of the handheld device 204. The receptacle 202 has a first end 206 that includes the first opening 200 and a second end 306 that may include the second opening 300. The first opening 200 forms a first perimeter 203 of the receptacle 202 about the receptacle axis. The second opening or second end (closed) 300 forms a second perimeter 303 of the receptacle about the receptacle axis 221. The distance between the opening 200 and the open/second end (closed) 300 forms the depth 304 of the receptacle 202 (see fig. 3C). The first perimeter 203 has the same shape as the locking panel 106 of the plug 102 and is arranged to receive said locking panel 106. Accordingly, the first opening 200 may have a polygonal shape. The material around the first perimeter 203 on the first end 206 may be slightly thicker relative to the material around the first end to form a raised border 208 around the first opening 200 and the first perimeter 203. The raised boundary 208 is made of the minimum material required to ensure a tight fit between the plug 102 and the receptacle 202 when they are brought together, while ensuring that the integrity of all components remains intact without deformation or breakage. The raised border 208 may have a thickness of, for example, 2.9mm, which provides the depth of the socket.

The two openings 200 and 300 avoid the accumulation of dirt and dust inside the socket 202, which is difficult to remove, which would otherwise impair the function of the locking mechanism by dirt and dust particles accumulating in the respective recess of the socket.

Raised boundary 208 also reduces damage to the surface around first end 206 of socket 202, which may be, for example, the housing of a hand held device or surface 112 of mating accessory 100 connected to the first end of the neck of plug 102. Otherwise, damage may occur during attachment and removal (twisting motion described later) of the accessory 100, resulting in scratching of the surrounding surface material of the handset or accessory, which may be made of a softer material (e.g., silicone or rubber coating) than the plug and socket (e.g., polycarbonate).

The second opening 300 in the second end 306 of the receptacle 202 (or the depth of the receptacle up to the closed end wall) is also arranged to receive the locking panel 106 of the plug 102 and is larger (wider) than the first opening 200 in the first end 206 so that the second opening 300 can receive the locking panel 106 of the plug 102 when said locking panel 106 is rotated. The rotation may be between 25 and 65 degrees, for example 45 degrees. Furthermore, any rotation of the locking panel above zero and below 90 degrees may provide the required rotational movement, as long as there is sufficient space on the locking surface 312 (see below) of the receptacle for the locking mechanism used.

In fig. 2E and 2F, it can be seen that at and/or near the rounded corner 310 of the receptacle 202, a first sidewall 308 extends from the first end 206 perpendicularly along the depth of the receptacle 202 between the raised boundary 208 and the second end 306, continuing a first portion 203A of the first perimeter 203 of the first opening 200. The first side wall 308 extending from the rounded corner 310 of the receptacle and/or from the proximal end thereof is arranged to guide the corresponding rounded corner 120 on the locking panel 106 of the receptacle 102.

A second sidewall 318 having a depth less than the depth of the receptacle 202 extends from the first end 206 a second portion 203B of the first perimeter 203. The second opening 300 (or closed end) of the second end 306 is aligned with (axially aligned with) the second portion of the first perimeter, and the second opening 300 (or closed end) of the second end 306 is larger (wider) than the first opening 200 of the first end 206. This defines a locking surface 312 that is perpendicular to the axis of the receptacle 202 as shown in figures 3A-3C. The locking surface 312 includes a locking mechanism 314 for mating with the complementary locking mechanism 124 of the plug. A first portion 303A of the second perimeter 303 abutting the locking surface 312 comprises an arc of a circle formed by the first opening rotating thereabout that corresponds to an arc of a circle rotated by the first opening about the receptacle axis (in other words, corresponding to the locking panel rotating about the plug axis), and a second portion 303B of the second perimeter 303 corresponds to an arc of a rounded corner of the locking panel. These portions are on either side of the locking mechanism 124. The depth of the second side wall 318 corresponds to the length of the neck 104 of the plug 102, forming a tight fit between the receptacle 202 and the locking panel 106 when locked together. The preferred length of the integral neck 104 and the depth of the locking panel 106 are selected to ensure that when the plug 102 and receptacle 202 are connected, there is frictional contact between the raised boundary 208 of the receptacle 202 and the surface 112 of the mating accessory 100, and that the first surface 114 of the locking panel 106 is flush with (or closely closes) the plane of the second end 306 of the receptacle 202. An example tolerance for frictional contact between the raised boundary 208 and the surface 112 of the mating accessory is 0.0 to 0.5mm, and preferably 0.0 to 0.1 mm.

This close flush arrangement advantageously increases the strength of the connection between the plug 102 and receptacle 202 when in the locked condition, eliminating any instability that would otherwise result in the plug 102 or receptacle 206 and the corresponding component accessory or handheld device swinging or rocking. Both the x and y axes benefit from this enhanced connection. The ultra-thin arrangement can also be maintained. The contact areas, i.e., the raised boundary 208 of the receptacle 202 and the corresponding area 122 of the surface 112 of the mating accessory 100 where it contacts, which are preferably formed of materials having similar hardness and density, such as rigid polycarbonate, provide z-axis support and control. This prevents any one component from wearing due to the hardness of the other component.

At least one female locking mechanism 314, which may be a notch or cut-out portion, may be located on the surface 312 of the receptacle 202 and may correspond to the protruding male locking mechanism 124 on the locking panel 106. Alternatively, the locking mechanisms of the plug and receptacle may be reversed. For example, the protruding locking mechanism 124 may be located on the surface 312 of the receptacle 202 and a corresponding notch or cut-out portion may be located on the locking panel 106. Either the female die lock mechanism 314 or the male die lock mechanism 124 optionally extends perpendicular to the second sidewall portion 318. In the exemplary embodiment shown in fig. 3A, four locking mechanisms including locking recesses 314 are shown on surface 314.

In an exemplary embodiment, the rounded corners 120 of the locking panel 106 of the plug 102 are disposed proximate to the corresponding recesses 316 at the rounded corners 310 of the receptacle 202.

During operation as shown in fig. 4 and 5, the locking face 106 of the plug 102 is inserted into the receptacle 202 until the first surface 114 of the locking face 106 is flush with the plane of the second (open) end 306 or abuts the closed second end of the receptacle 202. This ensures that the entire depth of the locking panel is inserted into the receptacle, deeper than the second side wall 318 and able to rotate. The locking panel is then cammed toward the locking surface and rotated about its axis 121 (and the axis 221 of the receptacle) to be in a locked configuration between the plug 102 and the receptacle 202. The at least one locking recess 314 is configured to retain the plug 102 by interlocking with the corresponding at least one locking mechanism 124 of the locking panel 106 when the plug 102 is rotated to the locked position.

Fig. 4 shows an example perspective view of the aligned but unlocked plug 102 and receptacle 202. In an example, the accessory 100 is at a 45 degree angle to the handheld device housing 204. The locking face plate 106 of the plug 102 on the mating accessory 100 is disposed in the first opening 200 of the receptacle 202 on the handset housing 204. The locking panel 106 is positioned such that its rounded corner 120 abuts the first sidewall 308 of the receptacle 202. The locking panel 106 is also positioned such that its first surface 114 is flush with the plane of the second end 306 of the receptacle 202.

In fig. 5, the exemplary plug 102 connected to the companion accessory 100 has been rotated 45 degrees so that the accessory lies parallel to the handheld device housing 204. The first surface 114 of the locking panel 106 is flush with the plane of the second end 306 of the receptacle 202. Upon rotation of the mating accessory 100, the rounded corner 120 of the locking panel 106 of the plug 102 cams along the second perimeter 303 of the second opening until abutting the curved recess 316 of the receptacle corresponding to the rounded corner 120 of the plug 102. The locking panel 106 is held in a locking arrangement within the receptacle 202 by means of at least one locking mechanism 314, the at least one locking mechanism 314 optionally being a recess located on a surface 312 of the receptacle 202. During relative rotation of the plug 102 and receptacle 202, the male locking mechanism 124 aligns with and snaps into the corresponding female locking mechanism 314, thereby locking the plug 102 and receptacle 202 together.

The friction between the locking mechanisms 314 and 210 is released by rotating the plug 102 and receptacle 202 in a direction opposite to that required for locking to release the locking mechanism. The plug 102 and receptacle 202 are then separated by aligning the locking panel 106 with the first opening 200 on the first end of the receptacle and by removing the locking panel 106 through the plug 102 through the first opening 200 into the receptacle 202.

It should be appreciated that the receptacle 202 and the plug 102 may be made of any suitable material. For example, both components may be made of a rigid Polycarbonate (PC) core or a PC core and molded silicone, although other materials or combinations of materials may be used. The use of a hard material such as PC can maintain the shape and avoid deformation of the assembly. Any hard material may be used, such as acrylic or polypropylene. The handheld device with the socket as shown in the exemplary embodiment is made from the hard core of the PC, which may include all or a portion of the housing of the device to provide stability, and is overmolded on the first and side surfaces with a soft material, such as silicone, to provide a smooth feel and protection for the user. The interior of the housing formed adjacent to the surface of the hand held device may be coated with a microfiber fabric to advantageously protect and secure the surface and provide additional cushioning and scratch resistance, although such microfiber fabric may not extend to the area around the locking socket. The use of any of the foregoing materials is exemplary and optional, and any suitable material may be used.

The locking mechanism according to the invention has several advantages compared to existing locking mechanisms. In particular, the locking mechanism has no moving parts, thereby increasing the useful life of the plug and receptacle. The locking mechanism is also compact and slim, thus providing little interference to the user when installed on the device and accessories. Thus, the locking mechanism is both powerful and versatile.

Although the plug and socket combinations described above are arranged in the exemplary embodiments and figures as having a plug with a locking panel having a square shape with rounded corners and having corresponding openings and recesses for receiving the shape, it will be appreciated that other shapes of locking panels and corresponding openings and recesses may be used, such as, but not limited to, triangular or hexagonal or any polygonal shape. Any shape may be used as long as it comprises at least one locking element with at least one corresponding locking recess for use in a correspondingly shaped socket.

The size and shape of the locking element and corresponding locking recess are not limited to the domes and reverse domes of the exemplary embodiments, and other sizes and shapes may be used. The number of locking elements and locking recesses may also be increased or decreased depending on the shape and material used. The material of the locking element and the corresponding contact area on the locking panel may also vary.

The exemplary embodiments and figures refer to the socket being part of a telephone housing for a handheld device and the plug being part of a companion device for attachment thereto. It should be understood that this is not a limiting feature and that the receptacle and plug may be integrally formed with a companion device including, but not limited to, a sport strap, a card pack, a battery accessory, a bicycle handlebar accessory, a car park system, etc. or make an attachment to any other portable system. The plug and receptacle may be interchangeable such that the plug is connected to the mobile/portable/handheld device and the receptacle is connected to the companion accessory. Alternatively, in the case of a bicycle handlebar attachment or a car parking system, one of the plug or socket may be attached to another connecting device for coupling with a bicycle handlebar or a car windscreen, such as a handle grip or windscreen suction cup device.