BRACKET ASSEMBLY

Abstract

A bracket assembly 2 for providing an attachment point on a surface for supporting an article. The bracket assembly 2 includes a body member 6 arranged so as to be held against a region of the surface by way of magnetic association therewith. The body member has a support region 7 from which the article may be supported. The body member 6 may be arranged so that, when in use, the support region 7 is spaced from the surface.

Description

FIELD OF THE INVENTION

The present invention relates to a bracket assembly. In one aspect, the invention relates to a bracket assembly arranged for providing a moveable attachment point on a surface such as that of a garment.

BACKGROUND OF THE INVENTION

In this specification, where a document, act or item of knowledge is referred to or discussed, this reference or discussion is not an admission that the document, act or item of knowledge or any combination thereof was at the priority date:

• • (i) part of common general knowledge; or
  • (ii) known to be relevant to an attempt to solve any problem with which this specification is concerned.

It is often necessary for workers to operate communications equipment for carrying out their occupational duties. For example, many field personnel in the safety/rescue industries carry communications equipment on their clothing so as to be readily contactable by a central communications centre when in the field. In such situations, deficiencies in communications technology can present potentially fatal situations. Similar considerations are also relevant for workers operating machinery on construction sites.

Currently, many such devices are generally attached to user's clothing in a way that seeks not to impede or restrict the user's movement while using the equipment.

Although many attachment systems have been proposed over time, most have been found to be awkward, clumsy and cumbersome to use, and, in some cases, defeat the purpose which they are intended to serve.

Further, current attachment systems tend to accommodate only a narrow range of equipment on a very limited number of garments.

SUMMARY OF THE INVENTION

According to a first aspect, there is provided a bracket assembly for providing an attachment point on a surface for supporting an article, the bracket assembly including:

a body member arranged so as to be held against a region of the surface by way of magnetic association therewith, the body member having a support region for providing support to the article, the body member arranged so that, when in use, the support region is spaced from the surface.

According to another aspect, there is provided a bracket assembly for providing an attachment point on a surface for carrying an article, the bracket assembly including:

a body member arranged so as to be held against a region of the surface by way of magnetic association therewith, the body member having a carrier region for providing carriage for the article, the body member arranged so that, when in use, the carrier region is spaced from the surface.

In one application, the surface to which the body member of the bracket assembly is applied may be a metallic surface. In this context, the body member of the bracket assembly may be placed against any metallic surface such as for example the inside of a working machine cab or side wall of metal sheds, offices, or site sheds. The surface is preferably of a type that is magnetically responsive to the body member. The magnetic association between the surface and the body member therefore does not need to be premised on the basis of dual polarity, ie, in one embodiment, the metallic surface does not need to be formed of a material opposite in magnetic polarity to the body member.

The body member may be further arranged so as to provide rigid carriage for or support to the article.

The body member may comprise a magnetic material. In one embodiment, the body member may comprise one or more magnetic elements arranged so as to, when in use, be in magnetic association with the surface.

In a further application, the body member is arranged to be held against a layer of a material of a garment. In this embodiment, the bracket assembly may further comprise a base member arranged to be associated with the garment such that, when in use, the or each magnetic element is arranged in magnetic association with the base member thereby allowing the bracket to be held against the surface of the layer of material of the garment. The base member may be formed from a magnetic material or a non-ferrous material.

When applying the bracket assembly to the garment, the base member is arranged on a first side of the layer of material (internal facing side of material), and the body member is arranged to be placed against a second side of the material (external facing side of material) at a position where the body member substantially overlies the region of material where the base member has been placed. Therefore, when the base member and the body member are placed on opposites sides of the layer of material of the garment, the magnetic attraction between the or each magnet and the base member is sufficient to hold the body member against the external facing side of the material. Further, the magnetic association between the magnetic element(s) and base member may be such that the bracket assembly can be used with garments having one or more layers of material, or layers of varying thicknesses.

In general, embodiments of the bracket assembly according to the first aspect, when used with apparel, can be advantageous in that:

• • the bracket assembly may be readily transferable between different apparel (ie, different garments);
  • the bracket assembly may provide a more stable attachment platform than epaulettes or shirt pockets;
  • the bracket assembly tends to not penetrate the garment when in use; and,
  • the bracket assembly may provide an attachment point that is not limited to any single position on the garment.

In one application, the bracket assembly of the first aspect is used to provide support to a UHF handheld radio unit. When used in this context, one or more of the following advantages may be realised:

• • safety and efficiency on work sites can be increased leading to an increase in operation time;
  • replacement and repair costs of UHF units may be reduced;
  • such radio units may be better maintained as they are less likely to fall off the worker's body;
  • the number of repetitive messages may be reduced;
  • extended UHF battery life due to lower sound volume being required;
  • in some situations, use of the bracket assembly allows workers to use both hands during tasks;
  • the volume dial on the UHF unit is less likely to be inadvertently rolled to the low or off position;
  • the bracket assembly does not have to be repositioned when getting in and out of vehicles or machinery if positioned appropriately on the wearer's garment;
  • distortion on radio may be reduced as the optimum volume while using the bracket assembly is generally in the order of 60%;
  • creates confidence and re-assurance that calls are being heard the first time and being answered promptly;
  • increase in UHF radio range due to being placed higher on the user's body;
  • in comparison to prior over the shoulder strap systems, use of the bracket assembly allows the radio unit to placed against the users shoulder to allow a direct line of sound to the ear, rather than projecting the sound outwards at 90 degrees from the chest;
  • users are not restricted to specific clothing as the bracket assembly can be applied to a wide variety of garment types; and
  • lanyard systems can create a situation where the UHF radio connected to the lanyard can become a potential choking hazard. Use of the bracket assembly of the present invention can minimise the risk of causing a choking hazard when climbing in and out of heavy plant machinery.

Other benefits may also be realised.

For either application, the arrangement of the body member may be substantially the same.

The support region of the body member may be arranged so that the article can be releasably attached thereto. The magnetic element(s) may be arranged so as to be releasably coupled to the body member of the bracket assembly. The body member may comprise one or more leg portions extending therefrom, the or each leg portion arranged so as to have a respective magnetic element provided therewith.

One or more of the leg portions may be arranged to terminate in a respective foot portion. In this embodiment, each foot portion is arranged to have a respective magnetic element provided therewith. In one arrangement, the or each magnetic element is coupled to a respective foot portion. In an alternative embodiment, the magnetic element(s) may be moulded with each respective leg or foot portion of the body member.

The leg portion(s) may be arranged so that, when the body member is applied to the garment, the support region of the body member is spaced from the surface of the garment thereby allowing sufficient space between the surface of the garment and the body member for receiving a securing mechanism of the article therebetween. One advantage of this arrangement is that the body member can accommodate a larger range of articles which may be supported by the bracket assembly.

The base member may be housed within a pocket formed on the inside surface of the layer of material of the garment.

The base member may be formed from a magnetic material or may be non-ferrous.

The support region of the body member may be arranged for supporting at least one of a UHF radio transmitter, a remote speaker phone, secondary scuba regulators, mobile phones, epirbs, handheld GPS units, magazine clips for containing ammunition. It will be appreciated that the support region of the body member may be arranged to support many other devices.

The body member may be planar or non-planar.

In one embodiment, the body member is of generally rectangular form and comprises four leg portions extending outwardly from the body member, pairs of leg portions being disposed at opposite ends of the body member. Each leg portion is arranged so as to terminate in a respective foot portion.

In another embodiment, the body member comprises one pair of opposed leg portions, each leg portion extending outwardly from the body member, whereby each leg portion is arranged so as to terminate in a respective foot portion.

In each of the above embodiments, one or more of the leg portions extends away from the body member at an angle of inclination to the planar surface of the body member. Furthermore, a magnetic element is fastened to each foot portion. Each foot portion may be arranged so as to lie substantially flat against the surface to which it is to contact to maximise the magnetic association therewith.

The base member may comprise release means for separating the body member from the base member in the event the magnetic attraction is too strong. In one embodiment, the release means comprises a bore formed in the base member at a region thereof so that, when the body member overlies the base member, at least a portion of the body member overlies a portion of the opening of the bore. The bore may be threaded so as to receive a threaded shaft such as a screw, so that the screw may be wound through the bore so as to contact the body member, or respective magnetic element, and therefore separate the body member from the base member.

According to a further aspect there is provided a garment having a region arranged so as to be in magnetic association with a bracket assembly according to the invention.

In one embodiment, the garment may comprise one or more layers of material which comprise or carry a metallic substrate and therefore capable of being placed in magnetic association with the magnetic element(s) of the body member so that the body member may be held against the garment.

In another embodiment a pocket is formed on the internal side of the garment for housing a base member so that the base member may be arranged in magnetic association with a bracket assembly according to the first aspect.

According to a third aspect there is provided a method for attaching a bracket assembly of the first aspect of the invention to a garment, the method comprising:

providing a metallic base member and arranging the base member with the garment so that a bracket assembly according to the first aspect of the invention may be held thereagainst by way of magnetic association with the base member.

The method may further comprise arranging the base member on the internal surface of the garment and placing the body member against the external facing surface substantially over the region where the base member is positioned.

In another aspect the present invention provides a bracket assembly for providing an attachment point on a surface for supporting an article, the bracket assembly including:

an apertured, generally planar body member and a pair of opposed leg portions extending from the body member, the aperture capable of receiving part of the article so that the bracket assembly provides support for the article, the leg portions terminating in a region capable of magnetic association with a corresponding surface that is sympathetic to magnetism.

In another aspect the present invention provides a bracket assembly for providing an attachment point on a surface for carrying or supporting an article, the bracket assembly including:

a generally planar body member and a pair of opposed leg portions extending from the body member,

the body member defining with the surface an aperture therebetween capable of receiving part of the article so that the bracket assembly provides carriage or support for the article, the leg portions terminating in a region capable of magnetic association with a corresponding surface that is sympathetic to magnetism.

In another aspect the present invention provides a bracket assembly for providing an attachment point on a surface for carrying or supporting an article, the bracket assembly including:

a generally planar body member and a pair of opposed leg portions extending from the body member, and

a base member,

the body member and the base member defining an aperture therebetween,

the aperture capable of receiving part of the article so that the bracket assembly provides carriage or support for the article, the leg portions terminating in a region capable of magnetic association with the base member.

Any of the above described embodiments may be provided with a means for reducing sliding and/or contact friction between the body member and the surface or region to which it is to be applied when the body member is moved or slid across the surface of region.

One or more covering elements may be provided and arranged to substantially cover a portion of a respective magnetic element of the bracket assembly. Therefore, in one embodiment, the covering elements serve to assist in reducing the effective co-efficient of sliding friction between the magnetic elements and the surface to which they are to be applied in applications where injury may result by application/removal of the body member from the surface (or garment fabric which may overlay the base member). Use of the covering elements may be useful in situations where compliance with relevant health and safety regulations is required.

In another embodiment, the or each covering element is arranged for releasable or permanent attachment to a respective magnetic element.

The covering element(s) may be formed so that their attachment to a respective magnetic element is such that they remain attached thereto during use. In this regard, the covering element(s) may each be arranged so as to have a snap fit, press fit, interference fit or similar, with a respective magnetic element.

The or each covering element may be suitably formed so that, in use, the effective co-efficient of friction when the magnetic elements are moved relative to the surface (or garment fabric which may overlay the base member) is reduced. In some embodiments, the effective co-efficient of friction between the magnetic elements and surface may be reduced by around 50-80%. Further, it will be appreciated that, when the bracket assembly is applied to clothing, the co-efficient of friction between the magnetic elements and the fabric may also be reduced.

It will be appreciated that the covering elements serve to reduce the effect of sliding friction thereby allowing, in one respect, the bracket assembly to be more easily removed from the surface to which it is applied (ie, often by sliding the bracket assembly relative to the surface to which it is applied). Although it is recognised that use of the covering elements may, in some instances, result in a slight reduction in the pulling capacity of the magnetic elements, the configuration of the covering elements should not be such that the magnetic association with the base member, or metallic surface, compromises the ability of the bracket assembly to retain the article against the surface appropriately.

DESCRIPTION OF THE DRAWINGS

Two embodiments of the bracket assembly will now be further explained and illustrated by reference to the accompanying drawings in which:

FIG. 1A shows a perspective view of one embodiment of the bracket assembly in accordance with the present invention; and,

FIG. 1B shows an exploded view of the bracket assembly of FIG. 1A;

FIG. 1C shows a perspective view of the bracket assembly of FIGS. 1A and 1B when in magnetic association with a base member;

FIG. 1D shows a perspective view of the bracket assembly of FIGS. 1A-1C when located against a garment;

FIG. 1E shows a perspective view of the bracket assembly of FIG. 1D when supporting a handheld radio transmitter/receiver device;

FIG. 1F shows a cross-section of FIG. 1D;

FIG. 1G shows a cross-section of FIG. 1E;

FIG. 2A shows a perspective view of another embodiment of the bracket assembly in accordance with the present invention; and,

FIG. 2B shows an exploded view of the bracket assembly of FIG. 2A;

FIG. 2C shows a perspective view of the bracket assembly of FIGS. 2A and 2B when in magnetic association with a base member;

FIG. 2D shows a perspective view of the bracket assembly of FIGS. 2A-2C when located against a garment;

FIG. 2E shows a perspective view of the bracket assembly of FIG. 2D when supporting a handheld radio transmitter/receiver device;

FIG. 3A shows a cross section view of a covering element positioned about a respective magnetic element of the bracket assembly according one embodiment of the present invention; and,

FIG. 3B shows a perspective view of the covering element shown in FIG. 3A prior to positioning about a respective magnetic element.

DETAILED DESCRIPTION OF THE DRAWINGS

FIGS. 1A to 1G illustrate a first embodiment of a bracket assembly 2 for providing an attachment point on a surface for carrying or supporting an article, such as for example a handheld radio transmitter unit. The bracket assembly 2 includes a body member 6 arranged against a region of the surface whereby the body member 6 is configured with a support region 7 arranged so that the article may be spaced from the surface.

In one application, the surface to which the body member 6 of the bracket assembly 2 is applied may be a metallic surface. In this embodiment, the body member 6 of the bracket assembly 2 may be placed against any metallic surface such as for example the inside of a working machine cab or side wall of metal sheds, offices, or site sheds. The surface is preferably of a type that can engage with the body member magnetically.

In another application, the bracket assembly 2 is used in conjunction with a garment 4 (shown in FIGS. 1E to 1G). In this embodiment, the body member 6 of the bracket assembly 2 can be used as an attachment point for supporting many types of articles in locations that are convenient to the garment wearer for either operating the article or merely storing the article between use. The description of the embodiment of the bracket assembly 2 as used in conjunction with a garment is continued throughout the remainder of the following description.

As shown in FIGS. 1A to 1C, bracket assembly 2 includes four leg portions 8 extending away from the body member 6 at opposite ends thereof. Each leg portion 8 is arranged to terminate with a respective foot portion 10. Each leg portion 8 is arranged to extend away from body member 6 at an angle of inclination thereto.

The support region 7 of the body member 6 is arranged to provide a supporting platform to which an article may attach. In the arrangement shown in FIGS. 1A to 1C, the leg portions 10 are arranged to provide a space between the surface to which the body member 6 is applied and the support region 7. For use with the garment 4, the arrangement between the support region 7 and foot portions 10 allows the article to be spaced from the surface of the garment thereby providing sufficient space for receiving, between the support region 7 and the surface of the garment 4, a fastening element of the article, such as for example a pivoting spring loaded clamp or clip as is common on most handheld radio units.

Foot portions 10 are arranged so that they each may have respective magnetic elements 12 coupled to their underside faces by fastening assembly 16. Fastening assembly 16 includes a spring washer 18 which is placed over a threaded portion 22, extending from each magnetic element 12 (when passed through bore 23 formed in a respective foot portion 10), and clamped in position against the foot portion 10 by nut 20.

The skilled person will appreciate that many other fastening arrangements may be used to fasten the magnets to the underside of the foot portions 10. For example, an adhesive fastening arrangement may be readily employed.

When the bracket assembly 2 is used in conjunction with the garment 4, the assembly may further comprise a base member 14 which is arranged with the garment so that it is in magnetic association with the body member 6 thereby allowing the body member to be held against the garment. The magnetic members 12 and base member 14 are selected so as to be capable of magnetic association with each other. However, it will be appreciated that if the garment 4 comprises sufficient material that is capable of being magnetically associable with the magnetic elements 12, then base member 14 may not be required.

When the bracket assembly 2 is assembled to the garment 4 (shown in FIGS. 1F and 1G), the base member 14 is positioned at a region of the garment 4 where the body member 6 is to be held against The base member 14 is arranged so as to be placed against the inside surface of a layer of material of garment 4, and the body member 6 then applied to opposite surface of the layer of material that corresponds with the position of base member 14, thereby sandwiching the layer of material between base member 14 and body member 6. The magnetic attraction between the magnetic elements 12 and the base member 14 thereby ensures the body member 6 is held against the layer of material of the garment 4. The magnetic attraction between the magnetic elements 12 and the base member 14 may be arranged to be stronger or weaker by selecting different materials depending on the number of layers of material involved or the thickness of the layers. It will be readily appreciated that such form of attachment does not penetrate the layer of material of the garment.

The garment 4 may be arranged having a pocket (not shown) sown therein being of appropriate configuration to house the base member 14. The skilled person will however appreciate that the garment does not need to have a pocket specifically sown therein for accommodating the base member 14, as the magnetic attraction between the base member 14 and the magnetic elements 12 is generally sufficient to ensure that both are held in any desired position against any region of the garment.

The support region 7 may be arranged so that many different types of articles may be removably secured thereto. For example, the support region 7 may be arranged so that a standard handheld radio unit may by attached thereto. For example, the radio unit may comprise a spring loaded clamp assembly which may be opened so as to engage with the support region 7 thereby releasably clamping the radio unit to the body member 6.

In use, the bracket assembly 2 (with radio unit attached) may be placed on the garment 4 near the wearer's neck thereby allowing the user to easily hear and operate the unit.

As shown in FIGS. 1D and 1E, the bracket assembly 2 is applied to the shoulder region of the garment 4, and used to support a UHF handheld radio unit. The radio unit may be conveniently held in position when not in use but can be easily and readily used without the inconvenience of being removed from the body member 6.

FIGS. 2A to 2E show another embodiment of the present invention, generally representing a smaller version of the bracket assembly 2. Bracket assembly 30 of this embodiment includes a body member 32 having two opposed or opposite leg portions 34 extending away from the body member 32 at opposite directions to one another and at an angle of inclination to the body member. The body member 32 is configured with a support region 35.

Each leg portion 34 is arranged so as to terminate with respective foot portions 36. Magnetic elements 12 are coupled to respective foot portions 36. When the bracket assembly 30 is to be used with a garment, the magnetic elements 12 are selected so that they may, when in use, be placed in magnetic association with a base member 38 when the bracket assembly 30 is arranged in position against the garment's surface. The body member 32 of the bracket assembly 30 comprises an aperture 44 which assists when attaching the transmitter/receiver portion of a remote radio communications device thereto (as shown in FIG. 2E). The skilled person will appreciate that the attachment of the bracket assembly 30 to a garment is achieved in the same way as that for bracket assembly 2.

Generally, the bracket assembly 30 offers a smaller and lighter weight version of the bracket assembly 2 that can be used to, in some instances, support smaller articles. For example, the bracket assembly 30 can be used to support much lighter remote microphone speaker unit 42 (shown in FIG. 2E). This may be particularly helpful for personnel in the armed forces (or police personnel) where microphone/speaker units can be placed below, for example, their rank and serial number and not on their epaulettes.

Some of the advantages of this embodiment are as follows:

• • the bracket assembly 30 can be made much lighter; and,
  • the bracket assembly 30 can be placed closer to a desired position on the user's shoulder than what might be otherwise achieved with the larger bracket assembly 2;

As shown in the Figures, the base members 14, 38 of respective bracket assemblies 2, 30 may also comprise a release means which includes a threaded bore 24, 46 arranged to receive a complementary threaded member (not shown) which may serve to assist release of the body members 6, 32 when magnetically engaged with the respective base members 14, 38 (ie. the threaded member being wound within bore 24, 46 so as to force the body member and respective base member apart). In the event the magnetic association is too strong, the release means may act as a fail safe to allow the body member to be removed from its base member. The bore 24, 46 is located at a region of the respective base members 14, 38 where a magnetic element 12, when in use, will be positioned so as to cover at least a portion of the opening of the bore. It will be appreciated that bore 24, 46 may not be threaded and may simply comprise an aperture suitably dimensioned for receiving a complementary member therein which may assist in separating the body member from its respective base member.

When the release means is used, the threaded portion of an appropriately dimensioned screw or similar can be inserted within the bore 24, 46 from the underside of the respective base member and wound until the tip of the screw contacts the underside of the magnetic element 12. Further winding will act to separate the magnet from the base member so that the body member and the base member can be pried apart.

For each embodiment of the bracket assemblies 2, 30, it will be appreciated that more than one threaded bore can be used if required. The bore 24, 46 need not be threaded. Furthermore, other forms of release means may be used to assist in prying the bracket and the base member apart if needed.

The bracket assemblies 2, 30 may be used for providing support to a wide variety of devices. Such devices include the following, a UHF radio transmitter, a remote speaker phone, secondary scuba regulators, mobile phones, epirbs, handheld GPS units, cameras, or magazine clips containing ammunition for police or military personnel. It will be appreciated that other devices may be readily supported.

Body members 6, 32 of respective bracket assemblies 2, 30 may be produced or machined from many different materials such for example plastic, acrylonitrile butadiene styrene (ABS), glass filled nylon, stainless steel or aluminium or other metallic materials. Other materials may include exotic materials such as carbon fibre, fibreglass which offer good strength to weight characteristics. Furthermore, the body members 6, 32 may be manufactured in such a way so that the magnetic element(s) 12 may be moulded with respective leg 8, 34 and/or foot 10, 36 portions.

Base members 14, 38 may be produced from a magnetic or non-ferrous material. The magnetic elements 12 may comprise any known magnetic material that, when in use, provides a magnetic association with the material selected for base members 14, 38.

Any of the above described embodiments may be provided with a means 58 for reducing sliding friction (ie. co-efficient of sliding friction) between the body member 6, 32 and the surface or region to which it is to be applied when the body member is moved or slid across the surface or region.

With reference to FIGS. 3A and 3B, any of the above described embodiments may be provided with one or more covering elements 60 which are arranged to substantially cover a portion of base 64 of a respective magnetic element 12 of bracket assemblies 2, 30. The covering elements 60 may be suitably arranged for releasable, or permanent, attachment to a respective magnetic element 12. Therefore, in one embodiment, the covering elements 60 serve to assist in reducing the effective co-efficient of sliding friction between the magnetic elements 12 and the surface (or garment fabric which may overlay the base member 14, 38) to which they are to be applied in applications where injury may result by application and/or removal of the body member 6, 32. Use of the covering elements 60 may be useful in situations where compliance with relevant health and safety regulations is mandated.

The covering element 60 may be formed so that their attachment to a respective magnetic element 12 is such that they remain attached thereto during use. In this regard, covering elements 60 may each be sufficiently dimensioned so as to provide a snap fit, press fit, interference fit or similar, with a respective magnetic element 12.

The covering elements 60 may be arranged to cover all or only a portion of the sidewall of the respective magnetic elements 12.

The covering elements 60 may be suitably formed so that, in use, the effective co-efficient of sliding friction (when the magnets are moved or slid across the surface or garment fabric which may overlay the base member 14, 38) is reduced by around 50-80% in some embodiments. In one embodiment, each covering element 60 may be formed from plastic having a thickness in the order of 0.5 min (found to provide satisfactory performance). It will be readily appreciated that other materials may be used to form the covering elements 60 whereby the material and thickness may be selected so as to achieve the desired performance.

It will be appreciated that the covering elements 60 serve to reduce the effect of sliding friction thereby allowing the bracket assembly to be more easily removed from the surface to which it is applied (ie, often by sliding the bracket assembly relative to the surface to which it is applied). Although it is recognised that use of the covering elements 60 may, in some instances, result in a slight reduction in the pulling capacity of the magnetic elements 12 (in some embodiments, use of the covering elements 60 may reduce the pulling capacity of the magnetic elements 12 collectively from 22.5 kgs to around 19 kgs), the configuration of the covering elements 60 should not be such that magnetic association with the base member, or metallic surface, compromises the ability of the bracket assembly to retain the article against the surface appropriately.

In an alternative embodiment, the covering elements 60 may comprise appropriately dimensioned elements of suitable material arranged with adhesive so they may attach to base 64 of respective magnetic elements 12. It will be appreciated that many different attachment arrangements may be realised by the skilled person.

Modifications and improvements to the invention will be readily apparent to those skilled in the art. Such modifications and improvements are intended to be within the scope of this invention. For example, the leg portions 8, 34 may extend away from the body member in any desired direction and/or any angle of inclination relative to their respective body members 6, 32. Furthermore, the body members of the respective bracket assemblies may be arranged in any desired shape or configuration. For example, the shape of the body member may be that of a company logo or comprise a novelty shape. Furthermore, the body member may be arranged to carry an indicia of any kind.

The word ‘comprising’ and forms of the word ‘comprising’ as used in this description and in the claims do not limit the invention claimed to exclude any variants or additions.

Claims

1. A bracket assembly for providing an attachment point on a surface for supporting an article therefrom, the bracket assembly including:

a body member arranged so as to be held against a region of the surface by way of magnetic association therewith, the body member having a support region from which the article may be supported; the body member arranged so that, when in use, the support region is spaced from the surface.

2. A bracket assembly according to claim 1 wherein the body member is arranged so as to provide rigid support to the article.

3. A bracket assembly according to claim 1 wherein the body member comprises one or more magnetic elements arranged so as to be in magnetic association with the surface.

4. A bracket assembly according to claim 1 wherein the magnetic elements are arranged to releasably couple to the body member.

5. A bracket assembly according to claim 1 wherein the body member comprises one or more leg portions extending therefrom, the or each leg portion arranged so as to have a respective magnetic element coupled thereto.

6. A bracket assembly according to claim 1 wherein the or each leg portion terminates in a respective foot portion arranged so as to be in magnetic association with the surface.

7. A bracket assembly according to claim 6 wherein one or more of said foot portions has a magnetic element provided therewith.

8. A bracket assembly according to claim 1 wherein the surface is that of a layer of material of a garment;

the bracket assembly further comprising a base member arranged to be associated with the garment such that, when in use, the or each magnetic element is in magnetic association therewith thereby allowing the bracket to be held against the layer of material.

9. A bracket assembly according to claim 1 wherein the surface is that of a layer of material of a garment;

the bracket assembly further comprising a base member arranged to be associated with the garment so as to be placed adjacent a first side of the layer of material so that, when in use, the or each magnetic element, when placed against a second side of said layer of material, is in magnetic association with the base member thereby allowing the bracket to be held against the layer of material.

10. A bracket assembly according to claim 1 wherein four leg portions extend from the body member, each terminating with foot portions arranged to have respective magnetic elements coupled thereto.

11. A bracket assembly according to claim 1 wherein two leg portions extend from the body member, each terminating with foot portions arranged to have respective magnetic elements coupled thereto.

12. A bracket assembly according to claim 1 wherein the support is arranged for supporting at least one of a UHF radio transmitter, a remote speaker phone, secondary scuba regulators, mobile phones, epirbs, handheld GPS units, cameras, and magazine clips for containing ammunition.

13. A bracket assembly according to claim 8 wherein the base member comprises release means for separating the body member from the base member.

14. A bracket assembly according to claim 13 wherein the release means comprises a bore formed in the base member at a region thereof so that, when the body member overlies the base member, at least a portion of the body member overlies a portion of the opening of the bore.

15. A bracket assembly for providing an attachment point on a surface for supporting an article, the bracket assembly including:

an apertured, generally planar body member and a pair of opposed, leg portions extending from the body member, the aperture capable of receiving part of the article so that the bracket assembly provides support for the article, the leg portions terminating in a region capable of magnetic association with a corresponding surface that is sympathetic to magnetism.

16. A bracket assembly for providing an attachment point on a surface for carrying an article, the bracket assembly including:

a body member arranged so as to be held against a region of the surface by way of magnetic association therewith, the body member having a carrier region for providing carriage for the article, the body member arranged so that, when in use, the carrier region is spaced from the surface.

17. A bracket assembly for providing an attachment point on a surface for carrying or supporting an article, the bracket assembly including:

a generally planar body member and a pair of opposed leg portions extending from the body member,

the body member defining with the surface an aperture therebetween capable of receiving part of the article so that the bracket assembly provides carriage or support for the article, the leg portions terminating in a region capable of magnetic association with a corresponding surface that is sympathetic to magnetism.

18. A bracket assembly for providing an attachment point on a surface for carrying or supporting an article, the bracket assembly including:

a generally planar body member and a pair of opposed leg portions extending from the body member, and

a base member,

the body member and the base member defining an aperture therebetween, the aperture capable of receiving part of the article so that the bracket assembly provides carriage or support for the article, the leg portions terminating in a region capable of magnetic association with the base member.

19. A bracket assembly according to claim 1, further comprising a means for reducing friction between the body member and the surface or region to which it is to be applied when the body member is moved across the surface or region.

20. A bracket assembly according to claim 3, wherein one or more covering elements are arranged to cover a portion of a respective magnetic element so as to reduce friction between the or each magnetic element and the surface to which they are to be applied when the body member is moved across the surface.

21. A method for attaching a bracket to a garment comprising:

providing a metallic base member and arranging the base member with the garment so that a bracket assembly according to claim 1 may be held thereagainst by way of magnetic association with the base member.

22. A method according to claim 21 further comprising, arranging the base member on the internal surface of the garment; and, placing the body member against the external facing surface substantially over the region where the base member is positioned.

23. (canceled)