C r«ss- Reference to Related Applications

[001] The present application claims priority from Australian Provisional Patent Application No 2013901308 filed on 15 April 2013, the content of which is incorporated herein by reference.

Technical Field

[002] The present invention relates to a hinge. Background Art

[003] WO 2009/018615 describes a hinge including a mechanical biasing element and a. plurality of magnetic elements which bias and retain hinge members i a retained position. The hinge included a dampener that extended orthogonal to the plane of the hinge members, wherein the dampener slowed hinged movement of the hinge members when approaching the retained position, The speed which hinge members approached the retained position could not. be controlled nor adjusted. Additionally, the dampener extended orthogonal to the plane of the hinge members thereby causing the hinge members to be rather bulky in thickness in order to adequately house the body of the dampener.

[004] Therefore there exist a need for an improved hinge that overcomes or at least ameliorates one or more of the above disadvantages; of the prior art

[005] The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.

Summary

[006] In a first aspect there is provided a hinge including:

a first hinge member including a first magnetic element; a second hinge member including a second magnetic element, wherein the first and second hinge members are pivotally mounted together;

a braking mechanism configured to hinder movement of the first hinge member relative to the second hinge member during at least a portion of hinged motion and

a biasing mechanism configured to bias the first hinge member and die second hinge member toward the retained position;

wherein the first and second hinge members are substantially maintained in a retained positio via magnetic force .between the first and second magnetic elements.

[007] In certain embodiments, a braking force created by the braking mechanism is adjustable.

[008] In certain embodiments, the braking mechanism includes a threaded element mounted in the first hinge member, the threaded element being in contact with the second hinge member and hindering relative motion by friction.

[009] In certain embodiments, the first hinge member includes a removable cover for covering the threaded element.

[010] In certain embodiments, the second hinge member includes a recessed section such that the braking force applied by the braking mechanism varies through the hinged motion.

[0.11] In certain embodiments, the second hinge member includes a tongue which is pivotally secured to the first hinge member, wherein a surface of the tongue includes the recessed section,

[012] In certain embodiments, the tongue includes a rounded end section, wherein the recessed section is provided in the rounded end section of the tongue.

[013] in certain embodiments, the rounded end of the tongue includes a hollow, wherein the tongue is pivotally secured to the first hinge member via a hinge pi mechanism which is at least partially housed within the hollow and is secured to the first hinge member. [014] I certain embodiments, th hinge pin mechani sm includes;

a first, end portion including a first shoulder section having a void;

a second end portion including second shoulder section having extending therefrom a rod; and

a spring which is eoaxially located upon the rod, wherein a portion of the rod is secured within the void thereby securing the spring to the first and second end portions.

[015] in certai embodiments, a first spring tail of the spring extends outwardly from the rod and a second spring tail is Secured to the second shoulder section.

[016] In certain embodiments, the tongue includes a cut-out section which receives therein the first spring tail.

[017] In certain embodiments, the first hinge member includes an angled overlapping portion which urges against a portion of an angled dampening mechanism protruding from second hinge member, wherein the dampening mechanism has an axis which is substantially orthogonal to the angled overlapping portion, wherein the dampening mechanism is configured to slow the hinged movement of the first hinge member relative to the second hinge member.

[018] in certain embodiments, the overlapping portion of the first hinge member is a chamfer and the second hinge member includes an underlapping portion providing a complementary chamfer, wherein the overlapping portion rests against the underlapping portion when the hinge is in the retained position.

[019] In certain embodiments, a face of the overlapping portion includes a striker plate which strikes a pin protruding from the dampening mechanism as the hinge approaches the retained position. [020] In certain embodiments, the underlappmg section includes a plurality of angled apertures for enabling a body of the dampening mechanism to protrude through a front hinge plate of the second hinge member.

[021] In certain embodiments, an end portion of die dampening mechanism rests i an angled recess in a rear hinge plate of die second hinge member,

[022] In certain embodiments, the hinge includes a plurality of dampening mechanisms to slow the hinged movement of the hinge toward the retained position.

[023] In certain embodiments, the second hinge member includes a mounting portion including holes for mounting the hinge to a mounting surface.

[024] In certain embodiments, the mounting portion is a mounting block.

[025] In certain embodiments, die first hinge member includes a first front plate and a first real ^* plate which secure a hinged item therebetween, and die second hinge member includes a second rear plate, wherein the first front plates extends a length of the hinge.

[026] In another aspect, there is provided a hinge including:

first hinge member including;

first, magnetic element; and

an angled overlapping portion;

a second hinge member, pivotally mounted to the first hinge member, including: a second magnetic element, wherein the first and second hinge members are substantially maintained in a retained position via magnetic force between the first and second magnetic elements; and

a dampening mechanism configured to slow the movement of the first, hinge member relative to the second hinge member, wherein the dampening mechanism is orientated substantially orthogonal to the angled overlapping portion which urges against the dampener when approaching the retained position; and a biasing mechanism configured to bias the first hinge member and the second hinge member toward the retained position.

[027] In certain embodiments, the overlapping portion of the first hinge member is a chanite and the second hinge member includes an underlapping portion providing a complementary chamfer, wherein the overlapping portion rests against the imderlapping portion when the hinge is in the retained position.

[028] in certain embodiments, a face of the overlapping portion includes striker plate which strikes a pin protruding from the dampening mechanism as the hinge approaches the retained position.

[029] In certain embodiments, the underlapping section includes a plurality of angled apertures for enabling a body of the dampening mechanism to protrude through a front hinge plate of the second hinge member.

[030] In. certain embodiments, an end portion of the dampening mechanism rests in an angled recess in rear hinge plate of the second hinge member.

[031 ] In certain embodiments, the hinge includes a plurality of dampening mechanisms to slow the hinged movement of the hinge toward the retained position,

[032] In certain embodiments, the hinge includes a braking mechanism configured to hinder movement of the first hinge member relative to the second hinge member duri g at least a portion of hinged motion.

[033] In certain embodiments, a braking force created by the braking mechanism is adjustable.

[034] In. certain embodiments, the braking mechanism includes a threaded element mounted in the first hinge member, the threaded element being in contact with the second hinge member and hindering relative motion by friction. [035] I certain embodiments, the first hinge member includes a removable, cover for covering the threaded element.

[036] In certain embodiments, the second hinge member includes a recessed section such that die braking force applied by die braking mechanism varies through the hinged motion.

[037] In certain embodiments, the second hinge member includes a tongue which is pivotally secured to the first hinge member, wherein a surface of the tongue includes the recessed section.

[038] In certain embodiments, the tongue includes a rounded end section, wherein the recessed section is provided in the rounded end section of the tongue.

[039] In certain embodiments, the rounded end of the tongue include a hollow, wherein the tongue is pivotally secured to the first hinge member vi a hinge pin mechanism which is at least partially housed within the hollow and is secured to the first hinge member.

[040] In certain embodiments, the hinge pin mechanism includes:

a first end portion including a first shoulder section having a void;

a second end portion including a second shoulder section having extending therefrom, a rod; and

a spring which is coaxially located upon the rod, wherein a portion of the rod is secured within the void thereby securing the spring to the first and second end portions.

[041] In certain embodiments, a first spring tail of the spring extends outwardly from the rod and a second spring tail is secured to the second shoulder section.

[042] In certain embodiments, the tongue includes a cut-out section which receives therein the first spring tail. [043] In certain embodiments, the second hinge member includes a mounting portion including holes for mounting the hinge to a mounting surface.

[044] hi certain embodiments,, the mounting portion is a mounting block.

[045] In certain embodiments, the first hinge member includes a first front plate and a first rear plate which secure a hinged item therebetween, and the second hinge membe includes a second rear plate, wherein the first front plates extends a length of the hinge.

[046] In a further aspect there is provided a kit of parts for a hinge including:

a first hinge member including a first magnetic element;

a second hinge membe includin a second magnetic element, wherein the first and second hinge members are to be pivotally mounted together;

braking mechanism configured to hinder movement of the first hinge member relative to the second hinge member during at least a portion of hinged motion; and

a biasing mechanism configured to bias the first hinge member and the second hinge member toward the retained position;

wherein the first and second hinge members are substantially maintained in a retained position via magnetic force between the first and second magnetic elements.

[047] In a further aspect there is provided a kit of parts for a hinge including:

a first hinge member including:

a first magnetic element; and

an angled overlapping portion;

a second hinge member, to be pivotally mounted to the first hinge member, including:

a second magnetic element, wherein the first and second hinge members are substantially maintained in a retained position via magnetic force between the first and second magnetic elements; and

a dampening mechanism configured to slow the movement of the first hinge member relative to the second hinge member, wherein the dampening mechanism is orientated substantially orthogonal to the angled overlapping portion which urges against the dampener whe approaching the retained position; and

a biasing mechanism configured to bias the first hinge member and the second hinge member toward the retained position.

[048] Other aspects and embodiment will be realised throughout the detailed description. Brief Description Of Figures

[049] The example embodiment of the present invention should become apparent from the following description, which is given by way of example only, of a preferred hut non- limi ting embodiment, described in connection with the accompanying figures.

[050] Figure 1 illustrates an isometric elevated view of an example of a hinge in a closed position;

[051] Figure 2 is a rear view of the hinge of Figure 1 in the closed position;

[052] Figur 3 is a side vie of the hinge of Figure 1 in the closed position;

[053] Figure 4 is a top view of the hinge of Figure 1 in the closed position;

[054] Figure 5 is an end view of the .hinge of Figure 1 i the closed position;

[055] Figure 6 is a cross-sectional view through section A-A of the hinge of Figure 2;

[056] Figure 7 is an elevated isometric view of the hinge of Figure 1 with the front hinge plates removed;

[057] Figure 8 is an elevated isometric view of a hinge pin mechanism of the hinge of Figure 1 ; [058] Figure 9 is an elevated exploded isometric view of a binge pin mechanism, of

Figure 6;

[059] Figure 10 is a cross -sectional view along the longitudinal axis of the hinge pin mechanism;

[060] Figure I I is an elevated isometric view of the first, rear plate of the hinge of Figure 1;

[061] Figure 12 is an elevated isometric view of the second rear plate of the hinge of Figure I ;

[062] Figure 13 is an end view of the second rear plate of Figure 12;

[063] Figure 14 is a magnified view of area C showing the recessed section of the tongue of the second rear plate;

[064] Figure 15 is an elevated isometric vie of the first front, plate of the hinge of Figure i ;

[065] Figure 16 is a cross-sectional view of front plate, along section D-D of Figure 15;

[066] Figure 17 is an elevated isometric view of the second iron I plate of the hinge of Figure 1;

[067] Figure 18 is an elevated isometric view of the second magnetic element; [068] Figure 19 is an elevated isometric view of the first magnetic element; [069] Figure 20 is an elevated view of the dampener; [070] Figure 21 is an isometric view of the hinge coupled to a first structure and a second structure;

[071] Figure 22 is an isometric v iew of the hinge in the closed position with the first front plate removed;

[072] Figure 23 is an isometric view of the hinge in the open positio with the first front plate removed

[073] Figure 24 is front isometric view of another example of the hinge in the closed position;

[074] Figure 25 is a rear isometric view of the hinge of Figure 24 in the closed position;

[075] Figure 26 is a end view of the hinge of Figure 24 in the closed position;

[076] Figure 27 is a front isometric view of the hinge of Figure 24 including a mounting plate;

[077] Figure 28 is a perspective view of the inner surface of the first and second rear plates of the hinge of Figure 24:

[078] Figure 29 is a perspective view of the inner surface of the front plate of the hinge of Figure 24; and

[079] Figure 30 is a perspective end view of the hinge manually held in the open position;. Modes for Carrying Out The Invention

[080] The following modes, given by way of example only, are described in order to provide a more precise understanding of the subject matter of a preferred embodiment or embodiments. [081] In the figures, incorporated to illustrate features of an example embodiment, like reference numerals are used to identify like parts throughout the figures.

[082] Referring to Figures 1 and 7 there is shown a hinge 100 including a first hinge member 101 including a first magnetic element 102 and a second hinge member 103 including a second magnetic element 104. The first and second hinge members 101, 103 are hingedly mounted together. The first and second hinged members .101, 103 are substantially maintained in a retained position (i.e. closed position) via attractive magnetic force between the first and second magnetic elements 102, 104. Referring to Figure 6, the hinge 100 also includes a biasing mechanism 105 to bias the first and second hinge members 101, 103 from an unretained position to a retained position. Still referring to Figure 6, the hinge 100 also includes a braking mechanism 106 configured to hinder the movement of the first hinge member 101 and the second hinge member 103 toward the retained position.

[083] As shown in Figure 7, when the first and second hinge members 10i 103 are maintained in the retained position, the first and second magnetic elements 102, 104 are superposed and aligned such that the close proximity between the first and second magnetic elements facilitate the retention of the first and second hinge members 101 , 103 in the retained position. As shown in Figure 7, the first magnetic element 102 contacts the second magnetic element 104 in the retained position.

[084] Referring to Figures 6 and 21 , each hinge member 101 , 102 includes a cavity 107, 108 that allows for door members 200 to be received and retained therein. In this particular instance, the hinge 100 is designed to couple to frameless glass door for a shower. It will be appreciated that the hinge 1.00 may be used for other hinged items,

[085] It will be appreciated that although the above described hinge 100 is configured to retain the hinge members 101. 103 in a retained position where the hinge members 101, 103 are parallel to each other as illustrated in Figure I, other arrangements are possible which result, in the hinge 100 bein maintained is other desired retained positions. [086] The magnetic elements 102, 104 are preferably of small size hut are of significant magnetic strength and may be formed of alnieo, neodymium (a rare earth metal) or like materials of high magnetic flux. Preferably the magnetic elements 102, 104 have sufficient magnetic strength that, in the absence of an intentional effort to move the door members 200 coupled to the hinge members 101 , 103, the hinge members 101, 103 are maintained in the retained position. That is, the magnetic elements 101, 103 are sufficiently strong to preclude movement of hinge members 101, 103 from the retained position to the unstable or free moving position.

[087] Referring to Figure 5, the first hinge member 101 includes a first front plate 109 and a first rear plate 1.1.0. The second hinge member 103 includes a second front plate 1 1 1 and a second rear plate .1 12. The front and rear plates 109, 1 10, 1 1 1, 1 12 of the first and second hinge members 101, 103 are separable via releasable screws 113. in particular, the front plates 1 9, 111 include holes 1 14 which the screw 1 13 can be received therethrough. An end portion of each stem of the screws 1 13 engage with threaded holes 1 15 of a wall structure 116, 117 (see Figure 7) provided on the internal faces 1 18, 119 of the first and second rear plates 110. 112,

[088] As shown in Figure 5, the first hinge member 101 includes a angled overlapping portion 120 that extends from the firs front plate 109 and overlaps a corresponding underiapping angled portion 121 of the second front plate 1 1 1 in the retained position. The overlapping and underiappin angled portions 120, 121 are preferably angled at 45 degrees.

[089] Referring to Figure 17, the angled underiapping portion 121 of the second front plate 1 1 1 has a pair of angled apertures 122, wherein the axis of the apertures 122 is orthogonal to the angle of the angled underiapping portion 121. A dampener 123 can be provided in at least one aperture 122 (see Figures 22 and 23), wherein a base portion 124 of the dampener 123 rests within a recess 125 in the second rear plate (see Figures 5, 7 and 12 ). A body 126 of each dampener 123 may include a screw thread that engages with a internal screw thread of the respective angled aperture 122. As will be appreciated, the longitudinal axis of the dampener 123 is also orthogonal to the angle of the underiapping portion 121. [090] Due to the angled orientation of the dampeners 123, the thickness of the first and second hinge members 101 , 103 is reduced compared to that of WO 2009/018615. This angled dampener configuration provides significant packaging advantages. As shown in Figures 22 and 23, the hinge 100 can include a single dampener 123 which protrudes from one of the angled protrusions 122. However, in instances where more dampening is required, a second dampener 123 can be provided in the other angled hole.

[091] Each dampener 123 can be provided as a hydraulic mechanism, wherein hydraulic pin 127 protrudes outwardly from the angled apertures 122 of the second front plate 1. 1 1 of the second hinge member 103. When the hinge moves from an unstable position to the closed retained position, the underside angled surface of the overlappin portion 120 of the first front plate 109 of the first hinge member 101 urges against the end of the hydraulic pin 127, causing at least a portion of the pin 127 to gradually retract within a hydraulic cylinder, thereby slowing the movement of the hinge members 101 , 103 to the retained closed position.

[092] When the first and second hinge members 101, 1.03 are moved to the unret.ai.ned position, as shown in Figure 23, such that the underside surface of the overlapping angled portion 120 of the first hinge member 101 is no longer in contact with the hydraulic pin 127, at least a portion of the hydraulic pin 127 extends from the hydraulic cylinder 126 thereby resetting the dampener 123. The hydraulic mechanism may include a biasing arrangement within the hydraulic cylinder 126, such as a spring or the like, which urges the pin 127 to extend outwardly from the hydraulic cylinder more rapidly than the retraction of the pin 127 within the hydraulic cylinder 126.

[093] Referring to Figures 15 and 16, there is shown the first front plate 109 of the first hinge member 1.01 in isolation of the other components of the hinge 100. The first front plate 109 includes a cavity 128 on the underside defined by a wall structure 129 that tight fittingly receives the first magnetic element 102. As shown in Figure 19, the first magnetic element 1.02 includes a central hole 130 that receives therethrough a threaded stem 1.31 located in the centre of the cavity 128. A screw 132 (see Figure 6) can engage with the threaded stem 131 thereby securing the .first magnetic element 102 to the underside of the first front plate 109.

[094] The first front plate 109 also includes a brake hole 133 for receiving therein a threaded element 134 such as a grub screw or the like which is part of the breaking mechanism 105. The threaded element 134 is a brake screw mat can be adjusted to control the hinged movement of the hinge .members 101 , 103. A removable cover 135 is placed over the hole 133, wherein the perimeter of the cover 135 can he snap fittingly received within the permitter of the hole 133. Alternatively, the cover plate 135 can. includes pair of prongs which are snap-fittingly received within holes 300 (see Figure 29) in the first, front plate 1 9. The angled overlapping section 120 of the first, front plate 109 includes one or more void 136 for housing one or more striker plates 137 that the pins 127 strike when the hinge 100 approaches the retained position.

[095] As can be seen from Figures 1 and 16, the first magnetic element. 102 protrudes past a portion of the angled overlapping section 120 in order to assist with increasing the overlapping contact area of the magnetic elements 102, 104. Referring to Figure 17, the underlapping angled section 121 has a central cut-away section 138 that enables the edge of the first magnetic element 102 to move adjacent the second magnetic element 104.

[096] Referring to Figure 1 1 there is shown the first, rear plate 1 10 in isolation from the other component of the hinge 100. The first ma plate 1 10 includes a walled staicture 1 1.6 that is upstanding from the planar inner surface 1 18 of the first rear plate 1 10. The first rear plate 110 has a C shape perimeter including a central cutaway section 138 defining mouth 139 for accommodating a tongue 140 of the second rear plate 1 12, The wailed structure 16 includes channels 141a, 141 b for receiving end portions 142 of a hinge pin mechanism 143 as will be described in more detail below. The walled structure 1.1.6 includes threaded holes 115 for receiving screws 1 13 for coupling the first front, plate 109 to the first rear plate 11 ,

[097] Referring to Figure 12 there is shown the second rear plate 1.12 in isolation of the other components of the hinge 100. The second rear plate 112 includes a walled structure 1 17, wherein the tongue 140 extends from the second rea plate 112. The tongue 140 is integral with the second rear plate 112. The tongue 140 has a cavity 144 located therein. The cavity 144 receives the second magnetic element 104. The cavity 144 includes a threaded stem 145 that is received through a central hole 146 of the second magnetic element 104. A. screw 147 can be screwed into the threaded ste 145 thereby securing the second magnetic element 104 within the cavity 144 of die tongue 140,

[098] The walled staicture 117 of the second rear plate 1 12 includes threaded holes 1 15 for receivin screws 11.3 for securing the second front plate 11 1 to the second rear plate 1 12. As shown in Figures 12 and 14, the inner surface 1 19 of the second rear plate 1 1.2 includes a plurality of angled recesses 125 for receiving die end portions of the dampeners. 123.

[099] Referring to Figure 13, the end 148 of the tongue 140 includes a substantially rounded end 148 forming a semi-cylinder. The end 148 of the tongue 140 includes a hollow 14 that substantially extends along the axi of the semi-cylindrical end 148. The hollow 149 has a cylindrical cross-section. The hinge pin mechanism 143, as shown in Figures 8 to .1.0, is received through the hollow 1.49, wherein a first end 1.42a and a second end 142b of the hinge pin mechanism 143 protrude from opposing ends of the hollow 149. The ends 142a, 142b of the hinge pin mechanism .143 sit within the channel s 141a, 141b: in the walled structure 1 16 of the first rear plate HO to tliereby pivotall couple the first hinge member 101 to the second hinge member 1.03.

[0100] As shown in Figure 8, side surfaces of the ends 142a, 142b of the hinge pin mechanism 43 include recesses 150 which align with holes 151 (see Figures 2 and I t) in the side surf ace of the wall structure .1 16f. Screws 152 can be screwed through the holes in the side surface of the wall structure 116 to project within the recesses 150 of the hinge pin mechanism 143 to thereby secure the hinge pin mechanism 143 to the walled structure 1 16 of the first rear plate 1 10.

[0101] As shown in Figure 9, the hinge pin mechanism 143 includes a number of components. In particular, the hinge pin mechanism 143 includes the first end portion 142a including a first shoulder section 153. The first shoulder section 153 includes a void 155. The hinge pin mechanism 143 includes the second end portion 142b which includes a second shoulder section 154. A rod 156 extends from the centre of the base of the second shoulder section 154, wherein an end of the rod 156 is tight- fittingly received within the void 155 of the first shoulder section 53. A torsional spring 157 is placed over the rod 156 prior to the rod 156 being received within the void 155. A first spring tail 158 projects outwardly from the rod 156. A. second spring tail 159 is tight fittingly received within a hole 160 in the base of the second shoulder section 154 as shown in Figure 10. The sprin 157 sits on the rod 156 between the shoulder sections 153, 154. The rod 1.56 acts as spring stiffener to reduce deflection of the spring 157 whilst under tension,

[0102] As shown in Figures 8 to 10, the ends of die hinge pin mechanism 143 have a. square profile which are received within correspondingly profiled channels 141a, 141b defined in the walled structure 1 1 of the first rear plate 1 10, thereby preventing rotation of the end portions 142a, 142b with respect to the channels 141a, 141 b, As the second shoulder section 154 is operably connected to the first rear plate 110 via the channels 141a, 141 b, the hinge pin mechanism 143 is operably connected to the first hinge membe 101.

[0103] As shown in Figure 22, the first spring tail 158 is located within a cut-out section 162, such as a slot, in the rounded section of the tongue 140, such that the spring 157 is also operably connected to the. second hinge member 102. Due to the spring 157 being operably connected to both the first and second hinge members 101 , 103, pivotal movement between the hinge members 101 , 103 causes potential energy to build in the spring 157 causing the hinge members 101, J 03 to be biased back to the retained position.

[0.104] Referring to Figures 12 to 14, the rounded end of the tongue 157 includes a recessed section 163. As shown in Figure 22, the recessed section 163 aligns with the braking screw 134 that protrudes through the central hole 133 of the first front plate 109. Referring to Figure 23, the braking screw 134 friciionally contacts the outer surface of the rounded end of the tongue member 140 when in the open position thereby hindering hinged movement of the first hinge member 1 1. relative to the second hinge member 103. As the hinge 100 approaches the retained position, the braking screw 134 applies less, or no, trietional force to the rounded end of the tongue 140 due to the depth o the recessed section 163. The amount of frictional force applied to the tongue section 140 by the braking mechanism 105 can be adjusted by adjusting the depth that the screw 134 extends through the first front plate 109. The braking mechanism 1.05 should preferably be adjusted whe the hinge 100 is located in the ope position such that the end of the screw 134 contacts the outer rounded surface of the tongue 140 rather than the recessed section 163 which could potentially cause over-braking. Due to the recessed section 163 of the rounded end of the tongue 163 being provided in a limited area of the outer surface of the tongue 140, the braking mechanism 105 applies the braking force only to a range of the hinged motion between the first and second hinge members 101, 103.

[0105] As visible in Figure 14, the recessed section includes a step 170 such that the brake screw 134 reapplies a braking force to the hinge should pi voting motion proceed further.

[0106] In a preferable embodiment, the braking screw 134 has a braking pad (not shown) located on the end of the stem, thereby minimising wear of the outer surface of the round end of die tongue 140,

[0107] As shown in Figure 22, a insert 220 may be located on the inner surface of the front and rear plates 109, 1 10, 111 and 112 which rest against a contact surface of hinged structure 200.

[0.108] Referring to Figures 24 to 26, there is shown a further example of a hinge 100. In particular, the hinge 100 includes a first hinge member 101 piyotally connected to a second hinge member 103. The second hinge member 103 includes a mounting portion 240 provided in the form of a mounting block 250 for mounting the hinge 100 to a mounting surface, such as a wall or the like, such that the first hinge member 101 is mounted orthogonal to the mounting surface in the retained position,

[0109] As shown in Figure 27, a mounting plate 240 may be coupled to the mounting block 250 of the second hinge member 103 such that the mounting plate 240 is then mounted to the mounting surface, The hinge plate 240 includes a plurality of holes 241 to enable fixing elements 252 such as screws or bolts to secure the hinge 100 to the mounting surface. As will be appreciated, the second hinge member 103 in this embodiment is not designed to retain a structure, such as a glas door, between hinge plate as discussed in earlier embodiments.

[0110] The first hinge member 101 is designed in the same manner as that of earlier embodiments and thus will not be repeated for clarity purposes. However, as is notable in Figures 24 and 25, the front plate 109 substantially extends the length of the hinge 100. The rear plates 1 1 , 112 have a length that is substantially equal to the length of the front, plate 109 of the first hinge member 101 . As shown in Figure 25, the second hinge member includes the protruding tongue 140 which is received within the gap 139 of the rear plate 1 10.

[01.11] RefeiTing to Figure 28 there is shown the inner surfaces of the rear hinge plates 1 10, 1 12. As can. be seen in relation to the rear hinge plate 1 10, the arrangement of this hinge plate 110 is. the same as earlier embodiments and thus will not be repeated for clarity purposes. However, the mounting block 250 of the rear hinge plate 112 includes screw- threaded voids that receive therein the dampener 1.23 for slowing the movement of the hinge 100 to the retained position. ^' The dampeners 123 are orientated substantially orthogonal to the axis of the mounting holes 251 of the mounting block 250. As can be seen in Figure 28, the cylindrical section of the tongue 140 of the second hinge member 103 includes the recessed section to enable an adjustable braking function.

[0112] Referring to Figure 29 there is shown the inner surface of the front hinge plate 109. Figure 29 is substantially similar in design to that of the front hinge plate 109 shown in Figures 15 and 16. However, as seen in Figure 29, the striker plates 137 are orientated substantially parallel widi the plane of the front hinge plate 109 due to the orientation of the dampeners 123. Il will be appreciated that, in alternate embodiments, the dampeners 123 of this embodiment ^' of the hinge 100 can be angled as shown in previou embodiments to reduce the packaging of the hinge 100. Figure 30 shows the hinge 1 0 in the open position, wherein rear plate 1 12 k pivotally moved relative to hinge plates 109, 11 . [0113] It will be appreciated that the hinge 100 may be provided in the form of a kit of parts, wherein the pails are assembled and installed to secure the hinge to the hinged item. The kit of parts may additionally include one or more tools such as Allen keys to screw items together to assemble the hinge 100.

[0114] Optional embodiments of the present inventioti may also be said to broadly consist in the parts, elements and features referred to or indicated herein, individually or collectively, in any or all combinations of two or more of the parts, elements or features, and wherein specific integers are mentioned herein which have known equivalents in the art to which the invention relates, such known equivalents are deemed to be incorporated herein as if individually set forth.

[0115] Although a preferred embodiment has been described in detail, it should be understood that various changes, substitutions, and alterations can be made by one of ordinary skill in the art without departing from the scope of the present invention.