AU2012201223B2 - Bogey assembly - Google Patents

Abstract

C.\NRPortMlCC\CABUI78906_ I DOC-2 )2/212 A bogey assembly including a body for supporting a cantilevered hanger bolt, a wheel to support the body on a rail and a roller, spaced lengthwise of the body and offset relative to the wheel, so as to bear against an overhead surface and resist rotation of the body away from the rail when load is applied to the hanger bolt.

Description

Australian Patents Act 1990 - Regulation 3.2 ORIGINAL COMPLETE SPECIFICATION STANDARD PATENT Invention Title: Bogey assembly The following statement is a full description of this invention, including the best method of performing it known to me: P/00/011 5951 C.\NRPonbl\DCC\CAB\4527767_1 DOC-9)8/2012 BOGEY ASSEMBLY Field of the Invention 100011 The present invention relates to a bogey particularly but not exclusively for carrying a hanger bolt for supporting a folding panel such as a door panel. Summary of the Invention 100021 No text here 100031 No text here 100041 No text here 100051 In accordance with the invention, there is provided a bogey assembly including a body for supporting a cantilevered hanger bolt, a wheel to support the body on a rail and a roller, spaced lengthwise of the body and offset relative to the wheel, so as to bear against an overhead surface and resist rotation of the body away from the rail when load is applied to the hanger bolt. 100061 Preferably, the wheel is one of a set of wheels mounted to either side of the body for rolling movement along an associated rail provided each side of a channel in an overhead track.

C :R rb\CCCABWA789M I DOC-2M2012 -2 100071 Preferably, the roller is one of a set of rollers mounted either side of the body, the set of rollers being arranged to engage an internal downwardly facing section of the track. 100081 Preferably, the body has a first axle for the first set of wheels, positioned toward a front end of the bogey assembly. 100091 Preferably, the bogey assembly includes a second axle for the second set of wheels, the second axle being positioned toward a second end of the bogey assembly, spaced away from the rails relative to the first axle. 1000101 Preferably, the wheel diameter of the second set of wheels is greater than the wheel diameter of the first set of wheels. 1000111 Preferably, the body has an elongate tail section and the second axle is carried by an arm assembly which is interconnected with the tail section. 1000121 Preferably, the bogey assembly includes a depending guide wheel, which sits within the track channel to provide lateral stability and guide the bogey assembly along the channel. 1000131 Preferably, the retainer is adapted to rigidly mount the hanger bolt in the body of the bogey assembly. 1000141 Preferably, the retainer is located toward the front end of the bogey assembly. More preferably, the retainer receives the hanger bolt outside a wheel base defined between the set of wheel and the set of rollers. 1000151 Preferably, the bogey assembly includes a lock mechanism to engage the hanger bolt and inhibit rotation of the hanger bolt within the fitting.

C :NRPonbl\DCC\CAB\4178906..l.DOC-28)2/2Ol2 -3 [000161 In another aspect, there is provided a panel assembly with a bogey assembly as described above, an end panel supported by the bogey assembly and a hanger bolt interconnecting the end panel and the bogey assembly. 1000171 In another aspect, there is provided a folding door system, including a frame with a jamb and an overhead track, a folding panel assembly mounted in the frame and a bogey assembly, as described above, for mounting an end panel of the folding panel assembly to the overhead track via an interconnecting hanger bolt. Brief Description of the Drawings 1000181 The invention is described in more detail, by way of non-limiting example only, with reference to the accompanying drawings, in which: 1000191 Figure 1 is an exploded view of a bogey assembly; 1000201 Figure 2 is a side view of the bogey assembly with a hanger bolt; 1000211 Figure 3 is an end view of the bogey assembly in a track; 1000221 Figure 4 is a diagrammatic side view of the bogey assembly in the track; 1000231 Figure 5 is a perspective view of the bogey assembly with an exploded view of a lock mechanism; [000241 Figure 6 is a perspective view of the lock mechanism housed within a body of the bogey; [00025] Figure 7 is a perspective view of the bogey assembly and hanger bolt; C \NRPorblDCC\CAB\A7896_ I DOC-28I2/2012 -4 1000261 Figure 8 illustrates the lock mechanism being freed for adjustment; 1000271 Figure 9 illustrates the lock mechanism in an unlocked condition; 1000281 Figure 10 illustrates adjustment of the hanger bolt; 1000291 Figure 11 is a perspective view of the position of the hanger bolt prior to locking; and 1000301 Figure 12 is illustrates the lock mechanism being re-engaged. 1000311 Figure 13 is an exploded perspective view of another example of a bogey assembly and hanger bolt; 1000321 Figure 14 is a perspective view of the bogey assembly and hanger bolt, in an assembled condition; 1000331 Figure 15 illustrates a lock mechanism of the bogey assembly being freed for adjustment; 1000341 Figure 16 illustrates adjustment of the hanger bolt; [000351 Figure 17 illustrates the lock mechanism in an engaged condition; 1000361 Figure 18 is a diagrammatic plan view of part of a folding door system, illustrating an arc of a panel opening and closing; 1000371 Figure 19 is a diagrammatic plan view similar to that of Figure 18, illustrating a different location for a hanger bolt and the resultant arc of the panel opening and closing; C:WRonbl\DCCCABW1786_ DOC-28)2/2012 -5 [000381 Figure 20 is a diagrammatic side view of an end bogey assembly; 1000391 Figure 21 is a diagrammatic side view of a cantilever bogey assembly; [00040] Figure 22 is an exploded view of the bogey assembly shown in Figure 21; [00041] Figure 23 is a side view of the bogey assembly of Figure 22, shown in an assembled condition; 1000421 Figure 24 is a diagrammatic side view of the bogey assembly of Figure 23 supporting a panel from an overhead track; and 1000431 Figure 25 is a perspective view of a folding door system. Detailed Description of the Drawings 1000441 Referring firstly to Figure 1, a first example of a bogey assembly 1 is shown as including a body 2, two main wheels 3 mounted on respective axles 4 and two smaller rollers 5 carried by a pivot arm assembly 6. 1000451 The pivot arm assembly 6 is formed of two lateral sections 7 which extend from a central bearing, which is mounted to a pivot in the form of an axle 8 that projects from a first end 9 of the body 2. The assembly 6 is secured to the body 2 in place using a washer 10, which is riveted in place. 1000461 A boss 11 is provided on the body 2, beneath the pivot arm assembly 6 and is fitted with a rubber buffer 12. The boss 11 and buffer 12 serve as an end of travel stop for the bogey assembly 1.

C \NRPotblDCCCABW17896_ 1 DOC-28M2/2012 -6 [000471 The assembly 6 also has a top mounted guide roller 13, which is in alignment with a second guide roller 14 mounted toward a second end 15 of the body 2. 1000481 The second end 15 of the bogey assembly 1 also houses a retainer 16, which is in the form of a pivotal member or axle 17 that extends through a substantially horizontal passage 18 provided in the body 2, arranged transverse to a direction of travel of the bogey assembly 1. 1000491 The retainer 16 includes an internal thread 19 for threaded engagement with a hanger bolt 20, which is illustrated in Figure 2. 1000501 The hanger bolt 20 is shown as including a threaded shaft 21 with side flats 22 and a bolt head 23, which supports a hinge 24. In order to mount the shaft in the bogey assembly 1, the threaded shaft 21 is engaged with the internal thread 19 and rotated into the retainer 16 until the hanger bolt 20 is at a desired height. [000511 Once the hanger bolt 20 is mounted in the bogey assembly 1, the hanger bolt 20 can pivot about the retainer 16 in a direction indicated by arrows 25. This serves to substantially reduce moments that might have otherwise applied through the hanger bolt 20 if, for example, the hanger bolt 20 had a fixed connection with the bogey assembly 1. 1000521 The positioning of the retainer 16 toward the second end 15 of the bogey assembly 1 also means any weight load force applied to the hanger bolt 20, such as from a supported door panel or the like (as indicated by arrow 26) is transferred to the rollers 5 through pivot action of the body 2 (as indicated by arrow 27) so that the rollers maintain contact with a track 30, as illustrated in Figures 3 and 4. 1000531 More particularly, Figures 3 and 4 show the track 30 as including a top rail section 30A and a lower rail section 30B with a slot 30C to allow passage of the hanger bolt 20 suspended from the bogey assembly 1. The top rail section 30A also includes a central channel 30D to receive the guiding rollers 13, 14.

C U4RPortb\DCC\CABWi789I6_.DOC-21 82/2012 -7 1000541 As may be appreciated, any downward movement on the hanger bolt 20 will cause the main wheels 3 to firmly engage the lower rail section 30B but will also cause the rollers 5 to be loaded against the top rail section 30A via the pivot arm assembly 6. The hanger bolt 20 is able to pivot about the retainer 16 to maintain a generally vertical orientation. 1000551 The pivot arm assembly 6 and its associated axle 8 thereby represents a live axle of the bogey assembly I in the sense the pivot arm assembly 6 rotates about a substantially horizontal axis, oriented in a direction of travel of the bogey assembly I , to ensure the rollers 5 split the load equally. On the contrary, the prior art fixed axle arrangement requires total precision to safeguard against uneven load distribution and wear. 1000561 A second live axle is provided by the retainer 16, which supports the hanger bolt 20. In that case, the axle 17 also compensates for inaccuracy in the bogey assembly 1. For example, if the rollers 5 are cast too low, the load down the hanger bolt 20 will not be perfectly perpendicular to the bogey assembly 1, which would normally create large bending moments in the hanger bolt 20 and possible fatigue and fracture. The live axle 17, however, compensates and automatically adjusts by allowing the retainer 16 to pivot so that the load passes through the hanger bolt 20 without bending. This will, of course, mean the hanger bolt 20 will move fractionally during use but any variation can be taken up by the height adjustment built into the design. 1000571 Pivotal movement of the hanger bolt 20 relative to the bogey assembly 1 does, however, present a problem in relation to locking the hanger bolt 20 at a selected height, to prevent the hanger bolt 20 unscrewing from the body 2 over time. A conventional lock-nut to lock the hanger bolt 20 to the body 2 is clearly inappropriate as the pivotal movement of the hanger bolt 20 would be restricted as a result. To address this problem, the bogey assembly 1 is provided with a lock mechanism 32, as shown in Figures 5 to 12.

C \RPWonbIDCC\CAB\4178906.1 DOC-28/02/2012 -8 1000581 Referring firstly to Figure 5, the body 2 of the bogey assembly I is recessed to provide a housing 31 for the lock mechanism 32. The lock mechanism 32 is configured to be movable between a locked condition, where the hanger bolt 20 is restricted from rotation about its elongate axis, and an unlocked condition where the hanger bolt 20 may be rotated about its elongate axis. The lock mechanism 32 includes a keeper 32A which is arranged to move between an engaged and a free position, the engaged position providing the locked condition and the free position providing the unlocked condition. 1000591 The keeper 32A is formed as a U-shaped block 33, with flat surfaces 34 confined to fit with flats 22 of the hanger bolt 20. Accordingly, in the engaged condition the flat surfaces 34 of the U-shaped block 33 directly engage with the flats 22 of the hanger bolt 20. The U-shaped block 33 provides a slightly elongate housing for the hanger bolt 20 and as such when the keeper 32A is in the engaged position, the U-shaped block 33 restricts the hanger bolt 20 from rotation about its elongate axis but allows the hanger bolt 20 limited movement in the direction of travel of the bogey assembly I by pivoting about the retainer 16. During this pivoting it may be appreciated that there will be some limited sliding movement between the flats 22 of the hanger bolt 20 and the flat surfaces 34 of the U-shaped block 33. 100060] The lock mechanism 32 also has an actuating button 35 which is biased by a spring 36 and which needs to be depressed in order to move the keeper 32A out of engagement with the hanger bolt 20. The button 35 has a base 37, received in a bore 38 of the block 33 and a neck 39 which passes through a guide slot, formed in cover plate 39A. [000611 When the keeper 32A is in the engaged position where the lock mechanism 32 is in the locked condition, as illustrated in Figure 6, the button 35 is spring biased to project through an enlarged aperture 40 in the cover plate 39A.

C Ror CC\AB 7906I DOC-282/2012 -9 [000621 To release the lock mechanism 32, the button 35 needs to firstly be pressed in a direction indicated by arrow 41 in Figure 7, until shoulders 42 of the button clear the aperture 40, as illustrated in Figure 8. 1000631 The button 35 is then slid in a direction indicated by arrow 43, as shown in Figure 9, so that the neck 39 of the button 35 travels along the slot, which draws the keeper 32A out of engagement with the hanger bolt 20 so as to provide the free position where the lock mechanism 32 is in the unlocked condition. 1000641 The hanger bolt 20 may then be rotated in a direction indicated by arrows 44 in Figure 10, to effect screw threaded axial movement in the directions indicated by arrows 45, into and out of the retainer 16 and hence the bogey assembly 1, as required. 1000651 When the correct adjustment has been made the hanger bolt 20 is rotated slightly so that the flats 22 are aligned with the surfaces 34 of the keeper 32A as illustrated in Figure 11. From that position, the button 35 is slid back to the original position, as shown in Figure 12, so that the keeper 32A engages the flats 22 to secure the hanger bolt 20 against any further rotation relative to the bogey assembly 1. 1000661 Another example of a bogey assembly 101 is shown in Figures 13 to 17. Referring to Figure 13 the bogey assembly 101 is shown as including a body 102 with a lock mechanism 103 arranged to engage a hanger bolt 104. 1000671 The body 102 is provided with wheels 105 and rollers 106 for guiding the assembly in an overhead track (not shown) and the lock mechanism 103 serves to fix the hanger bolt 104 in the bogey assembly 101 to thereby lock the bolt head 107 and supported door panel at an appropriate height relative to the track. 1000681 The body 102 is formed from a casting 108 which provides housing 109 for the lock mechanism 103. The body 102 also includes a bore 110 for receiving the hanger bolt 104.

C:\N R DCC\CABW I 906_ DOC-28022012 -10 1000691 The lock mechanism 103 includes a keeper 111 which is biased by a spring 112 into an engaged position with a locking collar 113. The locking collar 113 has an external profile with slots 114 which are engaged by the keeper 111 and an internal throat 115 profiled to engage flats 116 of the hanger bolt 104. 1000701 A cover plate 117 is provided to retain the components of the lock mechanism against the body 102. The cover plate 117 has an aperture 118 to receive a shaft 119 of the hanger bolt 104. The aperture 118 is aligned with the collar 113 so that, when the hanger bolt 104 is received in the bogey assembly 101, the flats 116 are appropriately aligned and fit within the throat 115. 1000711 The cover plate 117 also includes opening 11 8A, through which an actuator button 120 is accessible. The actuator button 120 is coupled to the keeper 111 and allows the keeper 111 to be moved between the engaged and free positions. When the button 120 is depressed and the 111 keeper is disengaged, the locking collar 113 is free to rotate relative to the body 102, which in turn means the hanger bolt 104 is free to rotate. 1000721 Accordingly, it may be appreciated the lock mechanism 103 provides a locked condition when the keeper IIl is the engaged condition and an unlocked condition when the keeper 111 is the free position. 1000731 Threaded engagement between an internal thread of the bore 110 and external thread on the shaft 119, causes the hanger bolt 104 to be moved in or out of the bogey assembly 101 as a result of such rotation, so as to provide height adjustment of the hanger bolt 104. 100074 The keeper 111 is biased into the engaged position by the spring 12 so that when adjustment has been completed, the keeper 111 will automatically re-engage the collar 113, as soon as the flats 116 of the hanger bolt 104 are at right angles to the keeper 111, so that the keeper 111 can lock into one of the slots 114.

C \NRPortb\DCC\CABW178906_ .DOC-28M)2/2012 - 11 1000751 The operation of the lock mechanism 103 is now further described with reference to Figures 14 to 17. [000761 In Figure 14, the lock mechanism 103 is in the locked condition, where the locking collar 113 is engaged by the keeper 111 and the hanger bolt 104 is locked against any rotation relative to the body 102 of the bogey assembly 101. In order to the free the hanger bolt 104 for rotation and height adjustment, the button 120 needs to firstly be depressed. This may be done by hand, using a finger or the like. Alternatively, a key 121 may be inserted in a recess 122 of the button, as illustrated, and pressed in a direction indicated by arrow 123. 1000771 While the button 120 is pressed inwardly of the body 102, the hanger bolt 104 may be manually rotated for adjustment or a spanner key 124 can instead be inserted in the bolt head 107, as illustrated in Figure 15. 1000781 Rotation of the hanger bolt 104, as indicated by arrow 125 in Figure 16, will cause the hanger bolt 104 to move in an axial direction indicated by arrows 126. The axial movement of the hanger bolt 104 in and out of the body 102 adjusts the height of the door panel (not shown) supported by the bogey assembly 101. Figure 16 also clearly shows the collar 113, which is captured between the body 102 and the cover plate 117, rotating in unison with the hanger bolt 104 since the flats 116 of the hanger bolt 104 are engaged with the inner profile of the throat 115. 1000791 When the appropriate height adjustment is obtained, the key 121 is removed, as shown in Figure 17, which releases the button 120 so that the keeper 111 re engages the locking collar 113, when the flats 116 are at right angles and the slots 114 re align with the keeper 111. 1000801 As may be appreciated from the above, the lock mechanisms 32, 103 provide a convenient and simple means to securely lock the hanger bolt 20, 104 after C :\RPonbI\DCC\CABM4178906I DOC-28/02/2012 - 12 appropriate height adjustment relative to the bogey assembly 1, 101. The lock mechanisms 32, 103 have no free parts that might otherwise be dropped or lost and can be manually disengaged for further adjustment, if required, without the need for specialised tools. The mechanisms 32, 103 are also housed within the body 4, 102 of the bogey assemblies 1, 101, to minimise aesthetic impact. Since the body assemblies 1, 101 are themselves located within an overhead track during use the entire height adjustment and lock mechanism will also be hidden from view. [000811 The invention is now described with reference to Figures 18 to 25. 1000821 Referring firstly to Figure 18, a portion 151 of a folding door system 150 is shown in plan view as including a folding panel 152 and a seal timber 153 with a flexible weather seal 154, which the panel 152 is parallel to and abutting along a major face 155, when the panel 152 is in the closed position, as illustrated. The panel 152 is mounted on a vertically oriented hanger bolt 156 which is in turn connected to an overhead bogey assembly in a track (not show). [000831 The panel 152 is hinged to the hanger bolt 156, and rotates about the bolt 156 as the panel 152 moves between closed and opened positions, while the hanger bolt travels back and forth along the track, parallel to the seal timber 153. Reference numeral 157 indicates an arc of a leading corner 158 of an edge 160 of the panel 152 as it moves into the closed position. As can be seen, there is a small distance 161 of overlap between the arc 157 and the seal 154 and this results in the corner 158 of the panel 152 pressing into the seal 154 as the panel 152 is closed. The bolt 156 is positioned as close to the edge 160 as possible to minimise the degree of overlap so that the face 155 of the panel 152 can still be reliably sealed against the seal without the leading corner 159 causing damage to the seal. 1000841 For comparison, Figure 19 shows an arc 162 travelled by the leading corner 158 if the bolt 156 was hinged to the panel 152 at a location spaced from the edge 160 of the panel 152. The distance of overlap 163 with the seal 154 is quite significant, which C'RPonbl\DCC\CABA 17896_1 DOC-282/212 - 13 could cause damage as a result of the corner 159 of the panel 152 gouging the seal 154 and timber 153 as the panel is closed. As such, it is clear the hanger bolt 156 needs to be as close to the edge 160 of the panel 152 as possible. 1000851 Figure 20 schematically illustrates one form of end hanger 164 for carrying a hanger bolt 165 and attached panel 166. The end hanger 164 is mounted in an overhead track 167 and has a first, large diameter wheel 168 which is arranged to run along a rail 169 provided underneath the hanger 164 and to one side of a channel 170, through which the bolt 165 connects to the hanger 164. The bolt 165 is supported centrally of the hanger 164, directly in line and vertical with respect to the hanger 164 so that the weight load of the panel 166 can be carried by the end hanger 164 and transferred directly to the rail 169 of the track 167, without any bending moment or torque being applied from the hanger bolt 165. 1000861 To carry the weight load of the panel 166 whilst maintaining smooth operation, it is important for the wheel 168 to be of a reasonably large size. In the configuration shown, however, the wheel is past the edge 170 of the panel 166 which means the end hanger 164 will collide with, for example, a jamb before the panel 166 is closed. Similarly, in an arrangement where the edge 170 of the panel 166 is intended to close against an opposite edge of another, opposed end panel, the associated hangers will collide and prevent the panels closing. 1000871 To avoid the problem of collision, the wheel 168 can be offset from the hanger bolt 165, as shown in Figure 21, which allows the wheel 168 to be set back from the edge 170 of the panel 166. However, this causes a turning or bending moment to be applied, which can lead to fatigue or failure of the hanger bolt 165 as a result of the weight load applied by the panel 166. Of course, a larger gauge bolt could be used to support a heavier panel but hardware costs would increase as a result. As an alternative, a roller 171 is provided to bear against and roll along a surface 172 above the bogey assembly, in order to counteract any turning moments. As such, relatively large diameter wheels can still be C \Ptb1DCC CABW1A7890 6_ DOC-28M2/2012 - 14 used for smooth rolling operation of the bogey assembly, while any torque resulting from the cantilevered position of the hanger bolt is counteracted by the roller 171. 1000881 A bogey assembly 180 embodying the above principles is shown in more detail in Figure 22, where the first wheel 168 is one of a set of wheels 181 that are carried by an axle 182 integrally moulded with a body 183 of the bogey assembly 180. The roller 171 forms one of a set of rollers 184, which are mounted on an axle 185 carried by an arm assembly 186. The arm assembly 186 is fitted to an elongate tail section 188 of the body so that the set of rollers 184 are mounted toward a first end 189 of the bogey assembly, in an elevated position relative to the set of wheels 181. [000891 The body 183 is formed with a depending boss 190, which carries a guide roller 191 and a retainer 192 at a second end 193 of the bogey assembly 180 for receiving a hanger bolt 194 (shown in Figure 24). A lock mechanism 195, formed in accordance with, for example, any one of lock mechanisms described with reference to Figures 5 to 17, is also provided to lock the bolt against rotation relative to the body 183. 1000901 Referring now to Figure 23, the assembled bogey assembly 180 is shovm in profile, with the lock mechanism 195 and guide roller 191 positioned at the underside 196 of the body 183 and the set of rollers 184 being offset relative to the set of wheels 181, lengthwise of the body 183 and vertically. 1000911 The bogey assembly 180 is shown mounted in a track 197 in Figure 24, where the set of wheels 181 are positioned to roll on top of rails 198, either side of channel 199 and the guide roller 191 is positioned between the rails 198 to provide lateral stability and guide the bogey assembly along the track 195. 1000921 In that configuration, the set of rollers 184 are biased (as indicated by force 200) against an internal, underside 201 of the track 195, above the bogey assembly 180, to counteract rotational forces (indicated by arrow 202) on the cantilevered hanger bolt 194 caused by the weight load (indicated by arrow 203) of panel 204.

CAN rbl\DCC\CABW17 906- I DOC.2R/M2/2012 - 15 1000931 The attachment of the bolt 195 to the bogey assembly 180 is different to the live axle attachment described with reference to the bogey assemblies of Figures 1 to 17. In this case, the retainer 192 is fixed relative to the body 183, such as by being integrally moulded. As such, when the bolt 195 is screwed into the retainer 192 substantially rigid connection is formed between the bolt 195 and the body 183. As a result, any turning moments are transmitted directly through the solid structure of the body 183, which provides a robust mechanism for force transmission. 1000941 The rigid connection of the bolt 195 with the bogey assembly 180, coupled with the set of rollers 184 acting to resist rotation of the body 183 away from the rails, means that rotational forces on the hanger bolt 195 are counterbalanced, which substantially reduces bending forces on the bolt 195 itself. As such, the hanger bolt 195 is able to carry heavier panels. 1000951 Referring now to Figure 25, a folding panel assembly 210 is shown mounted in a folding door system 220. The panel assembly 210 includes multiple folding panels 211 which are coupled together at adjacent edges 212 by hinges 213. An end panel 214 is mounted in the system 220 by way of a bottom hinge 215 connected to a guide 216, which runs in a bottom track 217. An upper hinge 218 is connected to a hanger bolt 219 which is received in a bogey assembly 1, as described above. The bogey assembly I is carried in an overhead track 30, which forms part of the overall system 220. 1000961 The system 220 includes the panel assembly 210, as well as the bottom track 217, overhead track 30 and jambs 221 and 222. It will be appreciated the use of a bogey assembly I allows the end panel 214 to close snugly against the jamb 222 for reliable sealing without gouging, due to the cantilevered position of the bolt 219 relative to the body 2 of the bogey assembly 1.

C :\RPorb\CC AB 1789ki6- DOC.28/2/2012 -16 1000971 It should be noted the invention has been described with reference to supporting a folding panel, however, the bogey assembly is equally applicable to supporting any other type of panel such as a sliding door or the like. [000981 Many modifications will be apparent to those skilled in the art without departing from the scope of the present invention. 1000991 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. 10001001 Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.

C.\NRPwbN)CC\CABWi 78906_I.DOC-28/02/2012 -16 List of Parts 1. Bogey assembly 2. Body 3. Wheels 4. Axles 5. Rollers 6. Pivot arm assembly 7. Lateral sections 8. Axle 9. First end 10. Washer 11. Boss 12. Buffer 13. Guide roller 14. Second guide roller 15. Second end 16. Retainer 17. Axle 18. Passage 19. Internal thread 20. Hanger bolt 21. Shaft 22. Side flats 23. Bolt head 24. Hinge 25. Arrows 26. Arrow 27. Arrow 30. Track 30A. Top rail section C \NRPnbl\CC\CABW 1789061 DOC-282/2012 - 17 30B. Bottom rail section 30C. Slot 30D. Channel 31. Housing 32. Lock mechanism 32A. Keeper 33. Block 34. Flat surfaces 35. Button 36. Spring 37. Base 38. Bore 39. Neck 39A. Cover plate 40. Aperture 41. Arrow 42. Shoulders 43. Arrow 44. Arrows 45. Arrows 101. Bogey assembly 102. Body 103. Lock mechanism 104. Hanger bolt 105. Wheels 106. Rollers 107. Bolt head 108. Casting 109. Housing 110. Bore 111. Keeper C :\RPertbl\DCC\CABA178906_1 DOC.8iU2/2012 - 18 112. Spring 113. Locking collar 114. Slots 115. Throat 116. Flats 117. Cover plate 118. Aperture 118A. Opening 119. Shaft 120. Actuator button 121. Key 122. Recess 123. Arrow 124. Spanner key 125. Arrow 126. Arrow 150. Folding door system 151. Portion 152. Folding panel 153. Seal timber 154. Seal 155. Face 156. Hanger bolt 157. Numeral 158. Corner 159. 160. Edge 161. Distance 162. Arc 163. Overlap 164. Bogey assembly C:WRPonbI\DCC\CABMI78906_ .DOC-2M12/2012 -19 165. Hanger bolt 166. Panel 167. Track 168. Wheel 169. Rail 170. Channel 171. Roller 172. Surface 180. Bogey assembly 181. Wheels 182. Axle 183. Body 184. Rollers 185. Axle 186. Arm assembly 187. 188. Tail section 189. First end 190. Boss 191. Guide roller 192. Retainer 193. Second end 194. Hanger bolt 195. Lock mechanism 196. Underside 197. Track 198. Rails 199. Channel 200. Force 201. Underside 202. Arrow C :NRPOb\DCC\CABwI178906_1 DOC-28/02/2012 -20 203. Arrow 204. Panel 210. Panel assembly 211. Folding panel 212. Edge 213. Hinge 214. End panel 215. Bottom hinge 216. Guide 217. Bottom track 218. Upper hinge 219. Hanger bolt 220. Folding panel system 221. Jamb 222. Jamb

Claims (15)

1. A bogey assembly including a body for supporting a cantilevered hanger bolt, a wheel to support the body on a rail and a roller, spaced lengthwise of the body and offset relative to the wheel, so as to bear against an overhead surface and resist rotation of the body away from the rail when load is applied to the hanger bolt.

2. The bogey assembly of claim 1, wherein the wheel is one of a set of wheels mounted to either side of the body for rolling movement along an associated rail provided each side of a channel in an overhead track.

3. The bogey assembly of claim 2, wherein the roller is one of a set of rollers located either side of the body, the set of rollers being arranged to engage an internal downwardly facing section of the track.

4. The bogey assembly of claim 3, wherein the body has a first axle for the set of wheels, positioned toward an end of the bogey assembly.

5. The bogey assembly of claim 4, wherein the bogey assembly includes a second axle for the set of rollers, the second axle being positioned toward an opposite end of the bogey assembly, spaced away from the rails relative to the first axle.

6. The bogey assembly of claim 5, wherein the wheel diameter of the set of wheels is greater than the wheel diameter of the set of rollers.

7. The bogey assembly of claim 6, wherein the body has an elongate tail section and the second axle is carried by an arm assembly which is interconnected with the tail section.

8. The bogey assembly of claim 7, including a depending guide wheel, which sits within the track channel to provide lateral stability and guide the bogey assembly along the channel. C \NUPonbnDCCCABW527767_l.DOC.90)8/2012 -22

9. The bogey assembly of claim 1, further including a retainer which is adapted to rigidly mount the hanger bolt in the body of the bogey assembly.

10. The bogey assembly of claim 4, wherein the retainer is located toward the end of the bogey assembly.

11. The bogey assembly of claim 10, wherein the retainer receives the hanger bolt outside a wheel base defined between the set of wheels and the set of rollers.

12. The bogey assembly of claim i1, wherein the bogey assembly includes a lock mechanism to engage the hanger bolt and inhibit rotation of the hanger bolt within the fitting.

13. A panel assembly with the bogey assembly of any one of claims I to 12, wherein an end panel supported by the bogey assembly and a hanger bolt interconnecting the end panel and the bogey assembly.

14. A folding door system, including a frame with a jamb and an overhead track, a folding panel assembly mounted in the frame and the bogey assembly, of any one of claims I to 12, for mounting an end panel of the folding panel assembly to the overhead track via an interconnecting hanger bolt.

15. A bogey assembly, substantially as described with reference to the drawings and/or examples.