WO 2009/092141 PCT/AU2009/000081 5 10 Improvements in Structures including Wings 15 Background and Unresolved Needs Some of the inventions described within find application in addressing an age-old problem with doors and gates, that of fitting a pre-made door to an opening so as to 20 occupy the opening with acceptable working clearances so as to be neither too large and unable to fit within the opening nor too small and having unacceptable "gaps" around the periphery. Some of the inventions within find application in addressing such a problem that currently exists in relation to security and storm doors screens, windows, window screens, shutters and gates, 25 Although prompted by the needs outlined above, the inventions within are applicable to structures in general and in particular, to structures that include a frame, and to structures configured as wings that more particularly'may take the form of doors, screens, shutters or barriers. This specification describes the integers relating to the various aspects of the inventions described within including the-integers relating to the 30 invention claimed within, and it includes integers relating to the invention to be claimed within future divisional applications. 35 WO 2009/092141 PCT/AU2009/000081 2 Summary of the inventiorf Claimed According to the invention, there is a structure including a rigid infill supported by an outer frame comprising outer frame members extending between spaced comer joints, at least one of said outer frame members connected by a telescopic joint 5 associated with a said corner joint, said telescopic joint adjustable to change the effective length of the corresponding said outer frame member. In a second aspect of the invention, members within the corner joint and the at the least one outer frame member cooperate to provide the telescopic joint. 10 in a third aspect of the invention, the at least one corner joint is adaptable to change the included angle defining the relative disposition of the outer frame members participating in the corner joint. In a fourth aspect of the invention, the comer joint inclUdes a fastener, a cupped member and a protruding shoulder wherein tightening of the fastener urges the cupped 15 member and protruding shoulder towards each other to form a frictional joint able to resist relative angular displacement between the outer frame members participating in the corner joint. In a fifth aspect of the invention, the corner joint includes a nut associated with the protruding shoulder and engaged with the corner fastener, said fastener extending 20 coaxially through apertures in the cupped member and protruding shoulder, said cupped member an protruding shoulder able to be clamped together within a range of relative angular dispositions by tightening of the fastener. In a sixth aspect of the invention, the comer joint includes a first connecting member associated with one outer frame member and providing the protruding shoulder 25 characterized by concave surface and a second connecting member associated with the other outer frame member and providing the cupped member. In a seventh aspect of the invention, there is at least one of said first and second connecting members extends longitudinally within a respective outer frame member to mate with working clearance to be relatively displaceable with respect to the respective 30 outer frame member. In an eigthth aspect of the invention, there is a substantially rectangular structure including an outer frame comprising two pair of opposed outer frame members, each said outer frame member of a pair being connected to each outer frame member of the other pair by a butt corner joint.
WO 2009/092141 PCT/AU2009/000081 3 in a ninth aspect of the invention, each butt joint is adaptable to change the respective included angle. According to an invention, there is a structure including a rigid infill supported by an outer frame comprising outer frame members extending between spaced corner joints 5 wherein at least one comer joint is adaptable to change the included angle defining the relative disposition of the outer frame members participating in the corner joint, said corner joint including a fastener, a cupped member and a protruding shoulder wherein tightening of the fastener urges the cupped member and protruding shoulder towards each other to form a frictional joint able to resist relative angular 10 displacement between the outer frame members participating in the comer joint. In an eleventh aspect of the invention, the corner joint includes a nut associated with the protruding shoulder and engaged with the corner fastener, said fastener extending coaxially through apertures in the cupped member and protruding shoulder, said cupped member an protruding shoulder able to be clamped together within. a range 15 of relative angular dispositions by tightening of the fastener. In a twelth aspect of the invention, the comer joint includes a first connecting member associated with one outer frame member and providing the protruding shoulder characterized by concave surface and a second connecting member associated with the other outer frame member and providing the cupped member, 20 In a thirteenth aspect of the invention, there is means by which to urge the centre of area of the infill towards the centre of area of the outer frame. In a fourteenth aspect of the invention, there is a structure according to any one of the above claims, wherein the infill includes multiple sub-infills. In a fifteenth aspect of the invention, there is a structure configured as a 25 substantially planar wing. In a sixteenth aspect of the invention there is a structure configured a fixable shutter. In a seventh aspect of the invention, there is a structure configured as an angularly displaceable door including a lock. 30 In an eighteenth aspect of the invention, there is a structure configured as a substantially conventional Australian security door and-including a substantially conventional Australian security door lock. In a ninteenth aspect of the invention, there is a structure configured as a sliding door.
WO 2009/092141 PCT/AU2009/000081 4 According to an invention, there is a structure substantially as described herein with reference to and as illustrated in the accompanying drawings. The elements relating to the various aspects of the invention claimed within are identified within the specification as follows: where unless the context requires otherwise, 5 - "Locks" or variations such as "lock" will be understood to include complete locks for wings and improvements in locks for wings that are transportable into other locks and locking devices without being limited to the complete locks described herein. * "Comprise" or variations such as "comprises" or "comprising" will be 10 understood to imply the inclusion of a stated integer or group of integers but not the exclusion of any other integer or group of integers. . Positional prepositions such as "rear" and "forward" are used.to assist in description of the preferred embodiments and with reference to the accompanying drawings and have in general, no absolute significance 15 0 "Overlap" and derivations such as "overlaps" implies at least in-part, occupying a same plane as. * "Meshes with" implies engaging with but without free movement in excess of working clearances - for example, meshing between an angularly displaceable shaft and a recess in an angularly displaceable pinion means that they both angularly 20 displace together but the shaft may be able to displace longitudinally in relation to the pinion. " "Extent" will be understood to include area, form and shape. " Headings are included for convenience only and not to affect on interpretation. 25 * "Preferably" or variations such as "prefer" does not imply that the form of an integer is restricted to that referred to as preferred, but implies adequate and if need be, able to adequately perform a function required by the invention. . "Alternative" or variations such as alternatively does not imply that the form of an integer is less or more preferred but simply implies adequate and if need be, able to 30 adequately perform a function required by the invention. "Improvements" does not imply that the form of an integer is restricted to that referred to as "improved", hut implies an alternative form of the integer/s "well suited" to particular applications and if need be, able to adequately perform a function required by the invention. 35 ' "Wing" or variations such as "wings" includes complete wings; improvements WO 2009/092141 PCT/AU2009/000081 5 in wings and alternative forms of wing constructions transportable into other wings and other structures without being limited to the wings described herein, and more particularly, wings embraces wings configured as "doors", "windows", "shutters", "screens" and 5 gates, S"Structure" or variations such as "structures" implies a man-made fabrication consisting of one or more members and embraces complete structures; improvements in and alternative forms of constructions without being limited to the wings described herein, structures more particularly embraces wings and more particularly wings configured as (or 10 included in) doors, windows, window screens, gates and shutters, * "Member" is an identifiable entity having material form that may include one or more identifiable components. * "Material" includes elements, alloys, plastics and other substances. * "Aperture" and "recess" embrace a hole that extends from a surface while 15 "aperture" in some contexts implies a hole that extends between surfaces. 0 "Furniture" includes door furniture that includes a "handle assembly" that includes a handle supported by a base that together in one form comprise a disengaging handle supported by a back-plate or base; 0 "Handle" includes a knob and lever; 20 A "Disengaging Handle" (sometimes referred to as an unlatching member or lever) includes a lever or knob that is hand operable to cause an engaging member to become disengaged and/or retracted, "Base" includes a Rose that may include a surface mounted member having a recess on the underside and it includes a back plate, - "Back Plate" (or "back-plate") includes a surface mounted box-like member 25 having a recess on the underside. * "Engaging Member" is a member displaceable into and out of engagement with an "Engageable Member"; when in engagement, the engaging member is in an operative position or configuration and when removed from the said engagement, the engaging member is in an inoperative position or configuration. In the majority of locks, 30 the operative position corresponds with an engaging member that is substantially fully displaced and the inoperative position corresponds with an engaging member that is substantially fully retracted. Within this specification, the terms "retracted" and "inoperative" will be used synonymously and "fully displaced" and "operative" will be used synonymously 35 - "Engage" implies displacement of an "engaging member" into engagement with an WO 2009/092141 PCT/AU2009/000081 6 "Engageable Member". * "Disengage" means withdrawal of the engaging member from engagement. * "Latching" implies displacement of an "engaging member" into engagement with an "Engageable Member" under the action of biasing means. 5 a "Latch-Bolt" or "latch bolt" is an outwardly biased bolt capable of executing (or participating in) latching and includes bolts having a leading end that is chamfered or otherwise profiled on one or both sides. * "Unlatching" means withdrawal of the engaging member from engagement. * "Locking" means the act of configuring the lock to restrain it from 10 being disengaged and in some forms of locks employing deadlocking slides, it means restraining the deadlocking slide to restrain the bolt from being inwardly displaced in response to operation of the unlatching lever. * "Deadlocking" means to configure the lock to restrain the engaging member from being displaced from the operative configuration by external forces (in the case of a 15 common lock for a hinged door, it includes restraining the bolt in a fully extended position). The deadlocking means is some forms includes a "deadlocking slide" that is displaceable to cooperate with the engaging member to restrain it against displacement and/or to restrain an unlatching lever from being operable to unlatch the bolt. 0 "French Door" means a door including a frame and a glass in-fill. 20 0 "Screen door" means a door including a hollow frame and an insect restraining in-fill such as fiberglass mesh, woven mesh or perforated metal mesh: a conventional security door is defined having a axial hollow having a Depth not exceeding 45 MM and a Width not exceeding 16 MM; an industry-standard door preparation has an elongated slotted aperture having a Width 14.5 to 16 MM and length substantially 147MM. 25 * "Lock Body" includes an engaging member and a lock casing and an Australian conventional security door lock body is able to fit within an industry-standard door preparation and has a lock casing not exceeding 45 MM in depth, a width not exceeding 16 MM and preferably a length substantially 147 MM. * "Mortise Lock" means a lock including a lock body, a strike plate, a pair of 30 handle assemblies and a cylinder where the lock body is configured to be fitted within the frame of the wing. * "Cylinder" or "Single cylinder" means a substantially conventional lock pin cylinder comprising a separate sub-assembly that includes a key operable barrel within a cylinder housing and having multiple transverse pin chambers extending from the outer WO 2009/092141 PCT/AU2009/000081 7 surface of the housing to meet coaxially with pin chambers in the barrel when the key is removed. "Double-Cylinder" comprises opposed coaxially supported Cylinders with opposed barrels each operably connected to the same angularly displaceable "first cam" having a 5 "first cam arm" characterized by a "free end" that extends radially to a "peripheral surface" defined in part by a radial distance from the first cam pivotal axis and where in one form of conventional double cylinder, this radial distance is substantially 15.0 MM. "Free rotation-double-cylinder" is configured such that each barrel is connected with free movement to the same first cam such that the cam is free (between 10 limits) to be angularly displaced while the barrels remain undisplaced. This type of cylinder is commonly used in security door locks in Australia to enable the cam to be displaced by either barrel to a locking configuration and then the barrel to be reverse rotated to the undisplaced position enabling key removal while leaving the first cam in the locking position. 15 * "Cylinder Screw" may be employed to retain a separate double cylinder relative to the casing, the screw has passage through the casing to be engaged in a threaded aperture in the cylinder. In these forms the screw may also perform the function of restraining the first cam arm against leaving the drive recess by displacing in a direction away from the bolt; the screw does this by restricting the downward displacement of the 20 deadlocking slide * "Cross-Sectional Viev " in relation to figures should be interpreted as an orthogonal cross-sectional view defined by a plain orthogonal to the axis of the member in consideration. * Patent Specification shall be taken to include: a Body [comprising a Title, a 25 Description of Preferred Embodiment/s, an Abstract and a Summary of the Invention] and Claims. Structures 0 A "mortise joint" in relation to a frame in a structure includes two elongated members (relatively disposed at an "included angle") having ends that abut along an 30 entire angled edge when the included angle is equal to a "nominal angle"; this can be regarded as a perfect mortise joint * An "orthogonal mortise joint' has orthogonally disposed members (with an included angle of 90 degrees) having a nominal angle of 90 degrees and abutting ends each angled at 45 degrees, 35 * A "pseudo orthogonal mortise joint" has members having ends angled at 45 WO 2009/092141 PCT/AU2009/000081 8 degrees but the included angle is 90 degrees + Deviation so they abut only at a corner to give rise to a visible wedge-like gap. * A "butt joint' in relation to a frame in a structure is characterized by two elongated hollow members relatively disposed at an included angle where the end 5 of a first member abuts an edge of a second member along the entire end when the included angle is equal to a "nominal angle"; this can be regarded as a perfect butt joint, V An "orthogonal butt joint" is a-joint characterized by the two elongated hollow members being relatively disposed at an angle 90 degrees and having orthogonal ends. 10 * A "pseudo orthogonal butt joint" is a joint characterized by the members having orthogonal ends but having an included angle different to the nominal angle of 90 degrees by the "deviation" so they abut only at a corner to give rise to a visible wedge-like gap. a "Deviation" is an incremental angle = nominal angle - included angle. Unless the context requires otherwise, any prior publications and usage 15 referred to herein, is not an assertion that any of this material forms part of the common general knowledge in the art in any other country at the priority date of any claim herein (or the priority date of any future claim derived at least in part from this specification). The integers described within include those related to the various aspects of the invention claimed within and they include those related to the various aspects of 20 other inventions to be claimed in future divisional applications and continuations in part. Where an integer is attributed with attributes different from those attributed in an earlier application on which this application relies for priority, the integer will be considered to be the same integer in a different form; where there is actual inconsistency, the latest description will prevail. 25 The inventions described within although not limited to such, include alternative forms of, and improvements to the structures described in the following specifications: PCTJAU2007/000865, AU 2007202874, AU National Phase of PCT/AU2007/000865 being identified as 2007264393, US National Phase of PCT/AU2007/000865 being identified as US Application No. 12303329 -these prior Patent Specifications being 30 hereby included by reference and being referred to as "the Patent Specifications included by reference". In particular, this Patent Specification describes an alternative butt joint; alternative means of attaching infilling materials; an alternative method of fitting and accommodating a lock; an alternative linear joint; an alternative method of adjusting a door; an alternative method of fitting a door to a door jamb. 35 WO 2009/092141 PCT/AU2009/000081 9 Description of the Figures Notwithstanding any other forms that may fall within its scope one preferred form of the invention will now be described by way of example only with reference to the accompanying drawings in which: 5 Figure 1 is a side view of a structure, Figure 2 is cross-sectional view AA of Fig 1, showing an inner frame and an outer frame together, Figure 3 is the outer frame member of Fig 2 having an edge depth "D", a side width "W" and a side-wall thickness "t", 10 Figure 4 is a cut-away isometric view of an outer frame comer showing an operable corner fastener, Figure 5 is a partly exploded side view of a structure having an outer frame where outer frame members are connected by enhanced adjustable butt joints, 15 Figure 6 is an isometric representation of an alternative outer frame for the structure of Fig 5 where guter frame members are connected by simple adjustable butt joints, Figure 7 is a side view in-part of a particular structure having an inner frame comprised of inner frame members having a particular cross-section, 20 Figure 8 is a cross-section of the an inner frame member of Fig 7, Figure 9 is a side view of a comer of the structure of Fig 7, Figure 10 is cross-sectional view CC of the structure of Fig 7 adjacent to the comer, Figure 11 is cross-sectional view AA of the structure of Fig 7, 25 Figure 12 is cross-sectional view B of the structure of Fig 7, Figure 13 is a schematic isometric view of a detachable infill, Figure 14 is a schematic side view of a Type 3 orthogonal joint, Figure 15 is a schematic side view of a Type 4 orthogonal joint, Figure 16 is a schematic side view in-part of a structure having multiple sub-infills, 30 Figure 17 is an isometric view in-part of an inner frame being hinged towards a folded KD configuration, Figure 18 is cross-sectional view BB of Fig 16, WO 2009/092141 PCT/AU2009/000081 10 Figure 19, is an exploded isometric view of a simple adjustable butt corner joint between a first and second outer frame member, Figure 20 is an isometric view of the second outer frame member of Fig 19, Figure 21 is an exploded isometric view of an enhanced adjustable butt corner 5 joint between a first and second outer frame member Figure 22 is an isometric view of the enhanced butt joint of Fig 21, Figure 23 is a partial isometric view of a corner of the enhanced butt joint of Fig 22 including a comer cover, Figure 24 is a side view of the comer cover of Fig 23, 10 Figure 25 is a schematic isometric view of an outer frame having elongated side apertures configured to receive the lock handle spigots, a shaft, a cylinder and a snib lever irrespective of which end of the structure is disposed upwardly (ie not inverted and inverted)'and an inner frame having elongated side apertures configured to receive the lock handle spigots, the shaft, the cylinder and the snib lever irrespective of which end of 15 the structure is disposed upwardly (ie not inverted and inverted); the apertures further elongated and widened to accommodate vertical and horizontal relative displacement between the inner and outer frames, Figure 26 is the structure of Fig 25 where the outer frame is disposed upwardly relative to the inner frame, 20 Figure 27 is the structure of Fig 25 where the outer frame is disposed downwardly relative to the inner frame, Figure 28 is a schematic isometric view of an outer frame having elongated side apertures configured to receive the lock handle spigots, the shaft, the cylinder and the snib lever irrespective of which end of the structure is disposed upwardly (ie not inverted 25 and inverted) and an inner frame having side apertures configured (for a structure is not /will not, be inverted) to receive the lock handle spigots, the shaft, the cylinder and the snib lever with only working clearances, Figure 29 is an isometric view of a structure taking the form of a wing configured as an angularly displaceable door having a lock on a closing edge and supported by 30 hinges attached to a frame element that in-part defines an opening, Figure 30 is a is a side view of a structure taking the form of a wing configured as an slidable door having a lock on a closing edge and supported by rollers guided relative to a frame element that in-part defines an opening; the door electively having an infill that includes elongated bars, 35 WO 2009/092141 PCT/AU2009/000081 11 Figure 31 is cross-sectional view AA of the structure of Fig 30 at a point where a bar connects to the inner frame, Figure 32 is an isometric exploded view of the end of a bar of Fig 31, Figure 33 is a partial cross-sectional view of an inner frame including a detachable 5 flexible mesh, portion, Figure 34 is a cross-sectional view of an alternative inner frame member, Figure 35 is a schematic side view of a corner joint of an infill comprised of an alternative inner frame member, Figure 36 is cross-sectional view BB of Figure 35; demonstrating a means of 10 assembly, Figure 37 is the cross-sectional view of Figure 36; assembled, Figure 38 is a cross-sectional view of an inner frame and alternative infilling material, Figure 39 is an exploded isometric view of an assembled a frame corner, 15 Detailed Description of Embodiments Consistent with the Concepts of the Inventions GENERAL Reverting to the problems with doors and screens, some openings are fabricated according to standard dimensions, some are constructed on site of convenient 20 dimensions, some through poor workmanship are non-rectangular and some openings become skewed as a result of house settlement. In spite of this, DIY hardware retailers sell doors of standard sizes to suit such openings often resulting in poorly fitting doors. In other cases, doors are "made-to-measure" by a time consuming process where the opening is measured and a door is manufactured to suit the particular opening 25 sometimes even this process results in a poorly fitting door. The above deficiencies raise the possibility of designing a door that is configurable to suit openings of different widths and/or different heights and raises a particular objective of some of the inventions within, that of being able to provide a screen door that suits the different common door openings in a particular countries/territory and a more 30 particularly to provide a door that suits all the different common openings. Such adjustable doors would be manufactured without reference to particular openings (which is time consuming and expensive) and by modern manufacturing techniques and systems resulting in reduced manufacturing costs and improved quality. Further, it would advantageous if (at least some) doors could be configured to fit within a 35 normal sedan vehicle so that they could easily be transported home to be assembled and WO 2009/092141 PCT/AU2009/000081 12 fitted by the home owner or a handyman - this feature overcoming a difficulty experienced by shoppers who purchase doors from retail outlets. In Australia for example, most screen and security doors fall within a range in widths of 806 to 818 MM and within a range of heights of 2024 to 2042 MM so an 5 adjustable door that embraced these ranges could meet this objective. Doors of course could be configured to embrace other predetermined ranges to suit common sizes in other jurisdiction or territories. Notwithstanding the inventions are described (in some places) with reference to wings, they are not limited to such structures. 10 In some forms, a structure 1, referencing Fig 1 to 4, includes an infill 2 (not limited to, but) that may take the form of laminar glass, woven steel mesh, fiberglass mesh, perforated sheet metal or bars or a combination thereof or any other suitable - material and in some forms it includes and outer frame 3; the infill 2 and outer frame 3 configured to be relatively disposed and in some forms the outer frame 3 supports the 15 infill 2 and in some forms they are configured to mutually overlap. In some forms the infill is bounded by a return 4 that extends along the periphery of the infill and although not limited to, may take the form of a continuous portion or multiple discrete interrupted portions that extend outwardly to overlap the outer frame 3; some infills are further configured to include a pair of spaced returns 4 configured as 20 sides 5 that define between them, a substantially U shaped, elongated U channel 6 that extends along the periphery of the infill 2 by extending inwardly from an opening 7; in some forms the sides 5 are substantially parallel. In some forms, the infill 2 includes an inner frame 9 that extends along its periphery, this inner frame 9 being configured to include a base 10 from which the return 4 or sides 5 extend outwardly to overlap the outer 25 frame 3 and in some forms, this inner frame 9 extends along the entire periphery of the infill 2. OUTER FRAME The outer frame 3 in some forms, extends along the entire periphery of the infill and in some forms, the outer frame is configured to include one or more elongated outer 30 frame members II that (although not limited to) in some forms, referencing Fig 2 to 3, 5 to 6, and 8 to 10, are hollow and include a longitudinal recess 19, an outer edge wait (or outer edge) 22 connected to a side 18 and in some cases, connected'to opposed sides 18; (although not limited to) in some forms, having a substantially rectangular cross section and including a hollow having a substantially rectangular cross-section where the 35 sides 18 extend between the outer edge wall 22 and the opposed inner edge wall (or inner edge) 21, referencing Fig 3; the outer frame member 1 defined by an edge depth WO 2009/092141 PCT/AU2009/000081 13 "D", a side width "W" and a side-wall thickness "t" and by a longitudinal axis that in planar wings, is parallel to the plane defining a side of the wing. Hollow rectangular outer frame members are well suited to many structures including structures configured as wings and in particular as doors; they may be 5 manufactured from any suitable material and by any suitable process; they may comprise drawn steel tube, extruded aluminium, roll-formed steel (having the essential features described herein but modified to suit the roll-forming process), extruded plastic (including, pvc) and they may be fabricated from multiple portions to have as a whole, the essential features described herein. 10 In more particular forms, the outer frame is configured to accommodate a lock body and in some forms, it is configured to accommodate a substantially conventional Australian security door lock body. For convenience only, the outer frame employed in the figures accommodates a substantially conventional Australian security door lock body but the structures described herein are not limited to such frames. The outer frame members 15 employed in the figures is defined by D=1.9MM, W=40 MM, t= 1.5 MM. In some structures, at least one outer frame member II has an associated linear joint 23 that may be adjusted to change the effective length of the outer frame member (Le. to change the separation of the outer frame members to which the said at least one outer frame member 11 is connected) and in some structures, all sides have a 20 corresponding adjustable linear joint 23 that in some forms is as described in the Patent Specifications included by reference and in some forms, is described below. In application, the effective length of one or more outer frame member may be increased in length to render the structure suitable for a larger opening (and in many cases, the objective being to fill the opening with the structure with only working clearances). 25 in some structures, after the structure has been adjusted to a larger extent the outer frame members are parallel to their respective configurations in the smallest configuration; in which case, each corner joint has an included angle that is equal its respective nominal angles and each joint is referred to as being "perfect". In some cases, the outer frame members will become not parallel to their respective configurations in the 30 smallest configuration resulting in at least one corner joint having an included angle ["Alpha'] that differs (by a deviation) from its respective nominal angle The corner joints described herein have structural integrity even when their included angles differ from their respective nominal angles. Outer frame members 11, referencing Fig 4 to 6, are connected by corner joints 35 12 that in some forms comprise butt joints and in others mortise joints that in some forms WO 2009/092141 PCT/AU2009/000081 14 are as described in the Patent Specifications included by reference, in some forms of structures, each comer joint remains adaptable till a corner fastener 13 is tightened to render the corner joint rigid; in some forms the corner fastener drive recess is accessed through an aperture 270 in an outer frame Member 11 having a diameter small than the 5 head 272 of the corner fastener and being just large enough to receive a drive tool. A particular form of structure includes an infill bounded by an inner frame on all sides that is bounded by an outer frame on all sides. In a more particular "rectangular structure", the structure is characterized by the inner frame being substantially rectangular and the outer frame having: 10 1) a smallest configuration where each outer frame member abuts (along its entire length) a corresponding inner frame member 24, 2) a nominal angle of ninety degrees at each corner. In some structures, it is desirable for the inner and outer frame members 24, 11 to have minimum widths for the reasons described below; a competing consideration for 15 some structures however, requires the widths to be large enough to enable the structure to be adjusted in extent to embrace a pre-determined range of opening sizes and a more particular objective of some of the inventions within, is for a single structure to embrace a range of openings common within at least some territories; a further competing consideration for some structures is the need for the outer frame member to 20 accommodate-a lock and of course, in general, the smaller the depth the less expensive will the frame be. In a more particular form, the structures comprise a hinged security doors that are adaptable to embrace common door openings in Australia, the doors having a height "H" between 2020 and 245 (where the.incremental height h=25) and a width "V" between 805 25 and 820 (where the incremental width v = 15). Where the outer frame member is configured to suit a substantially conventional Australian security door lock, the depth may conveniently be set to W 40 MM (and the Depth D=19 and t=1.5) such a depth providing up to 35 MM overlap while still providing 5 MM of overlap, thus easily providing the required incremental distances that can be provided in-part by opposed sides of the 30 wing; and the channel 15 depth wc can conveniently be set to 40 MM, referencing Fig 34. If such a structure were skewed by 10 MM so that an outer frame side member 11 became 10 MM lower (than it would be if the door remained rectangular), then the widest part of the gap of a simple butt joint would be approximately (101800) x 40 = 0.5 MM, a very small amounts indeed and other structures characterized by similar ratios will have 35 corresponding similar gaps. Where the first end wall 81 consisted of angled portions 86, WO 2009/092141 PCT/AU2009/000081 15 the widest part of the gap would be approximately 0.25MM. Although these gaps are unfortunate, they are preferable to the common solution of filling a rectangular door into a skewed opening to leave gaps through which insects have passage and/or where security is compromised. Where the structure was skewed by 10 MM as described above, the 5 corresponding deviation would be 10/800 x 180/Pi degrees [approx 0.75 degrees]. Although joints could be configured to accommodate larger deviations, it is envisaged that in practice where the structures are configured as doors, the deviations will be within the range -3 degrees to +3 degrees. It should be said that the smaller is the width of the outer frame, the smaller will 10 any corner gaps be for a give angle of skewing and this is another reason for minimizing the width of the outer and inner frame members. Some outer frames additionally include extensions 14 to the sides 18 that form an outwardly disposed peripheral channel 16 that in some forms is w deep and configured to receive the fixing tabs of a lock, in a particular format it is 3 MM deep. 15 INNER PRAME & INFILL In some forms, the inner frame extends along the entire periphery of the infill to provide a continuous channel 15, referencing Fig 39, that extends along the entire periphery of the inner frame. In some forms, the U channel 6 depth has a width wc substantially the same as W, referencing Fig 34, in some forms, referencing Fig 5, the 20 inner frame is comprised of elongated inner frame members 24 connected at corners 25 configured to enable the respective channels 6 to be connected to form the continuous channel 15 that extends along the entire periphery of the inner frame 9 by extending around each corner 25. The inner frarrie members may be manufactured from any suitable material and by any suitable process; they may comprise drawn steel tube, 25 aluminium extrusion, roll-formed steel (having the essential features described herein but a but modified to suit the roll-forming process), extruded plastic (including pvc) and in other forms, they may be fabricated from multiple portions to as a whole, have the essential features described herein. Other particular forms of inner frame members, referencing Fig 7 to 10, have a 30 slotted aperture 26 that extends from a mouth 27 located relative to the inner edge of the inner frarne, the slotted aperture 26 being defined in-part by a fin 28 and an edge wail 29 of the inner frame. It should be appreciated that the edge wall 29, mouth 27, slotted aperture 26 are features that may extend for the entire periphery of the inner frame while the fin 28 and edge wall 29 in particular forms lie in parallel planes and in a plane 35 parallel to the plane of the infill. The inner frame members 13 are connected by corner joints, referencing Fig 8,9 that may comprise mortise joints that in some forms include a WO 2009/092141 PCT/AU2009/000081 16 joining member 30 having legs 31 that occupy the longitudinal recesses 32 within the abutting inner frame members, these legs 31 extending internally alongside the edge wall 33 and the adjacent walls of the inner frame and in some forms comprising an interference fit. A convenient form of inner frame, has a slotted aperture of 3 MM wide, an 5 inner wall 34 having a depth of 16 MM (to be compatible with overlapping bars having a depth of 8 MM) connected to an angled wall 35 and other convenient dimensions. In one form, the infill 2 is configured to include bars 36 that in some forms are configured as a substantially rectangular hollow tube 41 having a continuous axial recess 42. Each end of each vertical bar is adapted to occupy/mate with opposed 10 apertures 44 disposed towards the interior side of the inner edge 34 and each end of each horizontal bar is adapted to occupy/mate with opposed apertures 43 disposed towards the exterior side of the inner wall 34 [more generally, one set of bars (parallel or not) is exteriorly disposed and another set of bars (parallel or not) is interiorly disposed and each end of each bar extends through a suitable aperture in the wall of an inner 15 frame member 24. In a particular form, each bar has cross-sectional dimensions width=13 x depth= 8 mm and a wall thickness 1.0 mm, and the bar may include an axially elongated cylindrical portion through which an axial recess 42 extends to receive the fastener 37 described below. The end of at least one bar in some forms, is connected by a fastener 37 that extends through an aperture 38 in the inner wall 39 of the inner frame 20 to occupy an elongated axial aperture 40 located relative to the end of the bar; in some forms each end of each bar is connected in a similar manner. This arrangement is particularly suitable where the infill and inner frame are of similar metal and where galvanic corrosion is not an issue. The inner frame members 24 described immediately are configured to enable a 25 removable mesh portion (configured as a sub-assembly) to be easily attached and removed and replaced. This infilling material 45; referencing Fig 10 and 13, is configured to include an elongated upper and lower peripheral infilling frame 4G, 47 about which the infilling material is partly wrapped (for better adhesion) and to which the infilling material is attached. In some forms, the frames 46 and 47 include a stitching 30 channel 48 through which stitching or staples pass, the stitching or staples being applied externally to pass through the infilling material 45, then through the infilling frames 46 and 47 then through the infilling material 45 on the other side. The upper infilling frame 46 with infilling Material 45 attached is received into the slotted aperture 26 within the upper inner frame member and the lower infiling frame 47 with infilling material 45 attached is 35 received into the slotted aperture 26 within the lower inner frame member; the edges of WO 2009/092141 PCT/AU2009/000081 17 the infilling material 45, which in some forms are partly framed and in some forms not framed, extend into the side slotted apertures 26. The combined thickness of the infilling frame 46 with infilling material 45 attached is substantially the same as the depth of the slotted apertures 26 so once inserted the teeth 49 on the walls of the slotted 5 apertures 26 act to retain the framed end of the infill within the respective slotted apertures 26. In some forms, a screw or other fastener 66 is driven orthogonally through fin 28 to engage with infilling frame 46, 47. By this means, an alternative infill is provided that can be removed and replaced and substantially without the use of tools. OENTRALIZING/PoSmONING THE INritL & TYPE. 3,4 ORTHOGONAL BLOCKS 10 In some structures, it is important that the infill 2 be centrally located relative to the outer frame or otherwise relatively aligned to suit a particular situation or need. In some structures this is achieved by means including those described in the Patent Specifications included by reference where one such means includes an orthogonal block that may take one of two forms: a Type-3 block 50, referencing Fig 14, having a 15 substantially cylindrical joint boss 51 that is supported in the outer edge 22 of the outer frame member 11 to extend towards the inner edge 21 where it is disposed coaxially relative to an aperture 52. The joint boss 51 includes an axially elongated threaded aperture 53 that supports a threaded fastener 54 (such as -a grub screw) that is accessible through a coaxial aperture 55 disposed from the outer frame member to 20 enable a tool (such as an Alan'key) to be inserted into the fastener drive recess 66 to rotate the fastener and in some situations, to cause it to protrude from the joint boss 51 to act on the inner frame member 24 to displace the outer frame member 11 away from the inner frame 9. In some forms the joint boss 51 includes a substantially cylindrical end 57 of reduced diameter that extends through an aperture 58 in the outer frame member to 25 be outwardly peened over (to form a ridge 59 that overlap the outer frame member) to retain it attached to the outer frame member. In another form of such a devise, referencing Fig 15, referred to as a Type-4 block 49, a substantially cylindrical joint boss 60 is supported in the inner edge 21 of the outer frame member 24 to extend towards the outer edge 22.The joint 30 boss 60 includes an axially elongated threaded aperture 63 that supports a threaded fastener 64 (such as a grub screw) that is accessible through a coaxial aperture 65 in the outer frame member to enable a tool (such as an Alan key) to be inserted into the fastener drive recess 56 to rotate the fastener and in some situations, to cause it to protrude from the joint boss 61 to act on the inner frame member 24 to displace the outer 35 frame member 11 away from the inner frame 9. In some forms the joint boss 60 includes a substantially cylindrical end 67 of reduced diameter that extends through an aperture WO 2009/092141 PCT/AU2009/000081 18 68 in the outer frame member to be outwardly peened over (to form a ridge 69 that overlap the inner surface of the inner edge 21. KyocK- DOWN "0lY" VrStN. Some forms of structure are further configured such that the infill is configured as 5 multiple smaller sub-infills 70, referencing Fig 16 to 18 and some infills comprise multiple sub-infills (that may be different but) that in some forms consist of a pair of substantially identical sub-infills, each the mirror image of the other. In some forms, an inner frame member 71 (of the first sub-infill) and inner frame member 72 (of a second sub-infill) are adjacent and abut and in some forms they are 10 connected by hinges 73 (having leafs 74 one connected to each inner frame member 71, 72), so that during assembly the two sub-infills simply hinge open to form a single infill. In a particular form the inner frame member 71 and 72 referencing Fig 18, have identical cross-sections that take the form of the cross-section of the inner frame members 24 on the other sides except the sides 5 (described in the cross-section, referencing Fig 16) are 15 truncated; however each has an elongated recess 32 enabling the members abutting 71, 72 to be connected to their respective other inner frame members by joining members 30. This construction lends itself to hinged screen doors that may be configured in "knock-down" form to fit within a carton or other retail packaging, the door being assembled later by a home owner handyman or tradesman after being transported by 20 passenger vehicle. In some such hinged doors, referencing Fig 17, having a height H and width W3 the sides of the outer frame consist of a longer_outerframe-portion 75 (that may be packed diagonally into a carton by) having a length L = sq root [(W3 2 +(H/2)2] and a shorter _outer_framesportion 76 having a length =-(H-L); where the identical infiils have a height H/2 and a width W3. By way of example, consider a structure comprising a 25 door having a height H=2000 MM and a width W3=800 MM, each longerouterframe_portion 75 is configured to have a length L = [sq root (10002 + 8002)] - 1.33 M and shorter _outerframejportion 76 has a length (2000 - 1330) - 0.7 M; these outer frame members clearly fitting within a carton that will fit with a sedan vehicle. The outer frame portions 75, 76 may be connected by any convenient means 30 including an elongated joining member 77 that extends longitudinally within the hollow 19 of each outer frame portions 75, 76 to mate with interference so as to form a rigid joint. SIMPLE LINE-AR JOINT The outer frame portions 75, 76 may be connected by any convenient means including an elongated joining member 77 that extends longitudinally within the hollow 35 19 of each outer frame portions 75, 76 to mate with only working clearances having WO 2009/092141 PCT/AU2009/000081 19 exterior dimensions (at least in-part) that are substantially the same as the interior dimensions of the outer frame members but lesser by a working clearance. In some forms, the joining member 77 has a first aperture 301 to receive a first fastener 302 and the outer wall 22 of the longer outer frame__portion 75 has coaxial 5 aperture 303 enabling passage of the first fastener 302; in some forms aperture 30$ is longitudinally elongated; in some forms the fastener has a pan head that seats within the channel 16 of the longerouterframe_portion 75; joining member 77 similarly has a second aperture 306 to receive a second fastener 307 and the outer wall 22 of the shorter _outer frame_portion 76 has coaxial aperture 308 enabling passage of a 10 second fastener 307; similarly aperture 306 may be longitudinally elongated; the fastener may have a pan head. Joining members may be manufactured from any suitable material and by any suitable process; it may comprise drawn steel tube, extruded aluminium, roll-formed steel (having the essential features described herein but modified to suit the roll-forming 15 process), extruded plastic (including pvc) and they may be fabricated from multiple portions to have as a whole, the essential features described herein. It will be appreciated that the construction described immediately above can be simply adapted to provide an adjustable simple linear joint 312 enabling the effective lengths of an outer frame member that includes this construction can be increased from a 20 minimum where portions 75 and 76 abut to a longer length where there is a gap between portions 75 and 76. Where it is intended the joint be adjustable, for each joint a horse shoe shaped side cover 304 is provided to occupying the gap and to straddle the exposed end joining member 77 plug; it will be appreciated that once the structure has been adjusted, the side cover is. cut to length (by the removal of portions 311 to suit the 25 length of the gap. In some forms, the side cover 304 includes spaced arms 305 that extend from each end of side cover 304 configured to occupy a respective portion of channel 16, in which case fasteners 302 and 307 have a countersunk heads to seat with respective countersunk recesses 310 in a respective wing 305. A side cover 304 can also be used to fill the gap adjacent to the corner of a butt 30 joint (described below), in which case, the wing 305 not within the channel 16 is removed. SIMPLE ADJUSTABLE BUTT' CORNER JOINT The outer frame members may include butt or mortise joints as described in the Patent Specifications included by reference or simple adjustable butt joints that may be configured to be "perfect" where the included angle at which the members abut is the 35 same as the nominal angle at which the first end 81 is disposed to the axis of the first member 82 and it abuts the second member 84 at all points along an end 81. In WO 2009/092141 PCT/AU2009/000081 20 orthogonal joints, the first end 81 may be orthogonal (as it is in the simple butt joint) or it may be substantially orthogonal but adapted (relative to a side view) to have two angled edges 86, referencing Fig 4, (equally angled relative to the longitudinal axis)-that meet in the middle such that when the included angle is at either predetermined extreme 5 disposition, one or other of the angled edge 86 is substantially parallel to the second outer frame member 84. In some forms, the simple adjustable butt joints 80, referencing Fig 19 to 20 and 4, the outer frame members 11 are connected such that an end 81 of a first outer frame member 82 is joined to (with reference to an edge portion 83 of) a second outer frame 10 member 84 that includes a longitudinally elongated slotted edge aperture 87 in the inside edge 21 relative to which the first outer frame member is restrained. In one form, the slotted edge aperture 87 commences at or adjacent to an open end 85 of the second outer.frame member 84 and in some forms, an orthogonal rectangular slotted auxiliary aperture 88 intersects the slotted edge aperture 87 to 15 extend sideways from aperture 87 to provide bearing surfaces 116. In these and other forms, the end plug 92 has a protruding shoulder 94 that includes a leading end 110 defined by a radius 'R" about the axis 111 that may comprise a curved convex leading end surface 112 defined by constant radius "R" defined about the axis 111. In a particular form, the leading end surface 112 comprises two spaced 20 shoulders 113. In some forms, the end plug member 92 includes a pair of side bearing shoulders 115-that locate within, to be supported by the auxiliary aperture 88. In some forn, a second outer frame member 84 is characterized by concave surface 104 defined by a constant radius "R; in some forms the concave surface 104 is within a member 102 supported and fixed relative to second outer frame member 84 .(that 25 may comprise a moulding and in a particular form compriseian injections moulding 515). In some forms this member 104 has an aperture 106 about which it is supported and through which the fastener 13 extends (with no orminimal clearance) to engage with a nut 96 described below; in some forms concave surface 104is comprised of spaced portions. The end plug 92, is intersected by a longitudinally elongated axial aperture 120 30 configured to receive a fastener 13 that extends through the aperture 120 to engage with a nut-96 supported against a nut radial surface 97 on the inner end of the end plug 92 and having its surface defined by a radius "R" about an axis coaxial with axis 111; the fastener 13 also extends through the outer wall 22 of the outer frame member (with no or minimal clearance) and the head of the fastener 86 is configured as a pan or other sirmiar 35 head to seat within walls 14 and on the floor of the channel 16. SUBSTITUTE SHEET (RULE 26) RO/AU WO 2009/092141 PCT/AU2009/000081 21 The features are configured such that when the fastener is tightened the end plug member 92 is urged towards concave surface 104 to become restrained against relative angular displacement. Correspondingly, when included, the bearing shoulders 115 5 occupying the bearing recesses 116 act on the sides of the bearing recesses 116 to further resist relative angular displacement; (the bearing shoulders fitting between the sides of the bearing recesses 116 with no or only working clearance). The butt joint is further configured to accommodate limited relative angular displacement between the end plug member 92 and concave surface 104 by 10 accommodating rotation of the end plug member 92 about the fastener 13 by enlarging the aperture 120 such that as it extends away from the axis 111, the aperture widens; it does so in both directions relative to the axis 111. By noting that surface 97 is also radial to the axis 111, we can see that the distance between the fastener head 86 and nut 96 is substantially independent of the included angle, so that tightening the nut does not give 15 rise to a moment urging the first and second plugs to relatively rotate. In a particular form, the nut 96 has radial inner surface 119 defined by a radius identical to radius. defining surface 97 and a width such as to restrict the nut against rotation within recess 19. This butt joint, enables the included angle "alpha", to be varied without affecting the structural integrity of the corner joint (including "without significantly affecting its ability to sustain a 20 moment") In some structures the end plug 92 extends longitudinally into the first outer frame member 82 to become firmly fixed by means including interference; in some forms, the end plug 92 is bounded by a narrow peripheral shoulder 95 against which end 81 may abut. 25 SIMPLE CORNER NEAR JOINT In some forms, referencing Fig 6 and 19, the end plug 92 mates with working clearance so that although it cannot rotate it can displace relatively acting as a simple corner linear joint 313 whereby to achieve a desired "effective length" of the first outer frame member 82 (and in doing so, a gap is left between the outer frame end 81 and 30 surface 83); [the end plug 92 having exterior dimensions (at least in-part) that are substantially the same as the interior dimensions of outer frame member 82 but lesser by only working clearances] in some forms, once adjusted, a fastener 98 i6 driven through an aperture 99 in the outer frame member to form and/or enter an aperture 79 in the end plug 92. In some 35 forms, aperture 99 is configured as a longitudinally elongated slotted aperture enabling WO 2009/092141 PCT/AU2009/000081 22 the first outer frame member 82 to be displaceable from the corner after the fastener 98 has been installed (but before it is tightened). The gap referred to above, for aesthetic reasons in some structures is occupied by a horse-shoe shaped side cover 304 (described above) fitted to straddle the exposed 5 end plug 92 by extending between the inner frame walls 5 along the end plug 92 from end 81; it will be appreciated that once the structure has been adjusted, the covers 304 may be cut to length to suit the length of the gap. ENHANCED ADJUSTABLE BUTT CORNER JOINT - for greater resistance to moments In a particular construction, the comer connector includes of a longitudinally 10 elongated hollow member 91 that in one forms is free to slide with only working clearance within the hollow 19 of the first outer frame member 82 (that may comprise an aluminium extrusion) and that is attached firmly (by means that may include an interference fit) to an adapted member 92. In a particular construction, referencing Fig 21, the corner joint includes a 15 longitudinally elongated hollow member 101 (that may comprise an aluminium extrusion) having sides 116 between which an adapted member 102 is supported, this member 101 and member 102 having coaxial apertures through which the fastener 13 extends and shoulder 94 is configured to have a depth enabling it to slide freely between the sides 116 and within a slotted aperture 103 that is aligned with aperture 87. In this case, the 20 head of the fastener 86 may seat within a corresponding recess 107 in the outer edge of member 101. The sides 116 in some forms include notches aligned with auxiliary aperture 88 to provide auxiliary bearing recesses 105; these configured such that when the shoulder 110 is abutting surface 104, the bearing shoulders 115 are restrained within the auxiliary bearing recesses 105 but without acting to urge the bearing shoulders 110 away 25 from the concave surface 104. In another particular construction, referencing Fig 22, aperture 87 is omitted and the member 101 extends into outer frame member 84 to be retained there with working clearance to enable the outer frame member 84 to be displaced away from member 102 to achieve an increased "effective length" of outer frame member 84 and in doing so, a 30 gap is left between outer frame end 89 and the end of the respective hollow member 101 and in some structures, the exposed hollow member 101 is covered by a corner cover 130 described below. Similarly as described above, once set, a fastener 320 can be driven through an aperture 321 in the outer frame member 84 to form and/or enter an aperture 32 in the 35 member 101. In other forms, the aperture is configured as a longitudinally elongated WO 2009/092141 PCT/AU2009/000081 23 slotted aperture enabling the second outer frame member 84 to be displaceable from the corner after the fastener 320 has been installed (but before it is tightened) These butt joints described immediately enable the included angle to be changed by similarly accommodating limited relative angular displacement between the end plug 5 92 and concave surface 104 by accommodating rotation of the end plug member 92 about the fastener 13. The corner cover 130 referred to above and referencing Fig 5, 23 and 24, comprise a substantially rectangular shaped member that can straddle the exposed portions of the members 91 and 101 to extend between the outer frame walls 5 of the 10 outer frame members 82 and 84 respectively from end 81 and end 89 to occupy the entire gap. Because the outer frame members may change in length, each cover needs to be adjustable in length in two orthogonal directions. In a particular form, referencing Fig 24, corresponding to the outer frame having a channel 16, the corner cover 130 includes a first arm 132 as deep and wide as channel 16 and a similar second arm 133 15 orthogonally disposed, From both sides of these arms there are substantially parallel substantially planar sides 134 that extend to abut. The inner surface of these sides 134 are separated by substantially the same distance as the outer surfaces of sides 18 are separated and the outer surfaces of these sides 134 are separated by substantially the same distance as the width of channel 6. After adjusting the length of an outer frame 20 member, the corresponding sid6s 134 are cut to suitable lengths by removing side portions 135 so that after assembly they will abut the ends of the associated outer frame members. LOCKS, HINGES & ROLLERS Where a structure, takes the form of a hinged or sliding door, referencing 25 Fig 29 to 30, the outer frame member corresponding to the closing edge will usually be adapted to support a lock 160; in some forms (and in particular, when the lock is a conventional Australian security door lock) this comprises making an aperture 161 in the outer edge of the outer frame to enable a lock body 162 to be inserted into the outer frame to in-part occupy recess 19 and making apertures 163 in the opposed sides to' 30 enable a cylinder 164 to be attached to the lock body and to extend through the sides of the outer frame to enable a drive rod 165 and handle back plate fixing spigots 166 to extend through the sides of the outer frame; in cases, these apertures are configured to enable the lock to be fitted either end up so accommodating the door to be fitted either end up (as this is an objective of some of the patents described within). It will be 35 appreciated, that because the lock is fixed to the outer frame, it will displace together with the inner frame as the inner frame is displaced relatively to the outer frame during WO 2009/092141 PCT/AU2009/000081 24 adjustment (if the lock is fitted at that time). In general, the structure may be configured such that the required increase in width is provided by the outer frame opposed side member being displaced to protrude further from their associated channel 5 and in some cases, to protrude an equal distance from their associated channels 5 up to 5 a pre-determined convenient distance. Being able to invert the wing, requires the outer frame to have enlarged apertures 167 that enable the cylinder, spigots and drive rod to have passage through the outer frame irrespective of which way up the wing is but with the lock always orientated so that downward action of an unlatching handles causes the bolt to retract, 10 Where channel 16 is provided, and where the lock comprises a substantially conventional Australian security door lock (or a similar lock) the lock has upper and lower fixing tabs 168 that are attached within channel 16 by fasteners as would be one leaf of the hinges. These apertures a pre-determined and can be machined or pressed into the outer frame member during manufacture of the door. 15 Once the door has been assembled and adjusted, referencing Fig 28, apertures can be made in the inner frame member (with reference to the apertures in the outer frame) toenable the cylinder, spigots and drive rod to have passage through the inner frame; these apertures can conveniently be made with a conventional hole saw -169, Alternatively, referencing Figs 25 to 27, the apertures in the inner frame can be 20 pre-made as enlarged apertures configured to enable the cylinder, spigots and drive rod to have passage through the inner frame irrespective of its disposition relative to the outer frame and for the particular structure discussed above within the ranges determined by the need for the wing to have outer dimensions: height = H to H+h and width = V to V+ v. Where the structure configured as a sliding door, referencing Fig 30, the outer 25 frame member corresponding to the lower edge of the structure will usually be adapted to support a roller 170 and may comprise making spaced elongated apertures 171 to enable the roller assemblies to be inserted into the outer frame. Where the structure configured as a hinged door, the outer frame member opposed to the closing edge will usually be adapted to support spaced hinges 172 that may comprise making spaced 30 apertures to enable hinge the fixing screws to be attached. ALTERNATv INNER FRAMEs a INFILLS Particular forms of inner frame include inner frame members having a cross sectional profile, referencing Fig 34 and 38, including a side recess 180 adjacent to a fixing shoulder 181 of an inwardly extending first fin 182 that in-part defines a slotted 35 -aperture 1M3 of the inner frame member that extends inwardly frorn a mouth 84, the slotted aperture being further defined in-part by an opposed inwardly extending second WO 2009/092141 PCT/AU2009/000081 25 fin 185. It should be appreciated that the side recess 180, fixing shoulder 181 and first and second fins 185,182 are features that may extend for the entire peripheral length of the inner frame while the fins in a particular form lie in parallel planes and in a plane parallel to the plane of the infill. 5 The inner frame members 24 of this particular forms of inner frame are connected by comer joints that may comprise mortise joints, referencing Fig 35, that in some forms include a joining member 30 having legs 31 that occupy the longitudinal recesses 188 within the abutting inner frame members, referencing Fig 34, in some forms these legs 31 extending longitudinally alongside the first fin 182 and outer wall 187 of the inner frame. 10 The joining member close to the corner of the inner frame, may also occupy the recess that extends within the rear of the slotted aperture 183 - it will be appreciated that where the recess is so occupied, the return portion 190 described below may need to be omitted or accommodated- These joining members may take any suitable inform that may comprise castings or metal pressings. In some infill the inner frame has a distance 15 between fins of 8 MM, a side recess having a width substantially 4 MM and a slotted aperture width of 16 MM. Where the inner frame comprises extruded plastic such as pvc, the corners may be alternatively or additional joined by welding as is well known. in some forms of inner frames, referencing Fig 34, the opposed inner surfaces of the sides 5 are inclined inwardly front the base 10, in some forms the opposed inner 20 surfaces of the sides 5 are inclined inwardly from the base 10 so that the sides 5 have to be separated by force to accept the outer frame members 11 a result of which, the sides 5 press inwardly on the outer frame 3 and the frames may be further configured to ensure that the inner frame 9 is in contact with the outer frame 3 along its periphery and the frames may be configured to preclude openings between the frames through which 25 insects, breeze or water may pass and into which tools may be inserted during forced entry, The above configuration having particular relevance to addressing the issue of requiring the sides 5 to abut both sides of the outer frame 3 even though the inner and outer frame have depths that vary within a manufacturing tolerance. In some forms, the outer edges of the sides 5 have slightly inwardly protruding shoulders 190 that extend 30 along the entire periphery so that the sides 5 only abut the outer frame 3 along the shoulders 190. In some forms; the opposed shoulders 190 include a gasket 191 -to interface with the outer frame 3, the gasket providing a better seal and/or reduced friction enabling the outer frame 3 and inner frame 9 to relatively displace at reduced forces as occurs during adjustment at fitting. In some forms, the opposed shoulders 3 include a 35 longitudinally elongated recess 192, referencing Fig 34, to receive and retain a gasket WO 2009/092141 PCT/AU2009/000081 26 comprising an elongated resilient sealing member 193 that may comprise a rubber or plastic cord or fibrous strip; the recess 192 being characterized by a width w1 and an opening 194 of reduced width w2. Some structures include an infill as described in the Patent Specifications included 5 herein by reference; others include an infill as described above referencing Fig 7 to 13. Other forms of infill 2, referencing Fig 34 and 38 electively include an infilling material 200 that is connected to the inner frame 9 by a protruding return portion 190 (that although not limited to, may take the form of a continuous portion or multiple discrete interrupted portions) that extends sideways along the edge of the infilling material 200 to 10 occupy side recess 180. In application, each edge of the infilling material 200 is inserted into the slotted aperture 183 through the mouth 184 of a respective frame member and subsequently, opposed inner frame members are displaced towards each other to cause the return portion 190 to occupy the side recess 180 and to overlap the fixing shoulder 181. At which time, a fixing wedge 201 (that in some forms is a resilient and elastically 15 deformable member) is driven through the mouth 184 alongside the infilling material 200 adjacent to the second fin 185 to urge it further into the side recess 180 to prevent the return portion 190 from displacing from the recess to disengage the fixing shoulder 180. It will be appreciated that the mouth and slotted aperture need to be wide enough to provide passage for the return portion 190; the fixing wedge may take the form of a longitudinally 20 elongated member having the cross-section shown or it make take the form of multiple discrete portions having the same cross section. In some forms, the surface 203 of the second fin 185 may be textured and it may be ramped 204, referencing Fig 36, (to better retain the fixing wedge 201 andlor strip described below); the ramping on the second fin including inclined surfaces 206 that 25 extend inwardly as they extend away from the fin mouth and the fixing wedge may include a mating ramped surface 212 that extend outwardly as they extend inwardly - the components preferably being configured such that as the fixing wedge is driven in, high ridges on the fixing wedge displace over the high ridges of the second channel. When installed the high ridges engage to retain the fixing wedge within the slotted aperture 183. 30 The fixing channel is preferably further configured to have a width such as to exert a sideways force on the fins in the assembled state. A convenient infill consistent with the inner frame described above has a slotted aperture 8 MM deep has a thickness substantially 1.0 MM, a return of 5.5 MM (6 MM less a working clearance 0.5 MM) and the strip 62 described below of insulating material has a depth 1.00 MM while the fixing 35 wedge 53 would have a depth substantially 6 MM, WO 2009/092141 PCT/AU2009/000081 27 In some infills, referencing Fig 36, a strip 207 of material (that in some forms is a resilient and elastically deformable member) extends the length of the slotted aperture . 183 between the first fin 182 and infilling material 200. In some forms it includes a return 5 208 that extends sideways to overlap the fixing shoulder 181, to separate the return portion 190 from fin 182. In some forms, the strip 207 is a resilient and/or elastically deformable member that deforms to protrude into the surface of the infilling material while in other forms having a contoured surface that protrudes into the surface of the infilling material so that in either case, installation of the fixing wedge 201 urges the infilling 10 material against the strip 207 both to retain the retain the surface of the strip 207 protruding into the infilling material 200 to retain the infilling material relative to the fixing shoulder 181. This latter form is particularly relevent to infills not having a return portion 208 and having a textured or profiled surface and is particularly well suited to woven metal mesh and the strip may take the form of a nylon strip having a surface that mates 15 with a side of the woven mesh. Some such forms may include a similar opposed strip that extends the length of the slotted aperture 183 between the fixing wedge 201 and infilling material 200 that in some forms has a return that extends sideways to overlap the leading end of the fixing wedge 201 (of reduce depth) The above means are particularly relevant to the retention of 20 infilling material taking the form of woven mesh, and the strip may take the form of a nylon strip having a surface that mates with a side of the woven mesh. In some forms, the strips may be configured to act as an insulating material and be constructed from a material such as nylon to reduce the probability of galvanic corrosion, this being particularly relevant where the infilling material and inner frame are 25 constructed from different metals; the fixing wedge may similarly be constructed from insulating material such as nylon and for the same reason. The infill may include other material, referencing Fig 38, such as glass 210 attached to the inner frame 3 by a resilient and/or elastic grommet 211 that acts to support the glass or other material while holding it separate from the inner frame. 30 The infill 2 may be configured to include bars 220, referencing Fig 30 to 32, each end of each bar 220 connected by a fastener 221 that extends through an apertures 223 of the inner frame to occupy an elongated axial aperture 222 located relative to the end of the bar. In some structures, each bar is configured as hollow tube 224 having a continuous axial recess 225. Each end of each bar is adapted to occupy the slotted 35 aperture 183 by having an elongated end portion 226 having a width less than that of the WO 2009/092141 PCT/AU2009/000081 28 slotted aperture 183 and a depth substantially the same as that of the slotted aperture 183. In some forms, each end portion 226 is enveloped by a mating boot 227 having an inner surface that substantially conforms to the outer form of the end portion 226 and 5 having an outer surface that mates within the slotted aperture 183 and it extends to abut the inner wall 228 of the slotted aperture. In a particular configuration, within each tube end is a threaded tube insert 229. In a particular form, the bar has cross-sectional dimensions 13 x 13 mm and a wall thickness 1.0 mm, the slotted aperture 183 has a depth 8 mm, the end portion within supports a tube insert 229 having a portion 11 x 11 10 MM and a portion 11 x 6 MM through which an axial recess 230 extends to receive a fastener 221 and the boot 227 has a wall thickness of 1.0 mm. This arrangement enables an infill of a dissimilar metal to be attached to the inner frame without directly contacting it thus reducing the probability of galvanic corrosion. It should be understood that the bars in some forms are further configured, referencing Fig 31, 32 (remote from the slotted 15 aperture 183) so that some may extend adjacently (one set horizontally the other vertically) to form a secure grill and yet still be attached as described above. The bar form shown in Fig 31, 32 is suitably offset enabling a similar horizontal bar (rotated about its axis 180 degrees with reference to the bar 220 shown in Fig 31) to extend past bar 220 without intersecting it. 20 Some infills, referencing Fig 33, have an inner frame adapted to provide an infill that includes a removeable infill portion 239 configured as a sub-assembly that may easily be removed - and to be replaced if damaged, for example by one in good condition. This removeable infill portion 239 in one form, is configured to have a peripheral infilling frame 241 configured to be attached to a side of the inner frame. Ina particular form, the 25 infilling frame has a resilient outer leaf 243 and an opposed inner edge peripheral blade 244, The inner frame has a peripheral undercut recess formed by an overlapping shoulder 250 that overlaps the leaf to require the leaf to deform to leave the recess 249. The above features are further configured such that in usage, the blade 244 would be inserted into a corresponding undercut recess 247 and the leaf 243 would be pushed 30 inwardly to slide down the ramped shoulder become overlapped by the overhanging shoulder 250. Similarly, other sides of the infilling frame would be attached to corresponding inner frame members. In some form, the infilling material 81 is configured as flexible mesh 251 that may comprise fiberglass mesh and the infilling frame 82 is configured as mating strips 93 between which the infilling material 241 is sandwiched; in 35 some forms, which the infilling frame is fabricated by ultrasonically welding nylon together WO 2009/092141 PCT/AU2009/000081 29 with the fiberglass mesh between, in other forms, a raised undercut axially elongated protrusion of a cover strip is forced into a mating under cut aperture in the underlying strip with the mesh 252 sandwiched between to be retained there by dint of the undercut 5 features. By this means, an infill is provided that can be removed and replaced and substantially without the use of tools A PARTICULAR STRUCTURE EMPLOYING THE INTEGERS DESCRIBED ABOVE Notwithstanding any other forms of structures employing combinations of the integers described within this patent specification (that includes the Patent Specifications 10 included herein by reference) that may fall within the scope of the inventions described herein, a form of one of the inventions will now be described by way of example only with reference to the accompanying drawings. It will be described in particular, and for convenience only, with reference to a door incorporating such a structure and it will be described with reference to the manner in which it can be adapted to suit a particular 15 opening. Further, it will described in the context of a door having an inner frame and an outer frame supporting a lock. Consider such a structure, referencing Fig 6, having a rectangular infill 260 having an upper outer frame member 261, a lower outer frame member 262, a left hand side outer frame member 263 and an opposed right hand side outer frame 20 member 264; the outer frame members 261 and 262 connected to a left hand side outer frame member 263 by simple adjustable butt comer joints 80 providing simple linear joints 313 and being similarly connected to right hand side outer frame member 264. The right hand side outer frame member 264 and left hand side outer frame member 263 each include a linear joint 312. There are also orthogonal blocks located towards each end of 25 each outer frame member. It will be appreciated that prior to adjustment, structures must be assembled by configuring the infill 2 as a single member and assembling the corresponding first and second portions to provide the left hand and right hand outer frame members Where this structure is comprises a hinged door, the door would be further 30 configured to include a lock in the "closing edge' outer-frame rriember 264 and hinges in Jbe "hung edge outer frame member 263 to enable the structure to be suspended adjacent to an opening and for convenience. In'the convenient forms shown in Fig 6, all comer fasteners 13 are accessible from the sides enanbing them to be adjusted even after the door has been hung. 35 Such a structure, referencing Fig 6, would be assembled, adjusted and fitted by: configuring the infill as a single substantially planar member, SUBSTITUTE SHEET (RULE 26) RO/AU WO 2009/092141 PCT/AU2009/000081 30 " measuring the widths of the opening at the top and bottom and adjusting the lengths of 261 and 262 accordingly and fixing by installation of a fasteners 98 " measuring the height of the opening at the closing and hung sides and adjusting 5 the lengths of 263 and 264 accordingly and fixing by installation of fasteners 98 e placing members 261 and 262 in the channels 6 of the infill 260 " placing members 263 and 264 over the respective shoulders 94 of the members 261 and 262 " lightly tapping the outer frame members till they have assumed a. configuration 10 corresponding to the smallest extent of the wing, " loosely tightening corner fasteners 13 e cutting the U Shaped covers 304 to suit and install * attaching the wing to the opening by the hinges * skewing the structure so that it conforms to the opening 15 * turning the fasteners 54 in the orthogonal blocks to centralize in the infill following order and then progressively tightening all such fasteners. . Cutting the lock apertures in the inner frame member with the hole saw in some methods. * attaching the lock to the closing edge of the wing. 20 * fitting the lock strike plate. 25 SUBSTITUTE SHEET (RULE 26) RO/AU