|Publication number||US3473276 A|
|Publication date||Oct 21, 1969|
|Filing date||Jun 7, 1967|
|Priority date||Jul 20, 1966|
|Also published as||DE1958924U|
|Publication number||US 3473276 A, US 3473276A, US-A-3473276, US3473276 A, US3473276A|
|Inventors||Back Philip John Quarles, Ritchie Colin Edward|
|Original Assignee||Williaam J Cox Sales Ltd|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (4), Referenced by (26), Classifications (8)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Ut'. 21, "1969 P. J. 0. BACK ETA!- 3,473,275
DOMED ROOFLIGHTS Filed June 7, 1967 5 Sheets-Sheet 1 Get. 21, 1969 p, J, BACK El AL 3,473,276
DOMED ROOFLIGHTS Filed June 7, 1967 3 Sheets-Sheet 2 If I Oct. 21, 1969 P. J. Q. BACK 3,473,276
DOMED ROOFLIGHTS Filed June '7, 1967 3 Sheets-Sheet 5 rR mmP-WU a Z 9 2% Unite States Patent 3,473,276 DUMED ROUFLIGHTS Philip John Queries Back, Berlrharnpstead, and Colin Edward Ritchie, Bedgrove, Ayleshury, England, assignors to Williaarn J. Cox (Sales) Limited, Triug, Hertfordshire, England, a British company Filed June 7, 1967, Ser. No. 644,268 Claims priority, application Great Britain, July 20, 1966, 32,649/66 Int. Cl. E0413 7/18 US. Cl. 52-2Ql3 2 Claims ABSTRACT OF THE DKSCLOSURE This invention relates to domed rooflight structures which include a transparent or translucent light transmitting member or rooflight which as at present constructed is intended to be screwed or bolted to an upstanding timber, concrete or metal kerb on the roof.
This invention relates to dome rooflight structures which include a transparent or translucent light transmitting member or rooflight proper which as at present constructed is intended to be screwed or bolted to an upstanding timber, concrete or metal kerb on the roof. Such light transmitting members are composed of any suitable transparent or translucent material such as for example acrylic resin compositions, wire laminate reinforced plastic materials such as polyvinylchloride or glass reinforced polyester resins.
The fitting of such light transmitting members takes some little time and due to the use of screws or bolts which are accessible on the outside of the structure, such structures are not as at present constructed proof against pilfering or illegal entry.
An object of the present invention is to evolve a construction which will avoid the use of accessible screws or bolts and which can be quickly assembled and mounted in position on a roof or other supporting structure.
A further object of the invention is to evolve a construction in which the roofiight supporting structure can be easily built up to the required height with the use of standard components and with or without suitable ventilators.
The structure in accordance with the invention can either be applied directly to a roof in which case it will take the place of the usual timber or concrete kerb or may be attached to a kerb, the structure in either case avoiding the use of accessible screws or bolts.
A roofiight structure in accordance with the present invention includes two or more superimposed units having an overriding or snap-on interlocking engagement, one unit being adapted to carry the light transmitting member or rooilight proper, the lower or lowermost member being adapted for mounting on a roof directly or on an upwardly projecting kerb.
The phrase overriding or snap-on interlocking engagement is intended to define a construction in which the interengagement parts can override one another easily under an applied force but When interengaged will effectively resist separation.
According to a further feature of the invention the upper or uppermost unit takes the form of a frame embracing the peripheral edge of the light transmitting member, thus protecting the light transmitting member from damage, particularly during transport and also due to the fact that the edge of the light transmitting member is enclosed complying with the fire regulations appertaining to such structures.
Although it is within the scope of the invention to construct the units of the structure from sheet metal bent to the required cross-sectional shape it is preferred to construct each unit from lengths of extruded metal for example aluminum mitred at their ends so that four lengths of extruded metal can be joined together at the corners to form each unit of rectangular shape in plan view. The lengths of extruded metal may be welded at the corners or joined by suitable connecting plates rivetted in position, and/or by jointing members of angle section entering recesses in the parts which are to be joined together at right angles.
To connect the superimposed members together with a snap-on type of connection it is preferred to employ a form of clip which can conveniently be formed by an extruding operation and of outwardly splayed channel shape in cross-section, the base of the channel being shaped to straddle and make snap-on engagement with bifurcated parts of one unit, the longitudinal edges of the clip engaging inwardly directed shoulders on a channel shaped part of the other unit.
Referring to the accompanying drawings:
FIGURES 1, 2 and 3 are fragmentary sectional views of three alternative forms of roofiight structures in accordance with the invention.
The domed roofiight structure illustrated by FIGURES 1 and 2 is intended for mounting directly on the roof as distinct from being mounted in position upon an upstanding kerb or the like. The structure includes a light transmitting member or rooflight proper 1 of domed shape, the edge of the member 1 being enclosed by a metal frame of rectangular shape in plan view and built up from four lengths of extruded metal, for example, aluminum and indicated by reference numeral 2, the frame members being connected together at the corners by corner brackets 3 secured in position by rivets 4, the frame members being mitred at their ends. Each frame member 2 includes a downwardly inclined channel section part 5 which embraces the edge of the member 1 and contains an extruded neoprene gasket 6 which makes sealing engagement with the upper and lower surfaces of the member. Member 2 also includes an inverted channel shaped part 7 containing a weather seal 8 preferably formed from neoprene or butyl foam, the lower edges of the part 7 being turned inwardly at 9 to form inwardly directed shoulders for a purpose hereinafter referred to. The part 7 is provided with an upstanding rib 10 which serves to trap any condensation on the inner surface of the member 1, any water which may collect as a result of condensation flowing out of the structure between the members 2 at the corners or through suitable drainage holes.
The rooflight proper 1 and its frame 2 form a unit, the frame protecting the edges of the roofiight proper against damage particularly during transport, the fact that the frame encloses the rooflight proper at its edges enabling the unit to conform to the fire regulations apertaining to such structures.
The rooflight proper and its associated frame are in the case of FIGURE 1 shown mounted in position upon an upstand constructed from four components 11 each extruded from aluminum or other suitable metal, the walls diverging in a downward direction and terminating in a substantially horizontal roof engaging part 12 which is screwed as at 13 to the upper surface of the roof. Components 11 are mitred at their ends, the ends being welded or otherwise connected together. Each member 11 is provided with a downwardly projecting flange 14 forming a retainer for a wooden or other liner 15 lining the roof opening. Alternatively, the flange 14 may form a plaster line.
Each member 11 is formed on its inner surface With flanges 16 and 17 at its upper and lower ends for the snap-on engagement of a metal insulation retainer 18 of box-like construction, the insulation being indicated by reference numeral 19.
Each member 11 is provided on its outer surface with a flange 20 for making overriding engagement with an aluminum felt flashing 21 which overlaps the upper edges of layers 22 of felt or other applied roof surfacing which cover the part 12 and its associated securing screws 13, the felt layers or other applied surfacings being aflixed to the roof in any suitable way.
Each member 11 is formed with a bifurcated upper edge 23 for entry into the inverted channel shaped part 7 of the frame 2, the bifurcated part being inherently resilient. The upper extremities of the bifurcated part 23 are of barb shape as at 24 to make snap-on engagement with a clip 25 of downwardly diverging channel shape, the base of the channel shape clip being shaped to override the barbs 24 and secure the clip in position, the lower edges of the clip engaging the shoulders 9.
It will be appreciated that the clip 25 may be carried by the part 7 or preferably by the bifurcated part 23, the action of pressing the frame 2 and its associated light transmitting member downwardly causing either the clip to override the barbs 24 or if already in engagement with the barbs to override the shoulders 9, the clip automatically expanding by its own resiliency into the position shown to lock the two units together. The neoprene or butyl foam 8 provides a weather seal and a resilient cushion to position the units and prevent rattling.
The weather seal 8 instead of extending continuously around the member 7 may be replaced by shorter lengths of a more rigid material separated by a suitable gap to permit the entry of air for trickle ventilation. Each clip 25 may extend throughout the full length of member 7 or a number of clips of shorter length may be used. Instead of employing the clips 25 the bifurcated part 23 may be sprung into a suitably shaped recess in a rubber, plastics or other resilient liner for the inverted channel shaped part 7, the barb shaped parts 24 being preferably more pronounced. Instead of the bifurcated part 23 the upper edge may be of arrow, bulbous or other suitable crosssectional form and again sprung into a suitably shaped recess in a liner, the arrangement in all cases being a snap-on form of interlocking engagement, the liner ensuring a good seal. The liner may if required be in shorter lengths spaced apart for trickle ventilation.
FIGURE 2. illustrates an alternative construction in which a ventilator unit constructed from four lengths 26 of extruded aluminum or other suitable metal joined together at their ends is interposed between the frame 2 carrying the rooflight proper and the upstand 11. Each of preferably two opposite members 26 is formed with vertically arranged slots for co-operating with a slotted sliding ventilator shutter 27 movable by a suitable shutter control 28, entry of rain being prevented by an extruded weather baflie 29, the upper edge 30 of which enters a groove in the base of bifurcated part 23, the baflle having a laterally projecting limb portion which is shaped into hook form as at 31 to interlock with a projection 32. A perforated insert or snow screen 33 connects the weather baffle 29 and the part 26, part 26 includes an inverted channel shaped portion 34 corresponding in section with part 7 which like part 7 contains a weather seal 8, and clip 25, and is adapted for the entry of the bifurcated part 23 of the upstand 11, the parts having a snap-on engagement. Part 34 is also provided with an upstanding flange 10 providing a condensation gutter for any moisture escaping between the parts 26 at the corners.
The upper edge of part 26 is bifurcated as in the case of the upstand 11 and consequently the frame 2 will have a snap-on interengagement with the ventilator unit.
In the case of FIGURE 3, the ventilator unit is shown attached to a timber or concrete kerb 35, through the medium of a kerb adaptor which is screwed as at 37 to the kerb, the screws being on the inside of the unit and consequently not being accessible from the exterior.
The kerb adaptor is built up from four extruded metal members 36 which are mitred at the corners and connected together by welding, brackets or the like, the adapter carrying an outer flange 38 which overhangs the outer upper edge of the kerb 35, the adaptor being recessed on its under surface to receive a cord or mastic seal 39 which provides a good seal between the under surface of the adaptor and the upper surface of the kerb.
The upper edge of the adaptor is bifurcated at 23 as in the case of the upstand in FIGURE 1 and the ventilator unit in FIGURE 2 for making interlocking snap-on engagement with the ventilator unit.
It will be appreciated from the foregoing description that due to the standard interengaging parts of the units the frame carrying the rooflight proper can be attached to an upstand as in FIGURE 1 as to a ventilator unit as in FIGURE 2, the ventilator unit being either mounted on an upstand or attached directly to a kerb adaptor as in FIGURE 3. As a further alternative the frame may be attached directly to the kerb adaptor and if desired a number of ventilator units may be assembled one on top of the other as required. In such a case the ventilation slots in one or more of the superimposed units may be omitted.
The interlocking parts are so shaped as to provide a lead to enable interlocking to take place with a minimum of pressure, the parts when interlocked being virtually impossible to separate, the structure being therefore much more secure against illegal entry or pilfering than the present constructions in which the rooflight proper is screwed or bolted to a timber, concrete or metal kerb. the screws or bolts being accessible from the exterior of the structure.
Furthermore the complete structure can be packed and transported in a completely knocked down condition so that in the case of export it takes up a minimum of shipping space and can be quickly and easily erected.
1. In a rooflight structure to be mounted on an upstanding structure surrounding an aperture in a roof and ineluding a light-transmitting rooflight member, the improvement which comprises: first means including a downwardly open channel-shaped portion with dependent flanges having inwardly projecting shoulders and engaging the periphery of said rooflight member, second means connected to said upstanding structure, and interconnecting clip means having a downwardly open channel-shaped portion having a dependent arms, said clip means being received in snap-on engagement in the channel-shaped portion of said first means with the dependent arms of said clip in abutment with the inwardly projecting shoulders on said first means, said clip means including opposed intemal, upwardly facing shoulders in the upper portion thereof, said second means including downwardly facing shoulders received in overriding snap-on engagement with the upwardly facing shoulders of said clip, whereby said rooflight member is connected to said upstanding structure in double snap-lock conditions.
2. A rooflight structure according to claim 1 including a resiliently flexible weather seal means compressed between the external surface of the clip and the internal 3,340,656 9/1967 Mat eu 52200 surface of the channel-shaped portion of said first means. 3,340,663 9/1967 Collard 52502 X References Cited FRANK L. ABBOTT, Primary Examiner UNITED STATES PATENTS 5 PRICE C. FAW, 111., Assistant Examiner 3,209,669 10/ 1965 Bayne 52200 XR 5 CL 3,307,309 3/1967 Bloxsom 522 0 52 97,71s
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|U.S. Classification||52/200, 52/718.5, 52/97|
|Cooperative Classification||E04D13/0305, E04D13/03|
|European Classification||E04D13/03, E04D13/03A|