The invention relates to construction of buildings.
In recent years there have been many developments in construction systems, particularly modular systems. Such modular systems are very advantageous for many projects, because whole units can be manufactured off site to exact standards in an environment which is much more efficient than on site.
However, where the buildings are modest in size and there can be frequent design changes modular construction may not be suitable.
U.S. Pat. No. 6,481,172 (Porter) describes structural wall panels having studs and insulation, and facings of gypsum or the like secured in place by pins or nails.
The invention is directed towards providing a construction system which allows simpler and more versatile construction of buildings either on site or off site. Another objective is to provide a high structural strength in walls while using materials with good thermal insulation properties, with ease of construction either on site or off site, and/or with less use of materials.
According to the invention, there is provided a construction system for a wall or floor or roof comprising:
In one embodiment, at least one stud comprises a series of a plurality of panel engagement features along at least one edge. In one embodiment, there is a series of panel engagement features on both opposed sides of at least one stud. In one embodiment, at least one panel engagement feature comprises a portion extending distally from the stud edge and a portion extending laterally, and configured so that the retainer fits within a space bordered by said portions with a tight fit so that said compression force is applied.
In one embodiment, each engagement feature comprises an opposed pair of said portions forming a socket therebetween. In one embodiment, the panel engagement features comprise dovetail sockets.
In one embodiment, the retainer is in the form of a tongue configured for engagement with a friction fit with the panel engagement feature. In one embodiment, the retainer is wedge-shaped, with a narrower leading end.
In one embodiment, the system further comprises braces configured to interconnect a plurality of compression joints.
In one embodiment, at least one brace comprises a plurality of arms each configured to engage a compression joint.
In one embodiment, the system further comprises a soleplate having apertures for receiving ends of the studs and/or a header plate having apertures to receive ends of the studs.
In one embodiment, the sole plate and/or the header plate have apertures and corresponding bridging inserts fitting said apertures, wherein a pair of plates butted at a cut through an aperture may be joined by insertion of said insert across the cut line. In one embodiment, said apertures are shaped to form two opposed dovetail sockets.
In one embodiment, said apertures are configured to form opposed dovetail sockets when cut through at approximately 45° to a longitudinal direction of the plate.
In one embodiment, the system further comprises outer sheets arranged to be fixed to the retainers to form a cavity defined by depth of the retainers.
In one embodiment, at least two panel elements are joined by bridging members each inserted into an aperture formed by opposing recesses on edges of adjoining panel elements to complete a panel. In one embodiment, the recesses have dovetail socket configurations. In one embodiment, the panel elements comprise a series of a plurality of recesses for said joining.
In one embodiment, at least one of said panel elements is configured to form part of a window or door lintel. In one embodiment, at least one of the studs comprises a plurality of layers of wood-based material.
In one embodiment, the system further comprises rails extending across and inter-connecting studs. In one embodiment, the studs are wider than the rails. In one embodiment, the studs are at least 100% wider than the rails. In one embodiment, the studs have inter-engagement features on at least one side edge and the system comprises a set of rails having corresponding inter-engagement features for engaging the stud features to form an inter-meshed grid.
In one embodiment, at least some rails comprise bracing tongues and the panel has slots to receive said bracing tongues. In one embodiment, at least some panels are narrow, not extending to abut adjoining panels.
In one embodiment, the system further comprises a waterproof skin arranged to fit over a panel, the skin having sufficient rigidity to maintain shape of recesses to accommodate the compression joints. In one embodiment, the skin is of aluminium material. In one embodiment, the skin thickness is in the range of 0.2 mm to 0.5 mm. In one embodiment, the skin includes louvres.
In one embodiment, the system further comprises pre-formed insulation floor lower sections arranged for butting together to form a sub-floor and having features for engaging concrete upper floor sections, and the sections are configured to support a wall formed by a construction system of any preceding claim.
In one embodiment, the lower section features comprise grooves to receive corresponding ridges of the upper sections.
In one embodiment, the system comprises an elongate corner member configured to extend vertically to form a corner at adjoining walls, the corner member comprising a vertical corner portion having a configuration to form a corner and orthogonal tongues extending from the corner portion for butting against two walls. In one embodiment, the tongues extend from a single corner of the corner portion.
In one embodiment, the system comprises an elongate eaves member configured to extend along a joint between a wall and a roof, the eaves member comprising a downwardly-depending portion configured to engage a wall and an upper portion configured to engage a roof.
In one embodiment, the upper portion is configured to provide space for a wall plate to rest on the eaves member so that joists can rest on both the wall plate and the eaves member upper portion. In one embodiment, the eaves member is configured to abut ends of joists resting on a wall and terminating over the wall. In one embodiment, the eaves member upper portion extends at an angle of a roof pitch to engage the roof.
We also describe an elongate eaves member configured to extend along a joint between a wall and a roof, the eaves member comprising a downwardly-depending portion configured to engage a wall and an upper portion configured to engage a roof.
The upper portion may be configured to provide space for a wall plate to rest on the eaves member so that joists can rest on both the wall plate and the eaves member upper portion.
The eaves member may be configured to abut ends of joists resting on a wall and terminating over the wall.
The eaves member upper portion may extend at an angle of a roof pitch to engage the roof.
The invention also provides a building whenever constructed using a construction system and/or an eaves member of any embodiment.
We also describe a construction method performed with a system of any embodiment, the method comprising fabricating a structural wall section by
In one embodiment, a panel is applied on both opposed sides of the studs. In one embodiment, the retainers are tapped into engagement with a friction fit.
The method may include mounting at least one brace behind a plurality of retainers so that the brace links the compression joints.
The method may include a further step of engaging ends of the studs in apertures of a sole plate and a wall plate.
The method may include a further step of connecting at least two panel elements alongside edges by inserting bridging inserts into opposed sockets along the panel element side edges.
The method may include a further step of applying an outer sheet by fixing the sheet to retainers so that there is a gap between the sheet and the panel elements set by depth of the retainers.
The method may include a further step of applying a waterproof membrane to the outside surface of a panel element, the membrane having recesses to accommodate the compression joints.
Additional Statements
According to the invention, there is provided a construction system for a wall or floor or roof comprising:
The rails may or may not be required for the structural strength required. If not present, bracing strength may be provided partly or wholly by panels secured on one or both sides of the studs.
In one embodiment, the stud and/or the rail inter-engagement features include slots.
In one embodiment, at least one of the studs and rails comprises a plurality of layers of wood-based material.
In one embodiment, the studs are wider than the rails.
In one embodiment, the studs are at least 100% wider than the rails.
In one embodiment, at least one of said set of studs and/or rails comprises panel engagement features protruding from an edge, and the system comprises panels having apertures to receive said features.
In one embodiment, at least one of said sets of studs and/or rails comprises panel engagement features protruding from opposed side edges.
In one embodiment, the panel engagement features comprise dovetail sockets.
In one embodiment, the system panels have apertures arranged so that the panel engagement feature protrude through the panel apertures.
In one embodiment, the system comprises retainers for engaging said panel engagement features and pressing against an outside surface of a panel in a compression joint.
In one embodiment, rails comprise bracing tongues and the panel has slots to receive said bracing tongues.
In one embodiment, the system further comprises a soleplate having apertures for receiving ends of the studs.
In one embodiment, the system further comprises a header plate having apertures to receive ends of the studs.
In one embodiment, the sole plate and/or the header plate have apertures and corresponding inserts fitting said apertures, wherein a pair of plates butted at a cut through an aperture may be joined by insertion of said insert across the cut line.
In one embodiment, said apertures are of general shape forming two opposed dovetail sockets, with two corners facing longitudinally, and two corners facing transversely.
In one embodiment, the system further comprises outer panels arranged to be fixed to the retainers to form a cavity defined by depth of the retainers.
In one embodiment, the system further comprises pre-formed insulation floor lower sections arranged for butting together to form a sub-floor and having features for engaging concrete upper floor sections, and the sections are configured to support a wall formed by a construction system of any preceding claim.
In one embodiment, the lower section features comprise grooves to receive corresponding ridges of the upper sections.
In one embodiment, at least two panels are joined by bridging members each inserted into an aperture formed by opposing recesses on edges of adjoining panels.
In one embodiment, the recesses have dovetail socket configurations.
In one embodiment, at least one of said panels forms part of a window or door lintel.
In one embodiment, the system comprises two walls adjoining at a corner and a vertical corner member having a configuration to form a corner external surface and orthogonal tongues for butting against the two walls.
In one embodiment, the system comprises a wall and a roof, and an elongate eaves member extending along a joint between the wall and the roof, adjoining the wall on one side and adjoining the roof on another side.
In one embodiment, the eaves member abuts ends of joists resting on the wall and terminating over the wall.
In one embodiment, the roof comprises a structural wall portion along rafters or between rafters and adjoining the eaves member.
In another aspect, the invention provides an eaves member of elongate shape and configured to extend along a joint between a wall and a roof, adjoining the wall on one side and adjoining the roof on another side.
In one embodiment, the eaves member is configured to abuts ends of joists resting on the wall and terminating over the wall.
In another aspect, the invention provides a building whenever constructed using a construction system and/or an eaves member of any embodiment.
According to the invention, there is provided a construction system for a wall or floor comprising:
In one embodiment, the stud and/or the rail inter-engagement features include slots.
In one embodiment, at least one of the studs and rails comprises a plurality of layers of wood-based material. In one embodiment, the studs are wider than the rails. In one embodiment, the studs are at least 100% wider than the rails.
In one embodiment, at least one of said set of studs and rails comprises panel engagement features protruding from an edge, and the system comprises panels having apertures to receive said features.
In one embodiment, at least one of said sets of studs and rails comprises panel engagement features protruding from opposed side edges. In one embodiment, the panel engagement features comprise dovetail sockets.
In one embodiment, the system panels have apertures arranged so that the panel fits over a grid formed by the studs and rails with the panel engagement feature protruding through the panel apertures. In one embodiment, the system comprises retainers for engaging said panel engagement features and pressing against an outside surface of a panel in a compression joint. In one embodiment, rails comprise bracing tongues and the panel has slots to receive said bracing tongues.
In one embodiment, the system further comprises a soleplate having apertures for receiving ends of the studs.
In one embodiment, the system further comprises a header plate having apertures to receive ends of the studs.
In one embodiment, the sole plate and/or the header plate have apertures and corresponding inserts fitting said apertures, wherein a pair of plates butted at a cut through an aperture may be joined by insertion of said insert across the cut line. In one embodiment, said apertures are of general diamond slope, with two corners facing longitudinally, and two corners facing transversely.
In one embodiment, the system further comprises outer panels arranged to be fixed to the retainers to form a cavity defined by depth of the retainers.
In one embodiment, the system further comprises pre-formed insulation floor lower sections arranged for butting together to form a sub-floor and having features for engaging concrete upper floor sections, and the sections are configured to support a wall formed by a construction system of any preceding claim.
In one embodiment, the lower section features comprise grooves to receive corresponding ridges of the upper sections.
In another aspect, the invention provides a building whenever constructed by a construction system of any embodiment.
The invention also provides a method of constructing a building, the method including forming grids by intermeshing the studs and rails of any embodiment, placing panels against the grids so that the panel fasteners protrude through the panel apertures, and inserting retainers into the panel fasteners so that they press against outside surfaces of the panels.
The invention will be more clearly understood from the following description of some embodiments thereof, given by way of example only with reference to the accompanying drawings in which:
Referring to
For constructing a wall a desired number of beams, namely studs 1 and rails 20 are cut to length. The studs 1 each comprise of single or multiple layers 2 of composite wood material in a high-strength laminated arrangement. Each stud 1 is pre-cut along a first edge to form dovetail sockets 5, and along its second edge to form orthogonal slits 6 and opposed dovetail sockets 7 directly below. There are preferably a series of panel engagement dovetail sockets 5 along each edge, and preferably the separation of the dovetail sockets 5 is in the range of 500 mm to 750 mm, in one embodiment about 600 mm. Also, it is preferred that there be dovetail sockets 5 and 7 on both opposed edges of the studs. This achieves, as described below, compression joints on both opposed sides of a wall for optimum load resistance.
Each rail 20 is pre-cut along its first edge to form a series of slots 21 matched to the width of the stud 1. Along its second edge each rail 20 has elongate shallow tongues 23 separated by recesses 22.
The various features of the beams are formed in registry so that they can inter-mesh to form a grid of a desired size. As shown particularly in
When a compression panel 30 is placed on the first side of the grid the dovetail sockets 5 fit through the apertures 35, with tongues 23 and 24 of the rails 20 fitting into the slots 37 of the apertures 35.
The same is done on the second side of the grid. A compression panel 30 is placed so that the second dovetail sockets 7 and tongues 23 fit through the apertures 35.
As shown in
Retainers 50 are inserted into the dovetail sockets 5, aligned parallel with, and pressing against, the exposed surface of the panel 30, as shown in
Each retainer 50 may in one embodiment be tapered slightly to have a wedge shape with an increasing thickness from its leading edge, to facilitate easy insertion and to ensure good compression arising from the wedge effect. Any such taper is small, for example 1 to 2 mm over a length of 150 to 200 mm. Also, the retainer may have a shoulder or other protrusion about mid-way along its length to prevent insertion beyond that position.
Preferably, plasterboard is applied over the retainers 50, providing a thin cavity having the depth of the retainers. The retainers 50 provide a convenient external surface for nailing of plasterboard or other sheet of material, the depth of the retainers 50 providing an insulation cavity. Any desired further layers may be applied according to the location of the wall and the building design. For example external insulation slabs may be applied, followed by a cladding providing an external surface.
The system components may be manufactured by for example milling with a CNC machine from engineered timber sheets if the numbers are small, or moulded from composite materials for higher volume production.
Referring to
Referring to
A panel element 70 has:
Left and right side rails 80 and 85 have the same features as the rails 20 and additionally have through holes 83 for services.
The soleplate 60 has the apertures 61 and 62 as described above. A stud 1 and a retainer 50 are also as described above.
An insert 51 is suited to fit into a pair of half apertures when two lengths of soleplate meet at a joint, either at right angles or in-line, in both cases the cut being made at 45°.
The header and sole plates 60 may be fabricated from GL28c glulam beams which are also milled through a CNC machine. The components clip together without the requirement for screws, nails or glue (apart from, in some cases, the sole and header plates) using the compression connection provided by the dovetail sockets 5 and 7 and the retainers 50. The system is based on a 555 mm grid but can be configured to any grid.
Referring to
It will be appreciated that the system provides low-cost construction requiring minimal expertise, having ease of installation and multiple construction applications. The system can be used for permanent on-site builds, prefabricated panels, pre-manufactured modular housing, as well as for emergency accommodation and shelters. Also, the components are very light-weight, have good insulation, and are cost-effective to manufacture. Advantageously, the compression joints in combination with the studs and the panels achieve a very high load resistance. In some instances sufficient load resistance is achieved with none or a small number of rails between the sole plate and the wall plate.
Referring to
In this case the absence of rails reduces the number of parts and time of construction, and strength is still sufficient due to the fact that the panel elements 100 take the vertical loads in combination with the studs 1 and the compression joints 5, 50.
In a variation, there may be a small number of one or more rails 80 placed across the studs to contribute inter-connection of the studs additional to the sole plates and wall plates.
As shown in
In another variation shown in
Referring to
The membranes 180 and 190 are very easy to manipulate as they are rigid enough to be conveniently handled when being put in place and so avoid the problems on-site of handling sheets of light plastics material, which can be easily damaged and blown about if there is any wind.
Referring to
Referring to
Referring to
Referring to
The eaves member 501 is placed on the wall 515, 520 with the lip 503 extending downwardly into the insulation 520. The wall plate 511 is placed on the eaves member main body 502 alongside the ridge 504. Joists 516 rest on the eaves member 501 ridge 504 and the wall plate 511 and the remainder of the roof is conventional. This provides an excellent seal around the corner at the top of a wall and a roof, which traditionally has been a cold bridge.
Referring to
The eaves member 701 has a wall-engaging portion 702 in the form of a downwardly-depending ridge (engaging wall structural part 715 and external insulation 720), a roof-engaging portion 704 as for
It is envisaged that the eaves member may have indents to accommodate the joists, and in this case the joists may rest on the wall to the wall full depth.
Also, any of the eaves members may be used with other wall and/or roof arrangements, such as conventional cavity walls of block for example.
It will be appreciated that the eaves members of the various embodiments provide a thermal break between a wall and a roof in a very effective and simple manner.
Major advantages of the invention include:
In other embodiments, some or all of the structural walls don't have rails forming a mesh with the studs, as the panels secured to the studs provide sufficient bracing strength. It is envisaged that structural walls with rails may be used for some walls, especially deeper walls, and possibly roof panels alongside rafters, and possibly in the foundations. For the latter, it is envisaged that the studs and any rails present may be of a plastics material rather than wood.
In various embodiments, it is not essential that the panel engagement features comprise dovetail sockets. However, in general it is preferred that panel engagement feature comprises a portion extending distally from the stud edge and a portion extending laterally, and configured so that the retainer fits within a space bordered by said portions with a tight fit so that compression force is applied to the panel and stud. It is preferred that the studs stud comprises a series of a plurality of panel engagement features along at least one edge, and most preferably that there is a series of panel engagement features on both opposed sides.
The invention is not limited to the embodiments described but may be varied in construction and detail.
Number | Date | Country | Kind |
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16161667 | Mar 2016 | EP | regional |
17152931 | Jan 2017 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/056154 | 3/15/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2017/162500 | 9/28/2017 | WO | A |
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International Preliminary Report on Patentability issued in PCT/EP2017/056154; dated Sep. 25, 2018; 7pp. |
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Number | Date | Country | |
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20190100910 A1 | Apr 2019 | US |