GB2447562A

GB2447562A - Racking panel

Info

Publication number: GB2447562A
Application number: GB0804801A
Authority: GB
Inventors: Iain Mcgregor Fairnington
Original assignee: A Proctor Group Ltd
Current assignee: A Proctor Group Ltd
Priority date: 2007-03-14
Filing date: 2008-03-14
Publication date: 2008-09-17
Also published as: GB0804801D0; GB0704853D0

Abstract

A substantially rigid building racking panel 10 comprises a first board 12 and a layer of a compression resistant insulation material 16 attached thereto. The racking panel may also include a second board 14, the first and second boards sandwiching the layer of insulation material. The boats may be of a wooden material, more preferable selected from oriented strand boat (OSB) or plywood and the boards may be bonded to the insulation with an adhesive. The insulation may be of a foam like material selected from a group consisting of polyurethane, phenolic, extruded and expanded polystyrene foams or an aerogel fibre composite material. The panel may also comprise a breather material or membrane mounted on the outer surface of the panel. A wall of a timber frame building including studwork with plasterboard paralleling on the inner surface and the racking panel on the outer surface and the panel in use as a floor or ceiling arrangement is also provided.

Description

RACKING PPINEL

The present invention relates to an improved racking panel for use in, but not exclusively, the construction of walls of timber frame houses for improving the wall's thermal insulation and structural characteristics. The invention also relates to a wall structure incorporating the racking panel.

The use of timber frames in buildings, especially in houses, is very popular because it allows the building to be constructed more quickly and cheaply than other conventional forms of building.

A typical wall in a timber frame building would be comprised of timber studs, a dry lined plasterboard covering, mounted on the internal side of the studs, and oriented strand board (OSB), or plywood board, fixed to the external side of the studs for "racking" the frame. Insulation would be inserted in the cavity created between the studs, the plasterboard and the OSB or * . " plywood racking. A breather membrane may then be fitted to the ***.

external surface of the OSB or plywood, and the wall is * completed by a brick clad built around the outside of the * * *I*.

****** * 25 This design of wall has a number of limitations: firstly, it is difficult to ensure the wall complies with the Government imposed thermal regulations, secondly the racking strength provided by the OSB or the plywood racking could be greater, thirdly cold bridging can occur across the timber frame wall leading to cold spots within the building, fourthly the nature of the timber frame wall makes it vulnerable to fires, and fifthly there is a problem with condensation.

It is an object of the present invention to avoid or minimise one or more of the above disadvantages.

The present invention provides a substantially rigid building racking panel, the panel comprising a first board and a layer of a compression resistant insulation material attached thereto.

The insulating material is resistant to compression i.e. the insulating layer is of a material that is resilient in compression or alternatively is substantially non-deformable in compression. Providing a layer of insulating material on the racking panel that resists compression provides certain :.:: advantages. On fixing the racking panels of the invention to a.-.

studs of a timber frame wall construction, by nails driven *aS * through the panel, for example, the deformation (reduction in a.. a

thickness) of the insulating layer will tend to be limited, * . *S*.

* thereby retaining substantially all its insulating properties. * e

Furthermore when fixed to studs of a timber frame wall the racking panel is stable, resistant to movement when subject to external forces. The insulating material is selected to have sufficient resistance to compression such that the racking performance of the panel is not significantly affected.

Preferably the insulation material should have a compressive resistance of not less than 5OkPa at 10% strain.

Preferably the racking panel further comprises a second board, the first and second boards sandwiching the said layer of insulation material. The optional second board can provide additional racking strength to the racking panel and also protects the layer of insulating material from damage.

Where only a first board is used, the racking panel is fitted, in use, with the layer of insulation facing the studs of a timber frame wall construction so that the board faces outwards, to provide weatherproofing to the timber frame structure.

Preferably said first board and, when used, said second board are of wooden material selected from the group including oriented strand board (OSB) or plywood board. Desirably said boards are of the standard industry size of Bft x 4tt (2438.4 x us. *51*

* 1219.2 mm) . Preferably said boards have a thickness in the *5* range of from 6 to 15 mm, desirably 9 to 12 mm advantageously * 9mm or 12mm according to operational requirements. Where two I... * ,

boards are used they may be of different materials and thicknesses if desired.

Preferably said layer of insulation material is a layer of a fibre material, desirably a randomly orientated fibre material having a density in the range of from 50 to 200 kg per m3, more preferably from 100 to 200 kg per m3.

Alternatively a material comprising lightweight foam for example of the types discussed below may be used, which have a preferred density of 30 to 100 kg per m3. Preferably said insulation material has a thermal value (k value) in the range of from 0.01 to 0.05 W/mK (Watts per metre Kelvin.) More preferably the insulation material has a thermal value of from 0.010 to 0.015 W/mK.

Preferably said layer of insulation material has a thickness (or depth) in the range of from 5 mm to 60 mm.

Alternatively said layer of insulation material may be in the form of a foam like material having an open or closed cell * *I :::::: structure selected from the group of materials including polyurethane, phenolic, polystyrene foams or aerogels. **S*

I I...

I I..

I

Preferably the insulating layer is of an aerogel fibre composite I... * S I..

* material. Such materials are lightweight yet have reasonable III'S. * S

compressive strength combined with high performance as insulating materials.

Preferably said first board and said second are bonded to the layer of insulation material using an adhesive, for example a water based adhesive. Preferably a hot melt polyurethane adhesive is used to bond the insulation layer to the other components of the panel. This provides a particularly strong bond. Alternative means of securing the insulation to the boards may be used.

Preferably the panel includes a breather material or membrane mounted on an outer surface of the panel. Breather membranes will be known to those skilled in the art. Alternatively a breather membrane may be fitted to the racking panels during the construction of a timber frame structure.

The present invention provides, in a second aspect, a wall of a timber frame building, the wall including: stud work, the studwork having an inner surface and an outer surface, the studwork being adapted to support at least one plasterboard panel on the inner surface and at least one racking panel on the outer surface, said at least one racking panel comprising a first board and layer of a compression resistant S... * S

insulation material attached thereto. *55.

S *

S S..

Preferably the racking panel of the wall further comprises a S...

second board, the first and second boards sandwiching the said *.S...

layer of insulation material. Preferably, the wall also includes at least one plasterboard panel, said at least one plasterboard panel being supported by the inner surface of the studwork.

Preferably, the wall further includes a brick cladding, the cladding being disposed adjacent the racking panel.

Preferably, there is a breather membrane disposed between the brick cladding and the racking panel.

Preferably, the breather membrane is integral with a board of the racking panel.

Preferably, the wall includes further insulation material arranged within the studwork. Advantageously, the further insulation material is glass wool insulation.

Preferably, said at least one racking panel and said at least one plasterboard panel are nailed to the studwork.

Alternatively, they are screwed to the studwork.

*:. It will be understood that studwork means the timber members S...

from which a timber frame is built. *.*I

S *..S

By virtue of the present invention a racking panel is provided for use with a timber frame which will improve the racking * .**.* strength of the timber frame, provide additional thermal insulation, reduce the possibility of cold bridging leading to cold spots within the building, reduce condensation build up and give improved fire protection. Furthermore as the racking panel is a composite assembly manufactured/assembled off site then guaranteed operational values can be realised.

The racking panel of the invention may also be used as part of a floor and ceiling construction as described hereafter with reference to a particular embodiment. Thus according to a third aspect the present invention provides a floor and ceiling arrangement, comprising an array of joists, the array having an upper surface and a lower surface, the joists having at least one racking panel attached to either the lower or the upper surface of the array of joists, the racking panel comprising a first board and a layer of a compression resistant insulation material attached thereto.

Further preferred features and advantages of the present invention will appear from the following detailed description given by way of example of some preferred embodiments S.'::. illustrated with reference to the accompanying drawings in S... * .

which: * S.* *.. Figure 1 is a perspective view of a racking panel according to S..

* the present invention; *.* * S S'S.:

S I

Figure 2 is a partial perspective view of a section of wall from a timber frame building incorporating the racking panel of Figure 1; and Figure 3 is a partial perspective view of a section of a floor and ceiling arrangement incorporating the racking panel of Figure 1.

Referring firstly to Figure 1 there is a perspective view of a substantially rigid racking panel according to the present invention.

The racking panel, generally indicated by reference numeral 10, comprises a first board 12 and a second board 14 sandwiching, in this example a high-density substantially non-deformable, in compression insulation material 16.

The first and second boards 10, 12 are made from oriented strand board (OSB) having a thickness of 11mm. Alternatively there may be used plywood. The sandwiched insulation material 16 has a thickness (or depth) of 30mm. The insulation material is a *..... phenolic foam having a density of 38-40kg per m3 and a thermal I...

value (k value) of 0.021 W/mK. Such a material is available *.S.

from Kingspan Insulation Limited of Pembridge, Leominster, United Kingdom and marketed under the Kooltherm Trade Mark. The insulation material is sandwiched between the two boards and is * ** * ** * * bonded thereto by an adhesive which is sprayed onto one and or other of the boards and the insulation material.

The racking panel 10 of Figure 1 can readily be constructed with alternative materials to provide the required properties. For example the sandwiched insulation material 16 may be an aerogel fibre composite having a density of 100 to 200 kg per m3 and a thermal value (K value) of 0.010 to 0.015 W/mK. Use of such a material at a thickness of for example between 9 and 36 mm provides a highly insulant racking panel. Suitable aerogel fibre composite materials are available from Aspen Aerogels Inc. of Northborough MA, USA and their use in general for insulating purposes is described in WO 2006/091812.

Referring to Figure 2, there is shown a partial perspective view of part of a section of wall from a timber frame building incorporating the racking panel shown in Figure 1.

The wall, generally indicated by reference numeral 20, includes two stud members 22 and 24, which are part of a timber frame.

*:*::* Between the stud members 22 and 24 there is glass wool * * insulation 26. *S*. * ****

S S..

On the internal side of the timber frame wall 20, is a *S..

plasterboard lining 28 and on the external side the racking S.....

panel 30. The racking panel 30 includes a first board 32, a substantially rigid layer of insulating material 34 and a second board 36 and is similar in construction and materials to the panel described above and shown in Figure 1. The panel 30 is secured to the studs 22 and 24 by nails 38 and 40 nailed through the panel and into studs 22 and 24 respectively. The non-deformable nature of the insulating material 34 means the panel substantially retains its shape and does not compress noticeably when the nails 38 and 40 are hammered into place. A similar effect is obtained when the insulating layer is of an insulating material that is resilient in compression. For example the aerogel fibre composite materials mentioned above with respect to Figure 1. Mounted on the external side of the second board 36 is a breathable membrane 42 which protects the frame from external rain/precipitation during construction and allows the building to "breathe", avoiding condensation problems, once the wall is completed.

The final layer of the wall 20 is a brick cladding 44, which provides a degree of protection for the timber frame building from natural and human forces. * ** * * * * ** ****

Referring now to Figure 3, there is shown a perspective view of *.*.

*..: part of a floor and ceiling arrangement incorporating the

S ***

* racking panel of Figure 1. ****

*. *. 25 ****** * * The floor and ceiling arrangement, generally indicated by reference numeral 50, includes a pair of joists 52 and 54. On the under side of the joists 52 and 54 is attached plasterboard ceiling panel 56. Insulation material 55 in the form of glass wool insulation is laid out between the joists 52 and 54 on top of the ceiling panel 56. Mounted on top of the joists 52 and 54 is a floor panel 58 comprising a first board 60, a layer of substantially compression resistant, insulation material 62 and a second board 64. The floor panel 58 is secured to the joists 52 and 54 by means of screws 66. The substantially non-deformable nature of the insulation material 62 ensures the panel does not noticeably compress when the panel 58 is secured into place by means of screws 66 nor when a weight, such as a person is placed on the floor. This type of panel will typically be used in an attic to create additional useable space, and where an additional degree of insulation over that provided by insulation material 55 is desirable.

An additional layer of floor material such as carpets (not shown) or floorboards (not shown) may be laid over, and attached to, the second panel 66. I... * * **** *.*.

: Various modifications and improvements may be made to the * * embodiments hereinbefore described without departing from the **** *!5 scope of the present invention. * * *

Claims

Claims 1. A substantially rigid building racking panel, the panel

comprising a first board and a layer of a compression resistant insulation material attached thereto.
2. A racking panel according to claim 1 wherein the insulation material has a compressive resistance of not less than 50kPa at 10% strain.
3. A racking panel according to claim 1 or claim 2 further comprising a second board, the first and second boards sandwiching the said layer of insulation material.
4. A racking panel according to claim 3 wherein the boards are of different materials and/or thicknesses.
5. A racking panel according to any one of claims 1 to 4 wherein said boards have a thickness in the range of from 6 to 15 mm.
6. A racking panel according to any preceding claim wherein said s... boards are of wooden material selected from the group consisting * *..

of oriented strand board (OSB) and plywood board. *
7. A racking panel according to any preceding claim wherein said *.*.

layer of insulation material is a foam like material having an open or closed cell structure selected from the group of -13 -materials consisting of polyurethane, phenolic, extruded and expanded polystyrene foams and aerogels.
8. A racking panel according to claim 7 wherein the layer of insulation has a density of from 30 to 100 kg per m3.
9. A racking panel according to any one of claims 1 to 6 wherein the layer of insulation material is of an aerogel fibre composite material.
10. A racking panel according to any one of claims 1 to 6 wherein said layer of insulation material is a layer of a fibre material.
11. A racking panel according to claim 9 or claim 10 wherein the layer of insulation material has a density in the range of from to 200 kg per m3.
12. A racking panel according to any preceding claim wherein the insulation material has a thermal value in the range of from *:*::* 0.01 to 0.05 W/mK. * S.. * * S.-. *5*5

:
13. A racking panel according to claim 12 wherein the insulation S..

material has a thermal value in the range of from 0.01 to 0.015 *.** ...25 W/rnk.

S..... * .
14. A racking panel according to any preceding claim wherein said layer of insulation material has a thickness in the range of from 5 mm to 60 mm.
15. A racking panel according to any preceding claim wherein said first board and said second board, if fitted, are bonded to the layer of insulation material using an adhesive.
16. A racking panel according to any preceding claim further comprising a breather material or membrane mounted on an outer surface of the panel.
17. A wall of a timber frame building, the wall including: stud work, the studwork having an inner surface and an outer surface, the studwork being adapted to support at least one plasterboard panel on the inner surface and at least one racking panel on the outer surface, said at least one racking panel comprising a first board and layer of a compression resistant insulation material attached thereto.
18. A wall according to claim 16 wherein the racking panel * .* further comprises a second board, the first and second boards *. . sandwiching the said layer of insulation material.

S

S S...
19. A wall according to claim 17 or claim 18 wherein the wall

S

S.....

also includes at least one plasterboard panel, said at least one -15 -plasterboard panel being supported by the inner surface of the studwork.
20. A wall according to any one of claims 17 to 19 further include a brick cladding, the cladding being disposed adjacent the racking panel.
21. A wall according to claim 20 wherein there is a breather membrane disposed between the brick cladding and the racking panel.
22. A wall according to claim 21 wherein the breather membrane is integral with a board of the racking panel.
23. A wall according to any one of claims 17 to 22 wherein the wall includes further insulation material arranged within the studwork.
24. A wall according to claim 23 wherein the further insulation material is glass wool insulation. * S. * S * ** *
25. A wall according to any one of claims 17 to 24 wherein said **** at least one racking panel and said at least one plasterboard

S S..

* panel are nailed or screwed to the studwork. S..

S S..

S .5.5,
26. A floor and ceiling arrangement, comprising an array of joists, the array having an upper surface and a lower surface, the joists having at least one racking panel attached to either the lower or the upper surface of the array of joists, the racking panel comprising a first board and a layer of a compression resistant insulation material attached thereto. * ** * * S * SS **SS * S **.* ***. S., * S S... * *.... S *