Composite Insulating Panel
A composite insulating panel (17) comprises a profiled external sheet (2) having a plurality of raised crowns (3) of generally trapezoidal form, an inner liner sheet (4) and a body of insulating foam (5) between the sheets (2, 4). The panel (1) has an integral heat collecting means for transfer of heat from one source to another. In one case there are inner conduit (21) through which a heat transfer medium is circulated to extract heat from inside a building and outer conduits (8) for collection of solar heat (9). The panel (17) may be used as part of a heating/cooling/ventilation system.
With increasing energy costs there is a need for optimizing heat transfer to and from a building.
This invention is directed towards providing an improved insulating panel which will address this issue.
STATEMENTS OF INVENTIONAccording to the invention there is provided a composite insulating panel comprising a first sheet, a second sheet, insulating foam between the first and second sheets, and heat collecting means within the panel for transfer of heat from one source to another.
In one embodiment the heat collecting means comprises conduit means for containing a beat transfer medium. The conduit means may comprise a plurality of tubes extending through the panel. The conduit means may be located adjacent to the first sheet and/or adjacent to the second sheet.
In one case the first sheet is profiled to define a plurality of recesses, the heat collecting means extending through at least portion of at least some of the recesses. Alternatively or additionally the second sheet may be profiled to define a plurality of recesses, the heat collecting means extending through at least portion of some of the recesses.
Preferably at least some of the recesses contain the heat collection means.
Conduit means may extend through at least some of the recesses.
In one embodiment at least some of the recesses define a pathway for air circulation.
The recess defined by at least some of the profiles may be substantially free of insulating foam.
In one case the profile is formed in an external sheet of the panel. The external sheet may comprise a plurality of laterally spaced-apart crowns.
In a preferred embodiment the recess has a cross sectional area of at least 0.002 m2, most preferably at least 0.0025 m2, and about 0.003 m2.
In one embodiment the recess has an exposed surface, the width of the exposed surface being from 150 mm to 200 mm, preferably from 160 mm to 180 mm, and about 170 mm.
In one embodiment the exposed surface comprises an outer face and a pair of side faces which diverge inwardly from the outer face.
The angle between the outer face and each side face may be from 115° to 125°, preferably from 118° to 123°, and about 121°.
In one embodiment the width of the outer face is from 50 mm to 60 mm. The width of the outer face may be about 55 mm.
In one embodiment the width of each side face is from 50 mm to 60 mm. The width of each side face may be about 57 mm.
Preferably, the panel comprises at least 3 crowns. The panel may comprise at least 4 crowns.
There may be a barrier between the recess and the insulating foam. The barrier may extend across the inwardly facing opening of the recess. The barrier may be a seal, a tape, or the like.
In one case the panel comprises a roof panel.
In another case the panel comprises a wall panel.
The panel may also be a floor panel.
The invention also provides a heating or cooling system comprising at least one panel of the invention.
In one embodiment a heat transfer medium is circulated through the panel. The heat transfer medium may be air.
The system may comprise duct means for collecting and directing air which is passing through the panel. The system may have air circulating means such as a fan for circulating air to or from the panel or duct.
The invention will be more clearly understood from the following description thereof given by way of example only, in which:—
Referring to the drawings and initially to
The panel has an integral heat collecting means for transfer of heat from one source to another. In this case the heat collecting means are provided in the crowns 3 of the external sheet which may be devoid of insulation 5. Conduits 8 in this case extend through the crowns 3 and a heat transfer medium such as water is circulated through the conduits 8. In this way solar heat illustrated diagrammatically as 9 is transferred and used, for example, to provide hot water for washing and the like. The heat transfer medium may be any suitable fluid such as water, refrigerant or anti-freeze solution. The conduits 8 run through the roof in the external envelope of the building and the medium absorbs solar energy. The warmed medium may be pumped back through the system into the building to provide heat to the building space. Once the medium passes through the building and transfers its energy, it flows back to the roof conduit and the process is repeated in a closed loop.
Referring to
Referring to
Referring to
Air is circulated through the crowns 3 which are not filled with insulating foam. Such panels are usually manufactured by leading the profiled outer sheet 2 along a flat bed with the recesses defined by the crowns 3 facing upwards. The profiled sheet is let to a lay-down area at which liquid foam reactants are spread across the sheet using a lay-down poker or the like. As the foam rise the backing sheet is applied over the foam and the sandwich this formed is then led through an oven and subsequently cut to length. The manufacturing technology is described in our UK-A-2227712, UK-A-2257086, and UK-A-2325640.
In the panels of the invention foam is excluded from at least some of the recesses defined by the crowns 3. This may be achieved in a number of ways. For example, a seal or tape 25 may be laid across the recesses defined by the crowns 3 prior to foam lay-down. Alternatively a lost core may be inserted into the recesses defined by the crowns 3 and subsequently removed leaving the recesses substantially fee of foam.
We have found that the panel of
The faces of the crown 3 which are exposed to the external environment comprise an outer face x and two side faces y which diverge inwardly from the outer face x. The angle α between the faces x, y is preferably 115° to 125°, most preferably 118° to 123° and in this case about 121°.
The width of the exposed surface of each crown 3 is from 150 mm to 200 mm, most preferably 160 mm to 180 mm, and in this case about 170 mm. the outer face x has a width Wx of from 50 mm to 60 mm, in this case about 55 mm. Each side facing has a width Wy of from 50 mm to 60 mm, in this case about 57 mm.
In the panel of
By way of comparison, in the panel of
The energy production possible using panels with crowns of this type was calculated using RET screen International Clean Energy Project Analysis software available at www.retscreen.net. The following assumptions were made:
Using the panels to construct the south facing wall of the building and circulating air through the foam-free passageways results in the following energy production:
Using a panel with enlarged foam-free crowns greatly enhances energy production.
The panels may be used to construct part of or all of the building envelope including the roof, walls and/or floor. One such building is illustrated in
Referring especially to
May variations on the embodiments described will be readily apparent. Accordingly the invention is not limited to the embodiments hereinbefore described which may be varied in detail.
Claims
1-43. (canceled)
44. A composite insulating panel comprising a first sheet, a second sheet, insulating foam between the first and second sheets, and heat collecting means within the panel for transfer of heat from one source to another.
45. The panel as claimed in claim 44 wherein the heat collecting means comprises conduit means for containing a heat transfer medium.
46. The panel as claimed in claim 45 wherein the conduit means comprises a plurality of tubes extending through the panel.
47. The panel as claimed in claim 46 wherein the conduit means are located adjacent to the first sheet.
48. The panel as claimed in claim 46 wherein the conduit means are located adjacent to the second sheet.
49. The panel as claimed in claim 44 wherein the first sheet is profiled to define a plurality of recesses, the heat collecting means extending through at least portion of at least some of the recesses.
50. The panel as claimed in claim 44 wherein the second sheet is profiled to define a plurality of recesses, the heat collecting means extending through at least portion of some of the crowns.
51. The panel as claimed in claim 49 wherein at least some of the recesses contain the heat collection means.
52. The panel as claimed in claim 49 wherein conduit means extend through at least some of the recesses.
53. The panel as claimed in claim 49 wherein at least some of the recesses define a pathway for air circulation.
54. The panel as claimed in claim 49 wherein the recess defined by at least some of the profile is substantially free of insulating foam.
55. The panel as claimed in claim 49 wherein the recess is defined by a crown formed in an external sheet of the panel.
56. The panel as claimed in claim 55 wherein the external sheet comprises a plurality of laterally spaced-apart crowns.
57. The panel as claimed in claim 49 wherein the recess has a cross sectional area of at least 0.002 m2.
58. The panel as claimed in claim 49 wherein the recess has a cross sectional area of at least 0.0025 m2.
59. The panel as claimed in claim 49 wherein the recess has a cross sectional area of approximately 0.003 m2.
60. The panel as claimed in claim 49 wherein the profile defining the recess has an exposed surface, the width of the exposed surface being from 150 mm to 200 mm.
61. The panel as claimed in claim 60 wherein the width of the exposed surface is from 160 mm to 180 mm.
62. The panel as claimed in claim 60 wherein the width of the exposed surface is about 170 mm.
63. The panel as claimed in claim 60 wherein the exposed surface comprises an outer face and a pair of side faces which diverge inwardly from the outer face.
64. The panel as claimed in claim 63 wherein the angle between the outer face and each side face is from 115° to 125°.
65. The panel as claimed in claim 64 wherein the angle between the outer face and each side face is from 118° to 123°.
66. The panel as claimed in claim 64 wherein the angel between the outer face and each side face is about 121°.
67. The panel as claimed in claim 63 wherein the width of the outer face is from 50 mm to 60 mm.
68. The panel as claimed in claim 67 wherein the width of the outer face is about 55 mm.
69. The panel as claimed in claim 63 wherein the width of each side face is from 50 mm to 60 mm.
70. The panel as claimed in claim 69 wherein the width of each side face is about 57 mm.
71. The panel as claimed in claim 49 wherein the panel comprises at least 3 crowns.
72. The panel as claimed in claim 49 wherein the panel comprises at least 4 crowns.
73. The panel as claimed in claim 54 comprising a barrier between the recess and the insulating foam.
74. The panel as claimed in claim 73 wherein the barrier extends across the inwardly facing opening of the recess.
75. The panel as claimed in claim 73 wherein the barrier comprises a seal.
76. The panel as claimed in claim 73 wherein the barrier comprises a tape.
77. The panel as claimed in claim 44 wherein the panel comprises a roof panel.
78. The panel as claimed in claim 44 wherein the panel comprises a wall panel.
79. The panel as claimed in claim 44 wherein the panel comprise a floor panel.
80. The heating or cooling system comprising at least one panel as claimed in claim 44.
Type: Application
Filed: Jun 12, 2007
Publication Date: Sep 24, 2009
Inventors: Gregory Flynn (County Louth), James Carolan (County Cavan)
Application Number: 12/227,855
International Classification: F24H 9/06 (20060101); F28F 3/12 (20060101); F28D 7/00 (20060101);