Patent application title: THERMAL INSULATING PANEL
Inventors:
IPC8 Class: AE04B180FI
USPC Class:
1 1
Class name:
Publication date: 2020-05-21
Patent application number: 20200157800
Abstract:
The invention relates to a thermal insulating panel used for the
insulation of buildings. The thermal insulating panel has some
rectangular or trapezoidal channels, delimited some ribs obtained by
extrusion or injection molding, the average ratio of the width of the
channels and the width of the ribs ranging from 18:1 to 3:1, one of the
dimensions characterizing by the volume of the channels being smaller
than the size at which convection of the air occurs in the channels, such
that the thermal exchange to be made exclusively by air conduction.Claims:
1. Thermal insulating panel with channels characterized in that it
comprises a substantially flat face (8, 10) and some rectangular (1) or
trapezoidal (3) channels having one of the dimensions that characterize
the volume smaller than the size at which the convection of the air
occurs in the channels, the channels (1, 3) being delimited by some ribs
(2, 4) arranged substantially perpendicular to the flat face (8, 10), the
average ratio between the width of the channel (1, 3) and the width of
the ribs (2, 4) being in a range from 18:1 to 3:1, such that to provide a
thermal conductivity of .lamda.=0.023 W/m.times.K.
2. Thermal insulating panel according to claim 1, wherein the panel is obtained by extrusion or injection molding, respectively.
3. Thermal insulating panel according to claim 1, wherein the channels (1, 3) have a width of less than 19 mm.
Description:
TECHNICAL FIELD
[0001] The invention relates to a thermal insulating panel or board, usable for the insulation of buildings.
STATE OF THE ART
[0002] Thermally insulating panels made of polystyrene, polyurethane, polyvinyl chloride used for thermal insulation of buildings are known. The disadvantage of these massive thermal insulating panels is the high consumption of material per unit of volume.
[0003] It is known that in the case of double pane glass, the maximum insulation level is obtained at a distance of 18 millimeters between the glass sheets, as an optimal result between conduction and convection. At a larger size, convection occurs, and the heat transfer is at least ten times higher. At a smaller size, only conduction occurs, but the level of insulation decreases with the size.
DISCLOSURE OF THE INVENTION
[0004] The purpose of the invention is to achieve thermal insulating panels made of known materials with very good insulation efficiency, using a much lower amount of material.
[0005] The technical problem solved by the invention is to achieve an insulation equivalent to a massive thermal insulating panel using a heat insulating panel with channels, having a considerably smaller weight.
[0006] The channel insulating panel with channels removes the disadvantages mentioned above in that it comprises some rectangular or trapezoidal channels delimited by some ribs obtained by extrusion or injection molding, the average ratio between the channel width and the rib width ranging from 18:1 to 3:1, one of the dimensions that characterizes the volume of the channels being lower than the size at which convection of the air occurs into the channels, such that the thermal exchange to be made exclusively by air conduction.
[0007] Using the invention, the following advantages are obtained:
[0008] reduced consumption of material for the same thermal conductivity;
[0009] reduced weight;
[0010] reduced cost.
BRIEF DESCRIPTION OF THE DRAWINGS
[0011] Further, two embodiments of the invention are given, in connection with:
[0012] FIG. 1 is a partial cross-section view of the thermal insulating panel 5, according to the invention, obtained by extrusion and,
[0013] FIG. 2 is a partial cross-section view of the thermal insulating panel 6, according to the invention, obtained by injection molding.
BEST MODES FOR CARRYING OUT THE INVENTION
Example 1
[0014] A medium-high density polyurethane panel 5, according to the invention (FIG. 1), is obtained by extrusion, comprising a massive part having a substantially planar face 8 and a part comprising some rectangular channels 1 and ribs 2 arranged substantially perpendicularly to the flat face 8. The ratio between the width of the channels 1 and the width of the ribs 2 is 18:1. Preferably, channel 1 width does not exceed 19 mm. The panel 5 also comprises a face 7 consisting of the free ends of the ribs 2, opposite to the planar face 8. The thermal insulation panel thus obtained according to the invention has a weight four times smaller than a massive polyurethane thermal-insulating panel made of the same material, at the same exterior dimensions and achieves the same thermal conductivity, respectively of .lamda.=0.023 W/m.times.K.
Example 2
[0015] A low-density polyurethane panel 6 according to the invention (FIG. 2) is obtained by injection molding in the mold, comprising a massive part having a substantially flat face 10 and a part comprising some trapezoidal channels 3 and ribs 4 arranged substantially perpendicular to the flat face 10. The average ratio between the width of the trapezoidal channels 3 and the width of the ribs 4 is 3:1. Preferably, the width of the channel 3 does not exceed 19 mm. The panel 6 also comprises a face 9 consisting of the free ends of the ribs 4, opposite to the flat face 10. The thermal insulation panel thus obtained according to the invention has a weight four times smaller than a massive polyurethane thermal insulation panel made of the same material and having the same exterior dimensions, and achieves the same thermal conductivity, respectively of .lamda.=0.023 W/m.times.K.
[0016] The panels according to the invention are used by applying the faces 7, 9 formed by the free ends of the ribs on the surface to be insulated (e.g., a wall), by known methods (e.g., adhesive fixing). The opposite substantially flat faces 8, 10 will be used for the interior or exterior finishing coating of the insulated construction.
[0017] The thickness of the thermal insulating panel is preferably between 5 and 10 cm, but not limited to this range.
[0018] The thickness of the massive part of the thermal insulating panel is preferably between 1 and 20 cm, but not limited to this range.
User Contributions:
Comment about this patent or add new information about this topic: