[0001] The current invention relates to an insulated composite door comprising a wooden
frame covered by a facing sheet layer on one major surface of the door, said facing
sheet layer comprising both a layer of veneer and a layer of High Pressure Laminate,
said layer of High Pressure Laminate being arranged further from the centre of the
door than the layer of veneer.
[0002] In the context of the current invention, the term "facing sheet layer" should be
understood as a layer of material applied to one major surface of a door. The "facing
sheet layer" could be comprised of one or multiple layers of one or more materials,
depending on the purpose of the door.
Description of related art
[0003] Traditional insulated composite doors are formed from a wooden rectangular frame
with a facing sheet layer of plywood glued to both sides of the frame. This results
in a light, cheap and strong door.
[0004] More advanced insulated composite doors comprise facing sheet layers comprising a
number of different layers having different properties. For example, it is common
to provide a facing sheet layer comprising a veneer layer arranged closest to the
frame, then a thin aluminium sheet layer which acts as a vapour barrier and then one
or more external veneer layers to give a combination of strength and a nice appearance.
[0005] More recently plastic materials have also started to be used on doors. For example
thin layers of resin impregnated overlays have been added to the outside surface of
insulated composite doors. Resin impregnated overlays are usually comprised of one
of more layers of paper or thin fabric which are saturated with resin and pressed
together under high pressure. For examples of such doors, see
WO 2003/066321,
EP 2192258,
EP 2065183 and
EP 1327048.
Summary of the invention
[0006] The prior art doors however all have various disadvantages as will be known to the
person skilled in the art. It is therefore a first aspect of the current invention
to provide a new type of insulated composite door having advantages over the prior
art types of insulated composite doors.
[0007] This first aspect is provided by an insulated composite door as mentioned in the
opening paragraph where the thickness of the layer of High Pressure Laminate (HPL)
is greater than 3mm. In this way, the layer of HPL acts as a proper vapour barrier
without the need for an aluminium layer. Furthermore, the thickness of the HPL allows
grooves to be machined into the exposed surface of the door without breaking through
the HPL layer. Such grooves can be used for cosmetic purposes.
[0008] Previously, it has not been thought possible to build an insulated composite door
with a wooden frame and a thick layer of HPL due to the fact that HPL is a material
which has very low coefficients of expansion due to heat and/or moisture whereas wood
has much higher coefficients of expansion due to heat and/or moisture. By gluing a
thick layer of HPL to a wooden frame, there would be serious delamination problems
when the door was exposed to heat and/or moisture. However, by adding a thin layer
of veneer between the wooden frame and the thick HPL layer, these problems are avoided.
In the prior art insulated composite doors which comprise a layer of HPL, a thick
veneer layer is fastened to the wooden frame and a thin layer of HPL is fastened to
the veneer layer.
[0009] Additional aspects of the invention are provided by the dependent claims.
[0010] It should be emphasized that the term "comprises/comprising/comprised of" when used
in this specification is taken to specify the presence of stated features, integers,
steps or components but does not preclude the presence or addition of one or more
other features, integers, steps, components or groups thereof. For example, in the
claims it is stated that the door comprises a facing sheet layer arranged on one major
surface of the door. However, it should be clear to the reader, that this should be
understood as "arranged on at least one major surface of the door". The case where
both major surfaces of the door are covered by a facing sheet layer is also included
in the scope of protection. The facing sheet layers on the two major surfaces of the
door could be identical or different. For example, on one side of the door could be
arranged a facing sheet layer according to the invention whereas on the other side
only a simple veneer layer could be provided. Many possibilities will be available
as should be understood by the person skilled in the art.
Brief description of the drawings
[0011] In the following, the invention will be described in greater detail with reference
to embodiments shown by the enclosed figures. It should be emphasized that the embodiments
shown are used for example purposes only and should not be used to limit the scope
of the invention.
Figure 1 shows a perspective view of an insulated composite door according to the
current invention.
Figure 2 shows a cross section view according to the line II-II defined in figure
1.
Figure 3 shows a detailed cross section according to the circle III defined in figure
2.
Figure 4 shows a cross section view according to the line IV-IV defined in figure
1.
Figure 5 shows a perspective exploded view of the insulated composite door shown in
figure 1.
Detailed description of the embodiments
[0012] The door 1 shown in figures 1-5 comprises a wooden frame 2 which is made up of four
frame elements 2a,2b,2c,2d. Two horizontal frame members 2a,2c are joined together
to two vertical members 2b,2d to make up the rectangular frame. In a typical frame,
the frame elements would be joined together with fastening means (not shown) at the
corners. A non-limiting list of example fastening means includes dowels, screws, nails
and glue. The wooden frame when assembled has two major surfaces and four edge surfaces.
[0013] A facing sheet layer 3, 4 is then fastened to each of the two major surfaces of the
rectangular frame with an adhesive. The facing sheet layers 3, 4 are identical in
the current embodiment. The facing sheet layers 3, 4 both comprise a thin layer of
veneer 5 adjacent to the wooden frame and a thicker layer of HPL 6 arranged on the
layer of veneer. The veneer layer 5 in the current embodiment is formed from a material
having a high porosity which can absorb a large amount of adhesive and in this way
establish a good connection to the HPL layer 6 and to the wooden frame 2. In the current
embodiment, the layer of veneer is 1,5mm thick and the layer of HPL is 4 mm thick.
It has been found that layers of HPL having a thickness of greater than or equal to
4mm can in certain cases be advantageous, since this allows a deeper and more distinct
groove to be machined into the door without breaking through the HPL layer.
[0014] In the current embodiment, the door is designed as an exterior door. In this case,
the layer of HPL would be chosen as a type of HPL which is suitable for external use.
[0015] In the hollow of the door between the frame and the facing sheet layers is in this
embodiment arranged an insulating core of insulation material 7.
[0016] As can be seen from the figures, in the current embodiment, the facing sheet layers
3,4 cover essentially the entire surface area of the major surfaces of the door. The
wooden frame defines the exterior dimensions of the surface area of the door and the
facing sheet layers provide a covering for the door.
[0017] One method of manufacturing the insulated composite door according to the invention
would proceed according to the following description. A layer of HPL and a layer of
veneer are provided and the layer of veneer is glued to one side of the layer of HPL
to form a first compound layer. The compound layer is pressed in a press at a high
pressure. A second compound layer identical to the first compound layer is then provided.
The frame members 2a,2b,2c,2d are then assembled around the insulating core 7 and
nailed at the corners. A compound layer of veneer and HPL is then glued to each side
of the wooden door frame with the layer of veneer being in contact with the door frame.
[0018] However, many different combination possibilities with regards to the method of manufacture
will be possible and should be understandable to the person skilled in the art. For
example, it is not necessary that two identical compound layers be fastened to the
two sides of the door. One side could be according to the current invention, the other
side could be something different. Another example could be that the different layers
are all glued together in a single operation and then the entire door is pressed in
a press in one step. It should also be mentioned that the steps of the method above
are varied, for example, the frame could be assembled before the compound layers are
provided.
[0019] While the figures do not show it, it is possible to machine grooves into the exterior
HPL layer which can be used to give the door a more interesting visual appearance.
For example, spaced apart vertically arranged grooves which run the length of the
door give the door a nice visual appearance. These grooves are typically at least
2mm deep.
[0020] It should be noted that the figures have only shown one embodiment, however the person
skilled in the art will be able to develop other insulated composite doors which are
covered by the teaching of this invention. For example, the embodiment shown has been
a rectangular door, however, one could also imagine doors with a non-rectangular shape,
for example a door with an arc shaped top portion.
[0021] It is to be noted that the figures and the above description have shown the example
embodiments in a simple and schematic manner. Detailed mechanical features have not
been shown since the person skilled in the art should be familiar with these details
and they would just unnecessarily complicate this description. For example, the frame
members are shown as simple rectangular elements. However in a real insulated composite
door, the frame members are often formed with engaging elements or fasteners whereby
the frame members are structurally joined together before the facing sheet layers
are applied.
1. An insulated composite door (1) comprising a wooden frame (2) having two major surfaces,
one of said two major surfaces covered by a facing sheet layer (3,4), said facing
sheet layer comprising a layer of veneer (5) and a layer of High Pressure Laminate
(6), said layer of High Pressure Laminate being arranged further from the centre of
the door than the layer of veneer, characterized in that the thickness of the layer of High Pressure Laminate is greater than 3mm.
2. An insulated composite door (1) according to claim 1 characterized in that the layer of veneer (5) is glued to the wooden frame (2) of the door.
3. An insulated composite door (1) according to any one of claims 1-2, characterized in that the layer of High Pressure Laminate (6) is glued to the layer of veneer (5).
4. An insulated composite door (1) according to any one of claims 1-3 characterized in that the thickness of the layer of veneer (5) is between 1 and 2 mm.
5. An insulated composite door (1) according to any one of claims 1-4, characterized in that the layer of High Pressure Laminate (6) is at least two times greater than the thickness
of the layer of veneer (5).
6. An insulated composite door (1) according to any one of claims 1-5, characterized in that a decorative groove is machined into the exposed surface of the layer of High Pressure
Laminate (6).
7. An insulated composite door (1) according to claim 6, characterized in that the groove has a depth of at least 2mm.
8. A building comprising an insulated composite door (1) according to any one of claims
1-7, where said door is arranged as an exterior door and where the layer of HPL (6)
is arranged on the exterior surface of the door.