SE1050264A1 - Construction panel for building - Google Patents

Abstract

The present invention relates to an insulating construction panel 1 for construction of a building, comprising a first cover layer 10 and a second cover layer 11, adapted to provide stability to the construction panel 1. Furthermore, the construction panel 1 comprises an insulating core layer 12 arranged between the first 10 and the second 11 cover layer. The construction panel 1 is characterized in that a control structure 13 is arranged to the first cover layer 10 so that the first cover layer 10 is placed between the control structure 13 and the core layer 12. Figure for publication: Fig. 1

Description

Such as electricians, carpenters, facade builders, etc. are not used to working with such types of materials. Furthermore, sandwich panels with wood cover layers are often used. Cover layers in wood can cause, for example, mold damage to the panel.

It is desirable to have a construction panel that solves the above-mentioned problems in the construction of buildings.

Summary of the Invention At least some of the above problems are solved by means of a construction panel according to claim 1.

Embodiments of the invention appear from the dependent claims and from the following description and drawings.

According to a first aspect of the invention, there is provided an insulating structural panel for building construction, comprising a first cover layer and a second cover layer, adapted to provide stability to the structural panel. Furthermore, the construction panel comprises an insulating core layer arranged between the first and the second cover layer.

The construction panel is characterized in that a control structure is arranged to the first cover layer so that the first cover layer is placed between the control structure and the core layer.

The rule structure can, when mounting the construction panel as a wall when constructing a building, be directed towards the inside of the wall, ie. the side of the wall facing the inside of the building. This creates a wall structure that is similar to traditional construction methods for interiors of walls. The rule structure can be filled with additional insulation, in the same way as with a traditional construction method. People who design the building can thus feel familiar with the construction method and construct the inside of the wall as before. When completing the inside of the wall, the rule structure can be covered with plasterboard. A construction panel according to the invention does not let any moisture through, thanks to the insulating core layer, and thus moisture damage in the wall can be avoided. The core layer can have both an insulating function and a load transfer function to the cover layers. The load transfer function can contribute to the stability of the construction panel. Furthermore, such a construction panel can provide a sufficient insulating ability with a thinner wall thickness than with a traditional construction method. Thus, a building can have a larger internal dimension while maintaining the external dimension in relation to the traditional construction method. A construction panel according to the invention further has the advantage that it can be constructed in advance, which means that a short time is needed on the construction site for assembly and installation. This also makes the construction of the building cost effective. Furthermore, the fact that the construction panel is designed in advance, and that no organic materials are used against the outside of the wall, can mean that the wall construction functions effectively both as a climate screen and a moisture barrier. As cold bridges to the outside of the wall can be avoided, it makes the wall construction more energy efficient.

In a wider embodiment, the rule structure is a wooden rule structure. Thus, the inside of a wall can be constructed with the wooden beam structure which then resembles a wall of wooden beams constructed with a traditional construction method.

In an embodiment of the invention, at least one of the first and the second cover layer may consist of a fireproof material. In a further embodiment, the fireproof material may be magnesium oxide. Thus, cover layers can be provided which not only stabilize the construction panel, but also have a fire safety function. It can be a great safety advantage with a wall construction in a building that also has fire safety advantages. Furthermore, magnesium oxide can have the property that it is highly alkaline but not organic, and thus prevents, for example, mold from starting to grow in the structure if moisture were to form. This is in contrast to whether, for example, wood was used in the cover layers.

In another embodiment of the invention, the core layer may consist of a plastic material, preferably a foam plastic material. Thus, the main task of the core layer, to have an insulating function, can be fulfilled. Furthermore, such a plastic material can have the advantage that it is not organic, and thus further prevents, for example, mold growth in the panel. In addition, such a material is not water-permeable, which gives less risk of moisture damage and greater insulating ability. In one embodiment, the first cover layer, the second cover layer and the core layer may together form a sandwich-type construction panel. Thus, a construction panel can be produced which is stable and thin, but with a very good insulating ability. The same insulating ability with a wall from traditional construction methods requires a much thicker wall, while such a wall is less safe from moisture damage.

In a further embodiment, a carrier for plaster against an external façade of a building can be arranged on the second cover layer. Thus, no additional layer is required on the construction panel against the exterior facade of the building when the construction panel is mounted during construction of the building, but plaster can be applied directly to the construction panel. Thus, the need for air gap towards the outside of the wall can be avoided. As the plaster carrier is pre-assembled on the construction panel, the risk of moisture damage to the outside of the wall is also eliminated, as the construction panel can be manufactured in a protected environment.

In a further embodiment, an aluminum foil can be arranged on at least one of the first and the second cover layer. With an aluminum foil arranged on a cover layer, radiant heat can be reflected by the construction panel. According to an aluminum foil arranged on the first cover layer, preferably on the side facing away from the core layer, radiant heat from inside a building, when the construction panel is mounted as a wall in a building, can be reflected back into the building. In the same way, with an aluminum foil arranged on the side of the second cover layer directed away from the core layer, radiant heat from outside, towards a building where the construction panel is mounted as a wall, can be reflected back out, away from the building. This gives the construction panel additional insulating ability.

In one embodiment, the construction panel may be manufactured in a facility in advance, prior to use of the construction panel in the construction of a building. Thus, the construction panel can be manufactured in a protected environment, without risk of the construction panel being exposed to high levels of moisture.

In a further embodiment, the control structure can be arranged to define a space intended to be filled with an insulating material. The insulating material can be, for example, mineral wool. When the rule structure 10 15 20 25 30 5 defines such a space, the structure may resemble a rule structure for a wall according to a traditional construction method. Thus, the inside of a wall can be designed with traditional technology even though the wall is constructed of a construction panel containing a sandwich type panel.

Brief Description of the Drawings Fig. 1 shows a perspective view of a construction panel according to an embodiment of the invention.

Fig. 2 shows a schematic sectional view of a construction panel according to an embodiment of the invention.

Fig. 3 shows a schematic view in section of a house construction with construction panels according to an embodiment of the invention.

DESCRIPTION OF PREFERRED EMBODIMENTS The present invention will be described in more detail in the following with reference to the accompanying drawings, in which preferred embodiments of the invention are shown. However, the invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this description will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In the drawings, the same number refers to the same element.

Fig. 1 shows a construction panel 1 according to an embodiment of the invention. A first cover layer 10 and a second cover layer 11 are arranged on each side of a core layer 12. Together, these three parts 10, 11, 12 form a so-called sandwich panel. The cover layers 10, 11 are of magnesium oxide.

This gives the cover layers 10, 11 stable and fire-retardant properties.

The cover layers 10, 11 can also be made of other materials, such as polymer concrete, alkaline polymer or polyester mixed with a filling material such as sand, lime, potash or some ceramic material. The core layer 12 is made of a foam plastic material, for example polyurethane foam or an EPS plastic (Expanded Polystyrene). The function of the core layer 12 is to contribute to the strength and insulating ability of the construction panel 1. The core layer 12 has a function of transferring load to the cover layers 10, 11. On one side 15 of the first cover layer 10, the side which is intended to be directed inwards in a building, a control structure 13 is arranged.

The rule structure is preferably a wooden rule structure 13. In other embodiments, the rule structure may be of other materials such as steel or aluminum. The first cover layer 10 is thus placed between the core layer 12 and the wooden bar structure 13. The wooden bar structure 13 is adapted to resemble a wooden bar construction according to a traditional building construction of a wall in a building. Thus, contractors and others who work on a construction site with the construction of a building can recognize themselves with what it usually looks like when, for example, the inside of the wall of the building is to be completed. There is also less risk of handling errors at the construction site as the construction panel 1 is easy to install. The difference with a wall erected according to a traditional construction method is then instead that a wall erected with construction panels 1 according to the invention has a more effective insulating ability, and can be erected in a shorter time.

When assembling a construction panel 1 when erecting a wall in a building, the wooden frame construction 13 forms part of the inside of the wall in the building. On the opposite side of the construction panel 1, towards the outside of the wall in the building, a plaster carrier 14 is arranged in the construction panel 1. The plaster carrier is attached to the side of the second cover layer 11 which faces away from the core layer 12. The plaster carrier 14 may consist of a board of a EPS plastic or similar. The task of the plaster carrier 14 is to, after installation of construction panels 1 in the construction of a building, function as a carrier of plaster which constitutes the outer facade of the building. A construction panel 1 with such plaster carrier 14 eliminates the need for air gaps towards the outside of the wall construction of the building.

In order to further improve the insulating ability of the construction panel 1, one or both of the cover layers 10, 11 may have one side covered by an aluminum foil.

Then one side 15 of the first cover layer 10, directed towards the wooden lattice structure, is covered by an aluminum foil. Thus, radiant heat from inside the building is reflected back into the building. Heat radiating inside the building for heating can thus avoid heating the sandwich part 10, 11, 12 of the construction panel 1. In the same way, one side of the other cover layer, the side facing the plaster carrier 14, is covered by and aluminum foil.

Thus, heat radiation from outside is reflected back out, away from the building, and a heating of the sandwich part 10, 11, 12 of the construction panel 1 is avoided. This increases the insulating ability of the wall construction because heat radiation from the outside is reflected away and heat radiation from the inside is retained inside the building.

Fig. 2 schematically shows a constructed construction panel 1 for a wall in a building. The construction panel 1 is placed on a building foundation 40 so that the entire construction panel 1 except the plaster carrier 14 is located on the building foundation 40. On the outside of the plaster carrier 14 a plaster cladding 20 is arranged to constitute the outer facade of the building. On the wooden stud structure 13, to form part of the inside of the building wall, a plasterboard is arranged 30. For further insulation, a space defined by the wooden stud structure is filled with mineral wool 31. In this way, the inside of the building wall can be completed with only mineral wool. 31 and gypsum board 30 after construction of the construction panel 1. This results in a large time saving compared with the construction of a wall in a building according to a traditional construction method. A section wall for a building according to traditional rule construction with mineral wool takes an estimated 2.5-3 hours per square meter to build. A section wall with construction panels 1 according to the invention takes an estimated approximately 0.2 hours per square meter to erect.

Possible dimensions for an embodiment of the invention are described below.

The sandwich part 10, 11, 12 of the construction panel 1 is about 14 cm thick.

With a construction panel 1 according to the invention, a U-value of 0.1 can be reached with a thickness of the sandwich part of about 14 cm. A U-value indicates the thermal conductivity of a material layer. The value is given in units of watts per square meter and Kelvin. The better the insulation capacity, the lower the U-value.

Furthermore, the wooden bar structure 13 is about 10 cm thick, and the plaster carrier 14 is about 5 cm thick. This means that the thickness of the construction panel 1 is about 29 cm. When constructing a building, a wall can be constructed with a total thickness of about 30-31 cm, of which the construction panel 1 constitutes about 29 cm and plaster 20 applied to the plaster carrier 14 and a plasterboard 30 arranged 108 on the wooden frame structure 13 constitutes the remaining thickness. Such a construction meets the criteria for passive houses and works effectively as a climate screen and moisture barrier.

Fig. 3 shows construction panel 2 erected in a multi-storey building.

The floor joist 50 for the upper floor is then hung on the wooden frame structure 13 in the construction panel 2. Outside this suspension, the cover layers 10, 11, the core layer 12 and the plaster carrier 14 protect against the formation of any cold bridges.

This achieves a construction panel 2 that functions as a climate screen and moisture barrier even in a multi-storey construction.

Claims (13)

10 15 20 25 30 35 PATENT REQUIREMENTS An insulating structural panel (1) for building construction, comprising, a first cover layer (10) and a second cover layer (11), adapted to provide stability to the structural panel, an insulating core layer (12) arranged between the first (10) and the second (11) cover layer, characterized in that a control structure (13) is arranged to the first cover layer (10) so that the first cover layer (10) is placed between the control structure (13) and the core layer (12). An insulating construction panel (1) according to claim 1, wherein the rule structure (13) is a wooden rule structure. An insulating construction panel (1) according to any one of claims 1 or 2, wherein at least one of the first (10) and the second (11) cover layer consists of a fireproof material. An insulating construction panel (1) according to any one of the preceding claims, wherein at least one of the first (10) and the second (11) cover layer consists of magnesium oxide. An insulating construction panel (1) according to any one of the preceding claims, wherein the core layer (12) consists of a plastic material, preferably a foam plastic material. An insulating construction panel (1) according to any one of the preceding claims, wherein the first cover layer (10), the second cover layer (11) and the core layer (12) together form a sandwich-type construction panel. An insulating construction panel (1) according to any one of the preceding claims, wherein a support (14) for plaster is arranged on the second cover layer (11) and is intended to form an outer facade on a wall of a building. 10 15 20 25 10 An insulating construction panel (1) according to any one of the preceding claims, wherein an aluminum foil is arranged on at least one of the first (10) and the second (11) cover layer. An insulating construction panel (1) according to any one of the preceding claims, wherein the first cover layer (10), the second cover layer (11) and the core layer (12) together have a thickness of between 100-200 mm, preferably between 120-160 mm , more preferably between 135-150 mm. An insulating construction panel (1) according to any one of the preceding claims, wherein the core layer (12) has a thickness of between 80-190 mm, preferably between 100-140 mm, more preferably between 110-130 mm. An insulating construction panel (1) according to any one of the preceding claims, wherein the control structure (13) has a thickness of between 70-120 mm, preferably between 90-100 mm. An insulating construction panel (1) according to any one of the preceding claims, wherein the construction panel (1) is manufactured in a plant in advance, before using the construction panel in the construction of a building. An insulating construction panel (1) according to any one of the preceding claims, wherein the control structure (13) is arranged to define a space intended to be filled with an insulating material (31).