FI20185632A1 - Bearing wall structure and method for producing the same - Google Patents

Abstract

A load-bearing wall structure composed of wall elements (2) comprising an outer surface (3), an inner surface (4) and a surface layer of a core layer (5) of heat insulating material, comprising wall elements arranged side by side with vertically spaced edges 8 shaped so that a space is provided at the junction between the wall elements for casting the frame post. The wall structure comprises a load-bearing frame pillar formed at the junction between the wall elements by providing a drainage mass in the space at the junction, wherein the frame pillar is substantially elevated throughout the wall structure.

Description

CARRYING WALL STRUCTURE AND METHOD OF MANUFACTURING IT

Object of the invention

The invention relates to a load-bearing wall structure according to the appended independent claims and to a method for manufacturing the same.

Background of the invention

Load-bearing wall structures are built e.g. ingots made of thermal insulation material such as expanded polystyrene (EPS). In the middle of the blocks there is a casting space that allows the blocks to be filled with casting compound such as concrete. Such a wall structure built of ingots consumes a considerable amount of concrete, as ingots 15 require concrete for the entire wall's journey inside the ingots.

The wall structure built of cast ingots must still be separately coated or curtained in the desired way, which therefore still requires separate work steps.

Purpose and description of the invention

The object of the present invention is to reduce or even eliminate the above-mentioned problems in the prior art.

It is an object of the present invention to provide a wall element structure which enables a new way of constructing a load-bearing wall structure.

The object of the invention is in particular to provide a load-bearing wall structure which can be easily and quickly erected on site. In particular, it is an object of the invention to provide a load-bearing wall structure formed of wall elements comprising thermal insulation material and which requires considerably less casting compound, such as concrete or casting compound comprising concrete, compared to, for example, known ingot structures.

To achieve this object, the load-bearing wall structure according to the invention and the method for manufacturing the load-bearing wall structure are mainly characterized by what is set forth in the characterizing parts of the appended independent claims.

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Other preferred embodiments of the invention are set out in the other dependent claims.

In a typical load-bearing wall structure according to the invention, the wall structure is formed of wall elements comprising an outer surface, an inner surface and a core layer made of thermal insulation material between the surface layers. a space for casting the frame post is formed at the joint, and the wall structure comprises a load-bearing frame post formed at the joint between the wall elements by arranging a casting mass in the joint 15, the frame post being substantially the entire height of the wall structure.

A typical method of making a load-bearing wall structure according to the invention comprises at least the following steps

- arranging wall elements side by side in the width direction of the wall structure and superimposed in the height direction of the wall structure, comprising an outer surface, an inner surface and a core layer made of thermal insulation material between the surface layers. a space for casting the frame post is formed at the joint, and the frame post is cast from the casting mass into the space at the joint between the wall elements.

The load-bearing wall structure according to the invention is based on prefabricated sandwich-type wall elements which can be arranged side by side in the width direction and superimposed in the height direction of the wall structure, and whose vertical edge or with concrete

20185632 prh 09 -07- 2018 with casting compound. Thus, at the vertical joints of the wall structure between the wall elements, frame supports bearing the wall structure can be formed substantially in the height direction of the entire wall structure. The load-bearing wall structure according to the invention is based in particular on the fact that the thermal insulation material forming the core layer of the wall elements has good compressive strength and the surface materials of the wall elements have good tensile strength, whereby the load-bearing frame structures can be formed by casting only at the joints between the wall elements. From the point of view of the load-bearing capacity of the wall structure 10 according to the invention, there is no need to form casting compound than load-bearing frame posts, so that the wall structure according to the invention consumes much smaller amounts of casting compound, such as concrete or concrete, than, for example, insulated ingots. The wall structure according to the invention utilizes the strength of the thermal insulation material as part of the strength of the wall structure, whereby the thermoforming material forming the core layer of the wall elements is formed as a uniform layer between the surface layers.

The wall structure according to the invention can also be utilized in the construction of high wall structures 20, since the frame posts can be formed uniformly between the wall elements from the entire height of the wall structure.

In the finished wall structure according to the invention, the load-bearing frame posts remain completely inside the core layer 25 formed of thermal insulation material. Thus, the load-bearing wall structure formed of wall elements according to the invention is a finished wall structure after the casting of the frame posts, and does not necessarily require the construction of separate surface layers. Since the load-bearing frame posts are completely surrounded by insulating material, the load-bearing wall structure according to the invention is substantially cold-bridge-free.

In addition, the advantage of the load-bearing wall structure according to the invention is the erection speed of the wall structure. The wall elements are prefabricated and only the erection of the wall elements 35 and the casting of the frame posts at the joints between the wall elements take place at the construction site.

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Brief description of the figures

The invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1 shows the structure of a wall element used in a wall structure according to an embodiment of the invention, and Figure 2 shows a schematic top view of a load-bearing wall structure according to an embodiment of the invention.

Detailed description of the invention

A typical load-bearing wall structure according to the invention comprises load-bearing vertical frame posts, the height of which determines the height direction of the wall structure 15. The wall structure further comprises an outer surface, an inner surface and a layer of thermal insulation material between the inner and outer surfaces. In the load-bearing wall structure according to the invention, wall elements are used, which comprise an outer surface, an inner surface and a core layer made of thermal insulation material between the surface layers. The wall elements used in the wall structure 20 according to the invention are so-called sandwich elements, i.e. plywood elements which are in themselves sufficiently rigid to withstand wind loads and other stresses on the wall structure.

The wall elements used in the wall structure are typically rectangular in shape. The wall elements comprise two parallel planar large surfaces, and the surfaces are defined by a first and a second parallel long edge side and a substantially perpendicular first and a second short edge side. The wall elements are typically arranged in the wall structure such that the short edge sides of the wall element are vertical edge sides and the long edge sides are horizontal edge sides in the wall structure. In this case, the long edge sides of the superimposed wall elements are opposite and the short edge sides of the wall elements arranged side by side in the width direction of the wall are opposite. However, the lengths of the edge sides can freely vary 35 depending on the wall structure to be built. The height of the superimposed wall elements determines the height of the wall structure.

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The wall structure according to the invention comprises juxtaposed wall elements, the opposing vertical edge sides of which are shaped in such a way that a space is formed at the joint between the juxtaposed wall elements for casting the frame post. In a preferred embodiment of the invention 5, the wall structure is formed by arranging wall elements side by side in the width direction of the wall structure and in the height direction of the wall structure, the vertical edge sides, typically short edge sides, of the height of the wall structure. However, the wall structure may also comprise wall elements whose side edges are not shaped, or wall elements whose only one edge side is shaped to form the casting of the frame post.

The frame post is formed at the joint between the wall elements placed next to each other by arranging a casting compound, such as concrete, a casting compound comprising concrete or a similar suitable casting compound, in the space at the joint. Typically, the frame posts are formed along the entire length of the height of the wall defined by the superimposed wall elements. In a preferred embodiment of the invention, the load-bearing frame posts are substantially contiguous throughout the height of the wall structure. However, the frame post can be cast from the casting compound either in parts, for a length defined by one or more wall elements, or at once for the entire height of the wall structure.

In the wall structure according to the invention, the frame post is substantially surrounded by the thermal insulation material 30 forming the core layer of the wall elements, the edge sides of the wall elements being shaped so as to form a space between the two adjacent wall elements. The design required by the frame post for the edge side of the wall elements is made in the layer of thermal insulation material of the wall element. In one embodiment of the invention, the edge sides of the wall elements are so-called transparent, ie the thermal insulation material is visible. Alternatively, the edge sides may also comprise structural layers on the surface of the layer of thermal insulation material.

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In a preferred embodiment of the invention, a support structure is arranged in the space at the connection point between the wall elements and the casting mass is arranged inside the support structure. The purpose of the support structure 5 is to strengthen the structure. The support structure arranged in the space at the connection point between the wall elements can be a pipe, a casting sock or a combination of these. In one embodiment, the support structure may be a casting sock or a similar support structure made of a flexible material. The support structure is substantially space-shaped, so that it presses against the wall of the side edges 10 of the wall elements. The support structure is filled with a casting compound, such as concrete, a casting compound comprising concrete or a similar suitable casting compound. The load-bearing frame posts also include the reinforcements required by the load-bearing frame posts within the casting compound, depending on the wall structure. Typically, the frame posts comprise reinforcements over substantially the entire length of the frame post.

The support structure arranged in the space at the joint between the wall elements may be a unitary structure along the entire length of the frame post, or it may be formed of interconnected parts. In one embodiment, for example, the support structure is arranged in parts 20 corresponding to the height of the wall element in the wall structure. The diameter of the space at the joint between the wall elements is typically 100 mm to 450 mm or 100 mm to 500 mm, which also corresponds to the diameter of the frame post to be formed from the casting compound. In this case, the diameter of the pipe or casting sock used as a support structure is substantially the same as the diameter of the formed space. A combination of a tube and a casting sock can also be used as the support structure, in which case a stronger structure can be used in the lower part of the frame post than in the upper part, since higher forces are applied to the lower part when casting the frame post.

In the wall structure according to the invention, the load-bearing frame posts can be formed from any suitable casting compound, such as concrete mass, concrete-containing casting compound or ceramic-based mass. The concrete mass can be any suitable concrete mass comprising a binder and an inorganic material. The concrete mass may be conventional concrete, fiber-reinforced concrete, aerated concrete or the like.

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The thermal insulation material forming the core layer of the wall elements used in the load-bearing wall structure according to the invention can be any suitable insulating material having sufficient strength properties. The compressive strength 5 of the thermal insulation material used must be at least 50 kPa (according to standard EN 826) in order for the wall elements to have sufficient stiffness and strength properties. Most typically, the compressive strength of the thermal insulation material is between 50 and 1000 kPa. According to a preferred embodiment of the invention, the core layer is extruded polystyrene (XPS), expanded polystyrene (EPS), polyurethane (PUR / PIR) or phenolic foam. In a preferred embodiment of the invention, expanded polystyrene (EPS) is used in the wall elements,

The wall elements are plywood elements comprising an outer surface and an inner surface 15 between which a core layer is formed. The core layer is formed so that the thermal insulation material forming the core layer substantially fills the entire space between the surface layers, only at the side edge (s) of the wall element the core material is shaped so as to form a space for the frame post. In one embodiment of the invention, the outer surface of the wall elements comprises a structural layer which forms the planar surface of the wall element and substantially completely covers the core layer on the outer surface of the wall element. The structural layer is typically arranged directly on the surface of the thermoplastic material forming the core layer. In one embodiment of the invention, the structural layer of the outer surface of the wall element comprises concrete, concrete-containing casting compound, foam concrete, mortar or similar casting mass comprising a binder and an inorganic material, and / or the outer surface structural layer comprises one or more plates, for example metal, sheet metal or reinforcement. In one embodiment of the invention, the concrete, mortar or similar casting layer may also comprise reinforcement layers, such as a reinforcing nonwoven mat or the like. The nonwoven mat may be made of fiberglass, carbon fibers, or other material having good tensile strength. The structural layer of the outer surface may be formed of one or more thin plates or the like. The outer surface 35 of the wall elements may comprise one or more structural layers depending on the desired properties and the requirements of the application.

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In one embodiment of the invention, the inner surface of the wall elements comprises a structural layer which forms a planar surface of the wall element and substantially completely covers the core layer on the inner surface of the wall element. The structural layer of the inner surface is typically arranged directly on the surface of the insulating material forming the core layer.

In one embodiment of the invention, the structural layer of the inner surface of the wall element comprises concrete, concrete-containing casting compound, foam concrete, mortar or similar casting mass comprising a binder and an inorganic material, and / or the inner surface structural layer comprises one or more plates, for example metal, sheet metal or reinforced.

In one embodiment of the invention, the concrete, mortar or similar casting mass layer may also comprise reinforcement layers, such as a reinforcing nonwoven mat or the like. The nonwoven mat may be made of fiberglass, carbon fibers, or other material having good tensile strength. The structural layer of the inner surface may be formed of one or more sheets or the like. The inner surface of the wall elements may comprise one or more structural layers, depending on the desired properties and the requirements of the application. Typically, the material of the inner surface structural layer is selected so that the inner surface of the wall element is a finished inner surface, and thus no longer requires a separate coating of the wall structure on the inside. This speeds up construction and lowers costs.

In one embodiment of the invention, the inner surface and / or the outer surface of the wall element comprises a structural layer comprising a mixture of casting mass and foam master powder. The foam insulation may be extruded polystyrene (XPS), expanded polystyrene (EPS), polyurethane (PUR / PIR) and / or phenolic foam. The casting mass can be concrete, casting mass comprising concrete or any suitable casting mass. The mixture of casting compound and foam insulation crumb can form a structural layer of the inner surface and / or the outer surface of the wall element 30. Typically, the structure forms the planar surface of the wall element and substantially completely covers the core layer on the inner surface of the wall element. Alternatively, a structural layer formed of a mixture of casting compound and foam insulation crumb is formed on the surface of another structural layer in the wall element. The foam curd comprises pieces of foam typically having a diameter of, for example, 1 to 10 mm or 1 to 5 mm. The foam masterbatch may be, for example, a recycled foam insulation material. In one invention

In the embodiment according to 20185632 prh 09 -07-2018, the mixture of concrete and foam insulation crumb comprises 1 to 10% by weight of foam insulation crumb, based on the total weight of the mixture. Calculated as a volume percentage, the mixture of concrete and foam insulation crumb may comprise more than 50% foam insulation crumb.

Mixing foam insulation crumbs into the casting compound enables good fire protection and sound insulation properties for the entire wall element. The structural layer formed from a mixture of casting compound and foam insulation crumb is typically a nearly non-combustible material that protects the structures on the surface of the insulating material layer in the event of a fire. In order to achieve the desired sound insulation and fire protection properties, the structural layer formed from the mixture of casting compound and foam insulation crumb can be either on the inner surface or on the outer surface of the wall element or both. The inner surface and / or the outer surface of the wall element may also comprise other structural layers, as described above. In one embodiment of the invention, the outer surface and / or inner surface of the wall element comprises a first structural layer formed of a mixture of concrete and foam insulation, typically a thermal insulation material, and further the wall element comprises a second layer on the surface of the first structural layer made of concrete, mortar or similar casting compound. and inorganic material. In this way, the desired sound insulation and / or fire protection properties of the wall element are obtained with a mixture of casting compound and foam insulation crumb, and in addition, a second layer of casting compound allows a more finished outer or inner surface to be formed.

In one embodiment of the invention, the thickness of the casting layer on the inner and / or outer surface of the wall element or the structural layer formed of the mixture of casting mass and foam insulation crumb may be, for example, 1 to 50 mm or 1 to 20 mm.

The materials of the wall elements according to the invention, comprising the core layer, the outer surface and the inner surface, vary depending on the desired properties and the intended use. In one embodiment of the invention, the outer surface and / or the inner surface of the wall element comprises one or more metal sheets forming the outer surface and / or the inner surface of the wall element. The metal sheet can be, for example, sheet metal. In a preferred embodiment, the core material of the wall element is expanded polystyrene (EPS) and the inner and

20185632 prh 09 -07- 2018 the outer surfaces comprise a metal sheet, such as sheet metal. Such a plywood element is in itself sufficiently strong and rigid and is suitable for use in the load-bearing wall structure according to the invention.

The core layer of the wall elements may comprise grooves on the surface of the core layer, for example in the longitudinal and / or width direction on the surface of the core layer which is against the inner and / or outer surface. The grooves can be arranged in other ways, for example diagonally. More typically, the groove is arranged against the outer surface of the wall element. Such a grooved structure 10 of the core layer allows ventilation slots in the wall structure, if required.

The thickness and size of the wall elements used in the wall structure according to the invention vary depending on the application. In one embodiment, the thickness of the wall elements can be, for example, 300 to 500 15 mm. The wall element is generally rectangular in shape, comprising two parallel planar large surfaces (outer surface and inner surface), and the surfaces are defined by first and second parallel long edge sides and perpendicular first and second short edge sides perpendicular thereto. Typically, the short edge sides comprise a design that forms a space for forming load-bearing frame posts when the short edge sides of the two wall elements are arranged against each other. The length of the edge pages may vary depending on the application. The wall structure according to the invention can be formed from wall elements in such a way that there are load-bearing frame posts in the wall structure at intervals of 2000 to 6000 mm or 4000 to 6000 mm in the width direction of the wall structure, measured from the center to the center of two adjacent frame beams. In the wall structure according to the invention, the wall element is typically integral between two frame posts. In this case, for example, the length of the long edge sides of the wall element can vary between 2000 and 4000 mm. The long edge sides 30 of the wall elements are parallel to the width of the wall structure and substantially perpendicular to the load-bearing frame posts. In the height direction, the wall structure can be manufactured up to 6 - 8 m, typically the height of one wall element is, for example, 1000 mm or 1200 mm. The above lengths are exemplary only and are not intended to limit the invention.

In a preferred embodiment of the invention, the wall elements are superimposed in the height direction of the wall structure.

20185632 prh 09 -07- 2018 there is a tongue-and-groove connection or the like, which enables the wall structure to be stacked and the wall elements to be placed tightly against each other. Typically, the ehstema paint layers of the wall elements comprise a tongue or other similar design on their side surface, which allows the wall elements to be placed tightly fastened to each other.

The load-bearing wall structure according to the invention can be erected on site. In addition to the wall elements according to the invention and the frame posts to be cast on site, the wall structure comprises the necessary horizontal support structures at the upper and lower ends of the wall structure and possibly fasteners and support reinforcements for fastening to other structures depending on the construction site.

In the method according to the invention, the wall elements described above are arranged side by side in the width direction of the wall structure 15 and superimposed in the height direction of the wall structure so that a space for casting frame posts is formed at the joint between the wall elements placed side by side in the width direction. The frame posts are cast from the casting compound into the space 20 at the joint between the wall elements. Prior to casting, the reinforcements required for the frame posts are arranged inside the support structure.

In one embodiment of the invention, a support structure is arranged in the space at the joint between the wall elements of the wall structure, whereby the casting mass is arranged inside the support structure. In one embodiment of the invention, the support structure is arranged substantially the entire distance in the height direction of the wall structure. The support structure can finally be installed at the height of the entire wall structure, or it can be arranged layer by layer when the wall elements are arranged one on top of the other.

In a typical embodiment, the wall structure according to the invention is formed from wall elements on top of the foot. The foot can be uniform throughout the wall structure or, alternatively, a column foot. The necessary gripping irons are provided on the foot to form the lowest layer 35 of the wall elements. Typically, the wall elements forming the lowest layer of the wall structure are attached to the foot or similar substrate with some suitable mass, such as glue, grout or

20185632 prh 09 -07- 2018 with the corresponding. In the space formed between the wall elements, a support structure can be arranged. If a casting sock is used as a support structure, it can be arranged at the bottom of the space reserved for the frame posts with a small amount of mortar or the like so that the casting sock remains in place.

Detailed description of the figures

Figure 1 shows the structure of a wall element 2 according to an embodiment of the invention, comprising an outer surface 3, an inner surface 4 and a core layer 5 made of thermosetting material between the surface layers. The vertical edge sides 8a, 8b of the wall element 2 are shaped so that a space is formed at the joint between the wall elements placed side by side in the width direction of the wall structure for casting the frame posts 15. The designs are made of the thermal insulation material of the core layer.

The outer surface 3 and / or the inner surface 4 may comprise one or more structural layers.

Figure 2 illustrates a top view of a load-bearing wall structure 1 according to an embodiment 20 of the invention. The wall structure 1 is formed by arranging wall elements 2, 2 'side by side in the width direction and one on top of the other in the height direction. The wall structure 1 comprises load-bearing frame posts 6, 6 ', 6 ”formed at the joint between the wall elements, where due to the design of the vertical edge sides 8a, 8b of the opposing wall elements 2, 2' a space is created which allows the frame posts 6, 6 ', 6" potting. In the space between the wall elements 2, 2 ', a support structure 7, such as a tube and / or a casting sock, is further arranged, which abuts tightly against the edges formed by the core layer 5 of the wall element. A casting mass is arranged inside the support structure 7, whereby the molded frame post 6, 6 ', 6 ”can be formed substantially in the height direction of the entire wall structure. The frame posts 6, 6 ', 6 ”are completely inside the wall elements 2, 2' in the finished wall structure, whereby the outer surface 3 and the inner surface 4 of the wall elements 2, 2 'form uniform finished surfaces in the wall structure.

Claims (10)

Load-bearing wall structure (1), characterized in that the wall structure (1) is formed by wall elements (2, 2 ') comprising an outer surface (3), Load-bearing wall structure according to claim 1, characterized in that the core layer (5) of the wall element (2, 2 ') is extruded polystyrene (XPS), expanded polystyrene (EPS), polyurethane (PUR / PIR) or phenolic foam, most typically the core layer (5) is expanded polystyrene 20 (EPS). Load-bearing wall structure according to Claim 1 or 2, characterized in that a support structure (7) is arranged in the space at the joint between the wall elements (2, 2 ') and the casting mass is provided with a support structure. 25 in. Load-bearing wall structure according to one of the preceding claims, characterized in that the support structure (7) arranged in the space at the joint between the wall elements (2, 2 ') is a pipe, a casting sock or a combination thereof. 5 - concrete, mortar or similar casting compound comprising a binder and an inorganic material, a mixture of casting compound and foam insulation powder, and / or - one or more plates. 10 Load-bearing wall structure according to one of the preceding claims, characterized in that the outer surface (3) of the wall element (2, 2 ') comprises a structural layer comprising - concrete, mortar or similar casting compound comprising a binder and 35 inorganic materials, a mixture of casting compound and foam insulation powder, and / or - one or more plates. 20185632 prh 09 -07- 2018 5 between the inner surface (4) and the surface layers of the core layer (5) made of thermal insulation material, the thermal insulation material has a compressive strength of at least 50 kPa, and the wall structure (1) comprises adjacent wall elements (2, 2 ') with opposite vertical sides 8 is shaped so that a space for casting a frame post (6, 6 ', 6 ”) is formed in the joint 10 between the wall elements, and the wall structure (1) comprises a load-bearing frame post (6, 6', 6”) formed at the joint between the wall elements the body post (6, 6 ', 6 ”) is substantially in the height direction of the entire wall structure. Load-bearing wall structure according to one of the preceding claims, characterized in that the inner surface (4) of the wall element (2, 2 ') comprises a structural layer comprising Load-bearing wall structure according to one of the preceding claims, characterized in that the outer surface and / or the inner surface of the wall element (2, 2 ') comprises a first structural layer of a mixture of casting compound and foam insulation and a second layer of concrete, mortar or the like. 15 of a casting mass comprising a binder and an inorganic material. Load-bearing wall structure according to Claim 6 or 7, characterized in that the mixture of casting compound and foam insulation crumb comprises 1 to 10% by weight of insulation crumb, based on the total weight of the mixture. Load-bearing wall structure according to one of the preceding claims, characterized in that the outer surface (3) and / or the inner surface (4) of the wall element (2, 2 ') comprise one or more metal sheets forming the outer surface and / or the inner surface of the wall element. Load-bearing wall structure according to one of the preceding claims, characterized in that the load-bearing frame post (6, 6 ', 6 ”) is substantially inside the thermal insulation material forming the core layer (5). 30 A method of manufacturing a load-bearing wall structure (1), characterized in that the method - arranging wall elements (2, 2 ') side by side in the width direction of the wall structure and one on top of the other in the height direction of the wall structure, comprising an outer surface (3), an inner surface (4) and a thermal insulation material 35 between the surface layers of the core layer (5) having a compressive strength of the thermal insulation material of at least 50 kPa, the wall structure comprising juxtaposed wall elements (2, 2 ') with opposed vertical edge sides (8a, 8b) formed so as to (6, 6 ', 6 ”) for casting, and - cast the frame post (6, 6 ', 6 ”) from the casting compound into the space at the joint between the wall elements. Method according to Claim 11, characterized in that a support structure (7) is arranged in the space at the joint between the wall elements (2, 2 '), the casting mass being arranged inside the support structure. A method according to claim 11 or 12, characterized in that the support structure is arranged substantially the entire distance in the height direction of the wall structure.