FI12381U1 - Wall element and block of flats - Google Patents

Description

WALL CELL AND FLOORING - VÄGGELEMENT OCH

FLERVÄNINGSHUS

TECHNICAL FIELD OF THE INVENTION

The invention relates to a wall element according to the preamble of the independent protection claim below. The invention further relates to a block of flats that have been constructed using wall elements according to the invention.

BACKGROUND OF THE INVENTION

It has been found that a solid wood structure of sufficient thickness is healthy and good as a building material for centuries. Concrete is again known as a strong, well-insulating material for fire and sound, for example, in hollow core.

Traditionally, the combination of solid wood and concrete in load-bearing structures has been impossible because concrete is so heavy that wood and log structures cannot withstand without breaking or breaking.

Because of the load-bearing capacity of wooden wall structures in building construction, especially in the construction of wooden block houses, it has been necessary to use wooden floor structures or wood-concrete joints. However, the use of wood as a floor structure may cause sound insulation problems and inconveniences and considerable costs, for example in the event of fire and water damage.

OBJECTIVES OF THE INVENTION

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

The object of the present invention is to provide a breathable and healthy carrier wall element structure. In particular, it is an object of the present invention to provide a wooden wall element, which allows the use of a concrete base.

It is also an object of the present invention to provide a healthy and safe apartment building that is cost-effective to build.

The above disadvantages can be reduced or even eliminated, and the above defined objectives are achieved by the present invention, characterized by what is defined in the characterizing part of the independent claim below.

Some embodiments of the invention are described in the dependent claims below.

DESCRIPTION OF THE INVENTION

A typical wall element according to the invention is characterized in that it comprises a first pile layer formed by adjacent vertical wooden pegs and a plywood layer having a first pile layer attached to the first surface thereof.

The invention combines a large number of load-bearing and non-wrinkled wood sticks with plywood so as to form wall elements of a desired size with a bearing capacity such that they carry the weight of a plurality of concrete slab floor slabs. It is possible to dimension the wall element as desired, taking into account the required strength, as well as the heat and sound insulation requirements. For example, the width of the wall element may be 4000-12000 mm and the height may be, for example, 2500-4000 mm. The thickness of the wall element may be, for example, 100-400 mm, depending on the desired bearing capacity. The carrying capacity of the wall element according to the invention can be over 100 t per wall meter. The architecture of the wall element is also easily modifiable, for example, by changing the shape of the tree sticks.

The first pile layer of the wall element according to the invention is formed by dimensionally oriented vertical wood pegs, which are stacked side by side so that their vertical sides can be stuck together or there may be a gap therebetween. If there is a gap between the tree sticks, it is preferably small, for example 0.5-5 mm. The first layer of wood pegs, when folded together, form the first and second surfaces and side surfaces. The first surface of the wooden posts of the first pole layer is the outer surface of the wall element. The dimensioning of the wooden posts is determined by the desired size of the wall element. For example, the width of the individual wood insert may be 150 mm and the thickness may be, for example, 150 mm. The length of the wooden pin is substantially the same as the desired height of the wall element. Preferably, the dimensioning of the wood poles is designed so that the wall element is made of an entire pole. In this case, no horizontal seams or partial poles remain on the surface of the wall element. Wood pegs are preferably solid wood and fine-cut. Wood pegs can be made of any wood. Preferably, the wood pegs are made of softwood, such as spruce or pine.

The first surface formed by the wooden posts of the first pole layer and the lateral surfaces of the posts can be treated weatherproof, for example by a breathable paint or lacquer, even before the wall element is piled. In this case, the treated first surface may be a finished outer surface of the wall element, which need not be treated separately. The wood pegs may be attached to each other at the ends of the posts, for example, with pins so that the fasteners do not appear on the outer surface of the finished wall element. The sides of the first layer of wooden posts may have grooves that can be mounted on the seams to prevent weather effects on the seam structure and improve thermal insulation and sound insulation. For example, the groove may be about 30 mm from the outer edge.

The wood pegs of the first pile layer of the wall element are secured from their second surface to the first surface of the plywood layer. The fastening can be done, for example, by gluing or screwing. Preferably, the wood pegs are glued with low emission M1 graded glue. The plywood layer is formed from at least one plywood. The plywood layer may comprise two or more plywood overlaps. The single plywood may be substantially the same size as the wall element or there may be more than one plywood adjacent to the wall element. The joints between the plywood within the element can be connected to one another, for example by means of a groove and a seal strip. Preferably, the wall element plywood layer comprises one single plywood. The plywood thickness can be, for example, 20 mm to 40 mm. The plywood is preferably made with low-emission, M1-grade adhesive. The plywood used in the wall element according to the invention may be made of any wood. Preferably, the plywood is made of softwood. The advantage of Hawthorn plywood is its tightness, strength and stiffness. The plywood forms a crosspiece in the wall element. The plywood may comprise a crash or groove for securing the lifting member of the wall element. The upper edge of the wall element can be moved for mounting the midsole structure.

An advantage of a typical wall element according to the invention is its good carrying capacity. The wall element according to the invention is suitable for use as a concrete wall structure with a concrete floor. The solid wood wall element structure is also healthy and breathable. The wall element according to the invention can be used in all types of building construction, in particular in the construction of residential apartment buildings using concrete floors.

According to one embodiment of the invention, a second ply layer is formed on the second surface of the plywood layer formed by adjacent vertical wooden pegs. The fastening can be done, for example, by gluing and / or screwing. Preferably, the wood pegs are glued with low emission M1 graded glue. The number of vertically cut vertical tree pegs is stacked side by side so that their vertical sides are closed together. Wood pegs can be attached to each other at the ends of the pegs, for example with cam pins. The wood pegs, when folded together, form the first and second surfaces and side surfaces of the second pile layer. The first surface of the second pole layer is a surface fixed to the plywood and the second surface is the inner surface of the wall element. The dimensioning of the wooden posts is determined by the desired size of the wall element. For example, the width of the individual wood insert may be 150 mm and the thickness may be, for example, 50 mm. The length of the wooden pin is substantially the same as the desired height of the wall element. Advantageously, the dimensioning of the tree sticks is designed so that the wall element is made of a complete pile. In this case, no horizontal seams or partial poles remain on the surface of the wall element. Preferably, the wood pegs are planed solid wood. Wood pegs can be treated with, for example, breathable paint or varnish. Wood pegs can be made of any wood. Preferably, the wood pegs are made of softwood, such as spruce or pine. The sides of the second pole layer of wooden posts may have grooves that can be mounted on the seams to prevent weather effects on the seam structure and improve thermal insulation and sound insulation.

According to an embodiment of the invention, an intermediate pile layer is formed on the second surface of the plywood layer, formed by vertically spaced vertical wooden pegs. The intermediate bushings of the intermediate floor layer comprise first and second surfaces and side surfaces. The first surface is attached to the plywood. Wood pegs in the intermediate pile layer can be attached to another surface of the plywood layer, for example by gluing and / or screwing and / or nailing. The adhesive is preferably a low-emission M1 grade adhesive. Vertical wood pegs cut to size have been laid so that there is a gap between their vertical sides. Wood pegs can be attached to plywood, for example, at intervals of 30-60 mm. The dimensioning of the wooden posts is determined by the desired size of the wall element. For example, the width of the individual wood insert may be 95 mm and the thickness of the wood insert, for example, 45 mm. The length of the wood block is substantially the same as the desired height of the wall element. The intermediate pegs of wood pegs can be made of any wood. Preferably, the wood pegs are made of softwood, such as spruce or pine.

According to one embodiment of the invention, a second ply layer is formed on the intermediate pile layer, which is formed by adjacent vertical wooden pegs. The fastening can be done, for example, by gluing and / or screwing. The adhesive is preferably a low-emission M1 grade adhesive. Vertical wood pegs cut to size have been stacked side by side so that their vertical sides are closed together. Wood pegs can be attached to each other at the ends of the pegs, for example with cam pins. The wood pegs, when folded together, form the first and second surfaces and side surfaces of the second pile layer. The first surface of the second pile layer is the surface attached to the intermediate pile layer and the second surface is the inner surface of the wall element. There are vertical tunnels between the first surface of the second pole layer of the wall element and the plywood which can be used for piping and / or cabling. In one embodiment, the wall element comprises said piping and / or cabling. Tunnels are tight, so they can also act as thermal insulation.

The dimensioning of the wooden posts is determined by the desired size of the wall element. For example, the width of the individual wood insert may be 150 mm and the thickness, for example, 50 mm. The length of the wood block is substantially the same as the desired height of the wall element. Advantageously, the dimensioning of the tree sticks is designed so that the wall element is made of a complete pile. In this case, no horizontal seams or partial poles remain on the surface of the wall element. Preferably, the wood pegs are planed solid wood. Wood pegs can be made of any wood. Preferably, the wood pegs are made of softwood, such as spruce or pine. Wood pegs can be treated with, for example, breathable paint or varnish. The sides of the second pole layer of wooden posts may have grooves that can be mounted on the seams to prevent weather effects on the seam structure and improve thermal insulation and sound insulation.

Openings in windows and / or doors can already be formed in the wall element at the stage of manufacturing the element. The wall element may comprise windows and doors that can be mounted on the wall elements already at the manufacturing stage. Windows and doors can be installed between the first and second pile layers so that no separate listings are required.

According to an embodiment of the invention, the wall element comprises at least two horizontal beams between which the wall element is assembled. The wall element may comprise four horizontal beams between which the wall element is assembled. Horizontal beams form the edge beams at the top and bottom of the wall element. The various layers of the wall element are attached to the top and bottom edge beams, for example by gluing and / or screwing and / or nailing. Horizontal beams can be made of, for example, plywood, solid wood or solid wood. Horizontal beams can be made of impregnated material. Horizontal beams also serve as fastening surfaces or as fasteners for lower, intermediate and top floor structures.

According to one embodiment of the invention, the vertical seams between the wooden posts of the first and second pole layers are at different points in the width direction of the wall element. This strengthens the structure of the wall element.

According to one embodiment of the invention, the plywood layer comprises a bump or groove for the lifting members of the wall element. For example, a lifting element with a threaded steel may be used as a lifting member. The training or grooving in the plywood layer allows easy attachment and removal of the lifting element from the wall element. The groove in the plywood layer or the bump can cause the wall element to be lifted evenly.

According to one embodiment of the invention, the vertical pegs of the first pile layer are separated from each other in order to allow for a life between them. The first poles are exposed to moisture and temperature fluctuations in the finished wall structure. The living resources between the vertical tree sticks allow the wood to swell and shrink according to the weather so that no additional stresses are created on the wall element. For example, a gap of 0.5 to 5 mm can be left between the vertical sides of the wooden posts of the first pole layer.

The invention further relates to a block of flats of which at least a portion of the supporting walls are formed of the wall elements according to the invention and whose intermediate bases are made of concrete. All the bearing walls of the apartment building may be formed of the wall elements according to the invention. Preferably, all the exterior walls of the apartment block are formed of the wall elements according to the invention. For example, an apartment house according to the invention may have over 2 or 3-10 layers.

The apartment building according to the invention can be constructed by lifting the wall elements into the lifting means with lifting means and lifting accessories which can be attached to the cavities or grooves in the wall element of the wall element. Wall elements can be lifted directly or stored temporarily. Wall elements are supported during installation. The wall elements can be mounted in a row so that the first side layer of the first wall element comes against the side of the first pole layer of the second wall element. The wall elements can be connected to each other, for example by screwing or nailing, but so that they do not remain visible on the finished outer and inner surfaces. The wall elements can be joined together so that the vertical surfaces of the wall elements are not formed on the exterior surfaces of the apartment block, but the planing surface continues uniformly through the building.

After installing the wall elements, the concrete floor constructions can be lifted on them. The intermediate floor structure can be mounted in a cavity at the top of the wall element. The underside of the floor structure then comes over the top edge of the plywood and pile layers of the wall element. At the upper edge of the wall element, the surface facing the midsole structures can be used as a bitumen fabric. After the intermediate floor is installed, the new wall element layer is mounted on the intermediate floor structure, for example, so that the lower edge of the wall element comes against the upper surface of the midsole structure. Also, a bitumen fabric can be used between the lower edge of the wall element and the midsole structure. Attachment between the wall elements and the midsole structures can be done, for example, by wedge anchors, steel pins, angular iron, bolt bolt or mass. The intermediate floor structure may be fixed between the wall elements so that no horizontal seams remain on the exterior surface of the apartment building. However, it is preferred to use a seam strip, which forms a drip strip and a weather protection behind the seam groove, in a horizontal joint between the wall elements.

The advantage of a typical apartment block according to the invention is the cost-efficiency and speed of construction, because prefabricated wall elements and concrete intermediate floor structures can be used as the frame structures of the apartment building. In addition, a block of flats using wall elements and concrete intermediate floor structures according to the invention is more fire-resistant and also more durable in water damage cases, and more easily and, more preferably, retardable than an apartment building with wooden floor constructions. The advantage of the apartment building according to the invention is also good sound insulation, because intermediate floor structures can be made of concrete, which is itself a sound insulating material.

According to one embodiment of the invention, at least some of the concrete-based intermediate floors are made of hollow core slabs. Concrete floors can be made entirely of hollow core slabs. The hollow core is a ready-made concrete and steel element that can be used as a load-bearing structure for buildings in sub-floors, bases and tops. The hollow core is provided with longitudinal cylindrical cavities. These make the tile lighter. The cavity can also be used as a route for electric wires. Hollow slabs are generally standard, but can be made up to 20 m depending on the need for use. For example, the thickness of the hollow core may be 150-400 mm. The advantage of the hollow core is its light weight compared to conventional concrete casting, excellent carrying capacity, installation speed and affordability. Also, the hollow core does not rot, nor does it mold and isolate the sound well.

According to an embodiment of the invention, the load-bearing outer walls are formed from the wall elements according to the invention. The exterior walls of the apartment building made of the wall elements according to the invention can carry a concrete floor-based floor structure.

According to one embodiment of the invention, the bottom, intermediate and upper bottom structures are fixed to the horizontal beams of the wall element. Horizontal beams serve as fastening surfaces or as fasteners. In this case, the underside of the floor structure is mounted, for example, on a horizontal edge beam at the top of the wall element. The surface of the wall element's horizontal edge beam against the floor constructions may be used on the bituminous fabric. After installing the midsole, the new wall element layer is mounted on the midsole structure so that the horizontal edge beam of the lower edge of the wall element comes against the upper surface of the midsole structure. Between the horizontal beam and the midsole structure can be used bitumen fabric. Attachment between wall elements and intermediate floor structures can be done, for example, by wedge anchors, steel pins, angular bars, bolt punches or by mass. The embodiments and advantages mentioned in this text apply, mutatis mutandis, to the wall element according to the invention as well as to the apartment block, although it is not always mentioned separately.

BRIEF DESCRIPTION OF THE DRAWING

In the following, the invention will be described in more detail with reference to the exemplified embodiments and the accompanying figures, in which Figure 1 shows, by way of example, a cross-sectional top view of a wall element according to an embodiment of the invention; and a joint of a concrete base, and Figure 4 shows, by way of example, a cross-section of an apartment block according to an embodiment of the invention.

DETAILED DESCRIPTION OF THE DRAWING

Fig. 1 shows, by way of example, a cross-sectional top view of a wall element according to an embodiment of the invention. The wall element (101) comprises a first pile layer (102) formed by adjacent vertically cut vertical wood pegs (103). The vertical wood pegs (103) are stacked side by side so that their vertical sides are closed to each other. The vertical pegs (103) of the first pile layer (102) are attached to each other by pins (104) at the ends of the pegs. The wall element (101) comprises a plywood layer (105) having a first ply layer (102) attached to its first surface. The plywood layer (105) is formed from one plywood (106) covering the surface of the first pile layer (102). The first ply layer (102) is attached to the first surface of the plywood (106), for example with adhesive and / or screws. An intermediate pile layer (107) is provided on the second surface of the plywood (106), formed by spaced vertically spaced tree pegs (108). Vertical wood pegs (108) cut to size have been laid so that there is a gap between their vertical sides. The wood pegs (108) of the intermediate pile layer (107) are attached to the second surface of the plywood layer (105), for example by gluing and / or screwing and / or nailing. A second ply layer (109) is formed in the intermediate pile layer (107) of the wall element (101) formed by adjacent vertically spaced tree pegs (110). The fastening can be done, for example, by gluing and / or screwing. The vertically cut vertical wood pegs (110) are stacked side by side so that their vertical sides are closed together. The wooden plugs (110) are attached to each other at the ends of the posts with comb nails (111). The vertical seams (103, 110) between the first (102) and second pole layers (109) of the wall element (101) are mutually spaced at different points in the width direction of the wall element (101) to reinforce the structure. There are vertical tunnels (112) between the second pole layer (109) of the wall element (101) and the plywood layer (105) which can be used, for example, in piping and / or cabling. The surface of the first pole layer (102) outwardly of the wall element (101) may form a finished outer wall and the surface outward of the wall element (101) of the second pole layer (109) may form a finished inner surface. The vertical posts (103, 108, 110) of the wall element (101) and the plywood (106) are preferably dimensioned according to the desired size of the wall element (101).

Fig. 2 shows, by way of example, a cross-sectional side view of a wall element according to an embodiment of the invention. The first ply layer (102) of the wall element (101), the plywood layer (105), the intermediate pile layer (107) and the second pile layer (109) are piled between two horizontal edge beams; between the top (201) and the lower beam (202). The pile layers (102, 107, 109) and the plywood layer (105) are attached to the top (201) and bottom edge beam (202), for example by gluing and / or screwing and / or nailing. A cavity (201, 202) is provided at the top edge and at the lower edge of the pile (102, 107, 109) and plywood layers (105) of the wall element (101) for the edge beams (201, 202). The horizontal beams (201, 202) may be made of impregnated material to prevent moisture from entering the structure of the wall element (101). Horizontal beams (201, 202) serve as mounting surfaces for lower, intermediate, and upper bottom structures.

Fig. 3 shows, by way of example, a joint between a wall element and a concrete base according to an embodiment of the invention. The underside of the concrete base (301) is mounted on the horizontal top edge beam (201) of the wall element (101) in the cavity at the top of the wall element (101). The surface of the wall element (101) facing the horizontal top edge beam (201) of the concrete spacer (301) can be used as a bitumen fabric (302). After installing the concrete base (301), the new wall element (303) is mounted on the concrete base (301), for example, by the horizontal edge beam (304) of the lower edge of the wall element (303) against the upper surface of the concrete base (301). The horizontal lower edge beam (304) and the concrete base (301) can be used as a bitumen fabric (305). Attachment between the wall elements (101, 303) and the concrete base (301) can be made with steel pins (306).

Fig. 4 shows, by way of example, a cross-section of an apartment block according to an embodiment of the invention. The exterior walls of the apartment block (401) are formed of wall elements (402). The lower (403), intermediate (404), and upper bottom structures (405) are attached to the horizontal beams (406, 407) of the wall elements (402). As intermediate floor structure (404), concrete hollow slabs can be used between the layers.

It will be apparent to a person skilled in the art that the invention is not limited to the examples described above, but the invention may vary within the scope of the protection requirements set forth below. The optional protective requirements disclose some possible embodiments of the invention and should not be per se construed as limiting the scope of the invention.

Claims (12)

PROTECTION REQUIREMENTS A wall element (101, 303, 402) comprising a first pole layer (102) formed by adjacent vertical wood pegs (103), characterized in that the wall element (101, 303, 402) comprises a plywood layer (105), the first surface of which has a plywood layer (105). a first ply layer (102) is attached. Wall element according to claim 1, characterized in that a second ply layer (109) is formed on the second surface of the plywood layer (105), formed by adjacent vertical wooden pegs (110). Wall element according to Claim 1, characterized in that an intermediate pile layer (107) is formed on the second surface of the plywood layer (105), which is formed by vertically spaced vertical wood pegs (108). Wall element according to Claim 3, characterized in that a second layer of poles (109) is formed in the intermediate pile layer (107) formed by adjacent vertical wooden pegs (110). Wall element according to one of the preceding claims, characterized in that the wall element (101) comprises at least two horizontal beams (201, 202, 406, 407) between which the wall element (101, 303, 402) is assembled. Wall element according to claim 2 or 4, characterized in that the vertical joints between the wooden poles (103, 110) of the first (102) and the second pole layer (109) are mutually spaced in the width direction of the wall element (101). Wall element according to one of the preceding claims, characterized in that the plywood layer (105) comprises a cavity or groove for the lifting members of the wall element (101). Wall element according to one of the preceding claims, characterized in that the vertical pegs (103) of the first pile layer (102) are separated from each other in order to allow a living between them. 9. Apartment building (401), characterized in that at least a portion of the load-bearing walls of the apartment block (401) is formed by wall elements (101, 303, 402) according to any one of the preceding claims 1 to 8, and whose intermediate supports (301, 404) are of concrete construction. 10. A block of flats according to claim 9, characterized in that at least part of the concrete flooring (301,404) is made of hollow core slabs. An apartment block according to claim 9 or 10, characterized in that the load-bearing outer walls are formed by wall elements (101, 303, 402) according to one of the preceding claims 1-8. A multi-storey building according to any one of the preceding claims 9-11, characterized in that the lower (403), intermediate (404), and upper bottom structures (405) are fixed to the horizontal beams (201,202, 406, 407) of the wall element (101,303,402).