RU2394131C2 - Composite construction element - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: composite construction element, especially made in the form of wall, ceiling or roof element for house-building, includes several layers following each other as to height; at that, boards of the layers following each other as to height have various directions, and boards of one layer are attached to boards at least of adjacent layer by means of attachment pins made from light metal or synthetic material. Attachment pins are equipped with annular projections located at some distance from each other in longitudinal direction of attachment pin.

EFFECT: improving the connection between separate layers.

10 cl, 12 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a composite building element in accordance with the restrictive part of paragraph 1 of the claims.

State of the art

From the patent document of Germany No. 10163446 A1, a composite building element of this type is known, consisting of several layers of elongated plates or boards located adjacent to each other. The boards of the layers superimposed on each other have different directions and are connected to each other by nails, clamps, brackets or screws. Due to the different direction of the boards when laying in layers superimposed on each other, high stability of the composite building element is achieved. Particularly fast and economical joining of planks is achieved using simple nails driven with automatic nailing devices. However, due to the fact that composite building elements are subjected to repeated processing to obtain smooth external surfaces or for the manufacture of parts of windows or doors, steel nails are dangerous for tools. Therefore, to prevent the risk of damage to the tools during further processing of the composite building element, aluminum or a synthetic material for nails was proposed. In this case, it is possible, for example, to plan the external surfaces of a composite building element in a simple way without the risk of damage to the tools, so that these external surfaces can either directly serve as external walls, or serve as a base layer for painting, wallpaper stickers and other processing. However, with such processing of the composite building element, nail heads may be cut off, which impairs the integrity of the element.

Disclosure of invention

The problem to which the present invention is directed, is to create a composite building element that provides improved communication between the individual layers.

In accordance with the invention, the solution of the problem is achieved due to the features set forth in paragraph 1 of the claims. Preferred embodiments and further solutions for the development of the invention are protected in the dependent clauses.

In the composite building element of the invention, fixing pins made of light metal or synthetic material are provided with annular protrusions spaced apart in the longitudinal direction of the fixing pin. Using these annular protrusions, a connection is created between the fastening pin and the boards with kinematic closure, and due to this, an improved connection between the individual layers of the composite building element is achieved. The annular protrusions provide improved fastening of the fixing pins in the board and prevent loosening of the connection between the layers even when the fixing pin has no head or the head is cut off, for example, when planing the board. Composite building elements made in this way are highly stable and can easily withstand shaking during transportation and installation without delamination or relative displacement of the layers.

In a preferred embodiment, the fixing pins comprise a rod that tapers tapering toward the tip. Due to this, when driving the fixing pin, the board material is effectively shifted to the sides not only by the front of the rod, but also in its rear part, so that a sufficient holding clamping force is created in the rear part of the fixing pin due to deformation of the material. Due to this solution, the outer layers of the boards are also held with high strength. Due to the presence of annular protrusions, the fixing pins with a cylindrical rod also have a high holding force for reliable connection of the individual layers of the boards of the composite building element.

According to a preferred embodiment, the annular protrusions have a symmetrical shape in longitudinal section. In this case, the fixing pin creates the same holding force in both longitudinal directions. The protrusions can be made triangular, rectangular or trapezoidal.

Preferably, the protrusions spaced apart in the longitudinal direction of the fixing pin are of the same size. However, they may also have different sizes in width or height or in various shapes.

In an exemplary embodiment having advantages in terms of manufacturability and cost-effectiveness of manufacture, the boards of two layers lying on top of each other are connected in the crossing area by means of at least two diagonally located fixing pins. Due to this diagonal connection, an extremely high stiffness of the element is also achieved.

A particularly high density of the composite building element can be achieved due to the fact that the boards of the individual layers are connected to each other on their longitudinal sides by means of a tongue and groove connection or by tongue and groove profiling.

Between the individual layers of the boards, intermediate layers of film, paper or other suitable material may be laid. Practice has shown that sealing films that allow diffusion of windproof paper or similar materials are particularly suitable materials.

In a preferred embodiment, the fixing pins can be made in the form of nails with or without heads. However, they can also be made in the form of clamps, brackets or other elements.

List of drawings

Other features and advantages of the invention will be described in detail in preferred embodiments with reference to the accompanying drawings of the invention. In the drawings:

figure 1 depicts in perspective a composite building element in the form of a wall element and its angular section in an enlarged view,

figure 2 depicts a side view of a part of the composite building element of figure 1 and its section in an enlarged view,

figure 3 depicts a part of the composite building element of figure 1 in front view,

figure 4 depicts a perspective mounting pin in the first exemplary embodiment,

figure 5 depicts a perspective mounting pin in the second exemplary embodiment,

Fig.6 depicts a side view of the mounting pin of Fig.4,

Fig.7 depicts in an enlarged view of the area a and b of the mounting pin of Fig.6,

Fig.8 depicts in an enlarged view of the region C of the mounting pin of Fig.7,

figa-9d depict various examples of the protrusions of the mounting pin.

The implementation of the invention

Figure 1 shows a composite building element 1 in the form of a wall element, which consists of several layers of 2 boards 3 located in a layer next to each other. In the area shown in FIG. 2 in an enlarged view, it can be seen that the boards 3 of two layers 2 superposed on top of each other are arranged with a relative offset of 90 °, so that a structure of high density and strength with a layerwise displacement of the elements is created. Individual boards may have the same or different widths, as shown in FIG.

As can be seen in figure 2, the individual boards 3 of one layer 2 are connected to each other by means of a tongue-and-groove connection 4, which is here made in the form of a quarter connection, which ensures a particularly tight connection of the boards 3 into the tongue. In addition, in the illustrated embodiment, longitudinal parallel grooves 5 are provided on the inside of the boards 3. Due to this, an additional air gap can be created between the individual layers. In the shown example, the execution of the board 3 layers 2 have the same thickness, which simplifies the construction of the wall. However, the composite building element 1 may consist of layers of different thicknesses. Boards of different layers do not have to be trimmed or planed, as shown in FIG. 2. Especially in the inner layers of the composite building element, so-called side boards can be used, which in the manufacture of lumber go to waste wood. Due to this, the manufacturing cost can be reduced. In addition, through the use of such boards, it is possible in a simple manner to ensure the creation of air cavities between the layers and to improve the sound insulation and insulating properties of the composite building element.

In the enlarged section of FIG. 2, it is seen that the boards 3 of one layer 2 are connected to the boards of the next layer 2 by means of fixing pins 6, which will be described in detail below. As shown in FIG. 3, the fixing pins 3 are located diagonally in such a way that the boards 3, superimposed on each other, are connected to each other in the area of crossing or overlapping by two diagonally arranged fixing pins 6. Due to this diagonal connection, extremely high rigidity of the element. In the embodiment of FIG. 2, the mounting pins 6 cut not only into the boards 3 of the adjacent layer 2, but also partially into the boards of the underlying layer.

The manufacture of a composite building element is preferably as follows. First, on the table or workbench lay the first layer of several boards 3, placing them in parallel next to each other. Then a number of boards are compressed using lateral clamping devices until they fit snugly along their longitudinal sides. Next, a second layer of boards is laid on the first layer so that the upper boards extend transversely to the boards of the lower layer. Preferably, the upper layer boards are laid on the lower layer boards with an offset of 90 °. With the help of another lateral clamping device, the upper boards are also rallied until they fit snugly along their longitudinal sides. Additionally, the upper boards 3 are pressed against the underlying boards using a vertical clamping device and then fastened to the lower boards 3 by means of fixing pins 6. The fixing pins 6 are inserted using an automatic control nailing device. To do this, when laying, measure the width and position of the boards using appropriate measuring devices. According to the data obtained, the exact positions of the fixing pins can be determined 6. In this case, the positioning of the automatic nailing device can be controlled in such a way that, for example, in the area of crossing or overlapping of two planks 3 lying one above the other, the fastening is carried out by at least two fixing pins 6, preferably located diagonally in this area. Further, the following layers of boards can be suitably stacked with their fastening by the following fixing pins 6 until the desired overall thickness is achieved. After this, the boards 3 of the outer layers 2 can be planed in order to serve either as an outer wall or as a base for applying paint, gypsum boards, wallpaper and similar coatings.

Figures 4-8 show various mounting pins for attaching individual boards. The mounting pins are made of light metal, preferably aluminum. Aluminum has high strength, but is soft enough to handle with woodworking tools. The mounting pins can be made of wire wound into a roll or a bay. Using a special device, the wire can be unwound from a roll or a bay, straightened and cut into pieces of the desired length. The mounting pins made in this way can then be placed without additional mechanical processing into the nailing shop and then inserted into the boards, for example, using pressurized air.

The mounting pin 6, shown in Fig.4-8, is made in the form of a rod 8 with annular protrusions 7, a tip 9 at the front end and an expanded head 10 at the rear end. The rod 8 round in cross section tapers towards the tip 9 along the cone, i.e. its outer diameter continuously decreases towards the tip 9. The annular protrusions 7 on the outer surface of the rod 8 are spaced apart in the longitudinal direction of the fixing pin and have the same shape and dimensions.

The fixing pin 11 shown in FIG. 5 differs from the previous embodiment only in that it does not have a head. The corresponding elements of the fixing pin are indicated by the same numbers. Using such a fixing pin 11 without a special head, sufficient holding forces can also be created.

In the embodiment according to claim 4-8, the annular protrusions 7 are made in the form of saw teeth with a gently sloping front side 12 and a steep rear side 13. Due to this, the force required to drive the fixing pins 6 can be reduced.

The protrusions 7 may also have a cross section in the shape of a triangle, rectangle or trapezoid, expanding or tapering outward, as shown in figa-9d.

Claims (10)

1. Composite building element, in particular in the form of an element of a wall, ceiling or roof for house building, containing several successive layers of boards next to each other, located next to each other, and the boards following each other in height of the layers have different directions, and boards of one layer are connected to the boards of at least the adjacent layer by means of fixing pins made of light metal or synthetic material, characterized in that the fixing pins are provided with annular protrusions spaced apart from each other in length the direction of the fixing pin, the boards of two layers lying on top of each other being connected in the crossing area by means of at least two diagonally arranged fixing pins, and the boards of the outer layer are planed. 2. The composite building element according to claim 1, characterized in that the mounting pins contain a rod tapering along the cone to the tip. 3. The composite building element according to claim 1, characterized in that the annular protrusions spaced from each other in the longitudinal direction of the mounting pin have a symmetrical shape in longitudinal section. 4. A composite building element according to any one of claims 1 to 3, characterized in that the protrusions are triangular, rectangular or trapezoidal. 5. Composite building element according to any one of claims 1 to 3, characterized in that the protrusions spaced from each other in the longitudinal direction of the mounting pin have the same dimensions. 6. The composite building element according to claim 5, characterized in that the boards of the individual layers are connected to each other on their longitudinal sides by means of a tongue and groove connection or a quarter connection. 7. A composite building element according to any one of claims 1 to 3, characterized in that an intermediate layer of film, paper or similar materials is located between the individual layers. 8. A composite building element according to any one of claims 1 to 3, characterized in that parallel grooves extending in the longitudinal direction of the board are provided on the inside of the boards. 9. A composite building element according to any one of claims 1 to 3, characterized in that the mounting pins are made in the form of a nail, staple or similar fastener. 10. Composite building element according to any one of claims 1 to 3, characterized in that the mounting pins are provided with heads.

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