FI70619C - BYGGKONSTRUKTION - Google Patents

Description

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Rakennekonstruktio

Byggkonstruktion

The invention relates to a structural structure having at least one structural column and at least one plate, wherein the structural column is located next to and carries the inner surface of the plate, and one edge of the plate is adjacent to the structural column and extends parallel to the longitudinal axis of the structural column. The plate and column are locked together in a groove in the plane of the plate so that the column and adjacent plates form a load-bearing unit which does not require nailing, gluing or other attachment and which can be easily and without skill flexibly compressed and separated into parts.

The various construction columns and building boards together form various construction panels that are simple or double, e.g., floors, exterior wall coverings, ceilings, insulated walls, complete walls, partial interior walls, or walls with windows or doors.

The base units can be glued or glued together to form larger units, increase strength, or reduce material consumption.

The invention can be applied to house construction but also to model building, manufacture of toys, etc.

In building construction, the level is the most common shape both externally and internally, where the unit of the level is usually a plate.

The strength and stiffness of the plate are at a minimum in a direction perpendicular to the plane of the plate, where the plate is flexible and weak. For this reason, a structural frame is built behind the boards, and the boards are then fastened usually by nailing but often also by gluing. Such a construction surface has no special name and in fact represents two different elements, namely the construction frame and the cover plate. The structural frame is a load-bearing unit, and it is constructed as such before the other elements, because its e.g. must withstand the nailing that occurs when the boards are nailed to the frame.

The structural frame must be adapted to the size of the plate because the column must be placed under each edge of the plate to support the perpendicular stress on the plate and to secure the plate to the column. The frame must therefore be constructed fairly accurately. The structural columns must not curve in a straight line from the edge, so the columns must be supported so that each column forms a straight line. The construction of a frame therefore requires professionalism, practical ability, measurements, and quite a lot of work.

The boards are then nailed to the frame, making nailing a time consuming job. All nail holes must be covered with filler paint, which must be allowed to dry, after which it must be sanded. The pipes required for the electrical cables extend vertically to the walls so that holes must be drilled in the supports for the pipes to pass through. Door and window frames are not manufactured automatically, but must be made separately and attached to the structural frame. As a result of all this, two-thirds of the cost of a wall without window or door openings is, according to the former, labor costs, which mainly consist of measurements and nailing, as well as repairing the damage caused by this.

The invention is based on the real finding that this work is unnecessary. The purpose of the measurement is to locate the columns where the two plates meet. This can be done by changing the order of the work steps and placing each column after the plate is already in place, whereby the plate determines the position of the column, which in turn determines the position of the next plate. This allows you to get by without measurement.

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The purpose of nailing is to fasten the plate and the column together. Nailing is a permanent and fixed form of attachment that does not allow disassembly without the specified damage and even without complete deterioration. This attachment is quite disadvantageous, as it is inevitably an advantage to be able to change the interior arrangements. The reason for using nailing is apparently that no fixed but separable attachment is known. To replace the nailing, it is therefore necessary to find such an easy fastening point.

The use of a groove is a known sealing method which does not have the disadvantages associated with nailing, but which has nevertheless not been used for the cost-effective connection of a plate and a column according to the invention. Methods using a different groove are described, for example, in the following patent publications: FI 49.450, US 3,624,974, DE 2,613,675, and in FI patent application 1901/68. The groove has generally been used to join surface units, such as flat seams, and even then only to provide a continuous seam and a rigid seam in the plane of the surface, but not to attach the surface-forming element to the structural elements. Nailing and / or gluing has been used for this purpose, even if the elements forming the surface are connected by a groove. The groove has also been used, for example, in joining edge strips and plates and for controlling the position of plates, where the joint does not have a sturdy and profitable function. Thus, the use of a groove in flat sealing to form a surface from flat units is known, but in both molding or guide both sides of a plate and column groove are not known as a means of joining flat units and simultaneously attaching them to a support frame and simply attaching such units to a frame. All this can be summarized as meaning that the groove is known as a flat seam but is not known as a structural frame seam or for connecting separate structural columns to other structural elements, i.e. as a means of supporting the seam. Such use of the groove is necessary to achieve the object of the invention.

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It is therefore an object of the invention to provide a new product which has the supporting properties of a structural frame and the surface properties of a sheet cover, this new product not being based on gluing, nailing or other permanent fastening, but self-supporting and disassembling.

The object of the invention is realized by means of a construction defined in more detail in the following claims.

The invention will be explained in more detail below on the basis of the accompanying drawings, which show some exemplary embodiments.

Figures 1, 2 and 3 show in horizontal sections various methods according to the invention for connecting a column to plates.

Figure 4 shows a horizontal section of the construction panel.

Figure 5 shows in horizontal section the panels forming the insulated wall.

Figure 6 shows a perspective view of two panels forming a detached inner wall.

Figure 7 shows a perspective view of two panels with a terminal element forming a part of the inner wall.

Figure 8 shows a wall with double panels and a frame.

Figures 9 to 11 correspond to Figures 1 to 3, but have a construction column with a nailed part.

According to Figure 1, the construction panel according to the invention has a plate 2 for forming a surface 3, and a construction column 1 for achieving the required strength. The column 1 is located at the edge of the plate 2 and the support direction of the construction column 1 is perpendicular to the surface 3 of the plate. The plate 2 and the column 1 are connected by a groove 4, the seam direction of which is in the plane of the plate and perpendicular to the edge of the plate.

Since the ordinary groove is rigid in the direction perpendicular to the longitudinal direction of the seam, i.e. perpendicular to the surface, and the support direction of the construction column 1 extends in the perpendicular direction, the groove becomes a rigid seam or fastening means in the support direction. Since the construction column 1 is rigid in the direction in which the plate is flexible, and this column is connected to this plate by a seam which is rigid in the same direction, the rigidity of the construction column 1 is transmitted to the plate 2, thus becoming rigid both towards and away from the column 1. This is exactly the same as what has been achieved in the past with nailing, and this is the task of the transverse groove.

Thus, the transverse groove 4 does not act as a flat seam, as it does not connect the two surface units to each other, but instead connects the surface unit to the support unit, which has previously been achieved by nailing. The result is a load-bearing surface unit, i.e. the construction panel according to Figure 1, and a new product.

By connecting the construction column 1 to two plates 2 in the same plane, a flat seam between the plates is formed, in which the construction column 1 acts as an intermediate element. A structural panel can therefore be defined as a panel of surface units, the surface units of which are connected by a groove, characterized in that the groove seam does not occur between the surface units but between the surface unit and the supporting element and then again between the seam element and the second surface unit. the groove seam is indirect and the intermediate element is a load-bearing element.

This does not necessarily mean that the intermediate element is part of the surface, although this is also possible if desired. This is therefore a matter of free choice and not a mandatory principle.

The surface of the structural panel units can be made which corresponds to a common groove joint surface, but which has the advantage that it does not require nailing, gluing or construction frame, as this surface is known for its load-bearing capacity and rigidity. So this is a construction panel.

The connection direction of the groove between the construction column 1 and the plate can theoretically extend either in the plane of the plate or perpendicular to it. In the latter case, the groove is not fixed in the bearing direction of the construction column, because this column curves slightly under load, which could make it more difficult to remove the seam. Moreover, the surface strength of ordinary particle board, i.e. the board most commonly used in building construction, is not utilized, but instead this strength depends on the strength of the board in the direction perpendicular to the surface where the board is weakest. For both of these reasons, a groove perpendicular to the plane of the groove is unsuitable for making a construction panel. Such a groove also cannot withstand a force directed away from the surface, which may be caused, for example, by a sudden drop in air pressure or the weight of the shelves or other objects supported by the surface. Such a groove in the plane of the plate withstands such stresses, it is fixed in the perpendicular direction, which is a necessary condition for the transmission of the support capacity from the construction column to the plate, since the resistance occurs in this opposite direction. In addition to this, the groove allows the above-mentioned curvature and also takes advantage of the surface strength of the chipboard.

The construction panel according to the invention is installed in such a way that the support column 1 is placed against the edge of the plate 2 or vice versa, and the groove seam is locked by pressing these units together. In this case, the construction panel itself locates the column 1, so the measurement is unnecessary. In addition, because the transverse groove acts like a nailer, 7 7061 9 new products, i.e. the construction panel, avoid the workload that involves measuring and nailing the frame as well as dipping the nails, filling the nail holes with filler paint and working with sandpaper.

The shape and structure of the groove depend on the prevailing conditions, e.g. the support properties and the thickness of the plate, as well as the desired nature of the surface, regardless of whether the construction column must be hidden, visible between the plates or flush with the plates. It is important that the groove be narrow enough to prevent the plate from moving in the support direction despite the natural shrinkage, but the groove must still be wide enough to allow easy installation and undamaged disassembly.

These requirements are contradictory, and for this reason the groove shown in Figure 2 is important for this purpose, as it allows a two-stage installation with two parallel contact surfaces on both sides of the groove in the second stage, which are not opposite each other and thus apply bending force to the groove-filling tongue. Such a groove takes advantage of the flexibility of the wood to hold the board firmly in the groove. In addition, a certain shrinkage is allowed in the locking direction of the groove, which corresponds to the length of the contact surfaces. Such a groove is said to be double if it has two contact surfaces, triple if it has three contact surfaces, in which case it is still a transverse groove. Figure 3 shows such a triple flexible transverse groove covering the construction column below the surface of the plate.

Figure 4 shows a simple construction panel, while Figure 5 shows two simple construction panels forming an insulating wall.

Fig. 6 shows a double construction panel forming a complete inner wall, and Fig. 7 shows 8 7061 9 double construction panels with a terminal element forming a partial inner wall.

Figure 8 shows a double construction panel with a frame.

Figures 9 and 10 show a modified embodiment according to which the post 1 has a flat side intended to be placed against a bearing surface and at least one side has an extension thick enough to be nailed through so that the post can be fixed to a bearing surface which may have a wall , beam or the like.

The invention can be applied to materials other than wood, although wood has been chosen to illustrate the invention. The assembled assemblies shown in Figures 4 to 8 are connected to each other by locating pieces 5 which are fastened by conventional nailing.

The invention is not limited to the embodiments described above and shown in the drawings, but can be modified within the scope of the appended claims. The described invention thus discloses a new building construction method.

Claims (11)

A construction structure comprising Stminstone a structural post (1) and Stminstone a disc (2), the structural post (1) being adjacent to and supporting the inner surface of the PCB (2) and an edge of the PCB (2) being adjacent to the structure -tension post (1) and extends parallel to the longitudinal axis of the structural post (1), characterized in that the structural post (1) and the adjacent edge of the disc (2) are connected to each other by means of a male / female friction joint with the direction of straightening. parallel to the surface of the disc (2) and perpendicular to the design chair pen (1) 1 alignment. 2. A structure according to claim 1, characterized in that the joint comprises a tapered end portion of the male part and two contact surfaces of the male part parallel to the surface of the disc (2) and that the joint has corresponding contact surfaces of the female part. 3. A construction as claimed in claim 2, characterized in that the joint trade is arranged on the disk (2) and the female part of the joint is arranged in the structural post (1). 4. A construction according to claim 3, characterized by a male portion of the pS construction post (1) and a corresponding female portion of the disc (2), the male portion of the pS construction post (1) having a tapered duct portion and two contact surfaces extending parallel to the disc ( 2) the surface and the female part of the disc (2) have corresponding contact surfaces for engagement with the design of the chair (1). 5. A construction according to any one of claims 1 to 4, characterized in that a male / female joint is formed on each side of one of the structural posts (1).