NO159949B - BUILDING PLATE AND PROCEDURE FOR THE CONSTRUCTION OF A BUILDING. - Google Patents

Abstract

Construction panels. They are constituted by two semi-blocks (2, 3) of synthetic foam molded, presenting semi-lyndridal holes longitudinal and transversal, which are revisted with carton tubes (11), plastic or similar matter, so that the assembly, once linked the semibloques, present longitudinal vacuum passages communicated between the whole panel width, which can be filled with concrete or proper material. The panels have projects (12) and empty (13) that facilitate the unión by machihembrate. (Machine-translation by Google Translate, not legally binding)

Description

The purpose of the present invention is to provide a building board made of a light, insulating material, which can be given a final coating and includes empty channels which can be filled with suitable material, the channels being preferably lined with pipes made of plastic, cardboard or similar material.

The invention also relates to a method for the construction of a building using such plates.

A large number of construction methods are already known which use elements laid next to each other such as bricks, special stones, masonry material, beams, panels of reinforced concrete or plasterboard, and elements that serve as temporary covering. The latter usually cannot withstand vibration of the concrete and their transverse connections are far from satisfactory.

These methods of construction have a large number of other disadvantages. The application is time-consuming and expensive. Walls made of brick or special stone must be plastered inside and out, preferably under an insulation layer. Walls constructed with concrete reinforced panels are lined with an inner wall of plasterboard with a space filled with insulating material. This does not logically represent the correct use of materials because in winter condensation can occur on the cold inner side of the reinforced concrete slabs so that the insulation is destroyed. In order to use the materials correctly and avoid condensation, a concrete wall should therefore be insulated on the outside, but this is not practically easy to implement with the materials known today.

From French patent 1 495 245 a building plate is known which has tubular elements arranged next to each other. These tubular elements can be filled with concrete to form supports. The significant disadvantage consists in the lack of transverse connections between the pipes and consequently an insufficient stiffness of these plates perpendicular to the longitudinal axis of the pipes, which limits their use.

According to US patent 4,038,798, boards with cardboard tubes encased in synthetic foam are known, but these boards have the same disadvantages as those claimed in the French patent in that they lack transverse connections between the tubes.

The purpose of the present invention is to remedy the difficulties described above and to propose a building board which combines the characteristics of light weight, good insulation, great mechanical strength and the possibility of a very fast construction method. This has been achieved by providing a building plate of the type that appears in the introductory part of the subsequent claim 1, and the building plate is characterized by the features that appear in the characteristics of this claim. Further special features can be seen from the subordinate requirements. A method is also provided for the construction of buildings using plates of this type, and the method is characterized by the features in the characteristic of claim 6.

The use of tubes made of cardboard, plastic or similar material to serve as one-off formwork has the advantage of offering a very high strength during the concrete casting and vibration, as the circular cross-section of the tubes gives the walls the property that they are only loaded in tension. For this reason, the walls do not need to be particularly thick, which allows for reduced plate weight, lower costs during construction and ease of execution.

The advantages obtained thanks to this invention. are many and allow rapid construction according to the technique of one-off formwork, masonry walls above ground of solid concrete, storey walls with introduced insulation on the outside, and partition walls of light concrete, plastic or any other material. The boards can immediately be given a final coating, e.g. either a natural covering for the outside and wallpaper for the inside. The fact that doors and windows are cut through the fully assembled walls before casting with concrete greatly simplifies the construction work.

In what follows, the invention will be described in more detail with reference to the drawings which show some embodiments of the invention and where fig. 1 is an elevation and partial section of a first embodiment of a plate according to the invention, fig. 2 is a plan view and fig. 3 a side view, fig. 5 shows in elevation a way of interconnecting the pipes in another embodiment of the plate, fig. 4 and 6 show profile views of the two opposite sides of the second embodiment, fig. 7 shows a third variant of the construction plate with the tubes next to each other, and fig. 8 is a floor plan showing the procedure for constructing a building.

Fig. 1-3 shows in three views at right angles to each other a plate 1 consisting of two blocks 2 of expanded polystyrene which between them form parallel channels in the form of hollow cylinders 10 and which are connected by transverse channels 14. The cylinders 10 are lined with casing pipes 11 of cardboard, plastic or similar material and arranged to withstand vibration of cast-in-place concrete. The plates are assembled with each other by means of joints 12 and 13 which, by their alternating protrusions 12 and depressions 13, allow insertion. Joining the plate joints with tongue and groove is also possible.

The transverse channels 14 extend across the entire width of the plate.

The two blocks 2 and 3 can also be molded in a single piece of synthetic foam. Also then, the channels 14 run from one side of the plate to the other. Consequently, the tubes 11 of cardboard, plastic or similar material also have radial holes with the same diameter and distance as in the cast block. The tubes are coated with adhesive and inserted into the expanded foam block until the holes coincide with the holes in the molded block so that the channels 14 become continuous.

In another embodiment of this block, referred to as a "tube-to-tube" block, the tubes are instead of being separated from each other, joined and united at their generatrices by means of openings 4 and protrusions 5 which are assembled according to the hinge principle, as shown in fig. 5. On one generatrix of the cardboard tube 11a, a series of openings 4 are cut out, which leave between them protrusions 5 with a height a substantially equal to the height of the individual opening 4, while on the opposite generatrix there are arranged openings 6 with a height b equal to about three times the height a of the protrusions, so that every third smaller opening 4 forms the mouth of a transverse passage 15 which, on the opposite side, opens into the middle of the opposite, wider opening 6 with three times the height.

The tubes made of cardboard, plastic or similar material put together in this way are glued firmly in the corresponding openings arranged in two analogous blocks to blocks 2 and 3

shown in fig. 1-3.

It is also possible to produce a corresponding tube-to-tube block or plate in the embodiment shown in fig. 7, as the pipes Ila. then it is united as described above by insertions according to fig. 5 and is coated on one side with insulating material 7 and on the other side with plasterboard 8 or any other similar material.

Depending on the application, the plates are coated with foils or coatings with very different compositions such as vegetable or mineral fibers with or without the addition of agglomerated glass fibers with the addition of synthetic resin, gypsum or cement. You choose a slightly fragile material whose surface will possibly be able to receive a final coating inside and out.

The tubes can be made of ordinary cardboard, fire-resistant cardboard (phenolized) or of synthetic material.

The pipe-to-pipe plates for building parts below ground can be made of synthetic material (plastic) and are used untreated both inside and outside. It is not necessary to apply any waterproof coating because the outside of the boards themselves are waterproof.

It is possible to construct buildings with pipe-to-pipe plates and finally stick them on, e.g. inside, a plasterboard or panel, as the void between the pipes can be filled with foam and the outside is covered with an insulating material of the type expanded polystyrene which can then serve as a base for natural material, as the board or panel can join the pipe shape so that it binding surface increases.

In the case of basement walls, it is possible to fill soil directly against the wall thus formed or to cover this with a foundation board made of fiber cement, polystyrene or the like. The depressions or grooves formed by the pipes serve to drain away water.

For internal partitions, the pipes are filled with lightweight concrete, masonry mortar or another binding agent.

It will be understood that these plates are produced in several thicknesses and of different materials and according to different described variants.

According to the method and thanks to the described panels, it is also possible to construct light temporary houses, as the panels are then not filled with molding compound and put together with simple gluing. The openings are simply cut into it

finished, whole wall.

Thanks to the plates according to the invention and which have channels 14 which ensure the transverse firmness by means of continuous connections, it is possible to construct a building as schematically shown in fig. 8, using the following procedure: Using flat plates 1 and angled plates, first build smooth walls by placing the plates next to each other and gluing them together. Then you cut out along the contours for doors and windows, but before you take the cut out pieces out, a foil 16 of metal or other material is inserted into the formed cracks or slits. Rebar and any channel elements are introduced into the open through channels 14 and concrete is then filled into the vertical pipes 11, this concrete is vibrated to make it flow into the transverse horizontal channels 14 and thus form horizontal uninterrupted connections. When the concrete has hardened, both the foils and the cut-out pieces for doors and windows are pulled out and it now only remains to carry out the frame and frame work using known methods.

Claims (6)

1. Building board (1) of light, insulating material and arranged for the application of a cladding coating on both sides, comprising tubular channels (10) parallel to one of the board's (1) sides and in which are arranged pipes (11, lia) of cardboard, cardboard, plastic or the like for filling with concrete, characterized in that the tubular channels (10) with arranged tubes (11, lia) are interconnected with transverse channels (14) which extend across the entire width of the plate (1) so that this with the internally arranged pipes (11, 11a) can be used as a mold which is not removed when building a concrete wall with a light and partially connected construction. 2. Plate according to claim 1, characterized in that the tubes (lia) of cardboard, plastic or similar material are united at their generatrices by means of openings (4,6) and protrusions (5) which are joined together according to the hinge principle. 3. Plate according to claim 1, characterized in that it is formed from a molded block of synthetic foam in which the tubular channels in the form of hollow cylinders (10) lie parallel and whose tubes (11) are designed as casings of cardboard, plastic or the like material. 4. Plate according to claim 1, characterized in that it is formed by at least two blocks (2, 3) which lie next to each other and are made of molded synthetic foam. 5. Plate according to claim 2, characterized in that the openings (4) are cut out along a generatrix of the pipes (lia) so that the intermediate projections (5) have a height (a) substantially equal to the height of the individual openings (4), while the height (b) of the openings (6) which lie along the opposite generatrix is approx. three times the height (a) of the protrusions, whereby every third opening (4) forms a transverse passage (15) which lies opposite the center of the opposite opening (6) of triple height. 6. Method for the construction of buildings using panels according to at least one of the preceding claims, characterized in that massive walls are built by placing panels next to each other and in which they are cut along the contours for doors and windows, that in the crack in the section line for these contours, a plate (16) of sheet metal or any other rigid material is pushed in, so that, if necessary, rebar, wiring and pipelines are introduced into the empty passages, that you pour concrete into the vertical pipes (11, lia) and vibrate the concrete to make it fill the transverse horizontal channels (14), that when the concrete has hardened, you pull the plates (16) and the wall sections enclosed by the section lines for the contours for doors and windows and that the final plastering works are then carried out according to known methods.