SE500055C2 - Large building plank suitable for log wall construction on floors - comprises polyurethane foam core in metal sheet casing shaped as substantial tongued and grooved plank stackable into stable wall structure - Google Patents

Abstract

The large plank unit is manufactured by placing a sheet metal casing comprising two sides (2,3) with tonged and grooved ends (4,5) in a supporting mould, and filling with a suitable liquid plastics polyurethane foam. The foam also has the ability to adhere to the inner surfaces of the casing when solidying. Various forms of keying joint formation can be used to present a flush or V-joint, or to accept a metal or plastic cover strip. A log wall dovetail corner joint is made by cutting appropriate recesses near the ends of the planks.

Description

500 055 '2 Further features applicable to the present invention appear from the appended claims.

The present invention will be further described in connection with the accompanying 7 drawings, in which Fig. 1 shows a building element according to the present invention, in which Fig. 2 shows the same building element as in Fig. 1 but with two grooves, where Fig. 3 shows a side wall made of two building elements. Fig. 4 shows how a corner is built up with the aid of building elements, where Fig. 5 shows a surface unit containing building elements of a first further development, where Figs. 6 and 7 show the further developed building element seen in perspective in two different directions, where Fig. 8 shows how the building elements are joined together, where Fig. 9 shows a surface unit with a second further development of building elements, where Figs. 10 and 11 show from two different directions the building element used in Fig. 9, where Fig. 12 shows how building elements according to Figs. 9 is joined, where Fig. 13 shows a cover strip used in all surface units, where Fig. 14 shows a surface unit during joining by means of building elements according to t a third further development, where Fig. 15 shows the surface element according to Fig. 14 and where Fig. 16 shows joints of two surface elements according to Fig. 15. Fig. 1 shows a building element having a plastic core 1 and two opposing layers 2 and 3 of preferably sheet metal. . Said layers are bent so that they also form vertical surfaces to a tongue-and-groove 4 and a groove 5. Suitably a building element according to Fig. 1 is produced in such a way that the two layers 2 and 3 are placed on each page in a form. When this has been done, the mold is filled with liquid polyurethane foam which then solidifies and forms the building element shown in Fig. 1. Because the building element according to Fig. 3 has a plastic core, very coarse units can be produced which, thanks to the plastic, become so light that they can be worn by a single person. Thanks to the fact that the building element has a tongue and groove, you can easily build a wall by stacking a number of building elements on top of each other.

It is no major difficulty for a layman to build a solid wall, for example a partition wall in a living space.

Fig. 3 shows how two building elements 6 and 7 are stacked on top of each other. If a building element is provided with a transverse groove 10 which has a width corresponding to the width of a building element and a depth which can amount to half the height of a building element, it becomes possible as in Fig. 4 by means of two beams 8 and 9 to provide a corner wall which may have the character of a knotted timber corner wall.

Fig. 2 shows a building element 9 included in the corner wall according to Fig. 4. With the exception of the track, the building element 9 is identical to the element in Fig. 1.

The surface unit according to Fig. 5 is composed of building elements according to Figs. 6 and 7. The building element has a plastic core 12 and two hard layers 13 and 14. The building element has a sheet pile 16 and a groove 15. How joining two building elements takes place is shown in Fig. 8 where the right the element has two outer layers 13 and 14 which at their left ends are shaped so that a tongue 21 is formed and that the outer wall of the tongue is covered by the layer 13. The left end of the extended layer has a bent flap 24. 500 055 ' 4 10 15 20 25 30 The flap together with the bottom part and the opposite side part forms a channel for drainage of moisture. The tongue 2l is inserted into a groove 20. The walls of the groove are covered by the layer 18 and the groove widens from right to left. The groove has in its middle a guide groove 22 which cooperates with a guide groove 21A in the right building element. Outside the joint on one side of the composite surface element a covering unit is arranged which has the character of a sheet metal strip 25. From this sheet metal strip a flange-like part 26 emerges which at its free end has a bend 27. The flange is inserted between the two building elements 11 so far that the folded the part 27 snaps past the corner 27 at the outer end of the groove.

Two building elements are joined together in a precise way thanks to the tongue 22 and the groove 21A. The joined unit has inside itself at a joint a chute for the discharge of moisture, which chute is formed by the edge 24, subsequently the bottom and opposite side formed by the layer 13.

Fig. 13 shows the cover band 17 with its two parts 30 and 31. Said parts each have their outer bent edges 32 and 33. From the cover band a flange 26 extends which is bent at its free end. The bent part has been given the reference numeral 27.

Fig. 10 shows a second further development of a building element with a core of plastic and with two layers 35 and 36 forming the outer surfaces of the building element. The building element has a groove 15 and a tongue-and-groove 16 and has been given the reference numeral 34. In Fig. 10 it is clear that the outer surface 36 is bent inwards so that the outer surface forms a groove going from right to left.

Fig. 9 shows a roof assembled of building elements according to Fig. 10 with the curved surface upwards. At each joint, a cover band 17 is arranged of the kind shown in Fig. 13. By arranging the building elements in this way, natural flow channels for rain are obtained from above and below.

Fig. 12 shows how two building elements 34 are joined and the joining is identical to that described in connection with Fig. 8, but with the difference that a special emptying channel 36 and further an elevation 35 is provided against which the flange 32 can be folded or snapped.

Fig. 15 shows building element 37 which is obtained by a vertical dividing section of the building element 34.

The 37-year-old building element is intended to be laid on top of a roof covered with cardboard. The remaining tongue and groove parts cooperate in the same way as before with each other and the curved surface is located upwards so that the roof covered with roofing felt acquires the same character as the roof according to Fig. 9 by forming a number of parallel gutters as for rainwater from top to bottom. Examples of such a cardboard roof are shown in Fig. 14, where the cardboard roof has the reference numeral 38.

Fig. 16 shows how the joining between two building elements takes place and then it is seen that the same corresponds to the joining in Fig. 8 and that the cover strip 17 is identical to the cover strip used in Fig. 8. To anchor the building elements to the cardboard roof 38 a unit 39 is used which is nailed to the cardboard roof 38 and which has a loop-like inner end 40 which cooperates with the flange 24.

Claims (1)

1. 500 10 15 20 25 30 35 055 CLAIMS Elongated building element in the form of a log with a core of plastic with two side cover layers, which consist of two parallel and opposite metal plates (2 and 3), each of which forms one side wall of the element , partly a vertical surface to a tongue and groove (4) of the element and partly a vertical surface to a groove (5) of the element, which metal plates (2 and 3) formed mold walls for the core (1) of the element, which is made of polyurethane, which has adhesive ability vis-à-vis the metal plates (2 and 3), a number of elements being joined together by tongue (4) and tongue (5) to form a roof (34), the elements having a transverse slope, that the part ( 21) of the upper metal plate (35) forming the sheet pile part (21) is elongated (24) and bent so as to form a channel for liquid. Elongated building element according to claim 1, characterized in that the upper metal plate (36) between groove (20) and tongue (21) is so shaped or pressed that a groove is obtained between groove (20) and tongue (21), which groove is parallel to these. Elongate building element according to claim 1 or 2, wherein elements are joined together, characterized in that the joint between them, the two building elements is covered with an elongate strip (17) of preferably sheet metal character, which strip (17) has a part in the form of a flange (26) projecting into the joint and with a bent part (27) which has a snap action with an outer edge (28) to the groove (20). An elongate building element according to claim 1, characterized in that a tongue (22) emanates from a groove bottom (20) for steering cooperation with a groove (21A) received in the sheet metal (21) provided with sheet metal. Elongated building element according to one or more of the preceding claims, characterized in that unit formed by a number of elements is divided into two parts by an axial section between two metal plates (2 and 3).