DE739772C - Large load-bearing construction panel - Google Patents

Description

Large load-bearing building panel The present invention relates to a load-bearing, Jointless and insulating large construction panel made of lightweight construction material with a wooden reinforcement mesh. Wooden reinforcement nets for building panels are in themselves. known, for example in Form of gratings, frameworks and laths used for stiffening as a carrier in fillers are embedded. Such panels are used as filling panels for half-timbered structures or found use as wall, ceiling and floor coverings. Also is has already been proposed, with a two-layer floor covering, the upper wear layer to be joined together in a grid-like manner by means of rigidly connected wooden tension bars and to be held together by a framework all around. After all, you already have in the case of hollow-cell doors, it is made of a double-sided, double-roofed, cross-strut Frame the frame structure is locked in to prevent the door from warping. However, none of the known plate constructions bring any change to the usual ones Wood and lightweight construction methods. As before, one had to have the load-bearing part of a building erected from steel, reinforced concrete, stone, brick or wood, while only for the lining and, if necessary, building boards are used to form the intermediate wall became. In addition, it has hitherto been difficult to make large construction panels made of lightweight construction material seamless and crack-proof. Also the use of the mentioned wooden men Reinforcement netting could not help here, only the dimensions of the plates enlarge because the Reinforcements an enlargement of the allowed self-supporting spans. In general, the construction was a load-bearing one Scaffolding made of steel or masonry or a framework made of wood required that with the building boards has been filled in.

The invention. Is based on the object of a jointless and insulating large building board for the lightweight construction of barracks, houses and other buildings to produce that can be used as a load-bearing component ka: m., so that for the load-bearing wall parts no longer require special constructions. Shoring and wall lining form the same unit as in solid construction the significant advantage that a new lightweight construction is created, which becomes a proper one and economical use of wood in the construction industry and is not only beneficial for Beb: eleven buildings, but also suitable for permanent buildings. According to the invention, it is proposed that that the reinforcement network of at least two layers looks right-angled or diagonally crossing wooden tension rods, which are firmly clamped in a frame and under Vorspannunb stand, and that glass network filled with lightweight construction material or with the same firmly connected lightweight panels is covered. -This will be first Line for tension bars or for bars, which are essentially the resultant of the forces are subjected to tensile stress, the tensile strength of the wood is exploited, which, as in-depth Tests have shown it is greatest at around $ to r z% moisture content. The prerequisite for the utilization of the tensile strength is that drying out des with a natural moisture content of. eriva 45% processed wood takes place after clamping, the wood tension rods due to the shrinking effect of the wood come under tension. To do this, the wooden tension rods must be attached to the. Clamping points it is essential to form rigid and unyielding nodes. Hence the in, the frame timbers Recessed wooden tension rods with your frame by gluing, wedging, nailing and / or dowels firmly connected. To increase the overall stability the wooden tension bars at their crossing points also '-ti fixed nodes, especially by @ citag ° lung and possibly also. still. connected by gluing. The result is a completely solid frame made of both ends clamped in place Holüzu: gstäben.

If this reinforcement network is filled with lightweight construction material, it is recommended to increase the adhesive strength of the lightweight mass on the wooden tension rods Resistant, z. B. smallBrettchen to attach or hammer in broad-headed nails, hooks, etc. If, instead of filling the reinforcement net with lightweight construction material, the net is covered by lightweight construction panels, then the lightweight construction panels are connected to the frame rebate and the wooden tension rods by preferably seam-like tacking. This arrangement has the advantage of great lightness - the building board and the formation of coarse layers of air in the wooden drawbars for the desired insulating effect be porous. The given type of connection works like a solid, continuous, close-meshed riveting, which almost makes the vain separation of the two ztisaanrnc: ngc @ riveted parts from one another.

Similar seams are also stapled on the platters. all around in the frame wood one that, for diesel purposes, has an acute-angled fold next to the lightweight panel is filled by a further cover layer.

The final filling and sealing of these folds is practical by applying the covering layer, with its special strength and adhesiveness in the joints acts like a solid putty between the frame wood and the lightweight board and in this way also excludes any joint formation at this point. But here is the only one possible place for the formation of joints at all.

To increase the insulating effect, you can place between the individual wooden pull-tabs Insulating layers of any kind can be arranged through which the attachment the wooden tension rod crossing points are made to fixed nodes. When using a double wooden tension rod frame within the same frame. so for example four intersecting wooden pull-rods are held in place by the insulating layers between three layers of insulation alternately on the inside of the building board and four layers of air: The insulating layers to subdivide the layer of air between the cover plates find a good hold between the wooden pull-rod shelves and Seat.

The large building board described according to the invention gives the possibility a seamless, crack-resistant and load-bearing, heat and sound insulating component, can be implemented with the advantageous light construction insofar as the building panels are now only attracted to animals for wall lining and partition wall formation i:, ideii can, but also load-bearing walls, ceilings, roof coverings etc form. At the same time there is a significant saving of wood compared to the pure wood construction and a considerable reduction in working hours when building rows of barracks and houses achieved.

Details of the invention are given below with reference to that in the drawing illustrated schematic embodiments described. Fig. A and 2 show the basic arrangement of the Holzzuggtabsystem; Fig.3, q. and 5 show schematically the arrangement of the clamping and cross-pulling points for single panels and composite panels Panel; Fig. 6, 7 and 8 show the structure of the wooden tension rod system - in cross section, where Fig.9 shows the enlarged section of a board joint with its connecting elements reproduces; in Fig. io is the structure -, a frame corner and a clamping point shown; Fig. I i and i z show details of the new building board with a Insulating layer and a connecting spring between two adjacent plates, Fig: 13 three layers of insulation and two connecting springs.

In a rectangular frame. a, made by slitting and gluing or other connection of its corners b forms a solid association, are several Layers of tension rods c clamped in wood. The individual layers of the wooden tension rods c cross either at right angles (Fig. i) or diagonally (Fig. 2). The restraining a 'of the wooden tension rods c are wedged, glued, pegged into the timber frame a and / or nailed to ensure an absolutely firm connection at the clamping points e to achieve. It is advisable to use the pull rods with a rectangular cross-section and to give them a round cross-section at the ends so that they fit into round holes of the frame timbers can be inserted, without their cross-section in particular to weaken, because the frame wood by gluing, for example with a waterproof Resin glue with the tension rod ends practically form a homogeneous unit and on den.Einspanristellen be brought back to the original cross-section.

Of course, the production of the rigid nodes at the clamping points w can also be carried out in other expedient ways. The crossing points f of the wooden pull rods. c are also firmly connected to one another, namely by nailing and possibly also; by gluing. In this way an unyielding, rigid framework is obtained, which by the inevitable shrinkage of the wooden tension rods ;; c and the timber frame a comes under pretension as a result of the intransigence of the nodes e and 1 and has considerable strength properties. The solid frameworks are strung together and connected to one another (Fig. 5). They form load-bearing components that can withstand high loads.

On both sides of the wooden reinforcement mesh described, lightweight panels 1i, i made of fiber material, aerated concrete or the like of relatively low thickness are applied. The well-known wood wool or wood fiber lightweight building boards made from larger and smaller wood chips or from randomly arranged wood fibers that are optionally connected to one another by binding agents (e.g. cement or magnesite) to form boards are best suited. The low consecration of the wooden tie rod system with a reinforcement of the plates k; i at a distance of about 15 to 25 cm allows the processing of lightweight panels in extremely small dimensions. If there is a lack of wood shavings, other types of waste can also be removed, such as reed chaff, hemp shives, chaff; Corn on the cob, paper waste, and the like can also be used with the shortest of scrub wood or tree bark with peat mixes.

The lightweight panels k, i lie in an acute-angled fold k the Frame a and are stapled in this fold k and at the same time on the wooden tension rods cl and c2 or c3 (Figs. 6, 7 and 9) are attached. The upper Holzzugsta # blage cl can be laid upright so that when the new large building panels are used as ceiling or floor panels for absorbing bending loads. to be attracted to. If there are more than two wooden pull-rod shelves cl, c2, c3, the can be laid vertically under the Timber tension rods cl, located layer c2 are laid according to the cable curve (Fig. 8) to withstand the highest bending stresses. Between the individual wooden pull-rod shelves insulation layers g, g1, g are used to increase the insulation effect. arranged. Through the Insulating layers g, g1, g2 is the one between the lightweight cover layers k, i Effectively subdivided air space. The nailing of the crossing points f of the wooden tension rods c takes place through the insulating layers g.

For stringing together the large building boards and connecting them tongue and groove d are arranged in the timber frame a in the known manner (Fig. i i and 13). The feathers li have a slot in them, so that they follow. Impress Spread into the dovetail-shaped grooves 12 and fit tightly. There groove and If spring L goes all around, there can be no joint whatsoever between the individual Form large ba = a plates. Within the framework are Joint formations also excluded because the wooden tension rod arrangement prevents the creation of joints does not allow the prevailing tension equalization to arise.

The corners b of the timber frame a (Fig. Io) can be made particularly firm by means of dowels n in addition to the enticing and slitting. Fig. 10 also shows that the clamping ends e of the wooden tension rods are secured not only with dowels n but also with wedges and nails. Likewise, nails o are used to manufacture fixed nodes at the crossing points of the wooden pull rod racks cl and c2. Instead of lightweight panels! A, i on both sides of the. Reinforcement mesh, the wooden tension rod system can also be completely filled with a porous mass p. In this case, the wooden tension rods cl. And e2 are provided with adhesives q, for example boards, broad-headed nails, etc., in order to provide the porous mass p with a firm hold.

A solid cover layer ri, r2 is also applied to the lightweight construction panels h, i in order to give the construction panel special weatherproof, water-repellent, fire-retardant or similar properties. The z. B. based on silicate or synthetic resin or consisting of cement-bound materials covering layer r is painted putty-like, whereby the connection points of the lightweight panels h, i in the acute-angled frame folds k are completely filled, so that here too there is no possibility of joints due to the weather - or crack formation. The lightweight panels h, i do not need to be very strong because they only have to bridge the small spans of the mesh-like network formed by the wooden tension rods c by being attached to the reinforcement mesh. The joints of the lightweight panels are of course always arranged on a wooden pull rod, which for this purpose can be held a little wider than usual (Fig. 12). The panel joint s itself is completely filled by the cover layer r.

Fig.i ;; shows the cross-section of two large building panels lined up next to one another according to the invention. P .--- i a total wall thickness of z. ß. sth = a i; cm are accordingly the four wooden pull rod shelves c i, c2, c3, c ,, io cm of air space available. By three Insulating layers ä i, g2, g ;; So you get four separate ones dormant air scliichtera of 2.5 cm each, which is an insulating whirl; about 2 in strong massive wall etasprictit. The both sides of the wooden pull rod_ # ätematrfgc # brings @ 2ri Lightweight panels ht, liraticl: en made from the same building material; @ e3, chen.

Claims (1)

PATENT CLAIMS: i. Load-bearing, seamless and insulating large building board made of lightweight construction material with a wooden reinforcement mesh, characterized in that the reinforcement mesh consists of at least two layers of perpendicular or diagonal wooden tension rods (c) which are firmly clamped in a frame (a) and under tension stefwm, and that the The net is filled with lightweight construction material (p) or covered by lightweight construction panels (Is, i) that are firmly connected to the same. z. Building board according to claim i, characterized in that the timber tension rods (c) embedded in the frame timbers (a) are firmly connected to the frame (a) by luting, wedging, nailing and / or dowelling. 3. Building board according to claim i and z, characterized in that the wooden pull rods (c) are connected to fixed nodes at their intersection points (f). Building board according to one of claims i to 3, characterized in that in order to increase the adhesive strength of the lightweight construction compound (p) on the wooden tension rods (c) resistors, e.g. B. small boards (q), attached or broad-headed nails, hooks or the like. Are driven (see. Fig. Io). 5. Building panel according to one of claims i to 3, characterized in that the lightweight panels (h, i) are connected to the frame rebate (k) and the wooden tension rods (c) by preferably seam-like tacking. 6. Building board according to claim i to 5, characterized in that the frame rebate (k) has an acute-angled Quersc'hittform, which is filled by "the lightweight boards (! Z, i) and a cover layer (r). 7. Building board according to claim i to 6, characterized in that da.ß on one or both sides of the reinforcing network to be stapled lightweight panels (h, i) a thin, water-resistant and weatherproof, optionally also fire retardant, covering layer, such, for example, from floor. wood mass. energized and B., building board according to one of claims z to 7, characterized in that insulating layers (g) of any kind are arranged between the wooden pull rod shelves (c) through which the fastening of the wooden tie rod crossing points (f) g.Building board according to one of claims 1 to 8, characterized by the arrangement of a double wooden tension rod frame within the same frame (a) with between the wooden tension rod shelves (cl, c2, es and e4) any insulating layer part (g'1, ä2, ä8) arranged so that three insulating layers and four air layers are alternately provided inside the building board (cf. Fig. I3). To distinguish the subject of the application from the state of the art, im. Grant procedure considered: German Patent No. 641 573, 663 272; Swiss patent specification No. 22240, 79040-