DE1534694B1 - Building wall with a load-bearing framework and wall shells made of fiber cement panels and an assembly unit for producing the same - Google Patents

Description

Sufficient floor height, in assembly construction to be screwed on. aim to keep the construction costs as low as possible and shorten construction times. Large format, thanks to the well-known properties of the fiber is ready to lay Prefabricated panels made of fiber cement material, weatherproof and fire-proof. she Cement are used for the erection of building walls is characterized by a shapely, smooth Oberim Assembly construction, similar to large-format wooden, 15 surfaces of the outer wall, their pleasing appearance Chipboard, sheet metal and other flat building panels up to now not due to fastening lengths that appear to be foreign to the material come to use in such a way that element is disturbed. The building wall has a the plates from the outside and the inside have a particularly large heat storage capacity load-bearing framework and screwed into the between the fact that each of the three lying one behind the other Hollow fiber cement panels are produced on the outside and inside panels, in and of themselves space fillings to achieve the necessary structural regulations with regard to heat and heat insulation and sound insulation introduced, fully eliminating the absorption capacity per unit weight. speaks. With this displacement of the fiber cement panels, the other lying fiber cement panels of the building work become the hollow spaces between the three one behind the other Aim of the assembly method, the number of working wall 25 and the insulating layer on the back of the operations largely to reduce the construction times fiber cement panel of the intermediate shell result in shorten and save on labor costs aim, not achieved in a fully satisfactory manner, house off its own great heat storage capacity because the installation of the fillings in the cavities provides an extremely good thermal insulation, like them between the inner and outer plates with a tolerable 30 also to avoid condensation Time and effort connected is desires, and a fully satisfactory silencer. There is also the disadvantage that the mung. Because at least the two outer fibers are outside the building wall the heads of the cement panels the building wall outer compression fastening screws and the sealing caps, which absorb forces together, is the avoidance of the invention the roasting and corroding of the building wall produced in accordance with this to a large extent fastening screws attached under their heads, unbreakable and resistant to bending.

need to be exposed and the appearance of the installation ready for installation External surface of the building wall severely affected - prefabricated fiber cement panels on the framework genes, for their pleasing surface design, can be done in assembly construction without time-consuming inconvenience Fiber cement panels particularly favorable advance 40 loaned work by semi-skilled workers without Settlements are given insofar as the outside difficulties are quickly carried out, surfaces of the outer panels machined smooth A particularly simple seal on the butt and joints made in any color and pattern results from the fact that in the area of the joint can. joints of the fiber cement panels of the two wall

It is also a building wall of the initially 45 shell sealing strips are underlaid and that named type known with a between the connecting legs and the inner outer Wall shells arranged intermediate shell sides of the associated frame posts as well is provided. In this known arrangement, sealing strips are provided. Here you can is the inner wall shell made of hollow bricks, between the vertical abutting edges of the fiber die each between double T-stands, which are made of two 50 cement panels of the wall shells, free narrow joints U-irons are formed, are arranged. The stand be relaxed, the reason of which is the underlying you overlapped by asbestos cement panels, forming strips.

the joints between the asbestos-cement panels their- appropriately, the profile strip has an angle profile on the other hand are covered by asbestos cement strips. one leg of which the connecting leg This known building wall also has the imitation and its other leg on the component that the hollow brick filling facing inside the factory has to be inserted afterwards and only then the outer panels are attached
can.

The invention is accordingly based on the object of providing a building wall of the type mentioned at the beginning Art to be designed in such a way that no fastening elements are visible on the outside of the building wall and the introduction of fillings between the

outside and inside fiber cement 65 with their web on the fiber cement plate of the

plates are not required during assembly. Intermediate shell and with the two parallel to it

This is achieved according to the invention in that the intermediate shell is fastened from a frame panel in each case. Here, the connecting leg
advance over the insulating layer and also
be reinforced by strips of fiber cement.

A particularly advantageous structure of the assembly unit results when its two fiber cement panels are made of at least three fiber cement, parallel to the frame posts are connected fittings with hat profile, which

Flanges rest on the other fiber cement board, one fitting each being arranged so that

one of its flanges flush with a vertical factory wall making it a pleasing architectural one The edge of the last-mentioned fiber cement board.

closes, and that on the inside of the building the fiber cement panel 3 of the intermediate shell is in

If the side of the fiber cement plate of the intermediate height and width dimensions was correct, at least one shaped piece with its web is smaller than the outer plate 2 by so much that it is fixed with free play. Here, the profile strips and moldings between the vertical and horizontal frame pieces by adhesive on the fiber cement board posts of a frame field fits. Be attached to the rear of the intermediate shell, with the side of the intermediate plate 3 also protruding a little over the opposing molded pieces or profile lateral edge edges of this plate and molded pieces additionally fastened by connecting profile strips 6 in such an arrangement that connection screws with the fiber cement board connected to the rearwardly directed connecting legs 6 a can be. The molded pieces attached to the inside of the structure of the profile strips 6, leaving a set-up side of the fiber cement plate free of the interposition of a sealing strip 7, can at their NEN spacing between the inner surfaces of the ver-flanges dowels or nut threaded pieces to the vertical and the horizontal Frame posts la, Ib would take fastening screws for the fiber of the frame field can be inserted, have cement panels. The fiber cement panels 2, 3 are molded

The invention is described below with reference to pieces 8, which, like the already mentioned profile embodiments in the drawing in more detail make 6, made of suitable material, such as. B. sheet metal, refines and shows 20 plastic, wood, but preferably made of asbestos cement,

1 shows a horizontal section through a small manufactured and designed in any shape A section of the finished building wall can be connected to form an assembly unit. the

Fig. 2 shows a horizontal section like Fig. 1 through assembly units are mass-produced the structural elements of the building wall before they are transported to the construction site fully and immediately ready for installation, permanent assembly, 25 I _n the examples shown, the exist

3 shows the front view of the two fiber cement panels 2, 3 shown in FIG.

4 details of FIG. 1 in larger images 2, 3 are particularly suitable because they consist of position and 30 the same material as the fiber cement panels

F i g. 5 details of another embodiment and thus the same form of thermal expansion of the building wall in one of FIG. 4 have decoefficients, so that in the assembly unit speaking representation. no tension can arise. Form-

When making the building wall pieces 8 are first with the flanges 8 α of their legs 8 b attached to the foundation framework 1, which consists of 35 on the back of the outer plate 2 and with their square timber, square hollow profiles from As- webs 8 c. attached to the best cement, light metal, plastic or other surface of the intermediate plate 3 facing the outer plate 2 by a suitable suitable material in solid or hollow form, namely in the center lines can be made. Each framework has the height of both panels 2, 3 parallel arrangement, so one storey of the building to be erected and 40 that two molded pieces on the edge sections of the preferably has several horizontally adjacent panels and the edges of the outside opposite rectangular framework fields. The borrowed flanges of these shaped pieces are flush with the longest width of each frame section and end the size edges of the outer panel 2. The third dimension of the prefabricated structural panels made of fiber cement, in particular molded piece 8 with a hat profile, is symmetrical or somewhat asbestos cement, ready for installation, symmetrical to the longitudinal center line of the two panels. attached and supports the middle of the two

When erecting the building wall, three th 2, 3 are against each other.

Fiber cement panels 2, 3, 4 behind one another at intervals on the back facing away from the outer panel 2

lying on the other side of the individual framework fields of the intermediate plate 3 is a mirror image of which the framework 1 is attached. Of the fiber cement panels 50, two fiber cement panels 2, 3 in the middle, the molded pieces 8 with a hat profile that bind the outer shell of the building wall are attached to a further resulting fiber cement panel 2 (outer panel) and molded piece. On the back of the outside the fiber cement plate 2, which forms an intermediate shell, is also a mat of plate 3 (intermediate plate) as an insulating layer 9, which is glued to the finished construction glass fibers, stone fibers or the like 55 lies between the two legs 8b of the rear, the horizontal frame post la or Ib around the middle molded piece 8, partly from the outer boundaries of the rectangular field, connected to one assembly side of the two legs 8b of the molded piece 8 to. The outer plate is dimensioned so a profile of the strips 6 that it extends to the connecting leg 6 the associated frame forward field completely. The thickness of the insulating layer 9 is approximately only constantly covered and its edge sections the front 60 half as large as the connecting legs 6 a of the surfaces of the vertical and horizontal flu profile strips 6 are long. In the overlap through the outer post la or Ib to the middle or approximately to the side surfaces of the flanges 8a of the rear center. Extend the outer plates 2, like the imaginary shaped piece 8, the ends of the drawn in Fig. 1 and 3, not all the way to the middle connecting legs 6α of the two profile strips 6. of the front surfaces of the vertical frame posts la, 65 In general, modern adhesives then result on the outside of the building thanks to its great adhesive force already erne sufficiently narrow vertical joints 5, which divide the smooth-walled fixed connection of the fittings 8 and the profile outer surface of the outer wall and the building strips 6 with the fiber cement panels 2, 3

To further increase the connection security, the two fittings 8 in the middle of the plates 2, 3 or the profile strips 6 on the longitudinal edges of the panel additionally by screws 10, nuts 11 and Washers 12 are secured to the plate 3. The fastening screws 10, the nuts 11 and the washers 12, for which recesses are created in the insulating layer 9, place the Form pieces 8 or the profile strips 6 always fixed to the intermediate plate 3 in pairs.

In the connecting legs of the profile strips 6 through holes for screws 13, for example wood screws, are formed at regular intervals, with which the assembly units are screwed to the inner surfaces of the vertical framework posts Iß of the individual framework fields. The wood screws 13 are attached after the assembly unit is pushed so far from the building's outer panel into a framework field that the outer flanges 8a of the edge fittings 8 are firmly pressed against rubber-like, weatherproof sealing strips 14, which are pressed against the middle section of the outer surfaces of the vertical Frame posts are placed underneath. The sealing strips 7 inserted between the connecting legs 6 α of the profile strips 6 lie in the attachment area of the wood screws 13 and are pierced by them when the wood screws are attached. If machine screws are used to fix the assembly units to the frame bays, the sealing strips 7 must be provided with appropriate through-holes.

After the attachment of the mounting units to the frame fields are applied to the inside of the building wall against the rear surfaces of the vertical frame posts Eat and optionally also the horizontal frame posts 1 b, the fiber cement boards 4 is screwed, which is the same or about the same format have as the outer plates 2 of the mounting units . Countersunk wood screws 15 are used as fastening means, for which conical through-holes are pre-drilled on the edge sections of the fiber cement board 4. Sealing strips 16 are also placed underneath at the attachment points of the wood screws 15, and a sealing strip 17 is attached to the vertical butt joint of two adjacent cover plates 4 in the same way as with the outer panel 2. When tightening the countersunk wood screws 15, the fiber cement panels 4 are pressed firmly against the flanges 8 α of the central rear fittings 8, against the ends of the connecting legs 6 α of the two profile strips 6 and against the sealing strips 16, 17. On the outside surfaces of the flanges 8 a of the molded piece, shortly before screwing on the fiber cement plate 4, an adhesive is spread, which firmly connects the fiber cement plates 4 to the rear central molded piece 8 of the assembly unit. In addition, the fiber cement board 4 can still be attached to the flanges 8 α of the rear molding 8 by wood screws 18 or machine screws. For this purpose, as shown in Fig. 5, 8 wooden dowels or expansion dowels must be incorporated into the flanges 8ß of the central molding and 4 conical through-holes for the countersunk wood screws 18 must be pre-drilled in the middle of the fiber cement plate. When properly set against the back of the framework fiber cement board 4, the through holes for the countersunk screws 18 are the Holzbzw. Expansion dowels opposite.

Instead of the wood screws 15, 18, machine screws, expediently Allen screws, can of course also be used, the heads of which are sunk into the through-holes in the fiber cement plate. Here 8 α nut threaded pieces 19 are provided in the flanges.

The connecting legs 6 α of the profile strips 6 are reinforced by glued-on fiber cement strips 20 so that they when the fastening screws are tightened 13 bending and compressive forces acting on them are fully able to cope with them.

As soon as a storey height of the building wall to be erected is completed, further frameworks are placed on the previously offset framework 1, to which the prefabricated fiber cement panels 2, 3 and 4 are screwed in the manner described above. Electrical lines, gas, water, sewage pipes and the like can be installed in the cavities 21 delimited by the legs 8 b of the fittings 8. If ventilation between the fiber cement panels 2, 3 and between the insulating layer 9 and the rear fiber cement panel 4 cavities in the building wall is desired, one can form channels on the lower and upper frame posts 1 b of the frame 1 through which from below Her air enters the cavities and through which it exits the cavities at the top.

Claims (10)

Patent claims: 1. Building wall with a load-bearing framework, on which one from on both sides Framework made of fiber cement panels that cover the framework is attached, and with an intermediate shell arranged between the wall shells, thereby characterized in that the intermediate shell each filling a framework field with an insulating layer (9) on the inside of the building provided fiber cement panels (3), which by spacing shaped pieces (8) with each a fiber cement board (2) of the wall shell lying on the outside of the building to form an assembly unit are connected, and that each fiber cement plate (3) of the intermediate shell to the vertical Edges has a profile strip (6) with a connecting leg (6 a) on the Inside of an associated frame post (la) is screwed. 2. Building wall according to claim 1, characterized in that in the area of the butt joints the fiber cement panels (2; 4) of the two wall shells are underlaid with sealing strips (14; 17) and that between the connecting legs (6 α) and the inner sides of the associated frame posts (Iß) sealing strips (7) are also provided. 3. Building wall according to claim 2, characterized in that between the vertical Butt edges of the fiber cement panels (2; 4) of the wall shells, narrow joints (5) are left free, the bottom of which is formed by the sealing strips (14; 17) underneath. 4. Assembly unit for producing the building Factory wall according to one of claims 1 to 3, characterized in that the profile strip (6) has an angle profile, one leg of which forms the connecting leg ( 6a) and the other leg of which is attached to the side of the fiber cement board (3) facing the building interior. 5. Mounting unit according to claim 4, characterized in that the connecting leg (6 a ) protrudes over the insulating layer (9). 6. Assembly unit according to claim 5, characterized in that the connecting legs (6 a) are reinforced by strips (20) made of fiber cement. 7. Assembly unit according to one of claims 4 to 6, characterized in that its two fiber cement plates (2; 3) are connected by at least three made of fiber cement, parallel to the frame post extending fittings (8) with hat profile, which with their web (8 c) ao at ^{r of} the fiber cement board. (3) and with the two parallel flanges (8 a) rest on the fiber cement board (2), a fitting (8) each being arranged so that one of its flanges (Sa) is flush with a vertical edge of the fiber cement board (2) closes, and that on the building interior facing side of the fiber cement board (3) at least one molded piece (8) is attached with its web (8 c). 8. Mounting unit according to one of claims 4 to 7, characterized in that the profile strips (6) and molded pieces (8) are attached to the fiber cement board (3) by an adhesive. 9. Mounting unit according to claim 8, characterized in that opposite one another Form pieces (8) or profile strips (6) and shaped pieces (8) additionally with connecting screws are connected to the fiber cement board. 10. Mounting unit according to one of claims 7 to 9, characterized in that the on the to the inside of the building facing side of the fiber cement board (3) attached molded pieces (8) their flanges (8 a) dowels or threaded nuts (19) for receiving fastening screws (18) for the fiber cement panels (4). 1 sheet of COPY drawings 909584/68