DE810305C - Reinforced building structure - Google Patents

Description

Reinforced structure For assembly work, both for residential construction and Industrial construction, it has been suggested, initially skeletons made primarily of steel or to set up from reinforced concrete prefabricated parts and then with lightweight construction materials in large format with practically no additional reinforcement or with building boards from wood, pressed or plastics o. The like. Ausfach. With these known skeleton designs the skeleton is the supporting part. It has also been suggested that one to take a similar path and not initially for the skeleton supporting the building to set up, but to fill out in its individual parts before the set-up. The '.mounting construction should then consist of mostly large-format, about storey-high and in general reinforced panels are made up of a load-bearing steel frame in the Size of such a plate are surrounded, then used to manufacture the steel frame Poured with a non-load-bearing or only limited load-bearing lightweight building material or is squeezed.

The proposed assembly construction has disadvantages. Will initially be a Erected a skeleton structure, which then has to be filled in later, so it becomes a considerable one Working time required. In addition, there is the lining, the cleaning and installation work tedious. For: assembly construction in which non-load-bearing lightweight panels are used, there is a disadvantage that, given its high sensitivity, it is careful and thus require expensive transport. A greater wall thickness, which this evil to encounter could make the construction more expensive. The stacking of several Floors is no longer possible. Non-load-bearing building panels made of pressed or plastics are ruled out for certain building purposes, in particular for large buildings. Also is the need for steel for such building materials is very high, since it is essentially steel must absorb the forces of the structure.

The invention has set itself the task of avoiding the disadvantages of the known structures. It relates to an armored structure and also relates to designs made possible by such structures. The invention is based on the idea of creating building material that is cheap or easy and simple to handle both in production and in assembly. The invention consists in that the structures, in particular building boards, are made of self-supporting material and are surrounded by a frame that is not solely load-bearing, preferably a metal frame. According to the invention, a castable to pressable lightweight building material of high strength and low weight can be used as the base material. Naturally, the building material must be suitable for absorbing pressures and loads on the structure alone. The building material is, for example, introduced into a steel, light metal or plastic frame in such a way that it forms a solid unit with it. While the self-supporting material takes the load, the frame is primarily used to enable quick assembly. It also serves to protect the edges, so that the transport and handling of the structure according to the invention is facilitated. The frame of the building can be kept very light, as it is not particularly stressed. As lightweight construction materials, highly insulating materials that harden quickly are expediently used in order to make mass production economical. As a pressure-resistant lightweight building material, for. B. steam-hardened hard porous concrete or lightweight lime concrete are used, which is able to absorb a pressure of at least about 50 kg / sq cm with a density of 0.6 to 0.8. A structure according to the invention in the form of a mounting plate can be, for example, 30 to 25 cm wide and 125 to 500 cm long. The frame construction can have angle irons of normal profile from 15 to 30 mm angle legs, U-irons from 15 x 30 mm to 20 X 40 mm, T-irons from 15 X 15 mm to 30 x 30 mm or similar profiles of similar sizes. It is expedient to use lightweight profiles with a thickness of 1.5 mm to 3 mm. If light metal plastic profiles or profiles made of other material are used, the strengths are selected accordingly.

In the building panels, window and door openings can be passed through from the outset Insertion of appropriate frames can be provided, with the door or door opening, of course. the Window openings are then not poured out.

The frame of the new structure can be reinforced with wire, in particular Steel wire reinforcement, be provided in such a way that the tensile or bending forces of these Wires can be added alone or together with the frame. The wires can be parallel to their frame surfaces, they can be welded to the frame or be riveted.

The wires can also be tensioned, preferably by screwable Connections to be connected to the frame, e.g. B. such that the wires through holes the frame can be guided and anchored with a screw and nut. With such a Design it is possible, for. B. after the plate has hardened, a bias of the To achieve wire reinforcement with the screw connection. That way you can the flexural strength, as z. B. is desired for ceilings and roof panels, increased will.

The frames can be narrower than the width of the panels and preferably on one side flush with the plane of the plate. Result from this first of all advantages in the fabrication of the building structure. Besides, the advantage is given that in the production of a wall from the structures according to the invention no cold bridges directly penetrating through the walls are formed. Such frames are z. B. when using the above Reached profiles whose legs are only 4o to 5o mm wide, while the plates z. B. 5o to 150 mm thick.

The frames can be wholly or partially, but at least on two sides the plates profiled and attached in such a way that one or more frame legs stick out. One part of the profiled frame therefore lies against the plate or he is embedded in the plate and forms the edge protection, while the other Part of the frame protrudes from the plate. The frame legs, in particular in the case of frame legs protruding from the center of the panels, be inclined at an angle. This facilitates the assembly of the plates described below.

In the interest of a particularly stable connection between the frame and Plate material can be bent out of the frame tabs o. The like, which in the plates protrude. In this way, the frames are anchored in the panels. So can z. B. from the frame parts adjacent to the plates triangular or square tabs punched out that are parallel, or perpendicular, or at, any angle can be inclined to the plate and protrude into the plate material.

The free frame legs can be provided with holes, whereby the assembly of the plates with one another is facilitated.

In addition, openings for receiving preferably Installation lines lying within the plates can be provided. So can z. B. the electricity lines, the pipes for the heating, the water pipes and the like. Be embedded in the frame. These lines can in general also lie completely within the plate material. The pipe socket out of the frame protruding lines can then be threaded or lead sleeves with each other be connected during assembly. The insertion of the central heating body in the plate gives the opportunity to create heatable walls with no heating surface whatsoever takes up special space.

The free frame legs can be used for window and door openings as Stop for the window and door frames. The window and door angles be firmly connected to the outer frame structure. Window and door openings can be formed from the same profiles as are otherwise used in assembly construction will.

The structure according to the invention, in particular panels, can on can be used in different ways to assemble a building. A simple one Form consists in the fact that the structure for the production of corner, multiple connections o. The like. Are placed or placed against one another in such a way that the free frame legs interlock or overlap. They can still be used to stiffen them preferably by screwing, nailing, riveting, wires, etc. Like. Be connected. The way in which the frame angles fit together or overlap, depends on the particular design of the used Frame. The free frame legs can, however, also directly against the material an abutting surface and then with this by driving or pulling in be anchored by nails, screws or the like. In all of these cases, the free frame as a connecting element. But it is also possible to use the connection To achieve staples in the fasteners or in the panels themselves be taken. Also z. B. U-shaped iron or the like can be used, which encompass the free frame areas for themselves without them, for example lie against the wall surfaces themselves. The existing between the individual components Gaps or the resulting joints can then be retrofitted with mortar, concrete, may also be filled in with the installation of a reinforcement. Such a one Connection is particularly desirable for corner connections. In the spaces in between in addition, profiled precast concrete parts are used and then by mortar or Concrete to be connected to the other components.

Walls can be made with the panels according to the invention in a simple design or be erected as double walls. For external and load-bearing intermediate walls in general, double walls are made from two panels, while non-load-bearing Partition walls are designed as simple walls. Ceilings and roofs can each can be designed single, double or multiple according to the needs at hand.

For creating a double outer wall or a load-bearing partition can so z. B. first at the corner of the building two panels parallel to each other be placed on the foundation, expediently in such a way that at least on one side facing both free legs formed by the frame towards the inner air space lie. The size of this air space depends on, among other things. according to the building height.

In general, the air space is used to increase the buckling strength of the masonry to enlarge, chosen with the height of the building. The two plates can then are connected to one another by driving in a staple in such a way that the staples nailed by punching out the frame in the plate. In doing so, one becomes expedient Nail it diagonally to the plane of the board so that the wall is connected to the two boards among each other, stands. Instead of staple nailing, any other can of course be used Connection of the plates to each other take place, for. B. by screwing about the two free angle legs of the plates. The corner of the house can now be set up two further panels perpendicular to the first panels are completed, The four corner panels are nailed to one another across the corner using a special staple will. The corner connection can then be reinforced by pouring in or non-reinforced concrete column to be completed.

When producing double walls, of course, window and door panels, d. H. Components that open the window and door from the start unfolded, double behind one another. They become like any other wall unit connected to the others.

If the masonry is particularly stressed, for example in the case of multi-storey Houses, with double walls preferably connected with staples, the cavities can in whole or in part, especially at the connection points, with mortar, concrete, etc. Like. Be filled out. The concrete does not need to be reinforced. to be.

The space in between in double walls can be used to increase the insulation filled with insulating wool or other insulating materials.

When grouting the resulting masonry, if possible care has been taken that the metal frames are sufficiently embedded that whose corrosion is avoided even over a long period of time.

From the assembly construction described it is evident that the free frame legs if possible are to be arranged so that when the walls are put together, the panels always lie within one level. As long as the free frame legs are not in the middle protrude from the plate, this does not cause any difficulties. Should then between the frame to be joined together when the abutting panels in lie on one level, there are gaps, these can be removed by bending the Frame legs or by intermediate layers or the like. Be bridged. Protrude against it the free frame parts out of the middle of the panels, then they are useful, as already stated above, directed obliquely "because when the plates are in a Lie flat, also come to lie on top of each other and are connected to each other can. As already stated above, the training depends on the framework the type of installation described and required in each case.

For connecting standing walls, especially for connecting double walls, frame pieces consisting of precast concrete parts can preferably be placed will, which engage in the protruding frame legs of the wall unit. In this manner and way, the erected walls of a floor can be displayed in the simplest form their top are connected to each other. The laid-up, z. B. be reinforced or not made of precast concrete frames. You can in the shape of the building structure according to the invention and then with each other to one flat frames are connected. You can continue to use the corner joints that may also contain precast concrete parts. In this case It is advisable that the reinforcement bars are made in the interests of a good connection the ends to be potted protrude to form a good, uniform overall connection to obtain. Concrete locks may also be attached.

The frame, preferably formed from precast concrete, can be used for Be profiled to accommodate ceiling or roof panels. The ceiling and roof panels are then only to be inserted into the profile and can be grouted with concrete. In this way, a wall and ceiling or roof connection is formed of a closed whole.

The following floor can be placed on the concrete frame designed as a ring anchor can be constructed in the same way. Hierbgi can of course have a corresponding Profiling of the concrete frame should be attached.

In all cases the surface, corner and multiple connections, such as joints or the like, completely or partially filled with mortar, concrete, etc.

As already mentioned at the beginning, can be in the same form as the wall panels the ceiling panels are also formed. A light steel frame can be used here or light metal frames are reinforced with as much steel wire in the pulling direction as than the static calculation requires. This frame comes with a corresponding thicker, pressure-resistant mass poured out. The plate is conveniently in the Length of the depth of the room made. You can z. B. 2.5 m, 3.75 m or 5 m long and be about 10 to 15 cm thick. In general, one is going to save on weight and to ensure easy handling of the plate for assembly, depending on the length 3o Manufacture up to 62.5 cm wide. Here, too, the joints can be filled with mortar.

The ceiling panels are useful at least on their narrow side provided with a U-shaped frame. The ceiling panels are then placed in such a way that that the U-shaped profile is directed with its opening downwards and in a Engages angle leg of the underlying wall unit. That way a tensile strength connection is obtained.

Ornamental manufacture of roofs can be made of panels with a thickness of Use 5 to 7.5 cm. The plates can be placed on a concrete frame, which forms the cornice of the house, simply put on and potted. For education On a pitched roof, panels can be placed trapezoidally to one another and one below the other connected and put together over the middle part of the trapezoid to form the gable and also be connected to each other. To make such a roof First, two sloping ceilings are placed on each side of the house and in their Oblique direction supported. Then the ceiling of the attic is in shape a ceiling plate inserted and with both roof slopes, for example with the help a connecting strap, screwed or riveted, so that a trapezoidal roof extension arises. Then two roof panels are connected to the gable by placing them in the ridge be nailed or screwed together.

For the production of wide-span, self-supporting ceilings or roofs panels can also be connected to one another in a framework. Here you can in each parallel two or more plates can be arranged one behind the other by they are riveted or screwed together. The framework is on the long side firmly riveted to the legs of the steel or light metal frames of the panels, so that a cantilevered ceiling with a large span and high load-bearing capacity is formed can be. Cantilever roofs can also be designed in the same way, which offer a flat or slightly curved soffit. Since the framework training of the Plate and this itself with its pressure-resistant material and internal reinforcement Able to transmit high voltages, can in this way a very Light and cheap roof construction, which at the same time the roof skin forms among themselves and also well insulated. The plates can with such designs for example 5 to 7.5 cm thick.

Uninhabited buildings such as B. garages, stables, sheds, etc., can with the structures according to the invention without the use of double walls in be produced in the simplest and cheapest way. The simple ones screwed together or nailed wall panels can also be supported by a frame structure in such a case precast concrete parts are surrounded as a cornice, while the roof or ceiling panels with their U-frames, which are open at the bottom, for example, into the free frames of the wall panels intervention. Pitched roofs can also be designed in a similar shape.

Several embodiments of the invention are shown in the drawing, namely Fig. 1 shows a panel according to the invention, Fig. 2 shows a panel with a door frame, Fig. 3 shows a panel with a window frame, Fig. 4 to 9 different designs of the frame, Fig. Io a detail of the frame, Fig. Ii to 14 the execution of a double wall, Fig. 15 a corner connection of a double wall, Fig. 16 and 17 other connections of double walls, Fig. 18 connections of two panels of a double wall, Fig. Ig the corner connection an outer wall, Fig. 2o connection of an inner wall to a simple outer wall, Fig. 21 multiple interfering inner walls, Fig. 22 and 23 sections through ceilings, Fig. 21 Connection of a ceiling to a double outer wall, Fig. 25 Connection of a ceiling to a simple one Outer wall, Fig. 26 Supporting a ceiling on a load-bearing inner wall, Fig. 27 Cornice formation for roof and ceiling supports, Fig. 28 Node in the sloping roof, Fig. 29 a ridge point, Fig. 30 and 31 ceilings as trusses, Figure 32 a section through the ceilings according to Figures 30 and 31.

The building board according to Fig. I is formed from the square frame i, which is provided with a wire armouring 2. In this frame is a building material poured.

Fig. 2 shows the door frame 3 built into the frame i, Fig. 3 the Window frame built into frame i 4.

In the figures 4 to 9 are different embodiments of the frame shown in section. In Fig. 4, a frame designed as an angle iron protrudes 5 with its free leg out in the middle of the plate 6. The free leg 7 is angled in one representation.

In the embodiment according to Figure 5, the angle frame 5a is partially in the material 6.

In the embodiment of Fig. 6 is a T-shaped frame 8, at Figs. 7 to 8 U-shaped frames 9 and io are provided. The embodiment according to Fig. 8 is particularly suitable for ceiling constructions.

In the embodiments according to Fig. 9, the angular frames are located ii or 12 on one side completely on the material 6.

As Fig.io shows once in a front view and once in a side view, are punched out of the frame 13 tabs 14 that protrude into the material.

Fig. Ii shows a panel combination with a double wall Cavity. The free angles 15 and 16 of the plates are screwed together, riveted or the like. The plates 17, 18, i9, 2o lie in one plane. The joints 21 and 22 are filled with concrete. The free legs are through a cross connection 23, e.g. B. in the form of bolts, interconnected.

The embodiment according to Fig. 12 differs from that according to Fig. ii only by having the cavity between the plates at the junction with Concrete 24 was filled.

Fig. 13 shows a similar connection with sloping free angular surfaces.

Fig. 14 shows the connection of an intermediate wall 25, the free Leg 26 is nailed to plate 20. The cavity 27 is also potted.

Fig. 15 shows a corner connection. Connecting pieces are inserted between the angles 28, 29, 30 and 31 and are nailed to the angles or to the plates. The corner is supplemented by a concrete pillar 32, which can be provided with reinforcement 33. Fig. 16 shows the connection of an inner hollow wall to a double outer wall. The gaps are filled with concrete.

Fig. 17 shows intersecting cavity walls with the spaces between them are poured out.

Fig. 18 shows the connection of two walls 34 and 35 by sloping Staples 36 which engage in the punched holes 37 of the tabs.

Fig. 19 shows the corner structure of an external wall. The two angles 38 and 39 are held together by a further angle iron 40 which lies in a corner pillar 41.

Fig. 2b shows the connection of an inner wall to a simple outer wall, and Fig. 21 shows two intersecting interior walls.

Figures 22 and 23 show different designs of ceiling connections.

Fig. 24 shows the connection of a ceiling to a double external wall 42, 43, over which a concrete frame 44 is placed. The top plate 45 carries a U-shaped frame 46 which engages over the angle frame 47 of the plate 43. The spaces in between 48 etc. are poured with concrete.

Fig. 25 shows the arrangement of a ceiling on a simple external wall 49, which is provided with a surrounding and reinforced concrete frame 5o. The ceiling 51 also carries a U-shaped frame 52.

Fig. 26 shows how the ceiling is supported on a load-bearing partition.

In all embodiments, the ceiling is with a special wire armouring 53 provided, which protrudes into the concrete frame 44 or 5o.

Fig. 27 shows the Gesimsausbildupg a roof and ceiling support. The concrete frame 56 and the cornice 57 are reinforced on the double wall 54, 55 is hung up. In addition, the wall 55 carries the ceiling 58 via its U-iron 59. The Roof panel 56 is inserted into the cornice. The cavities are potted.

Fig. 28 shows the node in the roof slope and Fig. 29 the ridge point.

Fig. 3o and 31 show ceilings that are built as a framework and in which the superimposed plates 6o, 61 or 62, 63 by struts 64 are connected as shown in Fig. 32.

Claims (1)

PATENT CLAIM i. Reinforced building structure, characterized in that it consists of self-supporting material and is surrounded by a frame which is not supported by itself and which is preferably made of metal. z. Building structure according to Claim r, characterized in that the wires can be tensioned and are preferably connected to the frame by screw connections. 3. Structure according to claim i or 2, characterized in that the frame is narrower than the thickness of the plate and is preferably flush with the plate on one side. 4. Structure according to one of claims i to 3, characterized in that the frame is wholly or partially profiled at least on two sides of the panels and is attached in such a way that one or more frame legs protrude. 5. Structure according to claim 4, characterized in that the frame legs protruding from the center of the panels are inclined obliquely. 6. Structure according to one of claims i to 5, characterized in that tabs or the like bent out of the frame protrude into the panels. 7. Structure according to one of claims 4 to 6, characterized in that the free frame legs are provided with bores. B. Building structure according to one of claims i to 7, characterized in that openings are provided in the frame for receiving installation lines preferably located within the panels. 9. Structure according to one of claims i to 8, characterized by recesses provided with frames for door, window openings or the like. Preferably, their free frame legs serve as a stop for window or door frames. ok Wall made of building structures according to one of Claims i to 9, characterized in that the building structures are placed or placed in relation to one another to form surface, corner, multiple connections or the like in such a way that the free frame leg surfaces engage or one above the other, whereby they are preferably connected by screw connections, nailing or the like. ii. Wall according to claim 10, characterized in that in the case of double walls, preferably connected by staples, cavities formed by them are completely or partially filled with mortar, concrete or the like. 12. Wall according to claim io or ii, characterized in that for connecting walls, in particular double walls, preferably made of precast concrete frames are placed which engage in the protruding frame legs of the wall units. 13. Wall according to one of claims io to 12, characterized in that the gaps and joints between two or more structures, in particular in the case of corner connections, are completely or partially filled with mortar, concrete or the like. 14. Roof structure made of building structures according to one of claims i to 9, characterized in that the structures are placed trapezoidally to one another and connected to one another and are assembled over the central part of the trapezoid to form the gable and are connected to one another. 15. Truss construction, in particular for wide-span, self-supporting roofs, characterized in that the truss rods consist of structures according to one of claims i to 9.