DE3721249A1 - Structural system of the steel-skeleton construction type, in particular for the construction of housing - Google Patents

Abstract

In order to utilise the steel-skeleton construction method, in terms of short construction times and cost advantages, for the construction of housing, schools and administrative buildings and to combine it with a solid construction method without lengthening the construction time and producing drying-out problems, the invention proposes a structural system, in the case of which the load-bearing elements for the steel skeleton comprises lightweight steel profiles 1a, 1b, as exterior-wall supporting profiles, which are fitted together with the aid of welded-on tie plates 1d and, prefabricated, can be easily erected in the necessary lengths. Prefabricated exterior-wall panels 2, 2' consisting of lightweight concrete are placed one upon the other in a mortar-free manner using steel dowels 3 and are secured on the exterior-wall supporting profiles 1 and 8 with the aid of steel spring-like clamps 4 and 7, respectively. Since the exterior-wall panels 2 reach as far as roofing panels, upon which it is possible to walk and which are laid on cantilevered roof trusses of the roof structure, and since the exterior-wall supporting profiles 8 can be used for mounting basic cases for windows and doors, a weatherproof shell is provided after a very short period of construction time, which shell ensures, even in the event of unfavourable weather, that further construction work can be carried out in the interior of the structure. <IMAGE>

Description

The invention relates to a steel skeleton construction system, especially for residential construction, with space-encompassing, external wall panels attached to external wall support profiles in a multi-layer arrangement. For such a building system is from DE-AS 19 31 427 with a wall construction hanging wall plates become known, in which at the Support profiles rails are arranged, the gutters for Show engagement of plate-side claws. In the foreground is the use of the wall cavity in this wall construction between two wall panels for the installation of Installa tion as well as the easy detachability of the wall panels for subsequent installations and conversions as well as repair work. As far as the support profiles are concerned, these floors should have height and not in the spaces between the ceiling beams reach in.

Against this background, the invention has the task the steel skeleton prevailing in industrial construction construction in terms of short construction time and cost advantages to transfer to residential, school and administrative buildings and the advantages of using solid components to use a solid construction, the disadvantages of which long construction time and the dehydration problem to avoid. Compared to the prefabricated house construction in which there are no dehydration problems, is the invention task primarily focused on low-cost construction.

The solution to these tasks is in the distinctive Features of claim 1 specified. According to this the load-bearing elements for the steel skeleton with the help  of welded steel binding plates Lightweight profiles as outer wall support profiles, the front manufactured in the required lengths easy to erect are (characteristic a). The prefabricated from lightweight concrete Exterior wall panels are made using steel dowels put on top of each other without mortar and with the help of steel Secure spring clips on the outer wall support profiles (Features b) to d) so that the outer shell including Roof and windows and doors under the lowest personnel Use and if necessary also erect without a construction crane is. The self-supporting roof trusses of the roof construction are not on the outer wall supports, but on the Supported ends of the top roof rack and wear walkable Roof slabs following the uppermost outer wall slabs, so that the outer shell of the building after can be closed quickly and easily at the top (feature e). Since the outer wall support profiles according to feature f) Installation of shell frames used for windows and doors after a very short construction time is a weather secure cover created, even in bad weather continued construction in the interior of the building is guaranteed.

The inexpensive and fast construction also includes that instead of a foundation, the outer wall support profiles (and possibly also inner supports for roof racks and partition walls) in the recesses of individual base plates are supported from reinforced concrete, which are prefabricated on a Striped banquet can be laid, also for fixation prepared from external wall panels (feature g).

Further details of the construction system according to the invention are specified in claims 2 to 7, which in the description of the drawings are explained in more detail. The essential The advantages of the new construction system are as follows:  

By not mortaring the outer wall shell because of the fastening system using steel dowels and steel Spring clips and the possibility of quick closing the roof opening and the outer wall openings through shell construction frames are adverse effects due to residual moisture switched off so that without waiting with the interior can be started. Even in frost periods is under economic use of a heating system a short construction time and guarantee availability. The multi-layered Arrangement of solid and easy-to-use panels elements enables the installation of installation lines both in the outer wall and in partition walls and Cover. The plate elements used for Walls, roof and ceilings as well as the skeleton construction can format and weight are chosen so that these are still to be handled manually. This eliminates costs for expensive lifting devices, so that even the home builder in is able to provide a certain amount of personal contribution. Compared to prefabricated houses, it can also be used instead of one floor be built on several levels, as well as a basement in the building system according to the invention can be included. Because only prefabricated ones made from proven building materials Components can be used, a building system brought to the market as a kit according to the invention and thus also the export especially to third country countries Be made accessible to the world. By applying be Approved building inspectorates are no longer required.

In the drawing is an embodiment of the building system shown according to the invention, namely show

Fig. 1 is a horizontal section through the three-shell outside wall in the region of a corner configuration,

Fig. 2 is a horizontal section through the outer wall in the region of an intermediate outer wall support,

Fig formation. 3 is a horizontal section corresponding to Fig. 1 by a loaded with earth pressure Keller-outer wall as Eckaus,

Fig. 4 is a horizontal section through the basement outer wall in the region of an intermediate outer wall support,

Fig. 5 is a vertical section through an intermediate outer wall profile in the region of a ceiling mount or a Ge shot ceiling along the line VV in Fig. 6,

Fig. 6 shows a horizontal section along the line VI-VI in Fig. 5,

Fig. 7 is a vertical section similar to FIG. 5 in the region of a ceiling beam outside an intermediate outer wall-support profile according to the line VII-VII in Fig. 6,

Fig. 8 is a vertical section through the Traufpunkt showing the roof construction,

Fig. 9 is a vertical section along the line IX-IX in Fig. 8,

Fig. 10 is a vertical section on the line XX in Fig. 8,

Fig. 11 shows a comparison with FIG. 8 simplified vertical section through the Traufpunkt,

Fig. 12 is a vertical section along the line XII-XII in Fig. 11,

Fig. 13 is a vertical section through the verge of the roof shown in Fig. 8,

Fig. 14 is a plan view of a foundation base plate for the left corner support a basement or ground floor wall,

Fig. 15 is a plan view corresponding to Fig. 14 for the right corner support,

Fig. 16 is a plan view of a base plate in the region of intermediate supports,

Fig. 17 is a vertical section along the line XVII-XVII in Fig. 16 and

Fig. 18 is a horizontal section through a lateral boundary for a window opening with a partially shown Rohbauzarge and window frames.

Supporting elements of the steel frame, the outer wall supporting profiles shown in Fig. 1 to 4 1 and 8, each consisting of two C-shaped lightweight sections 1 a and 1 b, the spread by welded-on tie plates 1 d, ie at a distance from each other, are connected . These outer wall support profiles are used so that the flanges of the lightweight profiles 1 a , 1 b run parallel to outer wall panels 2 , which do not belong to the gable wall. The outer wall support profiles 1 in the corner training according to FIGS. 1 and 3 are complemented by a C-shaped lightweight profile 1 c offset at right angles to the gable wall, which is screwed to one of the lightweight profiles 1 a or 1 b . After the construction of the steel skeleton, which is clearly explained later on the ceiling beams and roof trusses, the prefabricated and easily transportable outer wall panels 2 and 2 'are assembled from lightweight concrete. For this purpose, the outer wall panels are seen at their upper and lower butt surfaces with blind holes for receiving steel dowels 3 ver, which occur in the blind holes of the next higher outer wall panel and ensure the aligned position of all outer wall panels. Before installing the next higher outer wall plate, the steel dowels 3 are connected to the outer wall support profiles 1 and 8 by means of steel spring clips 4 and 7, respectively, by hook-shaped ends of the steel spring clips pointing inward bends of the C-shaped lightweight profiles 1 a , Reach behind 1 b . In the area of the outer wall support profiles 1 according to FIGS. 1 and 3, simple steel spring clips 4 are used as open brackets, whereas the steel spring clips 7 for intermediate outer wall support profiles 8 are double-armed (FIGS . 2 and 4 ).

To attach the steel spring clips 4 and 7 , these are first hooked into the bends of the C-shaped lightweight profiles 1 a and 1 b or 1 c and then by inserting the steel dowel 3 under tension on a respective highest outer wall plate 2, 2 ' Or 11 set. The joints between the outer wall panels created by the steel spring clips are later covered by the external plaster.

Although the roof construction according to FIG. 11 is first completed and the window and door openings according to FIG. 18 are closed for the rapid completion of a weatherproof covering after the mortar-free erection of the outer wall panels, the wall construction shown in FIGS. 1 to 4 is further described. First, partition wall panels 5 are constructed from lightweight concrete at a distance from the outer wall and sealed by means of joint adhesive in the horizontal and vertical joints to the outer wall support profiles 1 and 8 , respectively. In order to avoid sound and heat bridges, insulation strips are inserted between the connections to the outer wall support profiles. The same applies to the inner wall panels 6, which are also made of lightweight concrete.

The cavity between the outer wall panels 2 and the intermediate wall panels 5 is ventilated by drafts, not shown, in the basement or ground floor area and runs through the roof construction, as will be explained, thereby preventing the formation of condensate. The cavity between the intermediate wall panels 5 and the inner wall panels 6 can be used for the accommodation of electrical lines as well as cold and hot water lines and is also connected to the ceiling cavity. The cavity within the outer wall support profiles 1 and 8 can be used for the installation of drain lines. This also applies to support profiles that have to be erected inside the floor plan of large-scale buildings.

As shown in Fig. 3 and 4 show, omitted in the region of the lower row of outer wall panels 2 and a 11 in the basement area of the partition plates 5. The outer wall panels 2 a and 11 loaded with earth pressure are made in heavy concrete and provided with a moisture insulation layer 12 . To further strengthen the basement outer wall of the intermediate chamber 9 are filled with reinforced concrete wall panels between the outer 2 a and 11 and the inner wall plates 6 and, depending on static requirements of the interior 10 of the outer wall supporting profile 1 in the corner region and 8 in the intermediate props . In the free space of the support Fig. 4 a possibly statically necessary Stützenver reinforcement 13 can be introduced.

Returning to the construction of the steel skeleton, including ceiling beams, reference is made to FIGS. 5 to 7. FIGS. 5 and 6 show the arrangement of a ceiling support 15 as a double-T-carrier in the region of an outer wall supporting profile 8 as an intermediate support. The ceiling bracket 15 has a flange width that corresponds to the spread between the C-shaped lightweight profiles 1 a , 1 b ( Fig. 1), so that the ceiling bracket 15 can be inserted into the column free space. The floor beams 15 are with outside wall supporting profiles 8 by means of supports 15 a screwed head angle.

To further ceiling supports 15 'outside of the outer wall supporting profiles to be able to move in 8-shaped C-the lightweight sections 1, a, 1 8 b of the outer wall supporting profiles over angle 18 a and 18 b horizontal U-shaped beams 18 connected by screw connections, to which the further ceiling brackets 15 ' are screwed via connecting bracket 19 . ( Fig. 7). The on the webs of the ceiling bracket 15 ' screwed connection bracket 19 are also shown in dashed lines in Fig. 6, although the connection shown here of ceiling beams 15 with the outer wall support profiles 8, the connection angle 19 does not require.

The floor ceilings consist of on the ceiling beams 15 and 15 ' placed on the top cover plates 17 made of reinforced concrete and on the support flanges placed on non-accessible under cover plates 16 made of reinforced lightweight concrete. The resulting between the two ceiling panels 16, 17 just serves if the inclusion of lines, especially heating ducts or heating lines. Alternatively, warm air from underfloor heating can also be blown through the cavity. The lower plates 16 are to be covered with appropriate insulating material.

As FIG. 7 also shows, the horizontal intermediate supports 18 also serve to accommodate intermediate space plates 5 .

As already mentioned, the steel skeleton also includes the self-supporting roof trusses 20 , which according to FIGS. 9 and 12 consist of a pair of C-shaped lightweight construction profiles, between the webs of which in the area of the eaves point according to FIG. 8, a binding plate 25 is clamped, which is perpendicular to between at the ends of the top ceiling beams 15 ( Fig. 8 and 10) or 15 ' ( Fig. 11 and 12) attached U-profiles 26 is sufficient. At the ends of the un indirectly supported on the outer wall support profiles 8 ceiling beams 15 and the medially abge supported via intermediate beams 18 ceiling beams 15 ' , the cantilever roof truss 20 are easily connected. Here, as in the construction of the steel skeleton, screw connections are preferred which, unlike welded connections, do not require any welding approval. However, it does not matter on this point of view, such as. B. in school or administrative buildings, the use of welded joints should not be ruled out, not even when creating a kit for the building.

The roof trusses 20 are provided at the lower ends with eaves planks 21 and continuous angles 22 , which secure the laid-on, walkable roof cover plates 23 against slipping and at the same time, by arranging drill holes, the insertion of steel dowels into the blind holes of the upper abutment surface of the outer wall plate, as the top wall cover plate . Thus, the attachment of the top outer wall end plate is guaranteed in the area of the upper abutment surface and at the same time created the prerequisite for taking out this steel dowel to allow disassembly of the outer wall panels from top to bottom, which means a great advantage in the event of later structural changes. The roof slabs 23 are provided on the surface with a welding track as a so-called sub-roof, on which the usual roof slabs are laid and nailed, which fix the roof tiles.

As best shown in FIG. 9, the roof trusses 20 are underlaid with a wooden strip 27 as counter battens for the wooden battens 28 , which serve to fasten a substructure in the form of a plasterboard plate 29 . A thermal insulation layer 24 is drawn in between the roof trusses 20 and runs at a distance from the roof slabs 23 . The thus formed ceiling hollow space communicates with the spaces between the outer wall panels 2 and not shown in Fig. 8 partition wall panels 5 and the inner wall plates 6, for which purpose the outer wall panels 2 to the roofing plates 23 extend, and the partition plates 5 and the inner wall plates 6 extend to above the thermal barrier coating 24 . The ventilation of the wall construction already mentioned thus extends to the roof area.

The vertical section through the verge of an inclined roof according to FIG. 13 shows laterally over the gable wall panels 2 'in front of cantilever roof tiles 23 , which are supported by a C-shaped closing profile 31 , which is placed on outer wall support profiles 8, not shown, as gable supports. Furthermore, a C-shaped roof edge support 30 is provided in the gable area at the end of the roof edge.

For base support of the outer wall support profiles 1 and 8 serve single base plates 44, 45, 46 of Fig. 14 to 17 made of reinforced concrete, which are to be laid on a strip banquet at the same level ver. All base plates are provided with continuous savings 32, 34 , which correspond to corresponding recesses in the strip banquet and serve to anchor concrete with the strip banquet for pouring concrete. The recesses 34 are used in the pouring out of the basement walls explained in connection with FIGS. 3 and 4. From the savings 32 are poured with concrete after the outer wall support profiles 1 and 8 are inserted into the intended recesses 33 of the base plates. The round recesses 50 are used to insert steel dowels 3 .

The closing of outer wall openings for windows and doors is shown in FIG. 18 as an example for a window. The outer wall opening is laterally limited by a C-shaped lightweight construction profile 1 a of an outer wall support profile 8 . The frame 36.1 of a bodyshell is provided at intervals with trapezoidal spacers 47 made of steel, which are inserted into the C-shaped lightweight profile 1 a and screwed there to its web. With the frame 36.1 an outer steel frame 35 is connected to the roller shutter rail 35.1 , which connects to the outer plaster 42 via a permanently elastic joint 41 . On the other hand, the window frame 36.1 is followed by the inner wooden frame 38 with the ceiling profile 39 , which extends over the interior plaster 43 .

The spacer bracket 47 define a distance of the shell from the outer wall openings, which is bridged by a thermal insulation and soundproof layer 40 . Further, FIG. 18 shows still the window sash with glazing 36.2 37.1 and 37.2 glazing bead.

The stability of the steel skeleton construction is not Horizontal associations shown within the ceiling cone structure and vertical bandages within the outer wall construction achieved. The arrangement and training of these braces used for bracing are made according to static Requirements.

Claims (7)

1. Steel skeleton construction system, in particular for residential construction, with room-encompassing outer wall panels in multi-layer arrangement, attached to external wall support profiles, characterized by the following features:

• a) the outer wall supporting profiles (1, 8) consist of two d by welded tie plates (1) apart C-shaped lightweight profiles (1 a, 1 b), which are inserted in parallel to the outer wall plates (2) extending flanges,
• b) the outer wall panels ( 2 ) prefabricated from lightweight concrete are provided on their upper and lower abutting surfaces with blind holes for receiving steel dowels ( 3 ) which enter into blind holes of the next higher outer wall panel,
• c) in the area of the outer wall support profiles ( 1, 8 ), the steel dowels ( 3 ) can be connected to the outer wall support profiles by means of steel spring clips ( 4, 7 ), by hook-shaped ends of the steel spring clips pointing inwards to the C -shaped lightweight construction profiles ( 1 a , 1 b) behind the outer wall support profiles,
• d) the outer wall support profiles ( 1 ) in the area of the corner formation ( Fig. 1) are complemented by a C-shaped lightweight profile ( 1 c) offset at right angles to the gable wall, on which C-shaped steel spring clips ( 4 ) to hold the outer wall panels ( 2 ′ ) of the gable wall,
• e) the roof structure consists of self-supporting roof trusses ( 20 ), which are supported at the ends of the uppermost roof racks ( 15, 15 ' ) and are covered with walk-in roof tiles ( 23 ), the outer wall panels ( 2 ) reaching as far as the roof tiles,
• f) the outer wall openings for windows and doors are laterally limited by a C-shaped lightweight profile ( 1 a) of an outer wall support profile ( 8 ), to which spacers ( 47 ) can be screwed, which are connected to the frame ( 36.1 ) of a shell and determine the distance of the frame from the outer wall opening, which is bridged by a thermal insulation and soundproofing layer ( 40 ) ( FIG. 18).
• g) the outer wall support profiles ( 1, 8 ) are supported in recesses ( 33 ) by individual base plates ( 44, 45, 46 ) made of reinforced concrete, which are laid level on a strip banquet, the prefabricated base plates also having blind holes ( 50 ) for receiving the steel dowels ( 3 ) for fixing the lower row of outer wall panels ( 2 ) and with continuous recesses ( 32, 34 ) for casting concrete anchors are provided with the strip banquet ( Fig. 14-17).

2. Building system according to claim 1, characterized in that to the outer wall support profiles ( 1, 8 ) intermediate and inner wall panels ( 5, 6 ) at intervals from each other and from the outer wall panels are joint-tight ( Fig. 1), the intermediate wall panels ( 5 ) to above a distance from the roof slabs ( 27 ) laid thermal insulation layer ( 24 ) range ( Fig. 8-11). 3. Building system according to claim 2, characterized in that in the region of the lower row of out in heavy concrete out outer wall panels ( 2 ), the intermediate wall panels ( 5 ) are omitted and the space ( 9 ) between the outer wall and inner wall panels ( 2, 6 ) with reinforced Concrete is poured out. ( Fig. 3, 4). 4. Building system according to claim 1, characterized in that the ceiling beams ( 15, 15 ' ) are designed as a double-T beam with a flange width, the spread of the two C-shaped lightweight profiles ( 1 a , 1 b) of the outer wall support profiles ( 8 ) corresponds, and that the ceiling beams are inserted into the column free space and with the column head angle ( 15 a) on the outer wall support profiles are screwed ( Fig. 5). 5. Building system according to claim 4, characterized in that on the C-shaped lightweight profiles ( 1 a , 1 b) of the outer wall support profiles ( 8 ) horizontal U-shaped beams ( 18 ) via angles ( 18 a , 18 b) attached are on which in the area between the outer wall support profiles further ceiling beams ( 15 ' ) are screwed via connecting brackets ( 19 ). ( Fig. 6, 7). 6. Building system according to claim 4, characterized in that the floor ceilings from on the ceiling beams ( 15, 15 ' ) placed on walk-in ceiling tiles ( 17 ) and on the lower flanges of the ceiling beams laid, non-walk-in ceiling tiles ( 16 ) ( Fig. 5) . 7. Building system according to claim 1 and 2, characterized in that the cantilever roof trusses ( 20 ) each consist of a pair of C-shaped lightweight profiles, between the webs in the area of the eaves a binding plate ( 25 ) is clamped, which up to between vertical at the ends of the uppermost ceiling beams ( 15, 15 ' ) attached U-profiles ( 26 ) is sufficient ( Fig. 11, 12).