DE4003961A1 - Light cement building material - Google Patents

Abstract

Polystyrene-concrete used as building components, contains cement, additives to save wt. and granules of foamed polystyrene; in addn. alkaline textile fibres are added to the initial foamed polymer to bind the material together when hard. Pref. the fibre addn. to the mix used does not effect final wt. of the material nor does it cause the end prods. to crack even if they are large e.g. three-dimensional building units which due to their dimensions, are subject to high stresses in transit and installation. Partic. pref. granules are made of "Tricosal" (R.T.N.) and it is pref. to add expanded clay particles to the cement. The fibres are polypropylene stape fibres in partic. of thickness 20-40 micron width 100-300 micron and length 24mm. The amt. added is not critical. A partic. pref. use for sheets made of the material is in the construction of portable cabins and similar. The thermal insulation is good, water absorption is low, fire resistance is good and the material is easy to machine, cut, etc..

Description

The invention relates to a room cell, in particular a residential container according to the preamble of the An saying 1.

The room cell according to the invention can be individually set up and then forms one of a flat roof covered building, commercial or residential can serve purposes. The Ausfachun form here against the steel skeleton the walls of the building that is insulated with the floor pan against the building ground. Such room cells are used in particular as a living con tainer used either in the Factory completed and possibly with Provide parts of their interior and to the Installation site. Or the con tainers become their individual on the spot share or he from their prefabricated assemblies who in turn puts them on the site have been transported.

The structure of the spatial cells according to the invention a steel skeleton is intended to save weight, to comparatively large volumes with the übli cope with means of transport and hoists can. Such a steel skeleton consists of bending rigidly connected frame members and the corner supports. The infills this in general mine with a rectangular floor plan Partial skeletons allow outer walls, which he ensure a comfortable living climate and the building  keep dry and heat insulating properties point.

The invention is based on a previously known spatial cell from (DE-PS 29 07 630). Here are the frames fields with metal panels and one Front wall braced with diagonal braces. Only on this front wall is it possible to switch off folds from non-load-bearing panels. The only through the metal panels and the diagonal ver tensions made of self-supporting steel skeleton can corner supports and frame links from cold use shaped profiles, which as a result of ver effect with the infill and Diagonal struts have sufficient rigidity of the overall construction. It is all However, the top ends of the corner supports are required on the end faces of the frame construction to connect with a heavy cross member. Out this self-supporting steel skeleton construction results, however, a very high Total weight for the mobility of the room cell is unfavorable.

You also need the outside of the metal profiles of recessed frame fields are particularly easy delt, e.g. B. be plastered. On the inside of the Fanned out frame fields must be cladding plates are fixed between which and the Infill to arrange a thermal insulation filling is. This results in a variety of work which makes the room cell particularly complex. Infill panels with non-load-bearing panels are compared to much cheaper because the panels in can be assembled in one operation.  

After all, the indoor climate suffers from the inside arranged panels. These usually have to be made Plastic. On their surfaces moisture, which is particularly important for residential con tainers is unfavorable and practical to use excludes as a sanitary or washroom.

The invention has for its object a To create space cell of the type described above which are required for long-term living properties of a mobile building ten can and has a high value retention.

The invention solves this problem with the features of claim 1. Further features of the invention are the subject of the subclaims.

According to the invention results from the exclusion use cold-formed profiles self-supporting steel skeleton with low weight, because of its self-supporting properties offers the opportunity to infill finally with a cement-bound lightweight construction fabric, e.g. B. a mainly polystyrene as Zu Folding concrete, which makes the Infill panels are also lightweight, however get high insulation. Result from this themselves favorable properties, namely an overall light weight, high insulation, one low moisture absorption, high fire persistence, the possibility of a wood-like Processing, a pleasant indoor climate and more Possibilities, e.g. B. Habitable container immediately habitable to make and if necessary with a floor heater tongue. Such living containers can as living rooms, sanitary and washrooms, stays holding and changing rooms, sales rooms, office and  Exhibition rooms, temporary dormitories, student dormitories and similar purposes can be used without them be objected to by users.

The self-supporting properties of the steel skeleton in connection with non-load-bearing infills make it possible to leave out individual frame fields and from several rooms arranged side by side cells according to the invention to produce larger rooms len. This gives you the opportunity to start from scratch Crack solutions that correspond to a larger building speak. The steel skeletons remain in their self-supporting condition and in their mobili act. Therefore, the steel skeletons can quickly established housing estates if they are not more are needed, a larger and more complex erere building, such as a residential bungalow low or a row of houses.

Since the corner supports are arranged according to the invention are that they disappear behind the infills, they affect the external appearance and thus the value of such buildings. Furthermore he gives the high fire from this arrangement durability of the building.

The self-supporting properties of the fiction moderate steel skeletons are expedient by a appropriate training of the bottom group of the new Funded room cell. This succeeds when it is realized of claim 2. Here are namely the longer dimension of the rectangular room cells Floor plan associated longitudinal members of the sub frame with the floor pan to a rigid Structures connected.  

The top frame can also be self-supporting Promote properties of the steel skeleton or in Connection with the rigid as described Subframe despite using light corner supports the self-supporting properties of the steel skeleton bring about. The use is expedient here of the features of claim 3. Because here despite using lighter and simpler profiles in the longer dimension of the rectangular floor plan associated upper frame members sufficient Stei skills achieved.

Preferably, as described, they are simple designed profiles of the corner supports with the characteristics of claim 4 realized. This is it possible, only the front edge of a profile flange leave what on the outside of the building practically no impairment of the outer wall gives.

For a better understanding, the invention is in following with reference to an embodiment explained that in the figures of the drawing again given is. Show it

Fig. 1 in a perspective representation, without the infill the selbsttra constricting steel skeleton of a room cell according to the invention,

Fig. 2 is a fragmentary end view according to the arrow II of FIG. 1,

Fig. 3 is a fragmentary end view in the direction of arrow III of Fig. 1,

Fig. 4 is a perspective, broken depicting development of a corner column with the subsequent frame profiles in the steel-frame according to the invention,

Fig. 5 is an illustration of the panels, which can be used in the floor of the cubicle according to the invention and that the left and right in an overall view, in an enlarged partial view,

Fig. 6 corresponding to the Fig. 2 illustration taken in the direction of the arrow II of FIG. 1,

Fig. 7 is a plan view of the subject of Fig. 2,

Fig. 8 is a plan view of the subject of Fig. 9 and

Fig. 9 shows the subject of Fig. 3 in an enlarged view.

The steel skeleton ( 10 ) shown in perspective in the illustration in FIG. 1 is designed to be self-supporting. It has an upper frame ( 1 ) and a lower frame ( 2 ). There are corner supports ( 5 ) in the four corners of the right-angled floor plan. The lower frame ( 2 ) encloses a floor pan ( 12 ). The upper frame ( 1 ) holds a ceiling ( 14 ), which consists of individual panels ( 15 ). These are folded sheets. The fields ( 16 to 19 ) enclosed by the supports ( 5 ) are filled out when the room cell is finished.

The associated with the longer dimension of the floor plan frame members of the subframe ( 2 ) are designated ( 4 ). They support according to Fig. 4, the corner posts (5). These are asymmetrical C-profiles, the C-shaped part of which comprises a vertical web ( 20 ), a horizontal flange ( 21 ) and a subsequent bend ( 22 ) which runs parallel to the web ( 20 ). The lower flange of the C-profile is formed by a belt ( 23 ) which is folded up parallel to the web ( 20 ) with a flange ( 24 ) to which a horizontal belt ( 25 ) running parallel to the flange ( 21 ) is connected. The profile ( 4 ) with its belt ( 23 ) supports the corner support ( 5 ) in addition to the strip-shaped bend ( 22 ) on the inside. This consists of a Z-profile, the flange ( 26 ) of which is oriented perpendicular to the profile ( 4 ) and the two flanges ( 27 and 28 ) of which therefore run parallel to the belts ( 22 and 24 ).

The frame member ( 3 ) of the upper frame parallel to each profile ( 4 ) is intercepted with the corner supports ( 5 ). It consists of a Z-profile, which rests with its web ( 29 ) on the end faces of the corner supports ( 5 ) and supports the metal panels ( 15 ) with a folded strap ( 30 ) of its vertically arranged inner flange ( 31 ). The parallel outer flange ( 32 ) serves to reinforce the front edges of a heat-insulating pad ( 33 ).

The parts described are at their each other facing edges welded with fillet welds.

As can be seen in particular from the representation of Figures 2 and 6 , the profile ( 4 ) supports the longitudinal edges of the floor pan ( 12 ) which is enclosed by the subframe. Two parallel Winkelpro file are oriented vertically with a flange, which is screwed to the inner flange ( 22 ) at several points, as shown at ( 35 ). With its horizontal flange ( 36 ), the angle profile ( 34 ) holds the parts of the floor pan that rest on the profile part ( 25 ) and secures them against lifting off.

As can be seen from the illustration in FIG. 7, the infills ( 37 ) of the end walls ( 17 and 19 ) and the infills ( 38 ) of the longitudinal walls ( 16 ) completely cover the Z-profiles ( 5 ), so that on the outside only the end face of the flange ( 28 ) is arranged.

From the illustration of FIG. 5 results in one of the panels (39). It consists essentially of a plurality of parallel, trapezoidal interior spaces ( 40 ) which are open to the inside and a plurality of trapezoidal spaces ( 41 ) lying in between, which are open at the bottom. The shape of the panels allows a continuous floor pan to be formed, the trapezoidal interior ( 40 ) of which is filled with a mortar or a concrete, so that a continuous floor slab results. The pipes of an underfloor heating system can be laid.

The panels ( 15 ) ( Fig. 9) of the ceiling are screwed to the straps ( 30 ) of the profiles ( 3 ) as shown at ( 43 ) in Fig. 9. The height of the flanges ( 31 ) corresponds to the height of the panels. A heat-insulating plate ( 44 ) is arranged on the panels and is covered with a profiled parapet ( 45 ) at its edges. A film ( 46 ) covers, for example, the plate made of styrofoam ( 44 ) from above and is connected to the eaves of the parapet ( 45 ). As a result, the ceiling ( 14 ) is waterproof.

From the illustration in FIG. 8 shows that also in this case the Z-sections of the supports (5) practically disappear in the infill.

The longitudinal frame members described are rigidly connected with cross frame members ( 46 ', 47 ) in the subframe and ( 48, 49 ) in the frame corners. As can be seen from the illustration in FIG. 1, the transverse frame members are Z-profiles, which are arranged vertically with their web ( 50 ).

The self-supporting steel skeleton created in this way is deposited on point foundations, one of which is designated ( 51 ). The infill can be installed on site. However, it is also possible to attach the infills after setting up the self-supporting steel skeleton ( 10 ). The metal panels ( 39 ) of the floor assembly can also be filled after installation. The metal profiles ( 15 ) of the ceiling group are profiled in a Z-shape, the upper flange ( 52 ) having an upstand ( 53 ). The profile spaces of the panels ( 15 ), which are open at the top, are just filled with a lightweight concrete, so that the plate ( 44 ) is given a continuous support.

If the space cell is set up for the first time, the infills, in particular the plates shown and shown with ( 37, 38 ) in Fig. 7 on the frame members enclosing the fields are releasably fastened. Therefore, they can be removed after an initial period of use. The self-supporting steel skeleton ( 10 ) can then be picked up and placed in another location.

Since the infills are not load-bearing, several steel skeletons together to form a larger one Space to be connected, facing each other fields are left blank, i.e. no elaborations gene. Since all infills are detachable on Steel skeleton are attached, can be any Realize floor plans.

If you have several room cells according to the respective Floor plan solution combined into one building can a roof structure can also be put on, which then parts of the ceiling group superfluous makes.

Claims (10)

1. Space cell, in particular residential containers made of a steel skeleton with corner supports and an upper and a lower frame, which encloses an inside covered floor pan, while the upper frame holds an outside covered ceiling made of panels, whereby for at least some of the fields enclosed by the frame members and the supports Infill before seen, characterized in that the steel skeleton ( 10 ) self-supporting from cold formed profiles ( 3 to 6 ) and the infill from non-load-bearing panels ( 37 , 38 ), the floor pan ( 12 ) with hold-down devices ( 34 , 36 ) Festge is, which in turn consist of cold-formed profile strips and are attached to the inside on parallel frame members ( 4 ), while the corner supports ( 5 ) consist of multi-edged profiles ( 26 to 28 ), the flanges ( 27 , 28 ) parallel to the upper and lower frames connected to them ( 3 , 4 ) are oriented. 2. Space cell according to claim 1, characterized in that the corner supports ( 5 ) supporting longitudinal frame members ( 4 ) of the lower frame ( 2 ) are asymmetrical metrical C-profiles ( 20 to 22 ), with their bottom flange ( 23 ) arranged inside, which is edged on the inside, support the floor pan under. 3. Space cell according to one of claims 1 or 2, characterized in that from the corner supports ( 5 ) from caught upper frame members ( 3 ) are Z-profiles, with their web ( 29 ) the corner supports ( 5 ) and with one folded belt ( 30 ) of its vertical inner flange support the panels ( 15 ) under. 4. Space cell according to claim 1 and one of claims 2 or 3, characterized in that the corner supports ( 5 ) are Z profiles, the flanges ( 27 , 28 ) parallel to the flange ( 22 ) or the upstand ( 24 ) of the longitudinal frame member ( 4 ) and parallel to the flanges ( 31 , 32 ) of the longitudinal frame member ( 3 ). 5. Space cell according to claim 1 and one of claims 2 to 4, characterized in that the panels ( 15 ) of the ceiling group are Z-profiles, whose horizontally oriented upper flange ( 52 ) has a vertical upstand ( 53 ). 6. Space cell according to claim 1 and one of claims 2 to 5, characterized in that the floor pan ( 12 ) consists of panels which accommodate a concrete infill. 7. space cell according to claim 1 and one of claims 2 to 6, characterized in that the panels ( 15 ) of the ceiling group with a plate-shaped thermal insulation ( 44 ) are covered, on which an outer film ( 46 ) is attached. 8. Room cell according to claim 1 and one of claims 2 to 7, characterized in that the ceiling group has an attic ( 45 ) which serves as eaves and for keeping the film ( 46 ). 9. Space cell according to claim 1 and one of claims 2 to 8, characterized in that the profile afford from angle profiles ( 34 , 36 ), which are ruled out with their vertical flange ( 34 ) to the longitudinal frame members ( 4 ) of the lower frame and rest with their horizontal flange ( 36 ) on the panels ( 39 ) of the lower frame. 10. Space cell according to claim 1 and one of claims 2 to 9, characterized in that the profiles ( 4 to 6 ) are welded to their mutually facing edges with wedge seams.