DE10005872C1 - Room cell for modular building construction has self-supporting frame enclosing rectabgular room space fitted with floor and ceiling panels an one or more external or internal wall panels - Google Patents

Abstract

The room cell has a self-supporting frame (10) assembled from steel tubes, coupled together to form vertical supports (12) and horizontal beams (14) along the side edges of a rectangular space, to which a floor panel (32), a ceiling panel (38) and one or more external or internal wall panels (42) can be attached.The length of the frame is double the sum of its width and the maximum wall cladding thickness. An independent claim for a modular building assembled from individual room cells is also included.

Description

The invention relates to a cuboid space cell for Ver binding with other, similar and the same size room tent len and a building composed of these.

It is known to have several similar spatial cells in the manner of Assemble containers into a building by un indirectly moved together and / or placed on top of each other and be connected to each other. The construction allows egg a rational prefabrication of the room cells and a simple one and quick assembly, but it does not meet the qualitative requirements Requirements for modern residential and commercial buildings be put. Regardless of the construction, There is further scope for design in terms of location of the building and take into account special requests of construction to be able to entertain men. Also come across houses that one can see outside or inside that they are made of uniform Room units have been assembled on rejection. Close The installation of pipelines and electri cables in buildings where contai ner-like room cells in different ways depending on requirements order are composed.

The invention is therefore based on the object, a prak ticable solution to the conflicting wishes find that for the construction phase for economic reasons ne modular design with a single prefabricated room element should be used, but this on the finished Ge building should appear as little as possible.  

To achieve the above object, according to the invention cuboidal space cell proposed that a self- frame made of firmly connected steel tubes has its vertical posts and horizontal bars extend along the side edges of the cuboid and one Floor, a ceiling and one or more exterior and / or intermediate Carry walls, with the outer walls lying parallel steel pipes of the frame with a certain maximum Cover thickness and the length of the frame the dop is the sum of its width and the thickness of the application.

The ratio of length and Width of the frame taking into account the maximum outer overhang one of the steel tubes of the frame on the Au The Sy is the insulating outer wall covering the outside system requirement for the modu aimed at with the invention Like construction using the above Space cells. It allows the production of a fiction building in such a way that the jambs of neighboring space cells len with an intermediate distance corresponding to twice the size ximal application thickness of an outer wall from trusses Steel are firmly connected.

The new design using room cells with the de Finished length and width dimensions of the frame offers the decisive advantage of the variability in combination with ideal conditions for the installation of piping cables and cables. These can namely in simple form in the Those who lay gaps between neighboring room cells the. Because the aspect ratio of the frame of the Space cells taking into account the width of the space, can NEN optionally two spatial cells transverse to the longitudinal extension of two  they supporting lower room cells are mounted so that the outer posts are exactly on top of each other and with each other swear. In the same way, two rooms can be on one level cells with their narrow sides next to the long side of one third room cell. In this case, swear the narrow sides of the longitudinal cell with the outer long sides of the two transverse space cells, so that the adjacent outer walls with a through outgoing facade cladding can be provided.

Instead of three or more room cells on two floors, each par Alleles can be placed side by side, also in the lower one One or more middle room cells are not required. The lower outer cells are still above the top ren space cells connected with each other, their middle space cell len bridge the free space on the lower floor.

Because of the firm connection of the load-bearing frames via tra Steel verses can also cantilever a room cell an adjacent room cell supported below become. In this way, further design options are possible gain opportunities for buildings.

In the interior, the individual room cells with ih They do not standardize dimensions at all occur because the latches of the frames in the ceilings and floors lie hidden and the posts are integrated into the walls. For large halls, posts can also be designed as columns his.

Thanks to the self-supporting construction of the room cells Partitions as required at any point from the for this  usual materials. For the outer walls a wooden frame construction with individual is recommended design windows and thermal insulation material between the frames menholz, also assembled as a finished part in the factory can be. The above application thickness of the outer wall towards the outer surface of the frame depends on the desired or prescribed thickness of the outer insulation the steel tubes of the frame. Of course, over the application thickness beyond the outer wall by any Facade cladding covers the frame even further. The this causes an increase in the thickness of the outer wall remains with the calculation of the ratio between Length and width of the frame are not taken into account.

Embodiments of the invention are described below the drawing explained in more detail. Show it:

Figure 1 is a simplified exploded view of a part of a building to be made from three room cells with an outer wall forming a corner.

Fig. 2 is a vertical cross section through egg nen part of another of the building cells according to Fig 1 assembled building;

Figure 3 is a horizontal cross section through two cross-connected post adjacent space cells.

Fig. 4 is a vertical cross section through the post of Fig. 3;

Figure 5 is a vertical cross section through the upper end of a post of a prepared for transportation to the job site space cell.

Fig. 6 is a Fig. 5 corresponding view of the post after the installation of the room cell at the construction site and preparation for putting on another room cell;

Fig. 7 is a vertical cross section through a bearing element of a space cell on a foundation;

FIG. 8 shows a cross section through the bearing according to FIG. 7;

Figure 9 is a vertical cross section through egg NEN post and an adjacent floor plate of a room cell.

Fig. 10 is a vertical cross section through egg Niegel and an attached base plate;

FIG. 11 is a side view, partly in section, of a frame corner where a diagonal bracing is mounted;

Fig. 12 is a plan view of the fastening point of the diagonal bracing in the corner of Fig. 11;

FIG. 13 a variant of the attachment of a diagonal stiffener compared to FIGS . 11 and 12; FIG.

FIG. 14 is a side view of a wooden frame for the construction of an outer wall according to Fig. 1 and 2;

Fig. 15 is a vertical cross-section of the wooden frame of FIG. 14 in the assembled state.

Fig. 1 illustrates the construction of a building from a plurality of one another to be connected space cells 10. Each room cell consists of a self-supporting, cuboid frame made of steel tubes that extend along the side edges of the cuboid and are welded together at the corners. The four vertical steel tubes of a room cell are referred to below as posts 12 and the eight horizontal steel beams as bars 14 . In the embodiment, they have the entire height of z. B. 3 m or more extend the post a cross section of 120 × 120 × 12.5 mm. The bars 14 each extend between two posts 12 and are welded with their ends to the side surfaces of the posts 12 which are square in cross section. The cross section of the bars is rectangular with the cross-sectional dimensions 220 × 120 × 6.3 mm. As shown in the drawing, the bars 14 are placed close to the upper and lower ends of the pillar 12 , the cross section of the bar 14 is upright and its high side surfaces are flush with the side surfaces of the posts 12 . The length of a frame 10 is z. B. 576 cm and its width 278 cm.

The frame 10 of adjacent spatial cells are not connected to one another in a directly lying manner, but rather are only indicated schematically in FIG. 1 by cross members 16 , which guarantee a certain intermediate distance between the frame 10 and are shown in detail in FIGS. 3 and 4 using an exemplary embodiment .

The trusses 16 are in the example sections of a double T-beam IPE 200 , ie the section 12 screwed to the flanges of the support section adjacent frame 10 are in the example case with a spacing of 20 cm firmly and rigidly connected. 3 and 4 as apparent from FIG., Are the traverses, with its web and its flanges perpendicular quite aligned between the upper ends and in the same way between the lower ends of the posts 12 is placed. It goes without saying that for trusses 16 also sections of another profile, e.g. B. can be used with a U-shaped cross section. In addition, there is the possibility of attaching a truss half at the top and bottom of each of the posts 12 to be connected, for. B. sections of a T-beam, and then to connect the two cross member halves with each other by screws.

Fig. 4 shows yet another detail. In the upper open end of the posts 12 , a cross-section fitting 18 is welded in each case, which in its center with a threaded bore, for. B. M 30 is provided. According to Fig. 5 and 6 may in this threaded hole, optionally, a screw ring 20, the ring forms a lifting eye, or a pin can be screwed 22nd First, the eyebolts 20 are used to transport the frames 10 to the construction site. After setting up and aligning a frame 10 in the predetermined position, the eyebolts 20 are removed and, if necessary, replaced by the pins 22 when additional space cells are to be placed on the posts in question.

Dation be for the connection of the lowest space cells with the fun of FIG. 7 and 8 used mortise and tenon joints. The ge in end plates 18 in the lower ends of the posts 12 Mäss Fig. 7 screwed pin 22 project downwardly beyond the ends of the posts 12 before and engage in matching holes in bearings or sockets 24 of steel, which ment to a Funda 26 are screwed on. The bearing 24 can, for. B. have the shape shown in FIGS. 7 and 8 of a vertically arranged section from a square tube, which is welded above and below with square end plates. The lower Endplat te rests on the foundation 26 and is firmly connected to it by screw bolts. On the upper end plate of the bearing 24 is a plate-shaped neoprene pad 28 with egg nem central hole through which the pin 22 extends. A load distribution plate 30 is inserted between the neoprene pad and the lower end face of the post 12 .

Are at the lower bars 14 of the frame 10 of FIG. 9 and 10, bottom plates 32 attached to concrete. The concrete is each poured into a support frame 34 which engages the base plate un and protrudes above them with welded tabs 35 . Above the base plate 32 , the tabs 35 are provided with a hole through which a screw can each extend, which extends through a tube sleeve 36 welded into a Rie gel. In a corresponding manner, ceiling panels 38 (indicated by dashed lines in FIG. 1) are to be attached to the upper bolts 14 of the frame 10 . The construction shown with a screw fastening of the ceiling and floor panels allows them to be prefabricated.

The crossbeams 16 and the tubular steel frame 10 are able to carry a room cell, which is fastened cantilevered to a neighboring room cell. However, it is advisable to additionally provide a diagonal bracing according to FIGS. 11 to 13. It consists of a wire rope or a round rod 38 which is fixedly connected to elbows 40 which are welded to diagonally opposite corners of one side of the frame 10 . In the side walls of the cantilevered space cell, a round rod 38 extends from the outer lower corner to the inner upper corner. In the corresponding side walls of the adjacent spatial element then preferably extend further round bars 38 each from the adjacent upper corners to the diagonally opposite lower corners. The attachment of the round bars 38 with the Win kelstücke 40 can be done according to FIGS . 11 and 12 by a Bolzenver connection or as shown in FIG. 13 by welding the round bar with the angle piece 40 .

The structure of an outer wall designated in FIG. 1 as 42 is explained below with reference to FIGS . 14 and 15 in conjunction with FIG. 2. The structure of the outer wall 42 is formed by a wooden frame shown in FIG. 14, which consists of a plurality of vertical stands 44 as well as cross-pieces 46 connecting them to one another at the top and bottom. The distance between the stands in the example of an approximately 6 m long wall is approximately 1.50 m. The stands 44 are notched up and down according to FIG. 15. With a width of 18 cm, they extend over the width of the bars 14 and on the outside thereof 6 cm beyond them. The length is chosen so that they also protrude 6 cm above and below the top and bottom bars 14, respectively. The cross bars 46 are arranged in the space between the bars 14 , directly next to them. The space between the stands 44 is in the embodiment, starting from its outer edge, with a 14 cm thick layer of mineral wool 48 and in the upper and lower area, where the bars 14 are, filled with a 6 cm thick layer of polyurethane foam 47 . The inside of the thermal insulation layer made of mineral wool is formed by an aluminum grid film, which has the function of a vapor barrier. Gypsum fiber boards 49 with a total thickness of 2.5 cm are nailed to the wooden frame 44 , 46 on the inside. Between these plates and the vapor barrier is a free space or an air layer 50 of about 4 cm in thickness. This space allows light, even subsequent electrical installation. The gypsum fiber boards 48 can be papered.

On the outside of the wooden frame 44 , 46 z. B. by means of a slat 52 of 4 cm thick, a wooden slat cladding 54 may be attached or alternatively a metal cladding, concrete, plaster, natural stone etc. In another alternative embodiment, the outer wall may e.g. B. also partially as a prefab concrete wall or z. B. as a wall for a so-called low energy house or zero energy house.

Claims (14)

1. cuboid-shaped room cell for connection to other, similar and same-sized room cells for the manufacture of a building, characterized in that it has a self-supporting frame ( 10 ) made of steel tubes ( 12 , 14 ) which are firmly connected to one another, the vertical right-hand post ( 12 ) and horizontal bar (14) along the side edges of the cuboid extending and carrying a floor (32), a ceiling (38) and one or more outer and / or intermediate walls (42), the outer walls (42) converts the parallel steel pipes ( 12 , 14 ) of the frame ( 10 ) with a certain maximum order thickness over cover and the length of the frame ( 10 ) is twice the sum of its width and the order thickness. 2. Room cell according to claim 1, characterized in that the posts ( 12 ) and bars ( 14 ) of the frame ( 10 ) of a room cell are welded together. 3. Space cell according to claim 1 or 2, characterized in that the posts ( 12 ) have a greater wall thickness, but a smaller overall cross-section than the bars ( 14 ). 4. Space cell according to claim 3, characterized in that the posts ( 12 ) have a square cross section, the width of which corresponds to the width of the bar ( 14 ). 5. Space cell according to one of the preceding claims 1 to 5, characterized in that the upper ends of the over the height of the frame ( 10 ) reaching posts ( 12 ) are welded to end plates ( 18 ) which have holes in the mounting eyes ( 20 ) or pin ( 22 ) can be screwed in, and the lower ends of the posts ( 12 ) are welded to end disks ( 18 ), into which pin ( 22 ) can be screwed or inserted. 6. Space cell according to one of the preceding claims, characterized in that the floors ( 32 ) and ceilings ( 38 ) made of concrete are each cast in a support frame ( 34 ) which on the lower and upper bars ( 14 ) of the frame ( 10 ) is attached to a room cell. 7. Room cell according to one of the preceding claims, characterized in that the longitudinal sides of the frame ( 10 ) are stiffened as intended with a part of their length of the room cell by diagonally opposite the frame corners fastened wire cables or rods ( 38 ). 8. Space cell according to one of the preceding claims, characterized in that the outer walls ( 42 ) as prefabricated finished parts from a to the steel tubes ( 12 , 14 ) attachable wooden frame ( 44 , 46 ), the upper and lower bars ( 14 ) covers one side of the room cell and engages in the space between the bars ( 14 ), the space between the parts of the wooden frame ( 44 , 46 ) consists essentially of insulating material and cover plates ( 40 , 54 ). 9. Space cell according to one of the preceding claims, characterized in that the height of its frame ( 10 ) is greater than its width. 10. Room cell according to one of the preceding claims, characterized in that the bars ( 14 ) have Durchlaßöffnun gene ( 56 ) for installation lines. 11. From space cells according to any one of claims 1 to 10 together building, characterized in that the posts ( 12 ) of adjacent space cells with an intermediate distance corresponding to twice the thickness of the order by cross members ( 16 ) made of steel are firmly connected. 12. Building according to claim 11, characterized in that the frames ( 10 ) of stacked cells directly or with the interposition of load distribution plates ( 30 ) and / or damping plates ( 28 ) sit one on top of the other, the posts ( 12 ) being aligned and by pins ( 22 ) are connected. 13. Building according to claim 11 or 12, characterized in that the posts ( 12 ) of the lowermost room cells via a load distribution plate ( 30 ), a neoprene cushion ( 28 ) and a base ( 24 ) are supported on a foundation ( 26 ). 14. Building according to one of claims 11 to 13, characterized in that on a floor ( 32 ) or a ceiling ( 38 ) laid electrical cables and / or pipelines through passage openings ( 56 ) in a bolt ( 14 ) of the frame ( 10 ) a cell is led into the space between it and an adjacent cell.