DE19902210A1 - Gable roof building whose gable parts have integrated swivel to fold down onto or away from second gable part using roof part positions either normal to walls or folded parallel. - Google Patents

Abstract

The roof part swivel axes (20) are integrated in the one part (13) and thus above and within a pair of facing outer walls (3). Thus one part (13a,13b) of each roof part swivels round axes (20) to fold onto or away from the second part of this roof part. An upper part (13a) between axes (20) and roof ridge can be adjusted between a first position normal to the walls (2) and a second position where it lies parallel on a lower part (13b) of this same roof between axes (20) and the upper part of the facing walls. When folded, both roof parts (13a,13b) can be set in an area (5) normal to the outer walls, this area (5) containing a releasable coupling (25). The axes (20) include an adjustable hinge joint and the two walls (3) are joined by a storey floor (4). The roof parts (13a,13b) cover a storey floor (9), with axes (20) arranged in the intersection between roof parts (13a,13b) and storey floor (11).

Description

The invention relates to a building according to the preamble of the saying 1 with vertical outer walls and one above at least arrange two to form a ridge of a gable roof baren roof parts that by lifting the roof ridge by one to the roof ridge parallel axis of rotation can be rotated. The invention further relates to a Method according to the preamble of claim 14 for the transport of a Ge building with vertical outer walls and one above at least two mutually arrangable to form a ridge of a gable roof and foldable roof parts, comprising the steps: arranging one for Roof ridge parallel axis of rotation and turning the roof parts while lifting the Roof ridge around the axis of rotation.

Buildings with vertical outer walls and foldable roof parts are particularly suitable for the transport of complete buildings from one Make another meaningful. When transporting by road or certain heights of a transportable building are through on water Bridges, underpasses or similar To comply with facilities so that the Construction height of such buildings is limited.

WO-A-98/17876 shows a building with a hinged roof, the Link the roof parts to an upper area of vertical outer walls are cash. The roof parts are arranged so that they are in the area opposite outer walls are hinged to the outer walls and in essentially normal or parallel to these and essentially in pairs can be folded down parallel to each other while lifting the roof ridge. A Be  area of the building above the outer walls, which forms a roof structure, is folded down when the building is being transported. The building forms in folded down a closed box (with the roof parts as a lid) or an open box, on the sides of which the roof parts hang down. Gie sides of the building that extend above the side walls zen at connection points to the floor ceiling articulation points at which the Hang down the gable ends when folded down.

In the known building, the two roof parts are each in Area of an upper edge of the outer walls articulated and also form the Transport a firm connection of roof parts and outer walls. Through the Arrangement of articulation points of the roof parts in the area of the outer walls very high torque each time the roof sections are opened and closed to apply, for which purpose a special lifting in most applications direction must be used. For erecting the roof parts are each Special crane devices are required, which are attached to the roof from the outside Bring parts to the appropriate ridge position. The roof parts have zen each a very long lever arm when swiveling up and down. It there is a great risk that the roof parts will be damaged when folding the. Furthermore, the space below the roof ridge is due to the arrangement of the Roof parts cannot be used for residential or storage purposes.

DE-A-37 43 102 describes a prefabricated residential building roof parts arranged on vertical outer walls, which are fixed to the outside walls are connected. The residential building consists of three box-like Elements that have the geometric shape of a rectangular column, the two at walls lying on the long side are missing. During transportation the prefabricated residential building like a folded cardboard box to a minimum Reduced volume and forms a transportable box when folded. To achieve the minimum volume during transport has a roof part an axis of rotation parallel and at a distance from the outer walls and the roof first, so that part of a roof part to another part of the same roof part is collapsible or foldable. As a result, the foldable roof part is one below  Ren part extended while maintaining the roof gable. Through these extensions an additional building can be roofed over when opened. The part of the foldable roof part that forms the gable, both in the Trans port as well as when opened, with the other roof parts invariable right angle and thus one of the closed sides of the Pillar.

It is the object of the invention, a building and a method ren for transporting a building according to the preamble of claim 1 or of claim 14 to specify the overall height during transport can be reduced.

The task is invented in a building mentioned at the beginning accordingly with the characterizing features of claim 1 thereby solved that the axes of rotation are each integrated in a roof part, and upper half and facing each other within a pair of an upper region ter outer walls are provided, and part of each roof part about the axes rotatable and away to another part of the same roof part is foldable. The task in the above-mentioned method is accomplished by the characterizing features of claim 14 solved in that the The axis of rotation is provided in a roof section and above and inside a pair of a region of mutually facing outer walls and a part of each roof part is rotated about the axes and into another part of the same roof part is folded away or folded down.

The roof parts of the building according to the invention are under Lifting the roof gable not only folds down in many ways, but also also foldable. The foldable and foldable roof parts show an outside perpendicular and at a distance from an area walls arranged axis of rotation, which are used in many ways can. With the fold, part of a roof part can be and any adjustable angle to another part of the same roof part  to be ordered. In addition to the fold, a roof part can also act as a seesaw be pivoted about this axis and at the same time folded down, so that a roof part forms a straight line without angulation. That to be spent Torque is due to this displacement of the connection point upwards above and within a range of facing outer walls reduced. Despite this shift in the junction, there is still one Reduction of the total height of the building even when folded possible. When transporting the building is by the invention order saved the height of a gable roof above the axis of rotation. This means that the clear height of a building to be transported is variably fixed layable. The clear height is determined by the distance between the axis of rotation and / or folding set by the outer walls. If the transport height of the building restricted by tunnels, underpasses or other obstacles the position of the axis can be changed. The building can be transported a truck, by ship or by air transport to the direct installation site at the on location to be transported.

The formation of the building according to the invention with the Folding roof, allows the building, e.g. B. a prefabricated house, as a module hun 100% turnkey and inexpensive in a factory manufactured under ongoing control. Since the building of the invention A factory that can bridge large distances without damage the building according to the invention on an industrial scale with short through manufactures runtimes and standardized processes and uses them at low cost become. Manufacturing on an industrial scale using the z. B. from the production of mass consumer goods, such as motor vehicles Quality assurance procedures, statistical process control, control cards and others enable the construction of a building of the highest quality. Further There are advantageous optimization potentials with regard to weather conditions independence, logistics, environmental protection, capital commitment and modularity.

In a first preferred embodiment of the invention Building is just an upper part of each roof part in the opposite direction  external walls can be folded down. This arrangement of the roof parts can the upper part of each roof part can take any position, whereby this part preferably occupies a first position that is parallel to the outside walls is arranged, or occupies a second position parallel to a lower part of the same roof part is arranged.

In the first position, the two upper parts are on top of each other facing roof parts almost parallel to each other. The two parts are So rotated to each other while lifting the roof ridge and cover in folded away the building like a lid. When transporting offers such a position of the roof parts provides optimal protection against the weather influences such as rain and moisture. Additional packaging material and their disposal is usually no longer necessary. A possible offset of the Rotation axes on the respective roof parts, due to the superimposed placed roof parts, can if necessary by a special swivel joint with spacer, that bridges the thickness of the two superimposed roof parts same, be fixed.

In the second position, the top parts of each roof part folded onto a lower part of the same roof part. The top part of each roof in some cases it is folded outwards around the axis of rotation by almost 180 ° and comes to rest on the lower part of the same roof part. A swivel for Such a folding process is structurally simpler than a joint with a twist neck piece.

Another preferred embodiment of the invention net is advantageous from the fact that in this embodiment, the above be wrote lower parts of mutually facing roof parts about the axis of rotation are rotatably arranged. For this it is necessary that one in the area the facing outer walls a coupling device is provided with which the lower parts of each roof part can also be detached from the area of the top ren outer walls is connected. The functioning of such a detachable Coupling device is similar to that of a clip lock. When folding the roof parts, this connection is released like a plug connection and the  Roof parts can be turned outwards. In this version the lower parts of each roof part turned outward until they an extension of the respective upper part of the same roof part that perpendicular to the outer walls and parallel to an upper part of a The roof part of the other roof part is in the first position, as above described. The roof parts of the building facing each other form in this version is a straight line and are in the manner of a seesaw orderly. The lower and upper roof parts can advantageously be timed are rotated in sequence, d. H. first the upper roof parts in the first position described above is rotated, then the bottom parts turned outward until they extend the upper part Form part. To open the gable roof after transportation first the lower roof parts turned inwards, and with the outer walls connected by the coupling device, then the upper parts also turned outwards around the axis of rotation and raised to the roof gable judges. Due to the staggered rotational movement of the lower and upper The roof part reduces the torque to be applied, since only one part at a time a roof part is effective as a lever arm.

The area of the opposite Au is advantageous The outer walls are closed off by a floor ceiling. The building points that way with a lounge bounded by a ceiling at the top on, which is preferably free of sloping ceilings. In addition to the one-story Vari ante the building according to the invention can advantageously as a storey house with a or several floor ceilings, e.g. B. if at least one Ceiling is designed as the floor of the building, the Ge building can extend over several floors. Such portable buildings or prefabricated houses could only be realized in the form that individual ne building parts are prefabricated and these individual parts with the help of an egg be transported to the installation site where they are costly and labor intensive to assemble.  

The roof parts advantageously cover an attic whose Bottom is formed by a floor ceiling, while the upper abdec kung covers an attic ceiling. This top floor is or lounge fully usable, since its side walls during transport cannot be folded down. Such a fully expanded or upgradable roof Chairs were not available in such portable prefabricated houses seen, or had to spend on prefabricated houses Installation site can be installed after erecting foldable roof parts. At The roof trusses can be used in the building according to the invention during production with all interior fittings and connections, as well as the other rooms of a house. The roof truss will no longer be transported dismantled or dismantled.

In a building with an attic is advantageous on a ver Line of connection of an attic ceiling with the roof parts the axis of rotation for arranged the rotational movement of the individual parts of the roof parts. Through this The arrangement of a support for the axis of rotation is clearly defined. The roof lap height is thus for the distance of the roof parts from the area of the Au decisive for the outer walls. Depending on the height of the intended attic height the axis of rotation changes for the individual parts of the roof parts. The two between the attic and the floor covering the upper area cover the outer walls, arranged sloping ceilings can be advantageous as Support for an inward arranged roof cladding of the roof parts will see. This roof cladding can be used when folded Protection against weather influences for the attic serve when the un teren roof parts are arranged away from the sloping roof.

In the execution of the invention as a building with expanded Attic is particularly advantageous the first position described above in which the upper part of each roof part is essentially the top floor ceiling Chen covered parallel to each other. A possible offset of the axes of rotation a roof part to the roof part, which is opposite this, can by spe joints are balanced with an intermediate piece, creating a  parallel superimposition of the upper opposite roof parts is possible. This means that the entire top floor is covered during transport an additional cover parallel to the attic is protected. The Sloping ceilings in the attic are protected by the lower roof parts, that either lie against the sloping ceilings or, folded away from them, in are arranged on one level with the upper roof parts.

In the case of a gable roof, there is a pair of opposing exterior walls designed as a gable end, so has an upper area, which in the essentially has a triangular shape with the tip pointing upwards. The The connecting line of the opposite peaks defines the ridge. The Gable sides can also have an axis of rotation, like the roof parts. When arranging an attic, the gable sides are usually vertical as the outer walls arranged. With such a building will be advantageous because a gable end of the gable extends above the attic ceiling Building attached in the area of the attic ceiling at articulation points or articulated. The articulation points are preferably on a connecting line Gie top and top floor ceiling formed by means of joint elements. Such Hinge elements can be hinges or other rotatable hinge parts that make a gable side connectable and foldable with the attic ceiling. The gable end then hangs parallel to a lower one when folded down Area of the gable end.

The ridge of the building advantageously includes a detachable ver binding for the hinged roof parts. This connection can, for example a ridge sheet, a beam shoe with a dome opening for one counterpart or similar arrangement. At Steildä chern, which are arranged at an angle of inclination steeper than 45 °, are Junctions of the roof parts expediently as notches or throats that the roof parts have a corresponding stability in the open position enable stand.

The roof parts can advantageously all possible roof structures or roof extensions and of course also gutters. So that this  and expansions, however, not the dimensions of the entire building in the protrude folded state, it is advantageous to these attachments and superstructures also, like the upper gable sides, to be arranged articulated so that they are at Transport can be folded down. This means that even roof windows can be used as balcony windows be arranged on the roof parts.

The roof parts can, but need not, be identical in terms of their dimensions and inclinations and the number. It is possible to do this Adjust parameters as required, for example by adding a roof section is formed larger and / or is inclined flatter than the other. A whole the execution of the offers particularly advantageous design of the roof parts Roof parts as a solar roof with collector devices for the utilization of Solar energy. In addition, photovoltaic elements can also be placed on the Roof parts can be arranged. The arrangement of the energy and heat of the building largely due to renewable energy sources covers. A solar area can either be a single plate or interconnected to form a roof part from several plates.

The building is advantageously transported by land, can also take place by ship on inland or other waters. At Attaching hoists to the building is also a means of transportation suitable air transport possible. The building according to the invention can have wheels or castors attached to the underside of the outer walls, that give the building mobility, especially in a series production in the manner of a production line is useful at an early stage. Consequently can be transported on a la surface or a driving range, z. B. the loading bay of an inland ship, the flatbed of a flatbed truck on roads or rails, or, like already set out above, on a wheelset.

Further advantages and features of the invention result from the subclaims and from the description below. The Erfin tion is given below with reference to the accompanying drawing hand of an embodiment explained in more detail.  

Fig. 1 shows in cross section an embodiment of a building according to the invention with open roof parts.

Fig. 2 shows the embodiment of Fig. 1 with folded roof len in a first variant.

Fig. 3 shows the embodiment of Fig. 1 with the roof parts folded down in a second variant.

Fig. 4 shows the embodiment of Fig. 1 with folded roof parts len in a third variant

FIG. 5 shows a perspective illustration of the building from FIG. 1.

Fig. 1 shows in cross section a building 1 with several floors 2 , the gable end 7 is shown in the drawing plane. The building 1 has outer walls 3 with several storey ceilings, only the uppermost storey ceiling 4 , which covers the upper region 5 of the outer walls 3 facing one another, being important for the further description. About the sem area two roof parts 13 are arranged, which run towards each other and form a ridge 6 of the building 1 at their junction. A gable roof 8 formed from the roof parts covers an attic floor 9 which extends above the uppermost floor ceiling 4 and has sloping ceilings 10 and an attic floor ceiling 11 . A roof structure 12 is arranged above the attic floor ceiling 11 . Building 1 can be used as a residential building with a fully developed or provided attic 9 . Each roof part 13 includes insulation and roof rafters in its inward side. To use the solar energy radiating onto the roof surfaces, a large-area solar element 16 with a cover 17 and a collector 18 arranged inside the roof 8 is also placed or integrated on each roof part 13 , with the solar energy for generating heat or electricity in the building 1 can be used.

Building 1 is a transportable prefabricated house that was manufactured completely with a gable roof 8 and a loft 9 in a factory and was transported to a location that is distant from the manufacturing site. During transport, the roof parts 13 are folded down according to the invention while lifting the roof ridge 6 . After carrying out the transport, at the location of the building 1 , the roof parts 13 are opened again to a gable roof 8 at closing.

To fold down the gable roof 8 for transport, an axis of rotation 20 is provided for each roof part 13 parallel to the roof ridge 6 and within an upper region of mutually facing outer walls, whereby each roof part is divided into an upper and lower roof part ( 13 a, 13 b). The roof parts 13 are thus rotatable with their two parts about the axis of rotation 20 . Further, each of the upper roof part 13 b on the lower roof panel 13b foldable. Due to the height 21 of the attic, the position of the axis 20 is festge at the intersection between the ceiling with the roof parts 13 .

Both roof parts 13 run at an angle of approximately 45 ° to one another and form the roof ridge 6 at their intersection. The connection point is arranged releasably and has a tongue and groove arrangement or another releasable connection which supports the roof parts 13 against one another. The ridge 6 also has a ridge sheet 14 covering the connection, which in particular connects the two roof parts 13 by means of claws to one another at roof pitches below 45 °. On the lower longitudinal sides of the roof parts 13 , in the area of the outer walls 3 , gutters 15 can be seen, with which rain water or snow can be removed and, if necessary, used in connection with the above-mentioned solar system and the collector device on the roof parts for heating purposes. The roof slopes 10 also have roof structures 19 , such as skylights, dormer windows or roof balconies. These can, as can be seen in the fol lowing figures, also folded in the folded state so that they do not protrude outwards.

Between the top floor ceiling 11 and the top floor ceiling 4 of the building 1 , the roof slopes 10 are arranged, which are provided with a roof cladding 22 towards the outside. The roof cladding 22 on the one hand has the function of insulating the attic 9 to the outside, on the other hand they form a basis and support for the part of a roof part 13 which comes to rest on this support after transport.

The two roof parts 13 are the Au ßenwände with a releasable coupling mechanism 25 each provided in the bottom portion 5 of the outer walls 5 establishes a lös bare connection between the roof parts 13 and the region. This arrangement guarantees that a firm and secure connection between the outer walls 3 and the roof 8 is made at this point in the folded state.

Figs. 2 to 4 show the building with collapsed for transportation roof parts 13. The upper and lower roof parts 13 a, 13 b who according to the invention rotated about the axis of rotation and arranged to each other or folded into each other. The rotation is carried out by suitable drives on the axes of rotation 20 or by a suitable crane or lifting device on the rotary hinges.

Fig. 2 shows a first variant of the folded roof member 13. The mutually facing upper roof parts 13 a lie parallel to one another on the attic ceiling 11 . The upper roof parts 13 a thus form a cover against the weather when transporting the building 1 , so that additional transport packaging can be omitted. So that the two upper roof parts come to lie parallel to each other, the swivel joint of the axis of rotation 20 on the right roof part 13 with an intermediate piece is hen. The lower roof part 13 b has not changed compared to the opened state and corresponds to the illustration in FIG. 1.

Another variant of the folded roof 8 is shown in Fig. 3. In this arrangement, the opposite upper roof parts 13 a are arranged as in Fig. 2, so they are parallel to each other, and perpendicular to the outer walls 3rd In addition, however, the two mutually arranged lower roof parts 13 b are rotated outwards about the axis of rotation. For this purpose, the coupling device 25 is released on the upper region of the outer walls 3 . The lower roof parts 13 b are pivoted so far that they form a straight line with their respective upper part 13 a. To open the roof, it is useful to first turn the lower roof parts 13 b inwards to the roof slopes 10 and to attach them to the outer walls by means of the coupling device 25 . Then the upper roof parts 13 a are erected to form the ridge 6 . Alter natively, it is also possible to pivot a lower and upper roof part as a whole about the axis of rotation, so that a complete roof part 13 can be folded up or down like a wip pe. In the folded state, the roof structures 19 arranged in the lower roof part are also folded inwards so that they do not protrude upwards.

FIG. 4 shows a third variant of the building according to FIG. 1, with the gable roof 8 folded down. The lower roof panels 13 to each other b facing the roof parts 13 are folded almost unchanged 1. Only the roof structures 19 are to the illustration of FIG. Inwardly. An upper roof part 13 a is rotated outward about the axis of rotation 20 , so that the part rests in parallel on the lower roof part 13 b of the same roof part 13 . The building is covered by the attic ceiling 11 , which has a suitable seal.

The options shown in FIGS . 2 to 4 of a folded roof 8 also apply to the gable side 7 if it has a corresponding inclination in relation to the outer walls. This side, like the other roof parts 13 , can then be folded down accordingly, and also corresponds to the representation of an outer wall 3 .

FIG. 5 shows a perspective view of the building 1 according to FIG. 1 with a specially designed gable side 7 . The gable side in Fig. 5 has a horizontal outer wall which extends up to the roof ridge. When the gable side 7 is arranged, the part of the gable side which covers the roof 8 from the side is not folded inwards, since the attic storey 9 would then no longer be usable for the building. In order to avoid this disadvantage, has the gable wall 7 on the section plane of the blanket Ge shot with the gable wall 7 articulation points 26, with which a floor slab above the 11 arranged triangle is folded 27 of the gable 7 to the outside. The triangle 27 hangs down in the folded state parallel to its lower part on the gable side 7 . After carrying out the transport, this part is folded up and fastened at the top with the roof ridge and the other roof parts arranged on the side. Further roof windows 28 can also be arranged in the gable triangle.

REFERENCE SIGN LIST

1

building

2nd

floor

3rd

Outer wall

4th

Floor ceiling

5

Area of opposite outer walls

6

Ridge

7

Gable end

8th

top, roof

9

Attic

10th

Sloping roof

11

Attic ceiling

12th

Roof truss

13

Roof part

13

a top roof part

13

b lower roof part

14

Ridge sheet

15

Gutter

16

Solar element

17th

cover

18th

Collector device

19th

Roof structures

20th

Swivel axis

21

Attic height

22

Headlining

25th

Coupling mechanism

26

Articulation point

27

Pediment triangle

28

Roof window

Claims (18)

1. Building with vertical outer walls ( 3 ) and one above it from at least two to form a roof ridge ( 6 ) of a gable roof ( 8 ) mutually arrangeable roof parts ( 13 ) which can be rotated by lifting the roof ridge ( 6 ) about a rotation axis parallel to the roof ridge are characterized by
that the axes of rotation ( 20 ) are each integrated in a roof part ( 13 ) and are provided above and within a pair of an upper region of mutually facing outer walls,
and a part ( 13 a, 13 b) of each roof part is rotatable about the axes ( 20 ) and can be folded away or folded away to another part of the same roof part ( 13 ). 2. Building according to claim 1, characterized in that between the roof ridge ( 6 ) and the axes of rotation ( 20 ) arranged upper part ( 13 a) of the roof parts ( 13 ) each between a first position which is perpendicular to the outer walls ( 3 ) is arranged, and a second position can be set, which is arranged in parallel on a lower part ( 13 b) of the same roof part ( 13 ) arranged between the axis of rotation and the upper region facing outer walls ( 3 ). 3. Building according to claim 1 or 2, characterized in that both parts ( 13 a, 13 b) of the roof parts in the folded state in a normal to the outer walls ( 3 ) adjustable position can be arranged and in the area ( 5 ) facing each other outer walls ( 3 ) a detachable coupling device ( 25 ) is arranged. 4. Building according to one of claims 1 to 3, characterized in that the axis of rotation ( 20 ) comprises a rotary hinge with an adjustable angular range. 5. Building according to one of claims 1 to 4, characterized in that the area ( 5 ) facing each other outer walls ( 3 ) by a floor ceiling ( 4 ) is interconnected. 6. Building according to one of claims 1 to 5, characterized in that the roof parts ( 13 ) cover an attic ( 9 ) and the axes of rotation ( 20 ) at the intersection of an attic ceiling ( 11 ) with the roof parts ( 13 ) are arranged. 7. Building according to one of claims 2 to 6, characterized in that the upper part of each roof part ( 13 a) covers the top floor ceiling ( 11 ) in the folded state substantially parallel to each other. 8. Building according to one of claims 1 to 7, characterized in that the top floor ( 9 ) includes sloping ceilings ( 10 ) which are provided for an inward arranged roof cladding ( 22 ) of the roof parts ( 13 ). 9. Building according to one of claims 1 to 8, characterized in that one above the attic ceiling ( 11 ) extending gable end ( 7 ) of the building ( 1 ) in the area of the attic ceiling ( 11 ) is articulated horizontally on this and in the folded state of the Gable roof ( 8 ) hangs parallel to the gable side. 10. Building according to one of claims 1 to 9, characterized in that the ridge ( 6 ) comprises a releasable connection for the roof parts ( 13 ). 11. Building according to one of claims 1 to 10, characterized in that the roof parts ( 13 ) have roof structures ( 19 ) such as skylights ( 28 ), dormer windows or roof extensions such as gutters ( 15 ). 12. Building according to one of claims 1 to 11, characterized in that the roof parts ( 13 ) each comprise a solar roof with collector devices ( 18 ) for harnessing solar heat. 13. Building according to one of claims 1 to 12, characterized in that the arrangement in the folded state on a mobile Base is attachable. 14. A method for transporting a building with vertical outer walls ( 3 ) and a roof part ( 13 ) that can be arranged and folded down from one another to form a roof ridge ( 6 ) of a gable roof, comprising the steps:
Arranging an axis of rotation ( 20 ) parallel to the roof ridge, and
Rotating the roof parts ( 13 ) while lifting the roof ridge ( 6 ) about the axis of rotation ( 20 ),
characterized,
that the axes of rotation ( 20 ) are each provided in a roof part ( 13 ) and are arranged above and within a pair of a region ( 5 ) facing outer walls ( 3 ),
and a part of each roof part ( 13 a, 13 b) is rotated about the axes ( 20 ) and folded away to another part of the same roof part ( 13 ). 15. The method according to claim 14, characterized in that for the transport between the roof ridge ( 6 ) and the axes of rotation ( 20 ) arranged upper part ( 13 a) of each roof part is rotated into a position normal to the outer walls ( 3 ) is arranged. 16. The method according to claim 14, characterized in that for the transport between the roof ridge ( 6 ) and the axes of rotation ( 20 ) arranged upper part ( 13 a) of each roof part ( 13 ) is rotated into a position parallel to a lower one Part ( 13 b) of the same roof part ( 13 ) is arranged, which is arranged between the axis of rotation ( 20 ) and the upper region ( 5 ) facing outer walls ( 3 ). 17. The method according to claim 14, characterized in that (a, 13 b 13) of the roof parts are rotated (13) into a normal to the outer walls adjustable position for the transport of both parts and in the area of facing outer walls (3 (5) ) a detachable coupling device ( 25 ) is provided, which is released before transport and after transport is provided as a connection of the roof parts ( 13 ) to the outer walls ( 3 ). 18. The method according to any one of claims 14 to 17, characterized in that the building ( 1 ) with the folded roof parts ( 13 ) is placed on a mobile base, transported to a location of the building and there the roof parts ( 13 ) are opened.