DE29801096U1 - building - Google Patents

Description

Ernst Buchacher 9731 JS

Housing

The invention relates to a building that is open on one side and closed at the top and on the side opposite the open side, as well as at the sides.

The invention aims to provide a building that is only used temporarily and that, when not in use, should not cause disruption and should therefore be able to be maintained in a space-saving manner.

According to the invention, this object is achieved with the features of patent claim 1.

Preferred and advantageous embodiments of the building according to the invention are the subject of the subclaims.

Because the building according to the invention is made up of several building parts that can be pushed together to overlap one another and lowered into a storage position, preferably below ground level, the building according to the invention takes up little space when not in use and its floor area is available for other uses. When the building is needed, it is sufficient to erect the building elements so that a space that is open on one side and closed on the rest is available, which can be used as a stage or similar, for example.

It is evident that the building according to the invention can be erected quickly and without assembly or dismantling work and can be supplied again as required.

Since in one embodiment the individual building elements are supplied in their overlapping, nested position below ground level, the building is practically invisible in the supply position and the opening of the slot of the receiving space provided for the building in its supply position can be seen from the ground level.

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level of the building and can be used as a seating area if appropriate coverings are provided.

If, according to a proposal of the invention, the building elements have (triangular) side walls perpendicular to the pivot axis in the area of their support, a particularly large room with sufficient room height up to the edge is available.
10

Further details, advantages and features of the invention emerge from the following description of preferred embodiments of the building according to the invention.

It shows:

•Fig. 1 a building consisting of three parts in the position of use,

0 Fig. 2 the building from Fig. 1 seen from the right of Fig. 1, i.e. from the open side,

Fig. 3 the building from Fig. 1 in section along the line 1/1 in Fig. 1, with the supply position of the building parts shown in dashed lines,

Fig. 4 a detail in the storage area,

Fig. 5 in side view a detail in the area of the bearing-0,

Fig. 6 a view of the storage seen from the open side of the building,

Fig. 7 a double-acting hydraulic cylinder for setting up and folding the building,

Fig. 8 a hydraulic circuit for driving the two hydraulic cylinders,
40

Fig. 9 an embodiment of a building according to the invention with a gear-ring gear drive for setting up and folding the building,

Fig. 10 in side view a cover for the receiving space for the building in its supply position,

Fig. 11 is a plan view of Fig. 10,

Fig. 12 a detail in the area of the bearing and drive for setting up and lowering the building and

Fig. 13 an example of a coupling of the building elements to take subsequent elements along.

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A building 1, as shown in Fig. 1, consists of several - in the embodiment shown, three - building elements 2, 4, 6, which are shell-shaped and are pivotably mounted about an axis 10 located in the floor area 8.

The shell-shaped building elements 2, 4, 6 delimit the building 1 upwards, as well as to the sides and to the rear. The side of the building 1 on the right in Fig. 1 is open, where the outline of the opening is delimited by the outermost building element 2 with its free edge 12.

The building elements 2, 4, 6 are preferably curved upwards in two directions. On the one hand, the middle sections of the building elements 2, 4, 6 are curved around an axis that is aligned parallel to the pivot axis 10. It is preferred that this curvature of the building elements 2, 4, 6 follows circles whose center lies on the pivot axis 10. ^x

■ .: . · ■ · ■ ■-.

Viewed transversely to the pivot axis 10, the curvature of the middle sections of the building elements 2, 4, 6 is designed to follow a part of an ellipse, whereby the ellipse is preferably aligned such that its longer axis runs parallel to the pivot axis 10.

An embodiment is conceivable in which the building elements
viewed transversely to the pivot axis 10, they are curved in an ellipse over their entire extent, i.e. up to the bearing points. However, it is preferred that the side parts of the building elements are formed by flat wall parts 14 which are aligned perpendicular to the pivot axis 10 and are approximately triangular in shape when viewed from above.

From Fig. 1 to 3 it can be seen that the building parts 2, 4, 6 are arranged in the position of use in such a way that they overlap one another in areas of adjacent edges, so that a building 1 is closed on three sides. For this purpose, the building elements 2, 4, 6 are identically shaped, but are increasingly smaller from the outermost to the innermost building element 2, 4, 6, so that they can be pushed into one another in the supply position shown in dashed lines in Fig. 3, in which the building elements 2, 4, 6 completely cover one another.

From Fig. 3 it can be seen that the building parts 2, 4, 6 are pivotably mounted on a foundation 22, which may have a basement underneath, so that the building parts 2, 4, 6 pushed over one another are accommodated in their supply position in a U-shaped accommodation space 24, for example. The opening 26 of the accommodation space 24 can be covered, as will be described later.

The lower ends of the side parts 14 of the building elements 2, 4, 6 are mounted with bearing openings on a shaft 28, which in turn is mounted in a bearing block 30 that is attached to the foundation 22. This is also shown in Figs. 5 and 6. Figs. 4 and 6 also show that the bearing block 30 is designed in such a way that guide plates 32 are provided between the mounted ends of each building element 2, 4, 6 and the end of the adjacent building element 2, 4, 6, as well as on the outside, which keep the individual building elements 2, 4, 6 at a distance from one another in the area of their mounting.

Fig. 6 also shows that the side parts 14 of the building-0
elements 2, 4, 6, over which these are pivotably mounted

- 5 are,
can also have outward-curved surfaces.

To pivot the building elements 2, 4, 6 from the supply position to the use position and vice versa, drives are provided which preferably act on the outermost of the shell-shaped building elements 2, 4, 6.

In one embodiment, these drives are two double-acting hydraulic cylinders 40, which are pivotably mounted in the area of the foundation 22 about an axis 42 parallel to the pivot axis 10 (see Fig. 12). The hydraulic cylinders 40 engage the edge 5 of the outermost, largest, shell-shaped building element 2 adjacent to the next smallest building element 4, as shown in Fig. 12. To ensure that the two hydraulic cylinders 40 work synchronously, their supply with hydraulic medium is designed, for example, in the form of the hydraulic circuit shown in Fig. 8. The hydraulic circuit shown in Fig. 8 is constructed as follows:

The hydraulic circuit is designed symmetrically for each of the hydraulic cylinders 40, with the supply of pressure oil being via a double gear pump 70, with each gear pump 70 supplying a hydraulic circuit for a hydraulic cylinder 40.

The pressure oil is fed via a pressure line 71 to a 4/3-way valve 72, which is preceded by a pressure relief valve 73 with a connection to the hydraulic return line 74. The 4/3-way valve has a raised position 72a, a neutral position 72b and a lowered position 72c. A pressure relief valve 75 with pilot control is connected downstream of the 4/3-way valve 0 on the pressure line 71 and a corresponding pressure relief valve with pilot control 72 is connected upstream in the return line 74. The control line of the pressure relief valve 75 is connected to the return line 74 and the control line of the pressure relief valve 76 is connected to the pressure line 71.

In the pressure line 71, the pressure relief valve 75 is followed by a check valve with throttling 77, as well as a 2/2-way valve with a shut-off and a throttling position,

- 6 that
is in the throttle position during lifting operation.

Since the circuit according to Fig. 8 is symmetrical with respect to both hydraulic cylinders 40, it is ensured that the hydraulic cylinders 40 also work synchronously.

In order to ensure that when the outermost, largest shell-shaped building element 2, on which the drives act, is pivoted upwards, the following building elements 4, 6 are also taken along, stops 44, 46 are provided on the edge areas facing each other, namely the rear edge of the first and second building elements 2, 4 and the edge of the next inner building element 4, 6 facing them, which, as shown in Fig. 12 and 13, abut against each other after a predetermined pivot angle, so that when the outermost building element 2 is pivoted upwards, the smaller building elements 4, 6 located further inside are also gradually pivoted up into the position of use.

Instead of the hydraulic pivoting mechanism, a drive mechanism can also be provided, which is shown in an embodiment in Fig. 9.

In this embodiment, a circular sector 50 is attached to the rear edge 5 of the outermost building element 2, which is located on the left in Fig. 9, and which is toothed on its outer edge. A drive pinion 52 meshes with this toothing, which can be set in rotation by a drive motor via a worm drive in order to raise the building elements 2, -4, 6 of the building according to the invention from the supply position (dashed lines in Fig. 9) to the use position (solid lines in Fig. 9), i.e. to swing them up from the receiving space 24 in the foundation 22 (and vice versa).

As already mentioned, the receiving space 24 can be covered by hinged flaps 60. These flaps 60 can be made of metal and have wooden boards 62 (wooden straps) on their upper side, so that this part of the foundation 22, which protrudes upwards above the floor 8, which is enclosed by the building 1, can serve as a seat.

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can.

Due to the overlapping design of the individual flaps 60 of the cover, the space 24 underneath is sealed.
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To swing up the individual flaps 60,
Handlebar 64 is provided on the top side, whereby the pivoting up of the cover flaps 60 about the bearing axis 66 can be supported by springs, for example gas pressure springs 68.

The shell-shaped building elements 2, 4 and 6 can be made of common materials, such as wood, metal (e.g. steel/aluminum) or plastic (e.g. glass fiber reinforced plastic). Combinations of different materials are also possible. For example, the shell-shaped building elements can consist of a wood-steel combination. For example, the flat wall parts 14 are designed as steel structures and the parts of the building elements 2, 4, 6 arranged between these wall parts are designed as wooden structures.

This design also has the advantage that the building elements 2, 4, 6 can only be assembled on site, which simplifies transport.

In summary, a preferred embodiment of the invention can be reproduced as follows:

A building 1 consists of several curved building elements 2, 4, 6. In the position of use, the building elements 2, 4, 6 overlap each other only in the areas of adjacent edges. In the position of use, the building elements 2, 4, 6 delimit the interior of the building 1 on three sides and upwards. The fourth side is open, with the edge 12 of the largest building element 2 delimiting the opening. The building elements 2, 4, 6 can be pivoted about a horizontal axis 10 into a receiving space 24 provided under the floor 8, in which they are received overlapping each other and nested inside each other.

Claims (23)

8 - Claims: 1. Building (1) which is open on one side and closed at the top and on the side opposite the open side, as well as at the sides, characterized in that the building (1) consists of several building elements (2, 4, 6) which overlap one another in the area of their edges in the position of use, that the building elements (2, 4, 6) are pivotably mounted and that the building elements (2, 4, 6) can be pivoted into a supply position in which they are arranged in a nested manner so as to overlap one another. 2. Building according to claim 1, characterized in that the building elements (2, 4, 6) are curved in the direction of their pivot axis (10) and perpendicular to this. 3. Building according to claim 1 or 2, characterized in that the curvature of the building elements (2, 4, 6) running in a plane perpendicular to the pivot axis (10) follows circles whose center lies on the pivot axis (10). 4. Building according to one of claims 1 to 3, characterized in that the curvature of the building elements (2, 4, 6) is substantially elliptical in a plane in which the pivot axis (10) lies.
30 5. Building according to claim 4, characterized in that the ellipses according to which the building elements (2, 4, 6) are curved in the direction of the pivot axis (10) are aligned with their longer axis parallel to the pivot axis (10). 6. Building according to one of claims 1 to 5, characterized in that the ends (14) of the building elements (2, 4, 6) over which they are pivotably mounted are aligned perpendicular to the pivot axis (10) and - 9 even
are trained. 7. Building according to one of claims 1 to 6, characterized in that the building elements (2, 4, 6) are accommodated in their supply position in a receiving space (24) below the level of the floor (8) of the building (1). 8. Building according to claim 7, characterized in that the receiving space (24) is shaped substantially according to the shape of the building elements (2, 4, 6) and is provided in the foundation (22) of the building (1). 9. Building according to claim 8, characterized in that the receiving space (24) is covered at the top by a cover (60) when the building elements (2, 4, 6) are in the supply position. 10. Building according to claim 9, characterized in that the cover (60) consists of several cover elements arranged to overlap one another. 11. Building according to claim 9 or 10, characterized in that each cover element (60) is assigned a spring supporting the opening of the cover, preferably a gas pressure spring (68). 12. Building according to one of claims 9 to 11, characterized in that wooden parts (62) serving as a seat are attached to the upper side of the cover (60). 13. Building according to one of claims 1 to 12, characterized in that at least one drive (40, 50, 52) is provided for pivoting the building elements (2, 4, 6) from the supply position into the use position and from the use position into the supply position. 14. Building according to claim 13, characterized in that the drives (40, 50, 52) on the outermost building element (2) and that driving devices (44, 46) are provided to drive a respective one within a building to take the building element (4, 6) arranged on the lifting element (2, 4) after a predetermined relative swiveling movement and to erect it into the position of use. 15. Building according to claim 13 or 14, characterized in that a drive (40, 50, 52) is provided in the region of the ends of the outermost building element (2) mounted on a support bracket (30). 16. Building according to claim 14 or 15, characterized in that the drive has two pressure medium cylinders (40) engaging in the region of the ends of the outermost building element (2). 17. Building according to claim 14 or 15, characterized in that the drive is a ring gear drive (50, 52) arranged at the ends of the outermost building element (2). 18. Building according to one of claims 1 to 17, characterized in that the side parts (14) of the building elements (2, 4, 6) extending towards the pivot axis (10) are tapered towards the pivot axis. 19. Building according to one of claims 1 to 18, characterized in that the building (1) consists of three or four building elements (2, 4, 6). 20. Building according to one of claims 1 to 19, characterized in that in the position of use the outermost building element (2) is arranged essentially vertically and with its free edge (12) delimits the opening of the building (1) and that the innermost building element (6) with its free edge (7) is arranged essentially at the level of the floor (8) of the building (1). 21. Building according to one of claims 13 to 20, characterized in that the hydraulic cylinders (40) for pivoting the outermost building element (2) are equipped with compensating components for a uniform stroke. - 11 equips
are. 22. Building according to claim 21, characterized in that the hydraulic cylinders (40) in the area of the foundation (22) are pivotably supported. 23. Building according to claim 22, characterized in that the hydraulic cylinders (40) are pivotably mounted (axis 42) between the ends of their cylinders.