NL2000213C2 - Floatable construction for e.g. carrying house, has floating block accommodated within trapezoidal or rectangular frames made of aluminum profile beams such that construction floats together with building structure - Google Patents

Abstract

The construction (51) has several trapezoidal or rectangular frames made of aluminum profile beams and connected to each other to form a chassis. A floating block is accommodated within frames of the construction such that the construction floats together with a building structure.

Description

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FLOATABLE CONSTRUCTION

A drivable construction is known for supporting an architectural construction, such as a house or another building. Such a floating structure is known, for example, in the form of a concrete container.

It is an object of the invention to construct a floatable structure such that it has a greater net upward pressure per unit volume compared to these known structures.

It is a further object of the invention to provide a floatable structure that can withstand significant load differences on the floatable structure.

It is also an object of the invention to construct a floatable structure such that it can be easily coupled to another floatable structure, such that the two or more floatable structures thus coupled together form a substantially rigid unit.

It is also an object of the invention to provide a floatable construction that can be transported simply and cheaply, because it has a low own weight compared to known constructions.

Another object of the invention is to implement a floatable construction such that it is low in maintenance.

Finally, it is an object of the invention to construct a floatable construction such that, taking into account the aforementioned advantages, it can be manufactured at most for the same price or even cheaper than known floatable 2 00 02 1 3 * 2 constructions.

According to the invention, the stated objects are generally realized by a drivable construction for supporting an architectural construction, such as a house or other building, which construction comprises a number of frame parts connected to each other in such a way, all of which have a substantially have a trapezoidal, for example rectangular, main shape, that the structure has the main shape of a rectangular block, which structure comprises floating means which are included within the main shape of the structure, such that the structure can float together with an architectural structure carried thereby.

In a specific embodiment, the construction has the special feature that the frame parts are composed of aluminum profile beams, for example square tube profiles. I-profile bars can also be used.

To increase the stiffness of the construction, it can have the special feature that at least a number of frame parts comprise at least one stiffening beam, which prevents shearing and promotes the stiffness of the construction.

A specific embodiment has the special feature that a base and four upright walls are connected to it in a watertight manner, all of which are connected to the chassis to form a container. In this embodiment, the floating means are effectively formed by the air present in the container, which is formed by the bottom and the upright walls.

Light, strong and inexpensive is a version in which the beams are made of aluminum.

With such an embodiment, it is preferable if the said bottom and the walls also consist of aluminum. This prevents corrosion problems.

As an alternative to the use of a watertight container, the construction can have the special feature that the space available within the main form is occupied by a watertight mass of closed-cell foam, the effective specific mass of which is considerably smaller than that of water.

It will be clear that the above-mentioned provisions can also be applied in the case of an embodiment with a watertight container as a floating body.

The embodiment described above can have the special feature that the foam is EPS (expanded polystyrene).

It is noted that according to the invention the main shape can also accommodate other provisions, for example ballast tanks, a water purification installation and other provisions desired or necessary for the structural construction. The ballast tanks can be used by suitable means for holding the structure in a horizontal position. For this purpose, water is pumped in and out of the various ballast tanks, preferably regularly and symmetrically distributed.

Furthermore, the construction can have the feature that a base and four upright walls have been added to the main form to improve the resistance of the construction, in particular the mass of foam, against possible damage by harmful animals or damage caused by external influences off.

In order to prevent galvanic corrosion, the construction can have the special feature that it comprises a number of parts made of metal, for example aluminum, which are mutually coupled and all parts consist of the same metal.

A practical and very strong construction is obtained with very simple means in an embodiment in which the construction comprises a number of metal profile beams, which profile beams are connected to each other by means of coupling elements, comprising sleeves slid over the ends of the beams and / or tubes or rods slid into the ends of the beams, which coupling elements are connected to each other by welding, for example MIG-5 welding or friction welding.

According to another aspect of the invention, the construction has the special feature that all frame parts have the same dimensions, in accordance with a chosen modular size, such that a construction can have a length, width and height the size of a whole number of times the relevant modular one. sizes.

With an embodiment in which the structure carries a load which comprises metal parts, which load is coupled with the structure with steel bolts, which at least in the area of the zones which co-force transmission forces with the structure, are provided with an electrically insulating layer galvanic corrosion is effectively prevented.

This latter embodiment can have the special feature that the insulating layer consists of polytetrafluoroethylene (PTFE). PTFE is a mechanically strong, electrically excellent insulating and easy to machine material.

In a particular embodiment, the construction has the special feature that at least a number of frame parts are covered with respective cover plates.

With such cover plates an additional mechanical strength and stiffness can be obtained in an embodiment in which each cover plate is connected to the respective frame part for transmitting forces.

It is noted that the cover plates may consist of strips. Depending on the desired power transmission, such strips may or may not be connected to each other.

In order, for example, to make the influence of rainwater and other external influences on the foam filling in the relevant compartments as small as possible, the construction can have the special feature that at least a frame part provided with a foam filling is covered with a cover plate.

In an embodiment in which a cover plate consists of the same metal as the respective frame part, the risk of galvanic corrosion is excluded.

A modular size can for example be length x width = 2 x 2 m2.

For transport by road, for example, a modular composite construction with a width of 4 m and a length of 20 m can be used. This can be assembled modularly at the place of launch to form, for example, a total construction with a length x width = 20 x 20 m2.

Preferably, all component parts are made of aluminum. If it is desired to make use of screw connections, for example with steel bolts of steel 8.8, these bolts can also be provided with an insulating cover layer of, for example, PTFE.

A total floating construction with a surface of 20 x 20 m2 can for instance have a central part dimensions of 12 x 12 m2. In this way a very large buoyancy or a large resistance to deflection is realized. If desired, an additional load can be placed on the corners of a final overall construction. This can serve to compensate for the deflection that may occur after a load has been placed in a central zone of the structure. Such a load can for instance be a house or other structural construction.

Use can be made of balancing means for admitting selected compartments and removing water therefrom, using measuring means and pumping means controlled thereby, so that a near perfect balancing, in particular in the case of a varying load, can be made. to be realised. It will be clear that, partly in view of this, the structure will then be subject to certain requirements with regard to its mechanical strength and stiffness. The balancing can take place in three dimensions, so a correction of any deviation from a horizontal position in two directions can be realized, in combination with the draft.

Use can be made of simple means to determine the effectiveness of the balancing and also to perform measurements that can control the balancing pumps. Such provisions may, for example, comprise a number of measuring glasses, which for example follow the relevant level with a delay of a few seconds. As a result, for example, the relatively fast influence of waves is excluded from the level control.

In general, it is assumed that the balancing tanks have a water filling in the order of magnitude of half their volume.

In the case where a number of compartments are filled with, for example, blocks of expanded polystyrene or other foam with a very low effective specific gravity, the buoyancy of the structure can be selected as desired by choosing the number of EPS (expanded polystyrene) blocks. It will be clear that the distribution of such blocks 25 will be chosen in view of the design load.

In the case where the foam blocks are included in watertight compartments for their lifespan, the construction according to the invention has the great advantage that in the event of a leakage of a tank the structure remains floating.

Depending on the number and placement of the still available compartments, service rooms for pumps, electrical equipment, storage rooms, fuel tanks, a water purification plant, and the like can be installed as desired.

For the sake of a strong and rigid construction, braces and / or force-transmitting plates can be used where necessary.

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The invention will now be explained with reference to the accompanying drawings. Show in the drawings:

Figure 1 is a perspective view of a first embodiment of the floatable construction according to the invention;

Figure 2 is a perspective view of a second embodiment of the floatable construction according to the invention, in which some parts have been omitted for the sake of clarity; Figure 3 is a perspective view of a construction with a number of watertight compartments;

Figure 4 is a perspective view corresponding with Figure 3 of a construction with a number of watertight compartments and a number of EPS blocks; and

Figure 5 shows a perspective view corresponding with figures 3 and 4 of the construction according to figure 3 or figure 4, wherein the frame parts are covered with aluminum cover profiles, strips or plates.

The floating structure 1 according to figure 1 is entirely made of aluminum and has the following properties and special features: - walking height in the container at least 2.15 m 25 - own weight approximately 50 kg / m2 - net upward pressure in an almost submerged state approximately 1.500 kg / m2 low in maintenance 30 - can be connected both lengthwise and widthwise - withstands irregularly distributed loads on the floating structure

The construction 1 is made up of frame parts of square tube profiles in the size 150 x 150 x 5 cm. These frame parts are encased in the form of a watertight closed container by a bottom 7 and four upright walls 8, 9, 10, 11, consisting of aluminum plates with a thickness of, for example, 5 mm. These plates are provided with a regular stiffening profiling, comparable to a sheet pile profile, whereby the desired rigidity is ensured.

The floating structure 2 according to figure 2 is not fully drawn. It comprises a water purification plant 21 and two ballast tanks 22, 10 23, all of which are accommodated in the space enclosed by the block-shaped main shape. The rest of the space is completely occupied by blocks 14 of expanded polystyrene to ensure buoyancy.

The floating structure 2 consists, as described, of a combination of aluminum frame parts and a number of masses 14 of expanded polystyrene. Like the floating structure 1 according to figure 1, the floating structure 2 according to figure 2 comprises a number of ballast tanks 22, 23, a water purification plant 21 and / or other facilities desired or necessary for the building to be supported.

The drivable structure 2 has the following properties and special features: - the structure is unsinkable - the structure has a weight of approximately 50 kg / m2 the structure experiences a net upward pressure of approximately 1,500 kg / m2 in the substantially submerged state construction is low in maintenance - can be linked both lengthwise and widthwise - withstands irregularly distributed loads

The frame parts and the chassis assembled as a result are constructed from profiles with dimensions, 9 depending on the design requirements and wishes of users: - square tube profiles with the size 150 x 150 x 5 (this is just an example) 5 - IPE 180 profile ( this is just an example)

The EPS used is of the EPS 100 quality.

Not shown are a bottom and upright walls which, unlike in the embodiment according to figure 1, do not need a watertight connection with respect to each other but only serve to improve the resistance of the construction, in particular the foam mass, against possible eaten by harmful animals or damage by external influences. These plate elements are not drawn.

Use could for instance be made of a suitable quality aluminum plate with a thickness of 1 mm. Other materials, for example plates of glass fiber or similar reinforced or non-reinforced plastics, can be used.

Figure 3 shows a structure 51, which is made up of aluminum profiles 52. In this embodiment, the modular dimension of both the length and the width is 2.25 m. These dimensions are indicated in two places with reference a in two places. For example, it is clear that a watertight compartment 53 has dimensions of 4 x 2 m2. A watertight compartment 54 has dimensions of 2 x 2 m2.

In this embodiment the height has a value of approximately 1.30 m. This can be selected as desired depending on the desired buoyancy.

Struts 55 are used to reinforce and reinforce the structure. These are located at various relevant places.

Figure 4 shows that in this embodiment nine EPS blocks with dimensions of slightly less than 2 x 2 x 1.40 m3 are placed in all spaces, not being the watertight compartments 53, 54. All EPS blocks are indicated by the reference number 56 .

It will be clear that the watertight compartments 53, 54 have a bottom respectively 57, 58 and 5 side walls, each of which consists of two panels 59.

Finally, Figure 5 shows that the structure 51 comprises twelve frame parts, each with a modular size of 4x2 m2, which frame parts are each covered with aluminum plates 60. In this embodiment, the aluminum plates 10 are connected to the aluminum profiles of the structure 51 for transferring forces. . This contributes to the rigidity and strength of the construction. The aluminum sheets can for example be completely smooth, in which case they can transmit tensile forces in all directions. They can transmit compressive forces in the case where they have a sufficient thickness. Use can also be made of a suitable profiling to increase the bending stiffness in a specific direction. Such a profiling can comprise a wave pattern or a sheet pile profile. Coupling of sub-structures of, for example, 4 x 2 m2 to a total construction of 20 x 2 m2 can take place in the water, in the floating state, with the coupling provisions described above. Use can be made of PTFE-coated M20 bolts.

It will be clear that the invention is not limited to the described and drawn exemplary embodiments.

***** 2000213

Claims (18)

A drivable structure (1; 2) for supporting an architectural structure, such as a house or other building, which structure comprises a number of frame parts (3; 4) connected to each other in such a way that they are connected to a chassis (12; 13), which all have a substantially trapezoidal, for example rectangular, main shape, that the structure (1; 2) has the main shape of a rectangular block, which structure (1; 2) comprises driving means which are within the main shape of the structure (1, 2) are included, such that the structure can float together with an architectural structure carried thereby. 2. Floatable construction (1; 2) according to claim 1, wherein the frame parts (3; 4) are composed of aluminum profile beams, for example square tube profiles. A drivable structure (1; 2) as claimed in claim 1 or 2, wherein at least a number of frame parts (3; 4) comprise at least one stiffening beam (5; 6), which prevents shearing and the rigidity of the structure (1; 2) ). 4. Floatable construction (1; 2) according to any one of claims 1 to 3, wherein to the main form a bottom (7) and four upright walls (8, 9, 10, 11) connected thereto are added, which all are connected to the chassis (12; 13) to form a container. A drivable structure (1; 2) according to claim 2, wherein the beams are made of aluminum. 2000213 i Floatable structure (1; 2) according to claims 4 and 5, wherein the bottom (7) and the walls (8, 9, 10, 11) consist of aluminum. 5 7. Floatable construction (1; 2) according to any of claims 1 to 3, wherein the space available within the main shape is occupied by at least one watertight mass (14) of closed-cell foam, the effective specific mass of which is considerable smaller than that of water. 8. Floatable structure (1; 2) according to claim 7, wherein the foam is EPS (expanded polystyrene). 9. Floatable construction (1; 2) according to one of claims 7 and 8, wherein a bottom and four upright walls are added to the main form to improve the resistance of the construction, in particular the mass (14), against possible eat by harmful animals or damage by external influences. 10. Floatable structure (1; 2) according to claim 1, wherein the structure comprises a number of parts made of metal, for example aluminum, which are mutually coupled and all parts consist of the same metal. 11. Floatable structure (1; 2) as claimed in claim 2, wherein the structure comprises a number of metal profile beams, which profile beams are connected to each other by means of coupling elements, comprising sleeves pushed over the ends of the beams and / or in the ends tubes or rods slid from the beams, which coupling elements are connected to each other by welding, for example MIG welding or friction welding. % 12. Floatable structure (1; 2) as claimed in claim 1, wherein all frame parts have the same dimensions, in accordance with a chosen modular size, such that a structure can have a length, width and height the size of a whole number of times the relevant modular one. sizes. 13. Floatable structure (1; 2) as claimed in claim 10, wherein the structure carries a load, which comprises metal parts, which load is coupled to the structure with steel bolts which, at least in the area of the zones transmitting forces to the structure, are provided with an electrically insulating layer. 15 A drivable structure (1; 2) according to claim 13, wherein the insulating layer consists of polytetrafluoroethylene (PTFE). A drivable structure (1; 2) as claimed in claim 1, wherein at least a number of frame parts are covered with respective cover plates. 16. Floatable construction (1; 2) according to claim 15, wherein each cover plate is connected to the respective frame part for transmitting forces. 17. Floatable construction (1; 2) according to claims 7 and 15, wherein at least one frame part provided with a foam filling is covered with a cover plate. 18. Floatable construction (1; 2) according to claim 15, wherein a cover plate consists of the same metal 35 as the respective frame part. ***** 2000213