NL2001523C2 - Prefab floor element and floating construction with a number of such floor elements. - Google Patents

Description

PREFAB FLOOR ELEMENT AND FLOATING CONSTRUCTION WITH A NUMBER OF SUCH FLOOR ELEMENTS

The current market in which concrete floating foundations are used can be described as follows.

A known floating construction comprises, for example: - a concrete container which is manufactured in a factory in prefab (prefabricated) form, after which a building, such as a dwelling, is erected on the container, or - an inverted concrete container filled with EPS 10 (expanded polystyrene), which is prefabricated in the factory, after which a building is erected on the tank, or - an EPS bed cast with fiber-reinforced concrete. This foundation is laid and deposited on site.

15 The buildings are erected on the spot.

Such known concrete-based systems have a number of defects and limitations. The most important of these are: - The prefab elements are difficult or even impossible to transport by road.

- It is difficult or even impossible to connect the prefab elements with sufficient rigidity and strength.

- It is difficult and usually even impossible to lay pipes and cables for a building to be supported afterwards in the foundation. Under all circumstances a very precise preparation for such installations is necessary. Subsequent changes cannot be made.

30 - There is a great lack of flexibility 2001523 2 in the final form of the foundation.

- The prefab elements are poorly resistant to high dynamic and uneven loads on the foundation.

5 - A specific finish of the top of a platform is necessary for the placement of buildings.

It is an object of the invention to obviate the above described defects and limitations of the prior art.

In connection with the above, the invention provides a prefab floor element, which is characterized by: two mutually parallel relationship, for example substantially congruent, reinforced concrete slabs with respective reinforcements of first steel bars; and a pattern of grosso modo connecting the plates to each other in zigzag formation in two mutually independent directions, which are fixed to the first bars, for example by welding, and are embedded with their end zones in the concrete of the plates.

Such a prefab floor element, more or less comparable to the technique of a sandwich panel, can be designed with a very low weight such that it is very bend-resistant and strong and tolerates a high shear strength, and a large span with a high floor load per square 30 meters.

Because a floor element is completely hollow, it is possible to install pipes, cables and similar facilities in the floor afterwards. By creating a distance, somewhat comparable to a sandwich panel, between the concrete slabs and using as core the second steel bars, which moreover can be embedded over some distance with their end zones in the concrete of the slabs, as stated, a high resistance to deflection can be obtained in combination with a very low weight compared to a comparable monolithic structure of reinforced concrete. Said distance can be selected in dependence on desired bending stiffness and strength. Reference is made to the problem according to the state of the art in which prefab floor elements are only able to withstand a very limited degree of bending, in particular in the case of uneven loads.

Attention is drawn to the fact that a prefab floor element according to the invention can also comprise more than two plates of reinforced concrete extending in mutually parallel relation. In such a case, the floor element comprises at least two adjacent plates with patterns of the zigzag rods connecting to each other.

According to an important aspect of the invention, the prefab floor element is characterized by coupling means for coupling the floor element to the same floor element, which coupling means comprise: two clamps engaging the first and the second plates of each of the two floor elements over the entire relevant edge length, each of which engages two oppositely directed edge faces of each plate in question.

A floor composed in this way of two or more floor elements has a high strength and bending stiffness, in combination with a low weight.

According to a further aspect of the invention, the prefab floor element has the special feature that each edge zone of the plates has a step-like recess on the inward-facing side; and the clamp has a first clamping element, the shape of which corresponds to the shape of the edge zone, and a second clamping element engages on the other sides of both plates.

4

The floor element according to the above-described two aspects of the invention preferably has the special feature that the clamp is a screw clamp.

In another embodiment, the prefab floor element according to the invention has the special feature that two floor elements are coupled to each other by connecting the first and / or the second steel bars to each other by welding.

According to a further important aspect of the invention, the floor element has the special feature that the top plate is designed such that it is suitable for serving as a finishing floor for a building to be supported by a number of coupled floor elements. With this embodiment, the top surface of the floor is directly the finishing floor for the building supported by the process and the construction of the floor parts. A separate finish of the floor has therefore become superfluous, which greatly reduces time and costs.

The invention furthermore relates to a floating construction, comprising a number of generally block-shaped floating bodies which are coupled to each other and are arranged according to their longitudinal direction in mutually parallel relationship. According to the invention this floating construction is characterized by a number of prefab floor elements with said coupling means, which coupling means are coupled in mutually parallel relationship by coupling means as specified above, wherein their longitudinal direction is preferably directed transversely to the longitudinal direction of the floating bodies.

According to another important aspect of the invention, the floating construction has the special feature that the top plates of adjacent floor elements are mutually spaced apart, such that the space in the floor elements is accessible from above, which said mutual distance can be bridged by a closing plate.

A floor according to the invention can be designed to float by applying, whether or not corrosion, erosion or attack by pests protected EPS, a metal container, a concrete or a plastic container, or the like, as a float under the floor.

As a result, the floor extends completely above the water. This makes it possible to couple the top plate and the bottom plate of one floor element with another floating floor element, in the manner as described above. With the invention it is thus possible to couple a coupling with a high degree of strength, stiffness, in combination with a low weight.

The floor elements can in principle have any desired size.

It is also possible to make each floor element connectable on all sides, as a result of which any desired shape of a floor based on prefab floor elements according to the invention can in principle be realized.

Because the prefab floor elements can subsequently be coupled on site, it is also possible to give the floor elements dimensions such that they can be transported relatively easily over the road or over the water. As a result, unlike the state of the art, the location and the access roads no longer constitute a limitation for the use of floating homes or other structures, roads, gardens or other structures.

The invention will now be explained with reference to the accompanying drawings. In the drawings: figures 1A and 1B show perspective views of a floating construction with a number of prefab floor elements according to the invention in two embodiments; figures 2A and 2B show perspective views of a part of the floating constructions according to figures 35A and 1B; figure 3 shows a top view of the platform according to figure IA with dimensions of 15 m x 21 m; figure 4A shows the detail IV of figure 1 on an enlarged scale; figure 4B shows a view corresponding with figure 4A of an alternative; figure 5A the detail V of figure 1; Figure 5B shows a view corresponding with figure 5A of an alternative; Figure 6 is a perspective view of a floating construction according to the invention; Figure 7 is a side view of the structure according to Figure 6; figure 8 shows a front view of the construction according to figure 6, in which the coupling system is visible; figure 9 shows the detail IX of figure 8 on an enlarged scale; Figure 10 shows a perspective partial view of the structure with zigzag bars and reinforcement according to the invention; figure 11 is a side view of the structure according to figure 10, in which the manner of coupling 20 is clearly shown; figure 12 shows the detail XII of figure 11; figure 13 is a top view of the structure according to figures 10, 11 and 12; figure 14 is a top view in which the couplings with wooden structures are drawn; and figure 15 shows a side view of the couplings according to figure 14.

Figure 1A shows an example of a floating construction 5, the top view of which is shown in figure 3. The floating construction 5 comprises a number of floats 2, which carry prefab floor elements 1 arranged in mutually parallel relationship. (See also figure 2).

Each prefab floor element 1 comprises two mutually parallel, substantially congruent plates 6, 7 of concrete with respective reinforcements of first steel rods 8, 9, respectively. Furthermore, the floor element 1 comprises a pattern of grosso 7 modo connecting the plates 6, 7 to each other. second steel bars 10 arranged in zigzag formation in two mutually independent directions x, y (see Figure 2), which are fixedly connected to the first bars 8, 9 and embedded with their end zones 11, 12 respectively in the concrete of the respective plates 6, 7. See also Figure 4 in this connection.

It will be apparent from Figure 2 that, due to the three-dimensional zigzag structure of the pattern of second bars 10 over the mutual distance a 10 between the plates 6, 7 and the embedding of the end zones 11, 12 therein, a very large bending stiffness, strength and shear strength in both directions x and y have been realized.

The floating construction 5 is protected by a protective edge 3, for example designed as a number of connecting prefab elements 18 of concrete or of another suitable material.

The top plate 6 can, as Figures 2B and 6 show, be covered by respective cover plates 20.

It is important that according to the invention use can be made of removable cover plates, all of which are designated by the reference numeral 19 and which upon removal make it possible to reach the space between the plates 6, 7, for example for laying pipes , cables and other facilities for adjustment, repair and maintenance.

It is important that the prefab floor elements according to the invention can be coupled to each other in a bending-rigid manner and transmitting forces. An example of an embodiment of this principle according to the invention is shown in Figure 4. The coupling clamps 13 drawn there couple together corresponding plates 6, 7 of adjacent floor elements 1,1 'according to the invention. In this embodiment, each edge zone 14, 14 'of each plate has a step-like recess 15, 15' on its inward-facing side. A first clamping element 17 has a shape corresponding to the shape of the edge zone 14, 14 'and a second clamping element in the shape of a clamping plate or clamping strip 17' engages on the other side of both plates.

Figure 6 shows an assembly 21 of two floating structures 5 according to Figure 2A. These constructions 5 are coupled to each other in the manner to be described below. The top plate 6 according to Fig. 2A is covered by a cover plate 20 in the embodiment according to Fig. 6. As shown in Fig. 9, the longitudinal edges of the plates 20 have a mutual distance, which is filled with cover plates 19. These cover plates 19 are their edges supported by the corresponding longitudinal edges of the top plates 6, 6 ', which are released by the slightly smaller dimensioned cover plates 20, 20'. Because the plates 19 and 20 have the same thicknesses, their upper surfaces lie in an, at least substantially flat, surface.

Figure 7 shows the floating structure 5 from the side. The prefab floor element 1 is supported by the float 2, or an assembly of such floats. A float can for instance be an open container which can be made of any desired and suitable material, for example from concrete, but also from expanded polystyrene, whether or not provided with a protective jacket. The height of the floats 2, 2 '25 depends on the required buoyancy and is chosen for this purpose when designing the structure 5.

Figures 8 and 9 show that the floating structures or modules 5 are coupled to each other at the location of the floor elements 1, 1 '. As a result, the occurring often very large forces can be transmitted in an excellent manner. Due to the modular construction, the floating structures can be coupled in both their width direction and their length direction without any limitation. The space between the two at the location of the upper plates 6, which is indicated by 22 in Figure 4B, can be filled by a cover plate 19 consisting of, for example, calcium sulphate, which can be temporarily removed 9, whereby access is gained to the space between the plates 6 and 7, for example for laying cables, tubes and pipes and / or for maintenance and repair purposes.

The distance between the top plate 6 and the bottom plate 7 is dependent on the required resistance to deflection, and also on the diameters of the pipes to be laid. With regard to the resistance to deflection, it is noted that this resistance increases as the distance between the plates 5 and 6 increases.

Figure 9 clearly shows how the floor elements 1, 1 'can be coupled to each other by means of bolt connections, all of which are indicated by 23.

It is noted that the aim is to achieve the largest possible modular dimension in order to limit the costs for the required coupling elements and their mutual coupling as much as possible. This depends on the intended application, the logistical possibilities, and the production possibilities.

Figures 10-15 show "bare" views of the various metal parts that form part of the floor elements according to the invention and the coupling 25 between them.

Figures 10 and 11 show that the forces that occur during the use of modular floating structures are absorbed by the reinforcement in the form of the lattice girders and the reinforcement in the longitudinal and transverse directions. The diameter of the reinforcement bars and the amount of reinforcement to be used depend on the forces to be accommodated. The reinforcements of prefab floor elements to be connected to each other are structurally connected to each other. The reinforcement is preferably fully welded through, so that the structure is best able to absorb the very large forces occurring. As the figures show, a series of half-timbered structures and triangular connections are created, as a result of which the total composite structure is very well capable of absorbing deflection, tensile forces and compressive forces.

Figures 12 and 13 show that the couplings 23 are connected to the reinforcing bars 8, 9. In this way the truss construction, particularly shown in Figure 10, can be coupled through from one module to the other. The construction is capable of absorbing extraordinarily large forces while maintaining its integrity.

Figures 14 and 15 show that the couplings, all denoted by 23, are realized at the top with threaded rods, which may be weighted and stiffened if required. Bolts are used at the bottom in this embodiment. These too can be weighted or stiffened, if this is required in connection with the design load.

The spaces between the couplings and the space between the nuts and the bush can be filled with damping material. This allows dynamic loads to be absorbed.

In this embodiment the upper coupling is adjustable, so that tolerances can be accommodated. In addition, this implementation has the advantage that the establishment of the coupling is hereby simplified, in particular on an unstable and even movable surface such as water. Namely, the drawn threaded rods can simply be pushed into the bushes and fixed afterwards, in order to provide the desired rigidity to the modular construction, or construction platform. The advantages of the invention can be briefly summarized as follows: - The floor elements according to the invention can be of modular design and can be assembled as such to 35 larger units, without any fundamental dimension limitation. The bolt connections described above are very suitable for this purpose. The advantage of bolted connections over welded connections is further 11 that a bolted connection can be disconnected again if desired, other than a welded connection, which requires intervention in the overall construction, such as cutting, sawing, or a heat treatment such as welding through.

A floor element and also an assembly consisting of several floor elements has a very high resistance to bending through the structural welded-on lattice girders, that is to say roughly in zigzag formation.

- Assemblies or platforms can be adjusted afterwards by the above described couplings based on threaded rods. As a result, deviations which occur in the production can easily be absorbed. It is also possible to realize a curved shape of the upper surface, as a result of which the resistance to deflection is further increased.

Couplings can be made flexible by using plates of rubber or a rubber-like material. In this way fatigue problems, for example when used for floating roads or dynamic environments (heavy waves), are prevented, at least substantially reduced.

25 - The top of a platform is immediately suitable for building, because the floor comes "clean" out of the formwork. To that end, the floor is manufactured in a special way, so that the outer sides of the floor are always smoothly finished.

- Due to the floor construction and the application of the calcium sulphate cover plates or filler plates, the space between the top plate 6 and the bottom plate 7 of the floor element 1 can be utilized for wires, cables, tubes, pipes, ballast tanks and other provisions intended for the intended use. of the building supported by an assembly. Such parts can also be mounted afterwards, for example by temporarily removing the cover plates 19 at least in part. The 12 possibility of retrofitting is very advantageous because it can result in a large cost saving in the engineering process. Nevertheless, the flexibility in realizing a desired unit with many different functions remains fully guaranteed.

- Due to the modular construction and prefabricated production of the modules, it is possible to transport the platform modules by land, by sea, and even by air, for example by means of freight helicopters.

-k ★★★★ 15 2001523

Claims (8)

A prefab floor element characterized by two reinforced concrete slabs extending in mutually parallel relationship with respective reinforcements of first steel bars; and a pattern of grosso modo connecting the plates to each other in zigzag formation in two mutually independent directions, which are fixedly connected to the first bars, for example by welding, and with their end zones embedded in the concrete of the plates. 2. Prefab floor element according to claim 1, characterized by coupling means for coupling the floor element with the same floor element, which coupling means comprise: two clamps engaging the first and the second plates of each of the two floor elements over the entire relevant edge length, each engaging on two oppositely directed edge surfaces of each respective plate. Prefabricated floor element according to claim 2, characterized in that each edge zone of the plates has a step-like recess on the inward-facing side; and the clamp has a first clamping element, the shape of which corresponds to the shape of the edge zone, and a second clamping element engages on the other sides of both plates. Prefab floor element according to one of claims 2 and 3, characterized in that the clamp is a screw clamp. 5. Prefab floor element as claimed in claim 2, 10, characterized in that two floor elements are coupled to each other by connecting the first and / or the second steel bars to each other by welding. 6. Prefab floor element according to one of the preceding claims, characterized in that the top plate is designed such that it is suitable for serving as a finishing floor for a building to be supported by a number of linked floor elements. 7. Floating construction, comprising a number of mutually parallel, generally block-shaped floating bodies coupled to each other in their longitudinal direction, characterized by a number of prefab floor elements according to claim 2, which are coupled in mutually parallel relationship by coupling means as specified in one of the 30 claims 2-5, wherein their longitudinal direction is preferably directed transversely to the longitudinal direction of the floating bodies. The floating construction according to claim 35, wherein the top plates of adjacent floor elements are mutually spaced apart, such that the space in the floor elements is accessible from above, which said mutual distance can be bridged by a closing plate. Ar Ar Ar ★ Ar 5 2001523