SE545147C2 - PREFABRICATED RECTANGULAR CONCRETE SLAB WITH FLANGES THAT MAKE A LIFE AROUND THE SLAB - Google Patents

Abstract

A prefabricated rectangular concrete slab (3) in one plane comprises a first side (1), a second side (2) and four edges (4). The edges (4) at said first side (1) along the plane of the concrete slab have flanges (5) around the concrete slab and that the edges (4) at said second side (2) along the plane of the concrete slab have flanges (6) around the concrete slab. The flanges (5, 6) on said first side (1) and on said second side (2) together have a total thickness less than the thickness of the concrete slab, whereby the space between the flanges (5, 6) forms a web (7) around the slab (3) . The flanges (6) at said second side (2) extend further in the plane of the concrete slab than the flanges (5) at said first side (1) so that the surface of said second side (2) is larger than the surface of said first side (1) .

Description

The present invention relates to a prefabricated rectangular concrete slab in one plane comprising a first side, a second side and four edges.

TECHNICAL BACKGROUND When casting concrete slabs which must withstand a certain load, for example vehicles, careful planning and adaptation is required due to weather and logistics resources. By using prefabricated slab elements, some of the difficulties associated with casting are avoided, while other problems can arise, such as for example weeds that shoot up between the slabs.

In certain spaces, such as machinery halls and halls for livestock, a continuous floor is desired so that contamination does not penetrate to the ground under the tiles; such floors need to be poured in the traditional way.

SUMMARY OF THE INVENTION It is thus an object of the present invention to provide an improved prefabricated concrete slab in order to at least partially avoid the problems that can arise with traditional slabs and at the same time enable the use of prefabricated slabs where one has previously been referred to casting floors in the traditional way .

This purpose is achieved with a concrete slab according to the attached patent claims.

According to a first aspect of the present invention, a prefabricated rectangular concrete slab is provided in one plane comprising a first side, a second side and four edges. The edges at said first side along the plane of the concrete slab have flanges around the concrete slab and that the edges at said second side along the plane of the concrete slab have flanges around the concrete slab. The flanges on said first side and on said second side together have a total thickness less than the thickness of the concrete slab, whereby the space between the flanges forms a web around the slab. The flanges on said second side extend further in the plane of the concrete slab than the flanges on said first side so that the surface on said second side is larger than the surface on said first side.

Preferably the thickness of the plate is between 10 cm and 22 cm, even more preferably between 12 cm and 20 cm and preferably between 14 cm and 18 cm.

The thickness of the flanges at the periphery of the plate is preferably between 2 cm and 7 cm and even more preferably between 3 cm and 6 cm.

According to a variant of the present invention, the dimensions of the plate at said second side are 120 cm by 80 cm.

According to a variant of the present invention, the flanges at said second side protrude between 1.5 and 2.5 times more than the flanges at said first side.

According to a further aspect of the present invention, the flanges are tapered towards the periphery of the plate.

According to a further aspect of the present invention, the flanges on two opposite sides at said second side have recesses in the plane of the concrete slab.

Further properties and advantages of the present invention are apparent from the subsequent patent claims and associated description. Those skilled in the art realize that various parts of the present invention can be combined in other ways than described to form embodiments that differ from those described below without departing from the scope of protection as defined by the patent claims.

BRIEF DESCRIPTION OF THE FIGURES The aforementioned and further details and advantages of the present invention will be more easily understood in the further description of examples of embodiments of the present invention with reference to the figures in which: Figure 1 is a partial side view of two adjacent concrete slabs according to the present invention, Figure 2 is a top view of eight concrete elements according to the present invention arranged next to each other and Figure 3 is a top view of an alternative embodiment of a concrete slab according to the present invention.

DESCRIPTION OF EXAMPLES OF EMBODIMENTS ACCORDING TO THE INVENTION The invention will now be described in more detail with reference to the accompanying figures in which examples of embodiments are shown. However, the invention can be embodied in many different ways and should not be seen as limited to the examples shown. The same reference number refers to the same or similar parts of the invention throughout the description.

With reference to the design example in Figure 1, a partial side view of two adjacent concrete slabs 3 according to the present invention is shown. The prefabricated rectangular concrete slab 3 has one plane and comprises a first side 1, a second side 2 and four edges 4. The edges 4 at said first side 1 have along the plane of the concrete slab flanges 5 around the concrete slab 3. Also the edges 4 at said second side 2 have along the plane of the concrete slab, 6 flanges around the concrete slab. The flanges 5, 6 at said first side 1 and at said second side 2 together have a total thickness that is less than the thickness of the concrete slab. Between the flanges 5, 6, a web 7 is formed around the slab 3. The flanges 6 at said second side 2 extend further in the plane of the concrete slab than the flanges 5 at said first side 1 so that the surface of said second side 2 is larger than the surface of said first side In Figure 1, two concrete slabs 3 are arranged side by side with the first sides 1 upwards and the second sides 2 downwards. Preferably, the concrete slabs 3 are laid as close to each other as possible so that the gap between the flanges 6 at the lower part of the concrete slab 3 is as small as possible. Because the flanges 5 on the first side of the respective concrete slab 3 are shorter than the flanges 6, an opening is formed at the top and a type of cavity between the concrete slabs. If the concrete slabs are to be laid more permanently, rebar 9 is advantageously placed in the cavity before the cement/concrete is filled, as shown in fig. 2. In the case of a grid with concrete slabs, reinforcing bars 9 are preferably laid first in a direction parallel to each other, after which reinforcing bars 9 are placed in the transverse cavities. Through this method, the need for liquid cement/concrete at the final destination is minimal and the normally cumbersome process of casting a larger concrete slab disappears, but with the end result maintained. The concrete slabs 3 according to the present invention can be pre-produced under more controlled forms and with an almost identical final result regardless of the weather. If a more uniform visible surface is desired, it is relatively easy to achieve this afterwards in the traditional way.

One of the purposes of having flanges 5 at the first side 1 is to enable lifting of the plates with, for example, a claw. According to a preferred embodiment, the size of the plates is 120cm by 80cm, i.e. so that a slab can be loaded onto a European pallet. Other dimensions are of course possible, but the dimensions are preferably adapted to what is easiest in terms of transport. Another purpose of having flanges 5 at the first side 1 is to lock the concrete slabs 3 together in a better way because a slab cannot sink in relation to an adjacent concrete slab 3 when the cavity is filled with cement/concrete.

Figure 3 shows an alternative embodiment of concrete slab 3 according to the present invention. The two concrete slabs 3 shown have at the flanges 6 on two opposite sides at said second side 2 recesses 8 in the plane of the concrete slab. The number of recesses on each side can be adjusted according to the length of the concrete slab or other wishes. When casting the cavity formed between the concrete slabs 3, these recesses 8 are filled with cement/concrete and thus further contribute to a better locking of the concrete slabs 3 between themselves. Furthermore, these recesses 8 contribute to the rebar being better enclosed by cement/concrete and also help to minimize air pockets during casting.

In order to further minimize the risk of air pockets, the flanges 5, 6 are preferably tapered towards the periphery of the plate 3 as shown in the figure. This can be useful when, for example, a base is temporarily needed for heavier vehicles for access to a construction site.

Another useful area is during road construction when traffic needs to be diverted. During some road construction, there are no "old" roads to use, but new roads are temporarily paved. The asphalt must then be removed and usually cannot be recycled. By using concrete slabs according to the present invention, concrete slabs 3 can instead be placed with the first side 1 down and the second side 2 up and thus replace an asphalt pavement. If some form of cohesion is desired between the various concrete slabs, these can be connected to each other with straps that are threaded into the cavity between the slabs and tightened so that the straps are held in place in the web 7 between the flanges 5, 6. Thus, the concrete slabs 3 can be reused after the completion of road work and are in this way an environmentally friendly alternative.

In the above example, the recesses 8 can serve the purpose of enabling easier placement of the concrete slabs 3 close to each other because grippers are able to grip around the flanges 6 at the recesses. The present invention is not limited to the embodiments described above and shown in the figures. Those skilled in the art will recognize that many variations and modifications can be made within the scope of protection defined by the subsequent claims. For example, the thickness of the concrete slabs 3 can be chosen as needed while retaining the principled solution comprising flanges 5, 6 which protrude by varying amounts in the plane of the concrete slab.

Claims (1)

1. Prefabricated rectangular concrete slab (3) in one plane comprising a first side (1), a second side (2) and four edges (4), characterized in that the edges (4) at said first side (1) have along the plane of the concrete slab flanges (5) around the concrete slab and that the edges (4) on said second side (2) along the plane of the concrete slab have flanges (6) around the concrete slab, whereby the flanges (5, 6) on said first side (1) and on said second side ( 2) together have a total thickness less than the thickness of the concrete slab, whereby the space between the flanges (5, 6) forms a web (7) around the slab (3) and whereby the flanges (6) on said second side (2) extend further in the plane of the concrete slab than the flanges (5) at said first side (1) so that the surface of said second side (2) is greater than the surface of said first side (1). The concrete slab (3) according to claim 1, wherein the thickness of the slab is between 10 cm and 22 cm. The concrete slab (3) according to one of the preceding claims, wherein the thickness of the slab is between 12 cm and 20 cm. The concrete slab (3) according to one of the preceding claims, wherein the thickness of the slab is between 14 cm and 18 cm. The concrete slab (3) according to one of the preceding claims, wherein the thickness of the flanges (5, 6) at the periphery of the slab is between 2 cm and 7 cm. The concrete slab (3) according to one of the preceding claims, wherein the thickness of the flanges (5, 6) at the periphery of the slab is between 3 cm and 6 cm. The concrete slab (3) according to one of the preceding claims, whereby the dimensions of the slab at said other side (2) are 120 cm by 80 cm. The concrete slab (3) according to one of the preceding claims, whereby the flanges (6) at said other side (2) project out between 1.5 and 2.5 times more than the flanges (5) at said first side (1). The concrete slab (3) according to one of the preceding claims, wherein the flanges (5, 6) are tapered towards the periphery of the slab (3). The concrete slab (3) according to one of the preceding claims, wherein the flanges (6) on two opposite sides at said second side (2) have recesses (8) in the plane of the concrete slab.