NO832425L - BUILDING ELEMENT OR BUILDING PART MANUFACTURED FROM ARMED CONCRETE AND PROCEDURE FOR PRODUCING THE SAME - Google Patents

Description

The present invention relates to a building element or a building part made of reinforced concrete, comprising a first and a second reinforcement which are each arranged longitudinally and transversely in each mutually opposite outer layer which is connected to each other by means of a third reinforcement which runs in the form of a truss in a middle layer, between the outer layers.

With the present invention, the aim is to arrive at a building element or a building part made of reinforced concrete, where the element or part has great strength and moderate weight.

When it comes to a building element, it is of significant importance that the element, while having the necessary great strength, also has a low or moderate weight, so that the element is easy to handle and easy to transport from the place of manufacture to the place of use.

When it comes to a building part that is part of a building structure, such as a wall, a floor or the like, it is also important that one achieves light weight, but at the same time achieves sufficient strength. On this occasion, the aim is to be able to build up the building part at the site of use by using components that are easy to handle.

The building element or building part according to the invention

is characterized by the fact that the two opposite outer layers of the element or part are made of normal or high-strength concrete, while the middle layer is made of lightweight concrete, preferably with the addition of silica powder.

By making the intermediate layer (which has the largest volume) of lightweight concrete, a significant weight saving can be achieved in the finished element or wall, as the normal or high-strength concrete in the two outer layers, which preferably have a smaller volume combined than the aforementioned middle layer of lightweight concrete) together with the reinforcement structure can provide the necessary stiffness and strength. The lightweight concrete will, in turn, together with the aforementioned third reinforcement, provide sufficient stiffness and support for the normal or high-strength concrete in the aforementioned outer layers: Particularly advantageous results are achieved by using the addition of silica powder in the lightweight concrete, which is concrete determined by various strength tests carried out by Det norske Veritas, according to a report dated 08.04.83. When comparing samples of lightweight concrete with and without silica powder, surprisingly good results are obtained with lightweight concrete with added silica powder.

When manufacturing a building element, a building structure or a building part of reinforced concrete at the site of use

it is preferred that in the reinforcement construction a middle layer of lightweight concrete, preferably with the addition of silica powder, exposing the first and second reinforcement as well as adjacent parts of the third reinforcement, after which the reinforcement structure with the associated middle layer of lightweight concrete is poured, preferably sprayed on, in turn the two outer layers of normal or high-strength concrete.

According to the invention, it is possible to first produce a reinforcement structure with an associated middle layer of lightweight concrete, so that a stiffened, ready-to-assemble building part with associated reinforcement is obtained, which can be easily handled. Such an intermediate product can exist, e.g. in the form of a wall construction part or a floor construction part. Such a structural part can be lifted directly into place at the point of use in a building structure. After the reinforcement in this structural part is connected to the reinforcement in or other fastening elements in the building structure, layers of normal or high-strength concrete can then be applied to the building part by spraying to form a wall, a floor or similar structural part in direct connection with the rest of the building structure. Alternatively, the building element can be produced in a similar way by spraying on one or both layers of normal or high-strength concrete on the construction site, so that easy handling of the building element is achieved from the production site on the construction site to the place of use itself.

Further features of the invention will be apparent from the following description with reference to the accompanying drawings, in which: Fig. 1 shows in section a plan view of a reinforcement structure which is included in a building element or in a building part according to the invention. Fig. 2 shows in section a cross-section of a building element or a building part according to the invention. Fig. 3 shows a section of a building structure in which a reinforcement structure with an associated middle concrete layer has been installed, prepared for the finished production of a building part,

in the form of a wall part, in the building construction.

A reinforcement construction 10, 11, 15 which is shown in fig. 1

and 2 comprises a first and a second reinforcement 10 and 11, which shall be included in two opposite outer concrete layers 12 and 13 in a reinforced concrete structural part, as well as a third reinforcement 15. which is placed between and shall connect the first reinforcement 10 with the second ar ^mering 11 in certain nodes and which itself is mainly occupied in a middle or intermediate concrete layer 16.

According to the invention, the intermediate concrete layer 16 consists of lightweight concrete, i.e. foam concrete, to which silica powder is preferably added in a quantity ratio of 5-10 percent by weight (dry matter).

The two outer concrete layers 12 and 13, on the other hand, consist of normal or high-strength concrete.

A normal production of a building element according to the invention consists in first producing the reinforcement structure on a base and then within side bounding walls to produce a first 12 of the outer layers 12, 13 of normal or high-strength concrete in connection with the first reinforcement 10 and parts of the third reinforcement 15. Next, the middle concrete layer 16 is made of lightweight concrete directly on the first layer 12, with most of the third reinforcement embedded in the lightweight concrete, so that only the upper parts of the third reinforcement 15

and the second reinforcement 11 attached thereto is exposed. Finally, the second, outer layer 13 of normal or high-strength concrete is cast directly on the concrete layer 16, with the rest of the reinforcement structure embedded in said outer concrete layer 16. After the mentioned concrete layers have been applied and cured in turn, the building element is ready for use in a building construction in the form of a

floor or ceiling element, wall element or similar structural part.

In fig. 3 shows the production of a construction part directly on the construction site, the construction part being directly included in a building structure 20. A building part 21 is shown consisting of a reinforcement structure 22 made up of the corresponding first, second and third reinforcements 10, 11, 15 as shown in fig. 1 and 2 as well as a middle layer 2 3 of lightweight concrete corresponding to layer 16 in fig. 2. The building part 21 is, after the production and curing of the middle layer 2 3, in connection with the reinforcement structure 22, set in place in a vertical position on the building structure 20 as shown in fig. 3. The reinforcement in the building part 21 is connected to corresponding reinforcement 10, 11, 15 or other fasteners in the building construction 20 in a manner not shown. Finally, the vertically positioned construction part is completed, with normal or high-strength concrete being sprayed onto opposite vertical side surfaces of the building part 21, as indicated by dashed lines 24 and 25. Gradually, a sufficient layer of concrete is built up to embed the outer parts of the reinforcement construction 22 in two opposite outer layers corresponding to layers 12 and 13 in fig. 2. At the same time as the construction part containing the building part 21 is finished, a tight connection is created between the construction part and adjacent parts of the building construction 20.

In practice, the building part 21 can be produced by laying out a layer of sand on the substrate which covers the first reinforcement and adjacent parts of the third reinforcement, after which the middle layer 23 is cast within the side bounding walls. After the middle layer has hardened, the building part 21 is lifted as a rigid and continuous structure upwards from and away from the aforementioned sand layer, exposing the aforementioned first reinforcement and adjacent parts of the third reinforcement which were initially covered by sand. The manufactured building part 21 can be used as a base for normal or high-strength concrete,

as well in vertical building constructions as in horizontal building constructions. For example, only one of the building part's outer layers, e.g. a downward-facing outer layer, be cast on and cured before the building part is assembled in place on the

the place. The second outer layer, e.g. is to form the upper floor surface on a floor substrate can be produced in a final operation after a number of corresponding building parts have been placed at

side of each other to form a floor substrate, and in this way the finished floor surface can be produced in one piece at the same time as the individual building parts are finished.

Claims (2)

1. Building element or building part made of reinforced concrete, comprising a first and a second reinforcement (10, 11) which are each arranged longitudinally and transversely in each mutually opposite outer layer (12, 13) which are connected to each other by means of a third reinforcement (15) which runs truss-shaped in a middle layer (16) between the outer layers (12, 13), characterized in that the two opposite outer layers (12, 13) of the element or part are made of normal or high-strength concrete, while the middle layer (16) is made of lightweight concrete, preferably with the addition of silica powder. 2. Method for producing a building element or a building structure, such as a wall or a floor of reinforced concrete, according to claim 1, where first a reinforcement construction (22, comprising a first and a second reinforcement (10, 11) is produced which are individually arranged longitudinally and transversely in mutually opposite outer layers which are connected to each other by means of a third reinforcement (15) which runs in the form of a truss in a middle layer (16, 23) between the outer layers (12, 13), characterized by that in the reinforcement construction (22) a minimum layer (16, 23) of lightweight concrete is first prepared, preferably with the addition of silica powder, exposing the first and second reinforcement (10, 11) as well as adjacent parts of the third reinforcement (15 ), after which the reinforcement structure (22) with associated middle layer (16, 22) of lightweight concrete is cast, preferably sprayed on, in turn, the two outer layers of normal or high-strength concrete.