DE9312415U1 - Component arrangement - Google Patents

Description

Component arrangement

The invention relates to a component arrangement in which components are arranged next to one another and one above the other to form a wall, whereby each component has two side walls arranged parallel to one another and made of expanded materials, in particular plastics, in particular polystyrene, as well as metallic webs connecting the side walls to one another, which are anchored in the side walls by means of projections running essentially perpendicular to these.

Construction elements for forming the above-mentioned construction element arrangement are known. They are often used in building construction, especially in residential construction, for vertical walls, especially above ground level. To build vertical walls, the construction elements are arranged next to each other and placed on top of each other, and the

The vertical and horizontal passages in the building elements formed by webs are filled with concrete. The free surface of the building elements can then be finished with an appropriate plaster in the desired manner, both inside and outside.

It is the object of the present invention to further develop a structural element arrangement of the type mentioned in such a way that when concrete is filled between the side walls of the structural elements, the wall thus formed is given a particularly high level of stability and strength, in particular with regard to earthquake safety. .

The problem is solved in a component arrangement of the type mentioned in that reinforcement elements are arranged in the area between the spaced-apart side walls of the components, such that horizontal reinforcement elements, vertical reinforcement elements, and reinforcement elements arranged at an angle to the horizontal and vertical reinforcement elements, thus arranged at an angle, are provided.

While the horizontal and vertical reinforcement elements primarily absorb the forces that occur during normal loading of the wall, the inclined reinforcement elements serve the purpose of absorbing the forces that occur during an earthquake and result from the shaking of the wall.

It is considered particularly advantageous if the respective web is made of metal, especially if it is designed as a plate-shaped or grid web. The design as a grid web, especially a flat grid web, makes it particularly easy to position the inclined reinforcement elements within the space between the side walls of the building elements, since the reinforcement elements can be pushed through the grid openings in almost any way. When using plate-shaped

These should also be provided with recesses that allow the inclined reinforcement elements to be pushed through. In principle, however, it is also conceivable to guide the inclined reinforcement elements past the webs. The horizontal reinforcement elements are appropriately placed on top of the webs or inserted horizontally through the openings in the webs and placed on top of them. The vertical reinforcement elements are appropriately placed on the webs. As a rule, only a few of the webs of each structural element are contacted by the reinforcement elements; it is considered to be completely sufficient if only one horizontal reinforcement element, one vertical reinforcement element and one inclined reinforcement element are provided in the area of each structural element. Preferably, however, two inclined reinforcement elements should be provided per structural element, which cross in a central area of the structural element. If the building elements are cuboid-shaped, the inclined reinforcement elements run diagonally, whereby two intersecting, diagonally inclined reinforcement elements should be provided per building element if possible. It is considered particularly useful if the inclined reinforcement elements are arranged at an angle of 15 to 30°, in particular 20 to 25° to the horizontal. Preferably, one vertical and one horizontal reinforcement iron is arranged in the area of each side wall.

According to the orientation of the wall formed by the structural elements and the reinforcing elements as well as the concrete filled into the cavities of the structural elements, all reinforcing elements should run parallel to the side walls of the structural elements, i.e. to the surface of the wall.

The reinforcing elements are preferably designed as bars and consist in particular of iron.

In Figures 1 and 2, the invention is shown in an embodiment

form, but is not limited to it.
It shows:

Figure 1 is a schematic representation of two components arranged next to each other, partially shown, with a reinforcement assigned to them and

Figure 2 shows a section of a wall not yet filled with concrete in the area of three structural elements arranged one above the other, seen in the longitudinal extension of the wall.

Figures 1 and 2 show a section of a wall of a house that is made up of a large number of building elements arranged next to and on top of each other. Figure 1 shows three building elements 1 shown next to each other, with only the middle building element 1 being shown in full. For reasons of graphic clarity, this illustration does not show the further row or rows of building elements arranged above and/or below this row of building elements 1. This is illustrated in Figure 2, where not only a middle building element 1, viewed in its longitudinal direction, is shown, but also the building elements 1 located above and below it in partial representation.

The two figures make it clear that the outer boundaries of the respective component 1 essentially form the shape of a cuboid. Each component 1 has two cuboid-shaped side walls 3 made of polystyrene arranged parallel to one another and, also parallel to one another, several metallic webs connecting the two side walls 3 to one another, which in the present case are designed as metal grids 4. The respective side wall 3 of each component 1 has a lower bearing surface 11, an upper bearing surface 12, two opposite vertical end surfaces 13 and 14 as well as an outer surface 15 and an inner surface 16. In the exemplary embodiment, three metal grids 4 are provided per component 1. The rectangular metal grids 4 have

—■ 5 —

In the area of two opposite ends of the grid structure, there are (grid-shaped) projections 5 that are bent by 90° and anchored in the side walls 3. Each component 1 is thus a stable structure in which the metal grid 4 firmly connects the two side walls 3 that are arranged at a distance from one another.

In the metal grid 4 (with reference to the vertical or perpendicular design of the wall), the horizontal bars of the metal grid 4 are designated with the reference number 6 and the vertical bars with the reference number 7.

As can be seen from the representation in Figures 1 and 2 for the area of one of the building elements 1 of the wall, the space between the two side walls 3 of this building element 1 is penetrated by two horizontal reinforcement elements 8, four vertical reinforcement elements 9 and two intersecting, inclined reinforcement elements 10. The horizontal and vertical reinforcement elements 8, 9 are arranged in the area of the side walls 3, 3. The angle of inclination of the two inclined reinforcement elements 10 is approximately 23° in each case, seen from the horizontal. All reinforcement elements 8, 9 and 10 run parallel to the side walls 3. The representation in Figure 1 in particular shows the manner in which the reinforcement elements 8, 9 and 10 penetrate the other building elements 1 of the wall arranged above, below and next to the building element 1 shown. The distance between the reinforcement elements 8, 9 and 10 from each other and from the other reinforcement elements must be selected according to the circumstances. The reinforcement elements 8, 9 and 10 are designed as iron rods.

After forming a wall by arranging several building elements 1 next to each other and one above the other and introducing the reinforcing elements 8, 9 and 10 into the space between the side walls 3 of the building elements 1, the space remaining between the side walls 3 is filled with concrete.

Claims (8)

- 6 Protection claims 1. A construction element arrangement in which construction elements (1) are arranged next to one another and one above the other to form a wall, each construction element (1) having two side walls (3, 3) arranged parallel to one another and made of expanded materials, in particular plastics, especially polystyrene, as well as metallic webs (4) connecting the side walls (3, 3) to one another and anchored in the side walls (3, 3) by means of projections (5, 5) running essentially perpendicularly thereto, characterized in that reinforcing elements (8, 9, 10) are arranged in the region between the spaced-apart side walls (3, 3) of the construction elements (1) in such a way that horizontally running reinforcing elements (8), vertically running reinforcing elements (9), and reinforcing elements (9) arranged at an angle to the horizontal and vertically running reinforcing elements (8, 9) are provided. 2. Component arrangement according to claim 1, characterized in that the respective web (4) consists of metal. 3. Component arrangement according to claim 2, characterized in that the web (4) is designed as a plate-shaped web or grid web (4), in particular a flat grid web. 4. Component arrangement according to one of claims 1 to 3, characterized in that the reinforcing elements (8, 9, 10) are designed as rods. 5. Component arrangement according to one of claims 1 to 4, characterized in that the horizontally extending reinforcing elements (8) and the inclinedly extending reinforcing elements (10) are mounted on webs (4). 6. Component arrangement according to one of claims 1 to 5, characterized in that the inclined reinforcing elements (10) are arranged at an angle of 15 to 30°, in particular 20 to 25° to the horizontal. 7. Component arrangement according to one of claims 1 to 6, characterized in that the horizontally extending reinforcing elements (8) and/or the vertically extending reinforcing elements (9) and/or the inclinedly arranged reinforcing elements (10) run parallel to the side walls (3, 3). 8. Component arrangement according to one of claims 1 to 7, characterized in that the reinforcing elements (8, 9, 10) consist of metal, in particular iron.