NL2000191C2 - Steel construction component comprises three steel plates connected to each other to form a triangular rib in cross-section, each provided separately with predetermined simple curvature - Google Patents

Abstract

The steel construction component (1) comprsies three steel plates (2,3,4) connected together to form a triangular rib in cross-section, each provided separately with a predetermined simple curvature. The steel component plates have different dimensions, and their curvature is constant. The cross-section of each of the outer ends of the rib has a surface dimension and shape which is predetermined by the desired support capacity of the rib. The steel plates have a thicknes which likewise is predetermined by the desired support capacity of the rib. Internally, the three plates are provided with reinforcemetn plates and/or bars.

Description

Structural element and structure comprising such a construction element

The invention relates to a construction element for use in construction, at least comprising a steel construction element.

It is known from the state of the art to form a building structure with a supporting structure and a cladding applied to the supporting structure. The supporting structure is hereby formed as a network of linear or only curved steel elements, often standard profiles such as I, 0 or T profiles. The range of available profiles and in particular their design is limited, which means that the desired construction element must be sought from this limited range. Nowadays, however, there is a desire to carry out the construction works to be realized with great freedom in the design to be handled, which imposes corresponding requirements on the bearing structure to be used. Such freedom of design includes in particular irregularly bulging and hollow building shapes, the shape of which is not structurally optimal. However, because the available construction elements have the aforementioned limitations, the bearing structures to be achieved with this are sub-optimal both in the use of materials and in correspondence with the final shape that is desired for the structure.

WO 95/14146 relates to a frame stand, which is composed of three metal panels connected to each other on their sides.

US-A-1 645 060 relates to a construction element for the construction, which has a triangular shape whose metal sides have a truss structure.

GB-A-2 200 668 relates to a hollow construction element 30 for the construction, which comprises three mutually coupled side panels for forming the construction element.

FR-A-2 621 343 also relates to a construction element for the construction, which is formed from three mutually connected side panels.

The object of the invention is to provide a construction element 2 000 1 91 2 with which it is possible to better respond to the need outlined above for a great freedom of design in the three-dimensional design of structures and the supporting structures to be used therewith.

To this end, according to the invention, a construction element is proposed which corresponds to one or more of the appended patent claims.

In a first aspect of the invention the construction element comprising three steel plates which are connected to each other to form a triangular rib viewed in cross-section is characterized in that the rib has a curved course in its longitudinal direction.

This construction element offers the possibility of modeling the construction element and the supporting structure based on it with a large degree of design freedom to a desired structure that corresponds to a desired three-dimensional curved shape of the structure. In addition, it is possible here to optimize the shape of the rib cross-section and its course in the longitudinal direction of the rib, so that the support structure can be prevented from being over-dimensioned. The use of materials can therefore remain limited. In addition, the bearing construction based on the construction element according to the invention can optimally follow the intended design of the structure and form part thereof.

The objects of the invention can be realized in particular in the embodiment of the structural element in which the three steel plates of the ribs each have a predetermined single curvature separately. This is advantageous because such a curvature can be obtained with a standard rolling technique.

By a suitable choice of this curvature, as well as the dimensions for each plate, the desired shape of the rib can be achieved. The dimensions of the three plates of which the rib is composed can be different.

For the simplicity of the manufacture of the structural element, it is furthermore advantageous that the curvature of each steel plate is constant.

Various measures are possible to ensure adequate adaptation to the expected type of load and to guarantee the load-bearing capacity of the load-bearing structure based on the structural element according to the invention.

In a first embodiment, it is preferred that the cross-section of each of the ends of the rib have a surface size and shape that is predetermined in dependence on a desired bearing capacity of the rib.

In a second embodiment it is preferred that the steel plates have a thickness that is predetermined depending on the desired bearing capacity of the rib.

In a third embodiment it is preferred that the three steel plates are provided internally of the rib with reinforcement plates and / or bars of suitable dimensions.

It should be noted, incidentally, that each of the measures just mentioned for realizing the desired strength of the bearing structure can also be used in combination with the other measures.

The reinforcement plates and / or bars are most effective when they follow the course of at least two plates connecting to each other and forming the rib.

If only reinforcing bars are used and they have at least partially a round cross section, it is desirable that they abut against at least two adjoining plates which form the rib.

In order to complete the requested exclusive right and to illustrate the aspect of the invention that is aimed at enabling the greatest possible freedom of design in the buildings to be realized, exclusive rights are also requested for such a structure that a supporting structure and comprises a cladding applied to the support structure, and characterized in that the support structure is made up of construction elements as discussed and explained above.

4

In such a structure, it is preferable to use structural elements that meet the condition that the cross-section of each of the ends of the rib has a surface size and shape that is predetermined depending on the desired bearing capacity of the rib. Using such construction elements that have a common connection point, it is advantageous that at the place where these construction elements meet, the cross-sectional size and shape of the coming construction elements is the same.

To illustrate the construction element according to the invention, three figure sheets have been added to this application in which various variants of the construction element according to the invention are shown (Fig. 1 - Fig. 4), as well as a Fig. 5 to illustrate a fantasy construction that can be realized with the construction element according to the invention. Figures 6 and 7 show, in the assembled state and in exploded view, respectively, three structural elements converging in a connection point according to the invention. Figures 8, 9 and 10 show the ends of the structural elements assembled in Figure 6. FIG. 11 and FIG. 12 show reinforcement plates and reinforcement bars to be used for the construction element, respectively.

A further explanation of what is shown in the figures can be completely omitted in view of the explanation given above, which is entirely clear to the skilled person.

Completely superfluously, for example, the composition of the structural element 1 according to the invention can be explained with reference to Figure 3.

This structural element 1 comprises three steel plates 2, 3 and 4 which are connected to each other to form triangular ribs viewed in cross-section. Figure 3 further shows that the rib formed from these three steel plates 2, 3 and 4 has a course curved in its longitudinal direction, which is represented by the curved course of the edges 5, 6 and 7 of the rib.

These three steel plates 2, 3 and 4 of the rib 1 each have a predetermined curvature separately. This curvature is constant, which is useful for the simplicity of the manufacture of the respective plates 2, 3 and 4.

Other aspects that can characterize the rib 1 are the following.

The cross section of each of the ends of the rib 1 is preferably given a surface size or shape (i.e. a height / width ratio) that is predetermined depending on a desired bearing capacity of the respective end of the rib 1.

Furthermore, the steel plates 2, 3 and 4 have a thickness which is also predetermined in dependence on the desired bearing capacity of the rib 1.

It is furthermore advantageous to provide the three steel plates 2, 3 and 4 in the interior of the rib 1 with reinforcement plates and reinforcement bars, such as those in Figs. 11 and FIG. 12 are shown. Such reinforcement plates and / or bars preferably follow the course of at least two adjoining plates which form the rib. Preferably the edge 5, 6 or 7 (see figure 3) on the inside of the rib is followed. When reinforcing bars are used, they are preferably abutting against two adjoining plates of the structural element.

With reference to figures 6 and 7, it can also be mentioned that the cross-section of each of the ends of the rib 8, 9, 10 has a surface size and shape that is predetermined, preferably depending on the desired bearing capacity of the rib 8, 9 and 10. It is advantageous here to coordinate this cross-sectional shape and size with the cross-sectional shape and size of connecting structural parts, so that at the location of the transition the structural elements 8, 9 and 10 seamlessly connect to each other. To this end, the head ends of the ribs 8, 9, 10 are formed, for example, as shown in Fig. 8, Fig. 9 and Fig. 10, respectively.

2000191

Claims (11)

Construction element for use in construction, at least comprising a steel construction element comprising three steel plates which are connected to each other to form a triangular rib viewed in cross-section, characterized in that the rib in its longitudinal direction course possession. Construction element according to claim 1, characterized in that the three steel plates of the rib each have a predetermined single curvature separately. Construction element according to claim 1 or 2, characterized in that the three steel plates have mutually different dimensions. 4. Structural element as claimed in claim 2 or 3, characterized in that the curvature of each steel plate is constant. 5. Construction element as claimed in any of the foregoing claims, characterized in that the cross-section of each of the ends of the rib has a surface size and shape which is predetermined in dependence on a desired bearing capacity of the rib. 6. Construction element as claimed in any of the claims 1-5, characterized in that the steel plates have a thickness which is predetermined depending on the desired bearing capacity of the rib. A construction element according to any one of claims 1-6, characterized in that the three steel plates are provided internally of the rib with reinforcement plates and / or bars. 8. Construction element as claimed in claim 7, characterized in that the reinforcement plates and / or bars follow the course of at least two mutually adjoining plates forming the rib. 9. Structural element as claimed in claim 8, characterized in that it comprises a reinforcing rod which at least partially has a round cross-section which abuts against at least two adjoining plates which form the rib. 2000191 10. Structure comprising a support structure and a cladding arranged on the support structure, characterized in that the support structure is constructed with a construction element according to any one of claims 1-9. 11. Building structure as claimed in claim 10, comprising at least two construction elements as claimed in claim 5, which have a common connection point, at the location where the cross-sectional size and shape of the construction elements are the same. 2000191