NL2033722A - CONSTRUCTION ELEMENT, IN PARTICULAR A FLOOR CONSTRUCTION ELEMENT, AND ITS APPLICATION - Google Patents

Abstract

The invention relates to a building element, in particular for spanning a distance between two support elements, comprising at least one longitudinal timber with a first longitudinal end and a second longitudinal end, a first counter plate near and at a distance from the first end of the longitudinal timber and optionally a second counter plate near and at a distance from the second end of the longitudinal timber, which at least one counter plate is located between the two ends of the longitudinal timber, wherein a tension element extends at least between and is coupled to the at least one counter plate for applying a longitudinal tensile force to the building element.

Description

CONSTRUCTION ELEMENT, IN PARTICULAR A FLOOR CONSTRUCTION ELEMENT, AND

APPLYING IT

The present invention relates to a building element according to the preamble of claim 1. The invention also relates to a floor construction and to the application of the building element and the floor construction.

Such a building element is known in the art. For example, spans are known in which a steel skeleton is used as a load-bearing structure and a finishing floor is applied to it. The disadvantage of these known constructions is that they place a great burden on energy-demanding raw materials. The environmental impact of the known solutions is great.

In technology, there is a need for a construction that has a limited environmental impact but that has a large load-bearing capacity and can handle a large span.

The invention now has for its object to provide an improved span of the type mentioned in the preamble.

In particular, the invention has for its object to provide a span of the type mentioned in the preamble which is manufactured at least partly from renewable materials.

It is a further object of the invention to provide a span which can be easily and quickly brought to a predetermined prestress in order to provide a flat surface during use at a predetermined load.

In particular, the invention has for its object to provide a building element which can be set to a desired tension after placement and during use, so that the sagging can be controlled.

The invention also aims to provide an improved floor element or roof element.

In order to obtain at least one of the aforementioned advantages, the invention according to a first embodiment provides an element comprising the features of claim 1. This element has the advantage that it can be easily pre-programmed

tension can be applied so that it forms a flat surface during use.

It has also been found that the element according to the invention can be manufactured largely from renewable materials, in particular wood. As a result, it has a low so-called footprint, which gives it great added value in the current market. Such a synergistic effect is a great advantage.

The invention therefore relates to a building element, in particular for spanning a distance between two support elements, comprising at least one longitudinal timber with a first longitudinal end and a second longitudinal end, characterized in that the invention further comprises a first counter plate near and at a distance from the first end of the longitudinal timber, and optionally a second counter plate near and at a distance from the second end of the longitudinal timber, which at least one counter plate is located between the two ends of the longitudinal timber, wherein a tension element is located at least extends between and is coupled to the at least one counter plate for applying a longitudinal tensile force to the building element. This building element accomplishes at least one of the aforementioned goals.

It is preferred that the longitudinal timber has a longitudinal upper side between the two ends and a lower longitudinal side opposite the upper side, the counter plates being located near the upper end of the longitudinal timber. This provides good accessibility to the tension element.

It is particularly preferred here that the building element comprises a passage for positioning an end of the tension element therein. The tension element can then be located entirely within the circumferential dimension of the construction element, so that no part of the tension element protruding beyond the construction element can cause nuisance during finishing work.

In particular, it is preferred that the pulling element comprises an adjusting means at at least one end for adjusting the pulling force on the pulling element. In this way the tension, or tension force or tensile force, on the tension element can be adjusted as desired. Optionally, both ends may comprise an adjusting means.

The adjusting means is preferably formed from a screw thread on the tension element and a nut cooperating therewith, which abuts against the counter plate. By positioning and tightening the nut against the counter plate, the tension element is pulled in the direction of the respective end, which offers a particularly simple solution for applying an increased tensile stress to the tension element. Due to the applied tensile stress, a reduced sagging of the building element is obtained.

It is preferred that the building element comprises the first counter plate near and spaced from the first end of the longitudinal timber and the second counter plate near and spaced from the second end of the longitudinal timber. As a result, a load-bearing wall or the like can be placed at a position between the end of the building element and the counter plate, or the recess in which the counter plate is located, so that the tension element remains accessible after the building element has been used in a building. or similar.

A very good operation is obtained when the tension element at least extends between and is coupled to the two counter plates.

Preferably, the pulling element is rigidly coupled with a first end against the first counter plate and the other end comprises an adjusting means for adjusting the pulling force. This provides a simple and effective building element, where only a single recess needs to be provided to obtain optimum adjustability.

A particularly effective way of preventing sagging of a building element is obtained when the tension element is held in a curved shape at a position between the two counter plates. In particular, it is preferred here that during use the tension element is located at a position between the two counter plates at a lower position than at the ends thereof. When the pull element is pulled, the building element will be pulled upwards in a position in the middle because the pull element wants to deform into a straight element. By applying sufficient prestress prior to use, the building element can form back into an exactly straight element during use with a load.

A suitable and advantageous variant is obtained when the building element comprises at least two longitudinal timbers and wherein a filling is provided between the two longitudinal timbers. The filling preferably comprises a natural material, preferably a material based on natural material, preferably wood, with which a building element is obtained that is circular and easy to reuse.

The tension element is preferably accommodated in a sleeve, which offers the advantage that the tension element traverses a defined trajectory, which increases the predictability of the effect of a higher or lower tensile stress on the tension element. It is particularly preferred here that the sleeve is located at a fixed position relative to the longitudinal timber.

It is even more preferred that the sleeve is a substantially form-retaining or non-compressible passage through the building element, for instance to increase the predictability of the effect of a higher or lower tensile stress on the tensile element.

In the event that at least two longitudinal timbers are placed in parallel, it is preferable that each comprises a tension element in order to provide the fullest possible adjustability of the tensile stress and the deflection of the building element.

In order to provide a firm coupling of the several longitudinal timbers, it is preferred that the building element according to the invention, as mentioned above, comprises at least two longitudinal timbers, each with a tension element, and which longitudinal timbers are mutually connected by means of a coupling plate.

In particular, in that case the building element can comprise at least two longitudinal timbers, a coupling plate and a concrete or other type of layer. Instead of a concrete layer, another material can be used that meets the desired or necessary requirements for the final finish.

The concrete layer can suitably be a concrete floor, which is a great advantage with a building element according to the invention, since this provides optimum heat transfer with floor heating and great stability to the building.

According to a particularly preferred variant, the invention relates to a building element in which the trestle

The screw element comprises an external screw thread at both ends which at least partly protrudes through the counter plates and wherein a screw element cooperable with the screw thread is rotatable on the screw thread to abut against the counter plate and to exert a tensile force on the tension element. This provides great flexibility when adjusting the tensile stress on the tension element.

According to a further development, the invention relates to a building element wherein the building element is furthermore provided with a pressure profile, which pressure profile is positioned between and adjacent to the two counter plates and is at least partially connected to the longitudinal timber. This pressure profile increases the resistance of the building element to undesired deformation and ensures that the change in the shape of the building element when adjusting the tensile stress on the tension element is a desired deformation.

It is particularly preferred here that the longitudinal timber has an upper side located in the longitudinal direction between the two ends and a lower side located opposite the upper side in the longitudinal direction, the pressure profile being located near the upper side of the longitudinal timber.

As a starting point it can be chosen that the pressure profile in unloaded condition is substantially unbent.

For example, the pressure gauge may be made of metal or a metal alloy.

The pressure profile is preferably integrated in the longitudinal timber, preferably in the top side of the longitudinal timber, the pressure profile preferably following the shape of the top side of the longitudinal timber. This simplifies the processing of the building element.

Finally, it is preferable that the longitudinal timber has two side surfaces that extend between the top and the underside and between the two ends of the longitudinal timber, and where the pressure profile is centered relative to both side surfaces. the top of the longitudinal timber is positioned to provide predictable deformation of the building element when adjusting the tensile stress.

The invention further relates to a floor construction with a building element according to the invention, comprising at least two building elements which are connected parallel to each other in the longitudinal direction and which furthermore comprises a floor element covering both building elements. This provides at least one of the purposes mentioned in the preamble and an effect as described in the foregoing description.

According to a further aspect, the invention relates to the use of a building element or of a floor construction element according to the invention and as described above, wherein a longitudinal timber is manufactured with a curved passage extending over a length of the longitudinal timber, the conducting the passage of a tension element, and placing a tension plate near and spaced from each end, the tension plates being provided with an opening for passing a part of the tension element through. This provides at least one of the purposes mentioned in the preamble and an effect as described in the foregoing description.

The application preferably furthermore concerns the step of exerting a tensile force on the tension element by means of a force directed away from the counter plates.

A further preference comprises the use for building a building, comprising the use of a building element or of a floor construction element according to the invention, applying a pretension to the tension element and placing the building element on supporting elements of the building to form of a span between the supporting elements. This provides at least one of the purposes mentioned in the preamble and an effect as described in the foregoing description.

The invention will be explained in more detail below with reference to a drawing. The drawing shows in:

fig. 1A shows a schematic cross-sectional side view of the building element according to the invention,

fig. 1B shows a schematic top view in cross section of the building element according to FIG. 1A,

fig. 2 shows a schematic partly transparent top view of the building element according to the invention in a first state,

fig. 3 shows a schematic top view of the building element,

according to the invention in a first state,

fig. 4 a schematic top view of the building element according to the invention in a second state,

fig. 5 a schematic top view of the building element according to the invention in a third state,

fig. 6 shows a building element according to the invention, and

fig. 7 shows a building element according to the invention.

In the figures, the same parts are indicated by the same reference numerals. However, the parts necessary for a practical implementation of the invention are not all shown, for simplicity of presentation.

fig. 1 shows a schematic cross-sectional side view of the building element 1 according to the invention. The building element 1 comprises a wooden beam 2 as longitudinal timber 2 for a span to be formed.

In the beam 2 a passage 3 is provided which extends from a first position near and spaced from a first end 4 to a second position near and spaced from end 5. The ends of the passages 3 are located in a .

A wooden beam 2 with such a passage 3 can be manufactured simply by manufacturing the wooden beam 2 as a laminated beam 2 . In FIG. 1, the beam 2 is placed at the short ends 4, 5 on two bearing points 6, 7, for instance two bearing walls of a building. The building element 1 can be used as a load-bearing element for a floor or roof. In the embodiment according to fig. 1, FIG. 2 and FIG. 3, it is assumed that a bottom side 18 is located on the side of the bearing points 6, 7 and that a top side 17 is located on the opposite side of the building element 1.

A pull element 12 can be accommodated in the passage 3, as shown in fig. 2 and beyond.

fig. 2 shows the building element 1 according to FIG. 1 in partial view, with a plurality of longitudinal timbers coupled in parallel. The longitudinal timbers 2 lie parallel next to and spaced from each other, with the longitudinal direction or longitudinal direction of the longitudinal timbers 2 being parallel. The ends of the passages 3 open into a recess 19, 20. A tension element 12 is accommodated in each passage 3. Counter plates 13, 14 are provided in the recesses 19, 20, which have an opening in which one end of the tension element 12 is accommodated. The ends of the tension elements 12 are provided with screw thread that partly extends through the openings in the counter plates 13, 14 and to which a nut 15 is coupled, which tightens the tension element 12 by tightening the nut 15 over the screw thread. . By tightening the nut 15 more or less hard, the tension on the tension element 12 can be regulated.

The counter plate 13, 14 can be coupled to the building element 1 by means of a screw.

At the top 17 of the longitudinal timbers 2, a pressure profile 16 is provided, which is attached over substantially the entire length to the longitudinal timber 2. When the tensile stress on the tension element 12 is increased, this pressure profile 16 prevents the longitudinal timber 2 from being compressed.

fig. 3 shows the representation according to FIG. 2 in completely opaque form.

In the variant according to FIG. 4, a coupling plate 8 is attached to the plurality of longitudinal timbers 2, whereby a floor construction is actually obtained.

The coupling plate 8 comprises openings at the height of the recesses 19. The coupling plate 8 is attached to the top of the beams 2. In fact, several beams are placed next to and spaced apart, as shown in Fig. 2 and 3. A finishing layer can be poured onto the coupling plate 8, for instance a concrete layer 9, which can serve as a finishing floor and which can for instance be provided with underfloor heating elements.

fig. 5 shows a further step in a construction process of a building or the like, in which wall elements 21, 22 have been placed on the coupling plate 8.

Additional elements are shown in the figures. On the underside of the building element 1, a plate 11 can be provided which can serve as the ceiling of a space located below the building element 1.

One or both ends of the tension element 12 may be threaded so that a nut 15 can be screwed over the thread against the counter plates 13, 14 to exert a pulling force on the tension element 12. By tightening the nuts 15 on the tension element 12 to a desired force, a tension is exerted on the counter plates and thus on the wooden beam 2 .

fig. é and fig. 7 show the variant according to the invention with a pressure profile 16 arranged on the top side 17 of the longitudinal timber 2. The pressure profile 16 extends between the two ends 4, 5 of the longitudinal timber 2 and, during use, preferably rests against the counter plates in order to provide optimum action against longitudinal compression of the longitudinal timber 2.

The lower side 18 is located on the side opposite the upper side 17, and in use this will indicate the colloquial sides of a horizontally placed building element.

The invention also extends to any combination of features described above independently of each other.

The invention is not limited to the embodiments described above and shown in the figures. The invention is limited only by the appended claims.

Claims (31)

CONCLUSIONS 1. [adapted] Building element, in particular for spanning a distance between two supporting elements, comprising at least one longitudinal timber with a first longitudinal end and a second longitudinal end, characterized in that the invention further comprises a first counter plate near and at a distance from the first end of the longitudinal timber and optionally a second counter plate near and at a distance from the second end of the longitudinal timber, which at least one counter plate is located between the two ends of the longitudinal timber, wherein a tension element extends at least between and is coupled to the at least one counter plate for applying a longitudinal tensile force to the building element. 2. [new] Building element according to claim 1, wherein the longitudinal timber has a longitudinal upper side between the two ends and a lower side opposite the upper longitudinal side, the counter plates being located near the upper end of the longitudinal timber. 3. Building element as claimed in claim 1 or 2, wherein the building element comprises a recess for positioning an end of the tension element therein. 4. Building element as claimed in claim 1, 2 or 3, wherein the tension element comprises an adjusting means at at least one end for adjusting the tensile force on the tension element. 5. Building element as claimed in claim 4, wherein the adjusting means is formed of a screw thread on the tension element and a nut cooperating therewith, which abuts against the counter plate. A building element according to any one of the preceding claims, wherein the building element comprises the first counter plate near and at a distance from the first end of the longitudinal timber and the second counter plate near and at a distance from the second end of the longitudinal timber. 7. Building element as claimed in claim 6, wherein the tension element extends at least between and is coupled to both counterplanes. ten. 8. Building element as claimed in claim 6 or 7, wherein the tension element is rigidly coupled with a first end against the first counter plate and wherein the other end comprises an adjusting means for adjusting the tensile force. 9. Building element as claimed in claim 8, wherein the adjusting means is formed of a screw thread on the tension element and a nut cooperating therewith, which abuts against the second counter plate. 10. Building element as claimed in claim 6, wherein the tension element is held in a curved shape at a position between the two counter plates. 11. Building element as claimed in claim 1, wherein the building element comprises at least two longitudinal timbers and contains a filling between the two longitudinal timbers. Building element according to claim 11, wherein the filling comprises a natural material, preferably a material based on natural material, preferably wood. 13. Building element according to claim 1, wherein during use the tension element is located at a position between the two counter plates at a lower position than at the ends thereof. 14. Building element as claimed in any of the foregoing claims, wherein the tension element is accommodated in a sleeve. 15. Building element as claimed in claim 14, wherein the sleeve is located at a fixed position relative to the longitudinal timber. 16. Building element as claimed in any of the claims 14 and 15, wherein the sleeve is a substantially form-retaining or non-compressible passage through the building element. A building element according to any one of the preceding claims, wherein at least two longitudinal timbers are placed in parallel, each comprising a tension element. 18. Building element as claimed in any of the foregoing claims, comprising at least two longitudinal timbers, each with a tension element, which longitudinal timbers are mutually connected by means of a coupling plate. 19. Building element as claimed in claim 16, wherein the building element comprises at least two longitudinal timbers, a coupling plate and a concrete or other type of layer. A building element according to claim 17, wherein the concrete layer is a concrete floor. A building element according to any one of the preceding claims, wherein the tension element comprises an external screw thread at both ends which at least partly protrudes through the counter plates and wherein a screw element cooperable with the screw thread is rotatable on the screw thread to counteract the counter plate. and to exert a pulling force on the tension element. A building element according to any one of the preceding claims, wherein the building element is furthermore provided with a pressure profile, which pressure profile is positioned between and adjacent to the two counter plates and is at least partially connected to the longitudinal timber. A building element according to any one of the preceding claims, wherein the longitudinal timber has an upper side located in the longitudinal direction between the two ends and a lower side located opposite the upper side in the longitudinal direction, wherein the pressure profile is located near the upper end of the longitudinal timber. 24. Building element according to claim 22 or 23, wherein the printing product file is substantially unbent in an unloaded condition. 25. Building element as claimed in any of the claims 22-24, wherein the pressure profile is manufactured from metal or a metal alloy. 26. Building element according to claim 22, wherein the pressure profile is integrated in the longitudinal timber, preferably in the top side of the longitudinal timber, wherein the pressure profile preferably follows the shape of the top side of the longitudinal timber. 27. Building element according to claim 22, wherein the longitudinal timber has two side surfaces that extend between the top and the underside and between the two ends of the longitudinal timber, and wherein the pressure profile is centered relative to both side surfaces at the top of the longitudinal timber. is positioned. 28. Floor construction comprising a building element according to any one of the preceding claims, comprising at least two building elements which are connected parallel to each other in longitudinal direction and which furthermore comprises a floor element covering both building elements. 29. Use of a building element as claimed in any of the claims 1-27 or of a floor construction element as claimed in claim 28, wherein a longitudinal timber is manufactured with a curved passage extending over a length of the longitudinal timber, passing a tension element through the passage, and placing a draw plate near and spaced from each end, the draw plates having an opening for passing a portion of the draw element through. Use according to claim 29, further comprising the step of exerting a pulling force on the pulling element by a force directed away from the counter plates. 31. Application for building a building, comprising the use of a building element according to any one of claims 1 - 27 or of a floor construction element according to claim 28, applying a prestress to the tensile element and applying a pretension to support elements. of the building, positioning the building element to form a span between the supporting elements.