NL9302246A - Facade construction, as well as building provided with the facade construction and building element applicable in the facade construction. - Google Patents

Description

Title: Facade construction, as well as building provided with the facade construction and building element applicable in the facade construction.

Description:

The invention relates to a facade construction comprising vertical uprights with building elements stacked between them and provided with recesses in their sides, for mutual coupling and coupling with the uprights, the uprights being at least partly surrounded by the building elements, which building elements comprise a core of insulating material and comprise an outer shell on a main side, which is provided on top and bottom with complementary profiles. The invention also relates to a building provided with such a facade construction and a building element usable in such a facade construction.

A facade construction of the type mentioned in the opening paragraph, as well as building and building element, are known from the International patent application with publication number WO 92/01124. The facade construction known therefrom comprises building elements which can be stacked between vertical uprights, the building elements being provided with recesses in which the uprights are located and wherein horizontal beams are present between the building elements for coupling the building elements in vertical direction. This known facade construction can be disassembled, whereby the building elements are fully reusable. The facade can be built without the need for specialized skilled workers (such as masons, jointers and plasterers). It has been found in practice that the known facade construction does not fully meet the required building physical properties with regard to heat accumulation and moisture insulation.

An object of the invention is to provide a facade construction of the type mentioned in the preamble which meets the required building physical properties. To this end, the facade construction according to the invention is characterized in that the building elements on the left and right sides are provided with further complementary profiles, which are at least on the outer shell.

It has been found that, despite the fact that the known facade construction meets the building physics requirements in theory (the uprights provide a moisture-tight sealing of the vertical seams between the building elements and also a windproof sealing, so that sufficient heat insulation should be obtained), in practice, however, measurements showed that these requirements were not met. The invention is based, inter alia, on the insight that the cause of this lies in the fact that gaps in the facade construction arise because the known uprights warp somewhat due to temperature difference between the interior and the exterior atmosphere. In the known facade construction, the uprights are exposed with one side to the outside atmosphere (via gaps between the building elements) and with the opposite side to the inside atmosphere. This made it necessary to improve the horizontal coupling between the building elements with regard to heat accumulation and moisture insulation. This is achieved by the facade construction according to the invention.

The aforementioned formulation that the building elements at least partially surround the uprights also includes the construction shown in Figure 3. Here, a part of the upright is outside the building elements and only a part of the upright is surrounded by the building elements. Decisive for the formulation that the uprights are at least partly surrounded by the building elements is that the recesses in the side walls of the building elements are formed in such a way that they serve to surround an external (i.e. not belonging to a neighboring building element) part. In fact, the profiles can have any desired shape.

An embodiment of the facade construction according to the invention is characterized in that the further profiles also extend in at least the left and right sides of the core. This has improved the sealing. A further improvement of the sealing is obtained if the profiles are formed by chamfers and the chamfer surface of at least the further chamfer along its length has a kink. Preferably, the kink is on the dividing line between the outer shell and the core.

It has been found that the recesses and profiling in the bottom and top of the building elements provide adequate sealing. Since the uprights are partially surrounded by the building elements, they are located with one side close to the outer facade side and, consequently, the sealing between the neighboring building elements should preferably be better than the sealing between two superposed building elements. This is achieved by running the chamfers in the core.

A further embodiment of the facade construction according to the invention is characterized in that the uprights are provided with an insulating layer on their side facing the outer facade side. This further reduces the risk of condensation and the presence of thermal bridges, which means that the building physics requirements are better met. The measure of providing an insulating layer of the upright can also be applied separately from the aforementioned measures and, if used in isolation, also has a favorable effect with regard to meeting the building physics requirements.

A further embodiment of the facade construction according to the invention is characterized in that part of the facade construction according to the invention is characterized in that in order to be able to use larger uprights and thereby also to increase the stiffness of the facade construction, whereby the risk of warping of the uprights is further reduced and thus the chance of gap formation. the uprights are located outside the building elements, to which part a wall is attached at a distance from the building elements. The uprights can hereby be partly on the inner side or on the outer side. Due to the cavity created in this way, the facade has obtained a higher insulation value with even better heat accumulation. This also makes it possible to use larger and more sturdy uprights, whereby greater stability is obtained, which is particularly advantageous when using several building layers. In addition, pipes can be concealed in the cavity. This measure can also be applied separately from the aforementioned measures to reduce the chance of cracking.

In order to increase the insulation value of the facade construction even further, a further embodiment is characterized in that attachment panels are detachably attached to the building elements. The extension panels are preferably located at a distance from the building elements. In this case, air or an insulating material is located between the front panels and the building elements, so that better insulation is obtained.

When building the known facade, the building elements are stacked against a post, after which a further post is placed against the stacked building elements. There is a chance that there are gaps between two neighboring building elements and between the building elements and the upright, which is unacceptable with regard to the physical building requirements. In order to reduce the chance of cracks forming, a favorable embodiment of the facade construction according to the invention is characterized in that the uprights at their lower and / or upper ends are mutually coupled to each other by spacing elements. As a result, the uprights are accurately located at a predetermined distance, whereby the building elements connect well to each other, and the chance of cracks being present is greatly reduced.

A further advantage of this embodiment is that adjustment possibilities are present here for placing the uprights at a desired distance, whereby a high degree of dimensional stability of the uprights set is obtained. The measure of coupling the uprights via spacing elements can also be applied separately from the aforementioned measures and, if used in isolation, also has a favorable effect with regard to meeting the building physics requirements. By coupling the uprights to each other via spacing elements, it is ensured that the distance between the uprights assumes the desired value and it is also achieved that the uprights are also kept at the distance once set.

An embodiment of the facade construction according to the invention is characterized in that the uprights are attached to a wall plate at their top end and to a foundation at their bottom end. This ensures that the uprights are firmly fixed at the mutual distance set once with the aid of the spacer elements, so that a very high degree of dimensional stability of the facade construction is obtained. The wall plate hereby provides extra stability to the facade construction. A favorable embodiment of this is characterized in that the facade construction comprises a fitting piece which is located in a cavity between the shell, the core and the foundation and a further fitting piece which is located in a further cavity between the shell, the core and the wall plate.

A further embodiment is characterized in that the foundation comprises a support construction and a profiled foundation beam fixed to the support construction. The support construction can for instance be poured concrete, to which the foundation beam, which is preferably made of steel, is attached. The advantage of such a foundation beam is that the uprights can be fixedly mounted thereon, for instance because sloping holes or slots are present in the foundation beam and that, once the uprights have been attached to the foundation beam, there is a dimensionally stable coupling between two uprights. Preferably, the support construction comprises a prefabricated beam or prefabricated legs, making the foundation demountable and reusable. Yet a further embodiment is characterized in that the foundation comprises loose foundation elements and coupling elements, which connect the foundation elements to each other at their corner points, and further comprises a profiled foundation beam fastened to the foundation elements. This provides both a foundation and a floor that are also demountable and reusable. The foundation beam is preferably an angle profile attached to the side of the supporting construction or a C-profile fixed on top of the supporting construction.

Due to the special construction according to the invention described above, this facade is suitable for use in permanent construction. This is in contrast to the well-known facade construction, which, due to its lower dimensional stability and adjustability, met the requirements of insulation value and strength in semi-permanent construction poorly. The construction according to the invention is so sturdy that no wind bracing and bonding are necessary. This makes the facade construction completely demountable.

No professionals are required for the installation of such a facade construction and all parts of the facade construction and foundation and even of the floor can be assembled in a dry way (so without cement or glue). All parts are handy and cause less construction nuisance.

It is noted that from the International patent application with publication number WO 88/08472 a panel is known consisting of two shells with a core in between, the shells on the sides being provided with profiles for coupling with neighboring panels. However, this known construction is only built up of panels and does not comprise uprights at least partly present between the panels. As a result, there are no previously mentioned problems that can arise in the presence of uprights. Furthermore, in this known construction, the profiles are located exclusively in the shells and not in the core.

The invention will be explained in more detail below by way of example with reference to the embodiments shown in the drawing. Herein: FIGURE 1 shows a horizontal section of a first embodiment of the facade construction according to the invention; FIGURE 2, a vertical section of the facade construction; FIGURE 3, a horizontal section of a second embodiment of the facade construction according to the invention with a cavity; FIGURE 4, the use of front panels in the facade construction according to the invention; FIGURE 5, a facade construction according to the invention without building elements; FIGURES 6 AND 7, various variants of the foundation of the facade construction according to the invention.

Figure 1 shows a horizontal section of a first embodiment 1 of the facade construction according to the invention. The facade construction consists of uprights 3, which are provided on both sides with an insulating layer 5, 7 of, for example, multiplex, and of building elements 9 stacked between uprights 3. The building elements 9 have a core 11 of insulating material, which is on both main sides. is provided with an outer shell 13 or inner shell 15. The shells 13, 15 are preferably made of a light and strong material such as polymer concrete. The sides of the building elements 9 are provided with recesses 17, 19 (see also figure 2) in which the uprights 3 and a coupling beam 21, respectively, for coupling the building elements in vertical direction are located. In this embodiment, the uprights 3 are completely surrounded by the building elements 9. Figure 2 shows a vertical section of the facade construction. The building elements and uprights are located on a foundation which is formed by a support construction consisting of a prefab or poured concrete beam 23 to which a profiled foundation beam formed by a steel corner profile 25 is attached. On the foundation beam there is a fitting piece 27 which fills the cavity between the angle profile 25 and the lower building element 9. The outer 13 and inner shell 15 are provided with bevels 29 at their top and bottom. The bevel at the top is complementary to the bevel in the bottom, so that a good seal is obtained between two stacked building elements. Partly through the recesses 19 and the coupling bar 21, a moisture and draft-tight coupling is obtained. A wall plate 71 is mounted on the uprights. Between the upper building element 9 and the wall plate 71 there is a further fitting piece 28. The left and right sides of the shells 13, 15 are provided with further chamfers 31 for sealing the gaps between two neighboring building elements 9, see figure 1. In order to better protect the uprights 3 against external influences, in order to prevent warping due to temperature differences, the further chamfers 31 also extend in the left and right side of the core 11. On the dividing line between the outer and respectively inner shell 13, 15 and the core 11 has a chamfer surface along its length a kink 33, which makes the penetration of water practically impossible.

In order to achieve even higher insulation values, the facade construction can also be carried out with a cavity. Figure 3 shows a horizontal section of a second embodiment 35 of the facade construction according to the invention with a cavity. This construction also makes it possible to use a sturdier upright 37 with a larger cross-section. The upright 37 is here only partially surrounded by building elements 39 and are located with a part 41 outside the building elements on the inner wall side. The section 43 surrounded by the building elements in this embodiment has a T-shaped cross-section, which is provided on the side facing the outer wall side with an insulating layer 45. An inner wall 47 is spaced from the building elements 3'9. This inner wall 47 can either consisting of large plates or also of stackable smaller plate elements, which are attached to the uprights 41. The inner wall 47 can also be fitted directly against the building elements 39. In the same way, an outer wall can also be fitted against the outer wall side.

Figure 4 shows the use of detachable extension panels 49 in the facade construction according to the invention. For this purpose, the inner shells 51 of the building elements 53 are provided with mounting holes 55 into which mounting pins 57 present on the panels can be inserted. The pins 57 are preferably longer than the depth of the holes 55, whereby the extension panels 49 are located at a distance from the building elements 53 and thus the gap forms an extra insulating layer.

The extension panels 49 can be arranged in a horizontal as well as in a vertical position, as indicated in figure 4. Front panels can also be attached to the outer shell 59 of the building elements 53.

Figure 5 shows a further embodiment 61 of the facade construction according to the invention. No building elements are shown for clarity. The facade construction has the same uprights 63 as that of the first embodiment. The uprights 63 can be made in a variety of profiles and strengths, depending on stability requirements and the number of building layers. The uprights 63 are at a desired mutual distance, such that the building elements to be stacked between them and their skins closely match each other. This desired mutual distance is achieved by coupling the uprights 63 to each other via spacing elements 65 at top and bottom ends. The spacing elements 65 and the uprights 63 have for this purpose positioning means with which both are connected to each other in a predetermined manner. These positioning means are formed on the one hand by pins 67, present on the top and bottom ends of the uprights 63 and, on the other hand, by holes 69 at precisely predetermined mutual distances in the coupling elements 65. For the purpose of fixing, the pins 67 are provided with external screw thread on which nuts can be turned. The uprights 63 are connected at their upper end to a steel profile wall plate 71, in which slotted holes are provided through which the pins 69 protrude and with which the connection between the wall plate 71 and the uprights 63 is also established. At their lower ends the uprights 63 are attached to a foundation 73. This foundation is also preferably demountable and is formed by a support construction of prefabricated legs 75, on which a preferably steel profiled foundation beam 77 is mounted, for instance designed as a C-profile. For the purpose of adjustment, the foundation beam 77 is also provided with slotted holes, through which the pins 67 protrude, with which the spacer elements 65 and the foundation beam 77 are attached to the uprights 63.

Figures 6 and 7 show possible variations on the foundation. Figure 6 shows a foundation 79 with a support construction consisting of a prefab beam 81, to which a foundation beam 83 in the form of an angle profile is attached to the side. Figure 7 shows another embodiment, in which loose foundation elements 85 are used, which are attached to each other at their vertices 87 via coupling elements 89. These foundation elements 85 also form a floor for a building built with this facade construction. Angle profiles 91 on which the uprights 93 are mounted are attached to the free sides of these foundation elements 85. Other foundation constructions such as mounting the upright via a base plate or an anchor rail are also possible.

Claims (19)

Facade construction comprising vertical uprights with building elements stacked between them and provided with recesses in their sides, for mutual coupling and coupling with the uprights, the uprights being at least partly surrounded by the building elements, which building elements comprise a core of insulating material and on a main side comprise an outer shell, which is provided with complementary profiles at the top and bottom, characterized in that the building elements on the left and right-hand sides are provided with further mutually complementary profiles that are located at least on the outer shell. Façade construction according to claim 1, characterized in that the further profiles also extend in at least the left and right sides of the core. Facade construction according to claim 1 or 2, characterized in that the profiles and further profiles are formed by a chamfer or further chamfer. Façade construction according to claim 3, characterized in that the bevel surface of at least the further bevel has a kink along its length. Façade construction according to claim 4, characterized in that the kink is located on the dividing line between the outer shell and the core. Façade construction according to any one of the preceding claims, characterized in that the uprights are provided with an insulating layer on their side facing the outer facade side. Façade construction according to one of the preceding claims, characterized in that a part of the uprights is located outside the building elements, to which part a wall is attached at a distance from the building elements. Facade construction according to any one of the preceding claims, characterized in that front panels are detachably attached to the building elements. Facade construction according to claim 8, characterized in that the auxiliary panels are spaced from the building elements. Facade construction according to any one of the preceding claims, characterized in that the uprights are mutually coupled at their lower and / or upper ends by spacing elements. Facade construction according to claim 10, characterized in that the uprights are attached to a wall plate at their top end and to a foundation at their bottom end. Façade construction according to claim 11, characterized in that the façade construction comprises a fitting piece located in a cavity between the shell, core and foundation and a further fitting piece located in a further cavity between the shell, core and the wall plate. Facade construction according to claim 11 or 12, characterized in that the foundation comprises a support construction and a profiled foundation beam fixed to the support construction. Facade construction according to claim 13, characterized in that the support construction comprises a prefab beam or prefabricated legs. Facade construction according to claim 13 or 14, characterized in that the foundation comprises loose foundation elements and coupling elements, which connect the foundation elements to each other at their corner points, and further comprises a profiled foundation beam attached to the foundation elements. Facade construction according to claim 13, 14 or 15, characterized in that the foundation beam is an angle profile fixed to a side of the support construction. Facade construction according to claim 13, 14 or 15, characterized in that the foundation beam is a C-profile fixed on top of the support construction. Building provided with a facade construction according to any one of the preceding claims. Building element applicable in a facade construction according to claim 1, 2, 3, 4 or 5.