NL2026364B1 - MODULAR BUILDING SYSTEM FOR ESTABLISHING A BUILDING - Google Patents

Abstract

EXTRACT Modular construction system, comprising: - a self-supporting supporting structure (2) formed by a skeleton; - modularly connecting building elements that are arranged against the supporting structure (2) to form an outer shell (5), more specifically the following building elements: - horizontal connecting pieces (100, 200, 500, 700) that are joined end to end. arranged to form horizontal bands; - vertical connectors (300, 400, 600) which, together with those 10 bands, form frames that delimit open compartments; - filler elements (800, 802) to fill the open compartments; - which construction elements are provided in horizontal and / or vertical direction with a fixed or detachable lip or form a lip which allows the construction elements to be joined together by means of an overlapping lip weld and which allows one or more construction elements to be removed from the outer shell (5) remove and / or insert without having to remove the rest of the outer shell (5). 20 (Figure 1A)

Description

The present invention relates to a modular construction system for constructing a building. Building systems are already known consisting of a supporting structure, built from a skeleton of posts and girders of metal or of reinforced concrete or of wooden beams in the case of timber-frame construction and an outer cladding applied to it, consisting of adjoining or overlapping panels or battens. .

With such building systems it is difficult or even impossible to extend an existing building vertically or horizontally or to provide an extra door or window opening without drastic and radical demolition work.

The present invention aims to provide a solution to the aforementioned and other drawbacks.

To this end, the invention relates to a modular construction system for constructing a building, the construction system comprising: - a self-supporting supporting structure with uprights and girders formed by a self-supporting skeleton or by an assembly of self-supporting supporting elements to be connected to each other and / or against each other; - modular connecting building elements that are fitted against the supporting structure to form an outer shell, more specifically one or more of the following building elements: - horizontal connecting pieces that are placed against the beams with their ends against each other to form horizontal bands of the outer shell at the level of the beams of the supporting structure; - vertical connecting pieces connecting with their end ends in vertical direction to the horizontal connecting pieces of successive bands and, together with those bands, delimiting open areas; - filling elements to fill the open compartments between horizontal and vertical coupling pieces;

- composite construction elements that are assembled as a whole from one or more coupling pieces and / or from one or more coupling pieces together with one or more filling elements,

which construction elements are provided in horizontal and / or vertical direction with a fixed or detachable lip or form a lip which allows the construction elements to be joined together by an overlapping lip weld and which allows one or more construction elements individually or in group as part of the remove the outer shell from the outer shell and / or place it in it without having to remove the rest of the outer shell.

The building system according to the invention is thus an intelligent system of technical standardized building elements for the construction of facades in the form of an outer shell based on a lip welded joint, which enables an intelligent coupling of building elements, both in width and height, and which offers the necessary flexibility to: - switch the construction elements without restrictions; - the construction elements can be easily disassembled; and - installing additional (intermediate) supporting structures.

The building elements fit into each other in various directions, with or without a joint between them, for instance to allow mutual actions and settlements, so that facades can be built up with a limited number of shapes of building elements.

The wording connecting building elements is thus understood to mean: building elements which are adjacent to each other in the outer shell and partly or completely overlap each other with their respective lips to form an aforementioned lip seal, with or without an intermediate seal or the like, possibly with clearance that allows the lips to slide over each other in order to be able to absorb a horizontal and / or vertical settlement of the outer shell to a certain extent.

It concerns non-load-bearing coupling pieces and filling elements.

To enable coupling in various directions, the coupling pieces have intelligently coordinated dimensions and connections. The dimensions of the various coupling pieces are geared to each other.

Preferably, the aforementioned lips have a right-angled stepped shape.

The coupling pieces and filling elements preferably have one or more of the following properties: fixed dimensional ratios in size in order to enable infinite coupling; - specific lips in horizontal and vertical direction; - The lip welds are determined in function of the mounting and dismounting of the filling elements. The position of the lips on the inside or outside of the façade has been specifically determined for the simple assembly or disassembly of the building elements.

Each coupling piece has a specific method of mounting and dismounting, depending on the purpose: either: extension in height (and vice versa); either: making a facade opening; or: extension in width (and vice versa).

Each coupling piece is constructed with a coordinated size ratio and is provided with a lip for forming overlapping lip welds. The connection of the lips between the construction elements of the outer shell ensures that the coupling pieces and filler elements can be connected together in all directions, whereby there are right-angled coupling pieces to form an inner corner or outer corner, as well as flat coupling pieces for achieving a flat coupling. between the fill elements in the same facade surface. As a result of the dimensional ratios, it is possible to design the supporting structure in different materials, for example in concrete, steel or wood. The width and height of the filling elements can be freely determined. These can be of the same size, adjustable per project, with the advantage that only one type of filler element has to be manufactured and stored and they are freely interchangeable by extension, or different sizes of filler elements can be combined as long as the dimensions in the connectors is preserved.

The filling elements and vertical coupling pieces are preferably of a storey-high design, the filling elements having a height on the inside that is substantially equal to the height difference between successive beams of the supporting structure.

The lip welds are preferably dimensioned in such a way that the coupling between adjacent building elements is flat on the outside of the outer shell, so that a completely smooth facade is obtained.

The thickness of the flat coupling pieces can be smaller than the thickness of the filling elements so that recessed vertical channels are formed on the inside of the outer shell between the filling elements on either side of the relevant coupling pieces, the channels being such that the uprights are at least partially concealed therein. can be stowed away. The channels can also serve as vertical tubes for the installation of utility lines or other techniques or can be filled, for example with insulating material. These channels can be covered by a cover along the inside of the outer shell over the height of the vertical coupling pieces.

The inner shell is preferably completed at the location of the right-angled connecting pieces for the outer corners by a right-angled profile on the inner side of the outer corner.

According to a particular aspect of the invention, the outline of the ground plan of the outer shell is aligned on a first grid with square compartments and the contours of the ground plan of the supporting structure are aligned on a second grid with smaller square compartments with sides that are relative to the boxes of the first grid are shifted towards each other by the same distance. The grid can be a regular grid or a grid with boxes of different sizes.

The inner shell is preferably aligned on a parallel third grid, regular or not, with even smaller square boxes, the dimensions of the boxes of this third grid being a multiple of a selected standard size, such that the dimensions of the inner shell can be matched. can be brought with common standard dimensions of floor tiles, kitchen cabinets, electrical appliances and the like.

The invention also relates to a building constructed with a building system according to the invention.

With the insight to better demonstrate the characteristics of the invention, some modular building systems according to the invention with their constituent building elements are shown below, by way of example without any limiting character, with reference to the accompanying drawings, in which: - figure 1 schematically and in perspective represents a part of a building constructed with a modular building system according to the invention; Figure 1B shows an alternative structure according to the invention of the building of figure 1;

Figure 2 represents the support structure indicated by F2 in figure 1;

Figure 3 represents, in exploded condition, the part of the outer shell which is indicated in figure 1 by the frame F3;

Figures 4 to 12 show the individual coupling pieces and filling elements which in figure 4 are respectively indicated by F4 to F12 and this in perspective and according to different views and sections;

Figure 13 shows a view of a rear part of the building of figure 1 that was cut by section XIII-XIII;

Figure 14 shows a view of a lower part of the building of figure 1 that was cut by section XIV-XIV;

Figure 15 shows a vertical projection according to arrow F15 in figure 14;

Figure 16 shows the projection of figure 15 but in an exploded state;

Figures 17 and 18 show on a larger scale the parts which in figure 15 are respectively indicated by the boxes F17 and F18;

Figure 19 shows a variant embodiment of figure 18;

Figure 20 shows a view according to arrow F20 in figure 13;

Figure 21 represents to a larger scale the part indicated in figure 20 by the box F21;

Figures 22 and 23 represent alternative constructions of figure 21;

Figure 24 shows the grid indicated by F24 in figure 1;

Figure 25 shows the successive steps for expanding an existing building in height;

Figure 26 shows the successive steps for expanding an existing building in width;

Figure 27 shows the successive steps for creating an extra facade opening in an existing building;

Figure 28 shows different possible variants of possible tongue and groove couplings between the building elements of a building system according to the invention; Figure 29 shows the building element indicated by F29 in figure 3; Figure 30 shows a filling element of the inner shell; Figure 31 shows various possible building elements of a building system according to the invention, figure 32 shows some non-limiting examples of a lip weld.

The building 1 shown in figure 1 is constructed with a building system according to the invention, comprising a self-supporting supporting structure 2 with uprights 3 and girders 4, which in the example shown is formed by an assembly of storey-high self-supporting skeletal supporting elements 2 'connected to each other, as shown. in figure 2 that can be stacked on top of each other in several layers in the case of a multi-storey building.

An outer shell 5 is arranged around the supporting structure 2, which, as shown in figure 3, is composed of construction elements in the form of horizontal coupling pieces 100, 200, 500 and 700 and vertical coupling pieces 300, 400 and 600, with which frames are built up in horizontal and connect vertically to each other, delimiting pockets in the outer shell which are filled with filler elements 800. The connectors are in this case common to adjacent frames.

In the example of figure 1, the filling elements 800 are flat facade panels which are shown in detail in figure 11 and have a width g and a height y on the visible side, in other words on the outside of the outer shell.

Various connectors are provided within the construction system. Each coupling piece has its specific function and, in combination with the other coupling pieces, ensures that endless switching can be made, both in a horizontal and vertical sense, and this completely independent of the choice of the supporting structure.

2. For example, we distinguish the following horizontal connecting pieces of the outer shell 5 to form the lower and upper edges of the frames at the level of the beams 4 of the supporting structure 2, in other words at the level of the floor and ceiling structure: - connecting pieces 200, 500 and 700 to form the corners of the frames, in particular flat coupling pieces 700 as shown in figure 10 to form a flat connection between the frames in the same facade surface of the outer shell 5 and right-angled coupling pieces 200 and 500 as shown in the figures 5 and 8 to form a right angle connection between the frames, respectively to form an outer corner and an inner corner of the outer shell 33 - flat connectors 100 as shown in figure 4, connecting the aforementioned connectors 200, 500 and 700 of the corners of the boxes to form the top and bottom edges of the boxes delineated by the boxes.

The horizontal connectors 100, 200, 500, and 700 are all the same height and have the same vertical cross-section so that together they form an interconnected continuous horizontal band which can cover the beams 4 of the support structure 2.

Furthermore, we distinguish vertical connectors 300, 400 and 600 for forming the vertical edges of the frames of the outer shell 5, respectively: a flat connector 400 as shown in figure 7 for the vertical connection between the aforementioned horizontal flat connectors 700;

Right-angled connecting pieces 300 and 600 as shown in figures 6 and 9 for vertical connection, respectively, of the aforementioned right-angled horizontal connecting pieces 200 and 500. The vertical connecting pieces 300, 400 and 600 have the same height y on the outside as that of the filling elements so that they together form a storey-high horizontal band of the outer shell 5 and have the same horizontal cross-section as the corresponding horizontal connectors 200, 700 and 600 to which they are connected in the vertical direction, such that together they form the vertical struts of the frames of the outer shell 2.

To finish a roof edge of an upper floor, roof edge pieces 900 are also provided, one of which is shown in figure 12.

The building system can also make use of composite building elements which are assembled as a whole from one or more coupling pieces and / or from one or more coupling pieces together with one or more filler elements, of course preferably without a lip weld between the constituent building elements.

In figure 1B, the front facade of the right-hand building volume is thus designed as one whole, with the filling panels 800 and the coupling elements 300 and 400 of the front wall of this building volume being combined into one whole building element.

Possible other examples of composite building elements are shown in figure 31.

The inside of the building is finished with an inner shell 6 which, in the case of the figures, is formed by the inner side of the filling elements, but which can also be realized with vertical covering elements which can be mounted, for example, back to back against the building elements of the outer shell.

For the finishing of the inner shell we could for instance distinguish the following elements: - a finishing piece 401 in the form of a lid, as shown in figure 29, which is arranged between the aforementioned filling elements 800 to cover the flat vertical coupling pieces 400 with enclosure of a hollow space 7 around the uprights 3 of the support structure 2 or to form hollow tubes for utility lines or the like as seen in Figures 13 and 14; - a finishing piece 301 for finishing an inner corner and an outer corner, respectively.

The system is preferably dimensioned such that the visible outer surface of the outer shell 5 and the visible inner surface of the inner shell 6 form smooth walls.

In the example shown, the building ground plan is aligned on a triple horizontal grid, a first, second, and third grid, 8, 9, and 10, respectively.

The contours of the ground plan of the supporting structure 2 are aligned on a first regular grid 8 with preferably square boxes with a fixed grid size q or with a variable grid size gq, q1 and q2 as shown in figure 24.

The outer circumference of the plan of the outer shell 5 is aligned with a second regular grid 9 with larger square boxes with sides offset outwardly from the sides of the boxes of the first grid 8 by the same distance c + td.

The inner perimeter of the plan of the inner shell 6 is aligned with a parallel third regular grid 10 with smaller square boxes having sides offset inwardly from the sides of the boxes of the first grid 8 by the same distance e + f.

The thickness b of the walls corresponds to the orthogonal distance between the sides of the second grid 9 and the third grid

10. This thickness b is thus equal to the sum c + d + e + f.

Preferably, the distance c + d is equal to the distance e + f.

The coupling pieces and filling elements of the outer shell are provided in horizontal and vertical direction with lips which allow the coupling pieces and the filling elements to fit together with their edges through an overlapping lip weld, with or without a certain play.

Figure 32 shows some possible examples of lip seals, but without being limited to these examples.

Preferably, the lip weld is a weld with a right-angled step shape of the lips as shown in the figures.

The horizontal connecting pieces 100, 200, 500 and 700 are on the outside, that is to say on the side remote from the support structure, along their lower edge and upper edge, provided with a downwardly and upwardly protruding lip 11 and a lip 11, respectively, which protrudes from the side. the outside recess 12 located deeper for the lip of a connecting building element.

The vertical coupling pieces 300, 400 and 600 and the filling elements 800 are provided along the outside of their upper and lower edge with a recess 13 and with a lip 14, which is located deeper with respect to the outside and which protrudes upwards and downwards, respectively, for the vertical lip weld coupling. with a horizontal connector 100, 200, 500 and

700.

The horizontal coupling pieces 200, 500 and 700 and vertical coupling pieces 300, 600 and 400 coupled thereto are provided along the outside of their side edges with a laterally protruding lip 15 and with a recess 16 deeper with respect to the outside for a lateral horizontal lip weld coupling with the horizontal coupling pieces 100 and with the filling elements 800 which are provided for this purpose along the outside of their side edges with a recess 17 for a lip of a construction element to be coupled and with a lip 18 located deeper with respect to the outside.

Preferably the dimensions of the lip seals are such that at the position of the lip seal the outside of the outer shell 5 is flat.

The lips of the lip seals can be realized in different ways. Some examples are shown stylistically in Figure 28, from which it can be seen that the building elements to be coupled are not necessarily each provided with a protruding lip and recess for a lip, but that, for example, in the second upper example the filler elements 800 are provided with a lip 18 and recess. 17 along their side edges, but that the coupling piece 400 for the flat connection of two filling elements 800 is formed by a profile of square or rectangular cross-section that fits into the recess 17 of a filling element 800 and thus does not have a recess.

The construction of the building 1 is simple and is illustrated with reference to figures 13 to 23.

The horizontal structure is shown in Figures 14 to 16 which also shows the alignment of the building 1 with respect to the grids 8, 9 and 10.

Preferably, but not necessarily, all of the filler elements 800 have the same dimensions. This creates a fixed pattern in which all elements are compatible and therefore interchangeable. This creates enormous freedom in switching and exchanging the various building elements. Always work on a dimension-determining grid 8, 9, 10, such as that in figure 24.

All connectors have the same dimensions and size ratio for the lip weld. Depending on the project, a choice can be made, depending on the design or wishes, to adjust the width of the size of the filling elements 800 and the horizontal coupling pieces 100 coupled thereto.

In the detail of figure 17 it is shown that the thickness c + d of the flat connectors of figures 7 and 10 can be smaller than the thickness b of the filling elements 800/801, so that on the inside of the outer shell 5 recessed vertical channels or hollow tubes 7 are formed between the filling elements 800/801, the channels being such that the uprights 3 of the support structure 2 can be stored therein completely or at least partially concealed and can be covered on the inside by a finishing cover 401.

In this example, the filling elements 800 of the outer shell 5 and the finishing elements 801 of the inner shell 6 are drawn as one element with a thickness b equal to the thickness of the wall, so that only one filling element is needed for the outside and inside of the wall. building 1.

Depending on whether the chosen supporting structure 2 is made of concrete, steel, wood or the like, it may be necessary to adjust the width of the finishing covers 401 to a minimum so that they can be placed around the supporting structure 2.

The channels 7 can also simply be left free as in figure 18 or filled with insulating material as in figure 19 or used for the passage of utility lines or the like.

The inner shell 6 is finished at the location of the right-angled vertical connecting pieces 300 and 600 with right-angled profiles 301.

Figures 20 to 23 show the vertical structure in which the floor line 19 and the ceiling line 20 are also indicated, as well as the location of the roof edge pieces 900.

The connecting pieces and the filling pieces are independent of the supporting structure 2. The operator is free to choose a type of material for erecting the supporting structure, such as with loose construction frames in the case of figure 21 or in concrete as in figure 22 or with a steel frame as in figure 23. This support structure 2 can be erected both prefabricated and in situ. The shape of the volume can be freely determined. The aim, however, is to develop a basic supporting structure to which all building elements can be plugged without having to make a variant each time.

The supporting structure 2 is completely separate from the non-load-bearing facade elements. This partly determines the freedom that the modular system has. The different filling elements and coupling pieces can be exchanged with respect to each other, and also moved to a different type of support structure 2.

It is important here that the floor and ceiling lines 19 and 20 are respectively at a distance 1 and m from a vertical construction grid 21 which determines the height at which the beams 4 of the supporting structure 2 are centered in height.

The vertical coupling pieces 300, 400 and 600 and the filling elements 800 have a height on the inner side facing the supporting structure 2 which is substantially equal to the difference in height between successive beams 4 of the supporting structure 2.

As a result, the beams 4 of the supporting structure 2 remain free along the inside of the outer shell 5 for the fixing / support of the floor and / or ceiling plates or roof plates 23.

The construction system and especially the specific choice of the lip welded connections make it possible to remove and / or place one or more construction elements individually or in group as part of the outer shell from the outer shell and / or to place it in it without having to remove the rest of the outer shell 2.

This also makes it possible to easily expand an existing building 1 in horizontal or vertical direction or, for example, to make an opening for a window or door in the facade or to close an existing opening, whereby for example the right-angled connecting pieces serve as connecting pieces that are mounted as the last closing element during assembly of a building and must first be removed during disassembly from a building 1 before other connecting pieces or filling elements can be removed or replaced.

For instance, figure 25 shows how an existing building can be expanded in height in successive steps from left to right: removal of roof edge pieces 900; - horizontal decrease of the top horizontal connecting pieces 100/700 cover the width of the volume / facade to be placed; - assembly of new volume / facade 22; - mounting / reassembling horizontal connectors 100/700; - assembly / reassembly of roof edge pieces 900.

It goes without saying that the built-up volume can also be removed in reverse order. In figure 26 an extension in horizontal direction is illustrated with the following steps from left to right: removal of roof edge pieces 900; - horizontal removal of upper and lower horizontal connecting pieces 100/700 across the width of the volume / facade to be installed; - take-off filler elements 800 and vertical coupling pieces 400; - lateral placement of new volume / facade element 22 in the cleared opening; - reassembly of recovered filling elements 800 and vertical connecting pieces 400 in the new volume / facade; - reassembly of recovered upper and lower horizontal connecting pieces 100/700 in the new volume / facade; - assembly / reassembly roof edge pieces 900. In figure 27 it is analogously shown which successive steps are required to replace a closed filling element 800 in the form of a facade panel in the facade of an existing building 1 by a filling element 802 with an opening, in this case an opening for a door.

It goes without saying that certain coupling pieces or filler elements can be further split up in height and / or in width and / or in height as illustrated in figure 28, whereby the lips can be fixed or detachable, and / or on the contrary can be assembled into larger ones. entities as illustrated with some examples of composite building elements in figure 31.

The present invention is by no means limited to the embodiments described by way of example and shown in the figures, but a building system according to the invention can be realized in all kinds of shapes and dimensions without departing from the scope of the invention.

Claims (25)

CONCLUSIONS 1. Modular construction system for constructing a building (1), the construction system comprising: - a self-supporting supporting structure (2) with uprights (3) and beams (4), formed by a self-supporting skeleton or by an assembly of one on top of the other and / or self-supporting supporting elements to be connected together; - modular connecting building elements that are arranged against the supporting structure (2) to form an outer shell (5), more specifically one or more of the following building elements: - horizontal connecting pieces (100, 200, 500, 700) that are their ends are arranged together to form horizontal bands of the outer shell (5) at the level of the beams (4) of the support structure (2); - vertical coupling pieces (300, 400, 600) which connect with their end-ends in vertical direction to the horizontal coupling pieces (200, 500, 700) of successive belts and which together with those belts form frames defining open sections; - filler elements (800, 802) to fill the open compartments between horizontal and vertical connectors; - composite building elements which are assembled as a whole from one or more coupling pieces and / or from one or more coupling pieces together with one or more filler elements, which building elements are provided in horizontal and / or vertical direction with a fixed or detachable lip, or forming a lip which allows the building elements to be joined together by an overlapping lip weld and which allows one or more building elements to be individually or in group as part of the outer shell (5) from the outer shell (5) and / or to place in it without having to remove the rest of the outer shell (5). Construction system according to claim 1, characterized in that the horizontal connecting pieces (100, 200, 500, 700) have the same height and vertical cross-section, such that together they form a continuous horizontal band. Construction system according to claim 1 or 2, characterized in that the horizontal connecting pieces (100, 200, 500, 700) have a downward direction on the outside, that is to say on the side remote from the support structure, at their bottom and top edges. , respectively upwardly, have protruding lip (11). Construction system according to one of the preceding claims, characterized in that the height of the horizontal connecting pieces (100, 200, 500, 700) is such that they cover the girders (4) vertically on the outside and optionally with a protrude above and below the beams (4). Construction system according to any one of the preceding claims, characterized in that the vertical connectors (300, 400, 600) have the same width and horizontal cross-section as the horizontal connectors (200, 500, 700) connecting them and to them. - closing and as such together forming vertical panels of the outer shell (5). Construction system according to one of the preceding claims, characterized in that the vertical coupling pieces (300, 400, 600) and the filling elements (800) connecting thereto in horizontal direction have the same height on the outside, such that they together form a horizontal surface on the outside. band of the outer shell (5). Construction system according to claim 6, characterized in that the vertical coupling pieces (300, 400, 600) and the filling elements (800) have a height on the inner side facing the supporting structure (2) which is substantially equal to the height difference between successive beams of the supporting structure (2). Construction system according to any one of the preceding claims, characterized in that the vertical coupling pieces (300, 400, 600) and the filler elements (800, 802) are provided along their upper and lower edge with a deeper upward position relative to the outside. and downwardly projecting lip (14) for realizing a vertical lip seal with a horizontal coupling piece (100, 200, 500, 700), respectively. Construction system according to claim 8, characterized in that the horizontal coupling pieces (200, 500, 700) and the vertical coupling pieces (300, 600, 400) coupled thereto are provided with a laterally protruding lip (15) along the outside of their side edges. ) for a lateral lip weld connection with the horizontal couplers (100) and with the packing elements (800). Construction system according to claim 9, characterized in that the horizontal connecting pieces (100) and the filling elements (800) are provided for this purpose along their side edges with a lip (18) that is deeper with respect to the outside. Construction system according to any one of claims 8 to 10, characterized in that it contains right-angled connectors (200, 500, 300, 600) for forming an inner corner or outer corner of the outer shell (5) at the location of a post ( 3) of the support structure (2). Construction system according to any one of claims 8 to 11, characterized in that it comprises flat connecting pieces (400, 700) for forming a flat connection in horizontal direction between adjacent filling elements (800) that lie with their outer sides in the same facade plane. , respectively between adjacent flat horizontal connecting pieces (100) which lie with their outer sides in the same facade plane. Construction system according to claim 12, characterized in that the flat coupling pieces (400, 700) are formed by a profile of square or rectangular cross-section which forms a said lip which, together with a lip of an adjacent horizontal coupling piece (100) or of an adjacent padding element (800) can form a said lip weld. Construction system according to any one of the preceding claims, characterized in that the dimensions of the respective lips of the building elements are such that the building elements connected by the lip seal form one plane on the outside of the outer shell (5) at the location of the lip seal. . Construction system according to any one of claims 12 to 14, characterized in that the thickness of the flat coupling pieces is smaller than the thickness of the filling elements, so that deepened vertical channels are formed on the inside of the outer shell between the filling elements on either side of the relevant coupling pieces. , whereby the channels are such that the uprights can be stored at least partially concealed in them. Construction system according to claim 15, characterized in that the channels along the inside of the outer shell (5) are covered over the height of the vertical connecting pieces (400) by a cover (401) whose side facing away from the channel is lies the same plane as the inner surface of the adjacent surfaces of padding elements. Construction system according to one of claims 15 or 16, characterized in that the inner surface of the filling elements at the location of the right-angled connecting pieces (300, 600) is completed by a right-angled profile to finish the corners of the inner surface. Construction system according to any one of the preceding claims, characterized in that the girders (4) of the supporting structure (2) along the inside of the outer shell (5) remain free for fixing / supporting the floor and / or ceiling plates. Construction system according to any one of the preceding claims, characterized in that the right-angled connecting pieces serve as connecting pieces which are mounted as the last element during assembly of a building and must first be removed from a building before removing other connecting pieces or pieces. fillers can be removed or replaced. Construction system according to any one of the preceding claims, characterized in that all filling elements (800) have the same shape and dimensions, so that they are interchangeable. Construction system according to any one of the preceding claims, characterized in that the contours of the ground plan of the support structure (2) are aligned on a first regular grid (8) with square compartments. 22. Construction system according to claim 21, characterized in that the outer contour of the floor plan of the outer shell (5) is aligned on a second regular grid (2) with larger square compartments with sides that are in relation to the sides of the compartments of the first grid (8) are shifted outwards by the same distance (c + d). Construction system according to claim 21 or 22, characterized in that the inner contour of the floor plan of the inner shell (6) is aligned on a parallel third regular grid (10) with smaller square compartments with sides that are opposite to the sides of the squares of the first grid (8) are shifted inwards by the same distance (etf). Construction system according to claim 23, characterized in that the dimensions of the compartments of the third grid (10) are a multiple of a selected standard size. Building, characterized in that it is constructed with a building system according to any one of the preceding claims.