NL2020493B1 - Building module for building a building construction - Google Patents

Abstract

A building module is configured for use for building a building structure such as a flat wall and for this purpose comprises a number of panels (11, 12, 13, 14, 15, 16) which are in mutual connection with each other and a panel structure (6) with form internal spaces (7), as well as an active coupling component (31) for coupling the building module (1) to an adjacent similar building module (1) in a coupling position of the building module (1). The active coupling component (31) is displaceable in the building module (1) between a plug-in position to leave room in the coupling position of the building module (1) for a passive coupling component of the adjacent similar building module (1) and a closing position for moving into the coupling position of the building module (1) to be in engagement with the passive coupling component of the adjacent similar building module (1).

Description

Patent center

Θ 2020493

Application number: 2020493

Application submitted: 26 February 2018

Int. Cl .:

E04B 2/16 (2018.01) E04C 2/34 (2019.01) E04B 2/32 (2019.01) E04B 2/30 (2019.01)

0 Application registered: 0 Patent holder (s): August 30, 2019 Leiqo B.V. in Zwolle. 0 Request published: - 0 Inventor (s): Willem Tjibbe Beugelink in Zwolle. 0 Patent granted: August 30, 2019 0 Authorized representative: 0 Patent issued: ir. A.E. Dekker-Garms in Eindhoven. August 30, 2019

54) Building module for building a building construction

A building module is configured for use for building a building structure such as a flat wall and for this purpose comprises a number of panels (11, 12, 13, 14, 15, 16) which are in mutual connection with each other and a panel structure (6) with form internal spaces (7), as well as an active coupling component (31) for coupling the building module (1) to an adjacent similar building module (1) in a coupling position of the building module (1). The active coupling component (31) is movable in the building module (1) between a plug-in position to leave room in the coupling position of the building module (1) for a passive coupling component of the adjacent similar building module (1) and a closing position to be in the coupling position of the building module (1) to be in engagement with the passive coupling component of the adjacent similar building module (1).

NL B1 2020493

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.

Title: Building module for building a building construction

The invention relates to a building module that is configured for use for building a building construction such as a flat wall.

The invention also relates to two types of an elongated, multiple building module, one of which is configured for use for supporting a plurality of building modules, and another type of which is configured for use for covering a multiple on building modules, as well as on a building construction, comprising a plurality of building modules and optionally at least one elongated, multiple building module, and on a method for building a building construction, wherein a number of building modules and optionally at least one elongated, multiple building module are provided.

In many cases, erecting walls for buildings or other types of construction involves a combination of several materials and / or elements, which are then usually assembled on site. Often these materials and / or elements still have to be made to measure, at least partially, in order to subsequently be combined into one whole by means of screws, nails or adhesive materials. In addition, various disciplines, including structural capacity, heat-insulating capacity and (housing for) cabling for various installations, are usually carried out in different phases, each discipline being designed, produced, supplied and installed from its own expertise network. This requires constant coordination and monitoring. Because this process is repeated again and again in almost every building process and in almost every discipline, the wheel is in fact constantly being reinvented. In most cases, this results in a non-flexible, non-reusable end product that has had a major negative impact on the environment, construction time and financial conversion.

On the basis of the fact that walls and the like according to the state of the art are assemblies of countless different materials and elements from various disciplines, faulty connections of heat-insulating materials often occur, resulting in an unnecessary unnecessary loss of energy during commissioning. In addition, due to the frequent use of rigid materials that are linked to each other by means of adhesion, there is little to no flexibility, which does not exactly benefit reuse and, for example, earthquake resistance. With regard to the installation of cabling for various installations, it is often opted to install the cabling housing in advance at predetermined and fixed locations. As a result, there is little to no flexibility should there be a need to install housing elsewhere at a later stage. It is also often decided to just open newly installed walls to install the cabling, after which the openwork parts must be closed again. Even afterwards, if a structure has already been put into use, such an approach is usually necessary. The lack of flexibility entails a lot of unnecessary material and financial damage.

NL 1040286 relates to a frame that is made up of various posts and a number of beams, which can be coupled to each other by means of a kind of tongue and groove connections. A wall can be built using the frame in a modular way. The frames comprise vertical tubes which are provided with flanges which slide under the flanges of an underlying frame by means of a rotational movement. In this way a link between various frames is established. The sleeves of the frames must be turned from above. These tubes are also characterized in that they serve as channels for housing cables and / or pipes for various installations, whereby access to these tubes is limited to one point from the surface.

US 6122880 relates to a module which is made up of panels arranged perpendicularly to each other, which are partially interlocked when stacked on other modules.

DE 10033481 relates to solid building blocks that are provided with stepped interlocking side walls and narrow circular vertical channels. For the coupling system of the building blocks, use is made of cables that are installed in the vertical channels, with which several rows of building blocks can be vertically coupled.

In view of the foregoing, it is an object of the invention to provide a total solution whereby several disciplines are reduced to one operation through the use of a hands-on building module. To this end, the invention provides a building module that is configured for use for building a building construction such as a flat wall, comprising:

- a number of panels which are interconnected with each other and form a panel structure with internal spaces, and

- an active coupling component for coupling the building module to an adjacent similar building module in a coupling position of the building module, which active coupling component is arranged at least partially in an interior space of the panel structure and is movable in the building module between a plug-in position in the coupling position of leaving the building module room for a passive coupling component of the adjacent similar building module and a closing position to engage the passive coupling component of the adjacent similar building module in the coupling position of the building module.

The invention provides a building module that can be used in a modular building system for erecting, for example, walls for buildings or other types of buildings. The building module comprises a number of panels which are mutually connected such that together they form a constructively loadable panel structure. This panel structure has internal spaces that can serve as segments of vertical channels in a wall and / or can be provided with heat-insulating material. Vertical channels in a wall offer space for cabling for various installations or can make it possible to transport ventilation air and / or warm air through a wall. The building modules are interlocked and can be interconnected by means of their coupling components.

Within the scope of the invention it is particularly practical when the panel structure comprises external panels of which a main body surface forms an outer surface of the building module, and is also provided with a number of internal panels of which a main body surface extends into the interior of the panel structure. For example, the panel structure may comprise two outer panels which are positioned at a distance from each other and which extend parallel to each other, at least a number of inner panels extending perpendicular to the outer panels. The building module is preferably designed such that external panels of building modules coupled to each other extend in line with each other and connect to each other.

Compared to the state of the art as disclosed in NL 1040286, the invention offers an improvement in several respects. The invention provides a building module which can be provided with external panels which realize a surface-filling surface on the outer sides of the building module, while in the frame known from NL 1040286 there are only a few edges on which panels still have to be fitted at a later stage. The invention can also make use of various types of plate materials that are already available in the market and with which the cradle-to-cradle principle can simply be applied, while according to NL 1040286 use can only be made of specifically produced elements on which the cradle- to-cradle principle, or applies to a much lesser extent. Furthermore, although the known frames have vertical channels, they are located in the center of the frames and can only be accessed from one specific point. The channels that are obtained in a building construction when the invention is applied are provided in the panel structure, so that they are easier to reach, whereby access is also possible over the entire vertical length. The coupling mechanism provided with the known frames can only be operated from above in a vertical construction direction such as that which is maintained when building a wall. However, the invention provides a coupling mechanism that can be operated from the front or rear (or in general: a side that is freely accessible and that remains after coupling) in the above-mentioned construction direction, in particular when the panel structure of the building module has an external panel in which an opening is present to allow access to the active coupling component from outside the building module.

The active coupling component may comprise an assembly of a screw body such as a bolt and a closing element arranged on the screw body such as a more or less hook-shaped spool with an internal thread, whereby rotation of the screw body leads to a displacement of the closing element. On the basis of this principle, a coupling between the building module and an adjacent building module can be established, in particular when it is provided that the closing element falls under a passive coupling component in the form of a pawl or the like (cylindrical) element in the adjacent building module . This solution is simpler in nature and offers the advantage that less material is needed. It is also the case that use can be made of this coupling mechanism even if the building modules are of a lower design, in which case the building modules can be more strongly clamped to each other, so that a stiffer construction is created. In general it is favorable if the active coupling component can be brought from one position to the other by means of a simple movement. Thus, it is practical when the active coupling component can be moved from the insertion position to the closing position, and vice versa, by means of a linear movement of at least one element thereof, which in the aforementioned example of the embodiment of the active coupling component with a screw body and a screw body thereon fitted closing element is the case.

The invention offers an improvement over the state of the art as disclosed in US 6122880 by providing building modules that have built-in coupling components and internal spaces, which internal spaces can be provided with heat-insulating fillers in advance, while according to US 6122880 only afterwards, once walls have been erected, is it possible to introduce insulating granules. According to the prior art, therefore, more operations are required, and the known building module is less flexible to use and less suitable for reuse. Furthermore, in the set-up known from US 6122880 there is a lower rigidity of the building modules and these must be used in combination with load-bearing structures, while the building module according to the invention is constructionally loadable and can be used without a separate load-bearing construction. For the purpose of improving the way in which the building modules can be put together, it is known from US 6122880 to add internal components such as strips and / or profiled slats, while no further components are required in the building module according to the invention to achieve good interlocking.

In particular, the building modules according to the invention can be provided with recesses / rebates into which an edge portion of panels of adjacent building modules can be slid. Assuming that the panel structure of the building module according to the invention comprises external panels and internal panels, as previously described, it may further be in the context of the invention that on one side of the building module the external panels extend to a higher level then the inner panels, and wherein on an opposite side of the building module the inner panels extend to a higher level than the outer panels so that the building module is adapted to fit a portion of the inner panels of an adjacent building module between the projecting part of the external panels.

Compared to the state of the art as disclosed in DE 10033481, the invention offers an improvement by providing a mutual coupling of building modules via built-in coupling components of the building modules, while cables are used in building modules according to DE 10033481, which then be installed in the building modules through vertical channels. In general, the building module according to the invention offers more possibilities and flexibility on the basis of the panel structure with the internal spaces. The building module according to the invention can for instance comprise at least one filling body which extends at least partially in an internal space of the panel structure. As noted earlier, such a filling body can have heat insulating properties. In any case, such a filling body may be provided in the building modules prior to assembling the building modules. The building module according to the invention can comprise two filling bodies which are located in an open inner space of the panel structure and are freely accessible from outside the building module, each of the filling bodies having a stepped surface for connecting to a complementary stepped surface of a freely accessible filling body of a similar building module. This entails that the building modules can be coupled to each other in a building direction by means of the coupling components, while in a lateral direction the building modules can connect to each other via stepped surfaces. Depending on the desired application, the surfaces for lateral interconnection of the building modules can be easily adapted by providing filler bodies with differently shaped surfaces.

According to a special aspect of the invention, the building module can comprise a filling body which is at least partially located in an interior space of the panel structure in which the active coupling component is also partially located, wherein the filling body is provided with a viewing opening which is positioned for view of the enable active coupling component from outside the building module when it is in one of the inserting position and the closing position and to at least partially obscure the active coupling component from outside the building module when it is in the other from the inserting position and the closing position is located. In a practical embodiment it may then be, for example, that the viewing opening is positioned to allow a view of the active coupling component from outside the building module when it is in the closed position and to at least partially view the active coupling component from outside the building module. to withdraw when it is in the insertion position. In this way, two building modules that are in the coupling position can be subjected to a visual inspection to determine whether the interlocking is complete, in other words, whether the active coupling component of one of the building modules is in the closing position. Visual inspection can be facilitated when the active coupling component and the filling body are at least partially in contrasting colors.

As noted earlier, it may be practical if the active coupling component comprises an assembly of a screw body such as a bolt and a locking element mounted on the screw body, which screw body is fixed in the panel structure of the building module. Furthermore, the active coupling component of the building module according to the invention can comprise a beveled surface, which beveled surface is configured to be in contact with a passive coupling component of an adjacent building module when the active coupling component is in the closed position in the coupling position of the building module.

The aforementioned passive coupling component, like the active coupling component, can be arranged at least partially in an internal space of the panel structure. In any case, it is practical when the passive coupling component is configured to engage in the coupling position of the building module of which it forms part with an active coupling component of an adjacent building module that is in the closed position. In the building module, the passive coupling component and the active coupling component can be arranged at least partially in the same interior space of the panel structure, each of the coupling components serving to connect the building module to another, adjacent, similar building module, on two different sides of the building module . Another and / or additional practical option for the passive coupling component and the active coupling component is that they are located on opposite sides of the building module. The passive coupling component can be designed in various ways. A practical example is that the passive coupling component comprises a rod-shaped body that extends into an interior space of the panel structure.

The panel structure of the building module according to the invention can be designed relatively simply, with only panels extending parallel and perpendicular to each other. In many possible applications of the building module it is desirable that all panels are oriented as uprights in the building module, and none of the panels is oriented transversely thereto, because in this way accessible spaces along the uprights can be realized along the uprights over the full length. The panels can be connected to each other without using connecting elements. In a practical embodiment of the building module according to the invention, the panels can be connected to each other on the basis of brass screw connections.

The building module according to the invention can comprise two active coupling components that are positioned at a distance from each other. Similarly, the building module according to the invention can comprise two passive coupling components which are positioned at a distance from each other. This offers the possibility of providing a double interconnection of the building modules and, if desired, of placing the building modules in a half-brick relationship so that mutual coupling between the building modules by means of coupling components in a single direction suffices, since mutual coupling in a direction transverse thereto is automatically obtained. via the offset arrangement of the building modules.

The invention further relates to an elongated, multiple building module that is configured for use for supporting a plurality of building modules as described above, comprising:

- a number of panels which are interconnected with each other and form a panel structure with internal spaces, and

- a number of passive coupling components, each of which is arranged at least partially in an interior space of the panel structure and is configured to be engaged by an active coupling component of a building module when the building module is placed in a coupling position against the multiple building module and the active coupling component of the building module is brought into the closed position.

An elongated, multiple building module according to the above definition is suitable for use as a base plate, that is, as a structural base that can rest on a surface and / or be anchored, and on which a structure of building modules can be applied. According to a practical possibility, the panel structure of the elongated, multiple building module has three external panels, a main body surface of which forms an outer surface of the multiple building module and which together form a base gutter with a U-shaped cross-section, and a number of internal panels which partially form part of the base gutter. are located.

The invention further relates to an elongated, multiple building module that is configured for use for covering a plurality of building modules as described above, comprising:

- a number of panels which are interconnected with each other and form a panel structure with internal spaces, and

- a number of active coupling components, each of which is arranged at least partially in an interior space of the panel structure and is configured to engage a passive coupling component of a building module when the multiple building module is placed in a coupling position against the building module and the active coupling component of the multiple building module is brought into the closed position.

An elongated, multiple building module according to the above definition is suitable for use as a cover plate. According to a practical possibility, the panel structure of the elongated, multiple building module has three external panels, a main body surface of which forms an outer surface of the multiple building module and which together form a base gutter with a U-shaped cross-section, and a number of internal panels partially located in the base gutter.

The invention further relates to a building construction, comprising a plurality of building modules, such as those described above, which are mutually coupled by means of their coupling components. As noted earlier, the building modules can be placed in a semi-brick relationship. The building construction can comprise at least one elongated, multiple building module as described above, wherein a number of building modules and the multiple building module are mutually coupled by means of their coupling components.

The invention further relates to a method for building a building construction, wherein a number of building modules such as those described above are provided, are brought into a coupling position relative to each other, and are coupled to each other by their coupling components, wherein the active coupling components of the building modules are brought from the insertion position to the closing position, and wherein a building module is not brought into the coupling position with respect to at least one freely accessible building module than that the at least one freely accessible building module is coupled to at least one rear building module is. This method is particularly applicable when the building module is arranged to allow a visual inspection of the position of the active coupling component of the building module. It can then always be checked first whether a building module is correctly coupled to an underlying building module before a next building module is provided and placed against the building module.

In accordance with what has been noted above, according to the method, the building modules can be placed in a semi-brick relationship. At least one elongated, multiple building module as described above can also be provided, wherein a number of building modules are brought into a coupling position relative to the multiple building module and the multiple building module and building modules are coupled to each other by their coupling components. to bring active coupling components of the building modules from the insertion position to the closing position.

The invention will be further elucidated on the basis of the following description of a basic building module, a base plate, a cover plate, and corner building modules that can be used to construct a building construction such as a flat wall. Reference will be made herein to the drawing, in which like reference numerals indicate like or similar parts, and in which: figures 1 and 2 schematically show different perspective top views of a building module according to a practical embodiment of the invention;

figures 3 and 4 schematically show different perspective bottom views of the building module;

figure 5 schematically shows a top view of the building module;

figures 6-8 schematically show different views of a connecting column that forms part of the building module;

Figures 9 and 10 illustrate how an active coupling component of a building module can be engaged with the passive coupling component of an adjacent similar building module;

Figure 11 schematically shows a perspective view of two external panels that form part of the building module;

figure 12 schematically shows a perspective view of a part of a base plate to which a number of building modules can be connected;

Figure 13 schematically shows a perspective view of another portion of the foot plate;

figures 14-16 schematically show different views of a cover plate that can be coupled to a number of building modules;

Figure 17 illustrates how building modules, base plates and cover plates can be coupled to build a corner construction of two upright walls with an opening for a window or the like in one of the walls;

figures 18-20 schematically show different views of a first variant of a corner building module;

figures 21 and 22 schematically show different views of a second variant of a corner building module; and Figure 23 shows an alternative to a panel structure of the building module.

Designations such as "above" and "below" as used in the description of the figures are to be understood as being related to an application of the building modules, base plates and cover plates for erecting upright walls, assuming a normal orientation of such walls such as illustrated in Figure 17.

Figures 1-5 show a practical example of a basic building module 1 according to the invention. Figures 6-8 and 11 show parts of the basic building module 1. Figures 9 and 10 serve to illustrate how an active coupling component 31 of a basic building module 1 can be engaged with the passive coupling component 32 of an adjacent similar basic building module 1. Figures 12 and 13 show a base plate 2 which is adapted to be used to support a number of basic building modules 1. Figures 14-16 show a cover plate 3 that can be coupled to a number of basic building modules 1 in order to cover them. Figure 17 serves to illustrate how basic building modules 1, base plates 2, cover plates 3 and corner building modules can be used for building a building structure 100. Figures 18-22 show two different variants of a corner building module 4, 5. Figure 23 shows an alternative to a part of the basic building module 1.

The basic building module 1 as shown in various figures comprises two external panels 11, 12 which will hereinafter be referred to as front panel 11 and rear panel 12 respectively. The front panel 11 and the rear panel 12 extend parallel to each other in the example shown, and are generally designed as a flat plate with a rectangular shape. Freely accessible main body surfaces of the front panel 11 and the rear panel 12 form outer surfaces of the basic building module 1, and form part of a composite of a number of basic building modules 1 of composite outer surfaces of the whole, as can be seen in Figure 17.

The basic building module 1 shown further comprises two connecting columns 10 which are positioned at a distance from each other between the front panel 11 and the rear panel 12. In the example shown, the connecting columns 10 are identical and each comprise a number of internal panels 13, 14, 15, 16 of the basic module 1, in particular panels 13, 14, 15, 16 which are generally designed as flat plates, more in particular two parallel and spaced apart wide panels 13, 14 extending perpendicularly to the front panel 11 and the rear panel 12 and of which on two opposite sides an edge portion in a slot 21 in the front panel 11 and the rear panel 12 and two narrow panels 15, 16 arranged parallel and spaced apart, which extend perpendicular to the wide panels 13, 14 and of which an edge portion is accommodated on two opposite sides in a groove 21 in the wide panels 13, 14. In this configuration, the narrow panels 15, 16 of the connecting columns extend parallel to the front panel 11 and the rear panel 12.

Based on the configuration of the front panel 11, the rear panel 12 and the two connecting columns 10 described above, a panel structure 6 with internal spaces 7 in the basic module 1 has been realized. A connecting column 10 is shown separately in Figures 6-8. In this representation it can be seen, inter alia, that in any case the wide panels 13, 14 can be provided with rejuvenations 20 to save material and weight. The front panel 11 and the rear panel 12 are shown separately in Figure 11. It can be seen in this representation that these panels 11, 12 can also be provided with rejuvenations 20. Within the scope of the invention, a suitable number can be selected for the connecting columns 10, from one per basic module 1 to as many as are applicable.

In figures 1-4 it can be seen that in the example shown the front panel 11 and the rear panel 12 have staggered positioning with respect to the connecting columns 10, so that on one side of the basic building module 1 that when erecting a standing wall, for example, is bottom side can be indicated, the front panel 11 and the rear panel 12 protrude with respect to the connecting columns 10, and through which on an opposite side of the basic building module 1, that is, a side of the basic building module 1 which when constructing, for example, a standing wall can be indicated at the top, the connecting columns 10 protrude with respect to the front panel 11 and the rear panel 12. This facilitates bringing two basic building modules 1 relative to each other, since that is then a matter of sliding the projecting parts of the connecting columns 10 between the projecting portions of the front panel 11 and the rear panel 12 of a first basic building module 1 of a second basic building module 1, wherein portions of the wide panels 13, 14 of the connecting columns 1 of the second basic building module 1 are included in portions of rebates 21 in the front panel 11 and the rear panel 12 of the first basic building module 1. Thus, the design of the basic building module 1 with the said staggered positioning of the front panel 11 and the rear panel 12 relative to the connecting columns 10 and with the provision of rebates 21 in the front panel 11 and the rear panel 12 is aimed at a good mutual interlocking of the basic building modules 1. Incidentally, for all couplings between panels which are created at the location of a slot 21 in one panel and an edge portion of the other panel, a dovetail form can be chosen, whereby only shifts in a longitudinal direction of the frames 21 are possible, while shifts in all other possible directions are prevented.

For the mutual coupling of the basic building modules 1, the basic building module 1 is provided with a coupling mechanism. In the example shown, an active coupling component 31 and a passive coupling component 32 are arranged in each of the connecting columns 10, on the underside and the top of the basic building module 1, respectively. The active coupling component 31 is characterized in that this component is movable between a plug-in position and a closing position. The active coupling component 31 on the underside of a first basic building module 1 and the passive coupling component 32 on the top of a second basic building module 1 are configured for cooperation with each other, in particular to come into engagement with each other when the basic building modules 1 are brought into a coupling position and the active coupling component 31 is brought from the insertion position to the closing position.

The coupling mechanism of the basic building module 1 can be designed in any suitable manner. In the example shown, it has been decided to have an assembly of a bolt 33 and a spool 34 mounted on bolt 33 for the active coupling component 31, as can be clearly seen in figures 3 and 4, and for the passive coupling component 32 a rod-shaped body 35, as can be seen in figures 2, 6 and 8. On the underside of the connecting column 10, the bobbin 34 protrudes with respect to the panels 13, 14, 15, 16, in the space located on the underside of the basic module 1 between the front panel 11 and the rear panel 12. The spool 34 is provided with a beveled surface 36. The bolt 33 is received in openings 37a, 37b in the narrow panels 15, 16 of the connecting column 10. The rod-shaped body 35 extends into an internal space 7 which is between the panels 13 , 14, 15, 16 of the connection column 10 is defined.

The active coupling component 31 is in the inserting position as standard, so that two basic building modules 1 to be coupled to each other can be placed unhindered against each other and thereby brought into a coupling position, wherein the spool 34 of one basic building module 1 is in the space 7 of the other basic building module the rod-shaped body 35 is received therein. In order to ensure from this situation that the spool 34 of one basic building module 1 comes into engagement with the rod-shaped body 35 of the other basic building module 1, the bolt 33 on which the spool 34 is located must be turned. Any suitable device can be used for this purpose. In the example shown, the front panel 11 is provided with openings 38 at appropriate locations, whereby access to the bolt 33 for such an aid is made possible from outside the basic module 1. Thus, the establishment of a coupling between two basic building modules 1 comprises the steps of bringing the basic building modules 1 into coupling position and causing an active coupling component 31 of one basic building module 1 to engage with each other with the passive coupling component 32 of the other basic building module 1 by moving the active coupling component 31 from the insertion position to the closing position, an aid being inserted through an opening 38 in the front panel 11. When the bolt 33 is turned and the bobbin 34 moves as a result, the bobbin 34, via its chamfered portion 36, becomes increasingly stuck against the rod-shaped body 35. A coupling between the active coupling component 31 of the one basic building module 1 and the passive coupling component 32 of the other basic building module 1 is made visual in Figures 9 and 10.

Depending on the desired application of the basic building modules 1, it can be advantageous if they are provided with filling bodies of heat-insulating material. Such filling bodies can be placed in one or more of the interior spaces 7 of the panel structure 6. In the example shown, the basic building module 1 comprises such filling bodies 40 at five different places, namely in the space 7 between the panels 13, 14, 15, 16 of the two connecting columns 10, in a central space 7 of the basic building module 1 between the two connecting columns 10, and in an open space 7 on two sides of the basic building module 1.

In the example shown, the filling bodies 40 which are located on the sides of the basic building module 1, where the inner space 7 of the panel structure 6 is open, are designed in a stepped manner so that a good connection of the basic building module 1 to an adjacent basic building module 1 is possible on those sides. wherein the stepped surface 41 of the filling body 40 of the one basic building module 1 is precisely positioned against the stepped surface of the filling body 40 of the other basic building module 1. Furthermore, in the example shown, the filling bodies 40 which are located in the connecting columns 10 at the top are provided with an opening 42, as can be clearly seen in figure 5. This opening 42 is a viewing opening and is positioned such that the spool 34 of the active coupling component 31 is only visible through it when the spool 34 is in the closed position. It is therefore always possible for a person who works with the basic building modules 1 to inspect from above whether the coupling between basic building modules 1 is complete, or whether the bolt 33 of the active coupling component 31 still needs to be turned.

Figures 12 and 13 relate to a so-called base plate 2. In comparison with the basic building module 1, the base plate 2 can be seen as a multiple building module whose top side has the same shape characteristics as the top side of the basic building module 1, so that a basic building module 1 meets the same the base plate 2 can be coupled as to a basic building module 1. In a functional sense, the base plate 2 can be referred to as a row of concatenated basic building modules 1 with only a passive coupling component 32 on its top while the active coupling component 31 is absent and a bottom is located on the bottom. bottom panel 17. On the basis of the comparison with a row of concatenated basic building modules 1, although the base plate 2 has an elongated shape, it is furthermore at the top thereof of a similar design as the basic building module 1. Thus, the base plate 2 comprises an elongated front panel 11, an elongated rear panel 12 and a plurality of connecting columns 10.

In the base plate 2, the front panel 11 and the rear panel 12 with the bottom panel 17 form a base gutter 8 with a U-shaped cross section. In the same way that this is possible with the basic building module 1, the base plate 2 can be provided with suitable filling bodies 40. A filling body 40 with a stepped surface 41 can be arranged on a side (end face), as previously described in connection with the basic building module 1. This option is shown in figure 12. On the other hand, as shown in figure 13, a filling body 40 with a flat surface can be arranged on one side, and the basic gutter 8 can be closed by means of a closing panel 18. Incidentally, for the basic building module 1, the aforementioned shape from the side with a filling body 40 with a flat surface and a closing panel 18 is also possible.

The bottom panel 17 can be used to adjust the base plate 2 and attach it to a base. The spaces 7 which are present at the front of the base plate 2 between the front panel 11 and the narrow panel 15 of the connecting columns 10 and / or the spaces 7 which are located at the rear of the base plate 2 between the rear panel 12 and the narrow panel 16 of the connecting columns 10 are present can be used to effect the fixing of the base plate 2 to a base from above, for example by drilling holes therein and applying suitable fixing means.

Figures 14-16 relate to a cover plate 3 which, like the base plate 2, is a multiple building module. A difference with the base plate 2 is that the underside of the cover plate 3 has the same shape characteristics as the underside of the basic building module 1, so that a basic building module 1 can be coupled to the cover plate 3 in the same way as to a basic building module 1. In a functional sense the cover plate 3 are referred to as a row of concatenated basic building modules 1 with only an active coupling component 31 on the underside thereof, while the passive coupling component 32 is absent and a top panel 19 is present at the top. The cover plate 3 serves to cover a number of basic building modules 1.

In a similar manner as is the case with the base plate 2, the cover plate 3 comprises an elongated front panel 11, an elongated rear panel 12 and a plurality of connecting columns 10, the front panel 11 and the rear panel 12 with the top panel 19 having a base gutter 8 having a base trough 8 U-shaped cross section. On the basis of the foregoing, it will be clear that when using base plates 2 and cover plates 3 in a construction 100 to be built up, the base gutter 8 of the cover plate 3 has an inverted orientation with respect to the base gutter 8 of the base plate 2. In the same way as on which this is possible with the basic building module 1 and the base plate 2, the cover plate 3 can be provided with suitable filling bodies 40.

Figure 17 illustrates how basic building modules 1, base plates 2 and cover plates 3 can be used to form a building structure 100. In the example shown, which is an arbitrary example, the building structure 100 is a corner structure of two upright walls 101 with an opening 102 for a window or the like in one of the walls 101. The building structure 100 can be built on a substrate in a simple manner by mounting base plates 2 on the substrate and then placing base building modules 1 on top of them and effecting couplings between the various layers using the coupling components 31, 32 of the basic building modules 1 and the base plates 2. Where applicable, cover plates 3 can be used to cover a number of basic building modules 1 at the top thereof. During the process, the desired couplings can always be made by placing the basic building modules 1 and the cover plates 3 in a coupling position, simply by stacking the basic building modules 1 and the cover plates 3 on an already formed layer, and then from the front of the basic building modules 1 and the cover plates 3 to bring the respective active coupling component 31 using a suitable aid that can be inserted through an opening 38 in the front panel 11 from the insertion position to the closing position. Before a next basic building module 1 is installed, it is possible to check from above via the viewing opening 42 whether the coupling between layers already formed is complete. Closing panels can be used at the ends of basic building modules 1 and at other suitable places in the building structure 100 to realize a completely closed appearance of the building structure 100.

By means of the coupling components 31, 32, the basic building modules 1, the base plates 2 and the cover plates 3 are coupled in the vertical direction. It is advantageous if the basic building modules 1 have at least two active coupling components 31 and two passive coupling components 32, as is the case in the example shown, so that the basic building modules 1 can be arranged in a semi-brick relationship. A basic building module 1 can then always be coupled to two other basic building modules 1, so that a building construction 100 is obtained in which basic building modules 1 are not only coupled in the vertical direction, but also in the lateral direction.

On the basis of the foregoing, it can be concluded that a high degree of flexibility in building building structures 100 is achieved when the invention is applied. The precise design of the basic building module 1 according to the invention can be easily adapted to the requirements of a building construction 100. Dimensions of the interior spaces 7 of the panel structure 6 can be varied by choosing a different interrelation of panels and adapting the design of the panels, in particular the positioning of rebates 21 in the panels. Filling bodies 40 may or may not fit into the panel structure 6 as desired, with which, for example, heat-insulating properties can be given to the basic building modules 1, and cabling or the like can be simply laid through the internal spaces 7, it being noted that the interior spaces 7 of basic building modules 1 coupled to each other lie in line with each other and on that basis form continuous channels in a building construction 100. No additional fasteners are required to realize the required couplings between basic building modules 1. Safety is largely guaranteed because the coupling components 31, 32 of the basic building modules 1 are located inside the building 100 to be erected, but a possibility of inspecting the coupling is provided. If desired, a building structure 100 or a part thereof can be demolished again, in which case couplings between the active coupling components 31 and the passive coupling components of mutually coupled modules can be undone, so that the modules can simply be taken apart and, if desired, for a different application. can be destined.

Figures 18-22 relate to two different variants of a corner building module 4, 5. A corner building module 4, 5 is arranged on two sides thereof to connect laterally to a basic building module 1. In contrast to what is the case with the basic building module 1, the said two sides are not opposite. In the examples shown, the two sides mentioned are chosen such that the placement of the one connecting basic building module 1 is at an angle of 90 ° with the other connecting basic building module 1. As explained earlier, connection between basic building modules 1,4,5 can take place via a stepped surface 41 of a filling body 40.

Both corner building modules 4, 5 shown comprise a panel structure 6 with two connecting columns 10, wherein in each connecting column 10 an active coupling component 31 and a passive coupling component 32 are arranged. A difference between the variants of the corner building modules 4, 5 shown is that in the one corner building module 4 as shown in figures 18-20, the mutual orientation of the connecting columns 10 is chosen such that the active coupling components 31 are movable in the opposite direction and the passive ones coupling components 32 extend in the same direction, while in the other corner building module 5 as shown in Figs. 21 and 22, the mutual orientation of the connecting columns 10 is chosen such that the active coupling components 31 are movable in directions that differ 90 ° from each other and the passive Coupling components 32 also extend in directions that are 90 ° apart. For the sake of completeness, it is noted that in the basic building module 1, the connecting columns 10 have the same orientation, the active coupling components 31 being movable in the same direction and the passive coupling components 31 extending in the same direction.

It will be clear to a person skilled in the art that the scope of the invention is not limited to the examples discussed above, but that various variations and modifications thereof are possible without departing from the scope of the invention as defined in the appended claims.

For the sake of completeness, it is noted that concepts such as "parallel" and "perpendicular" should be understood for their practical meaning, whereby a certain degree of deviation from the theoretical meaning is implicit.

The foot plates 2 and cover plates 3 shown are designed as elongated, multiple building modules. This does not alter the fact that within the scope of the invention also foot plates 2 and cover plates 3 are conceivable which are adapted to support or cover a single basic building module 1 or a part thereof.

The panel structure 6 can be realized on the basis of a number of separate panels 11, 12, 13, 14, 15, 16 which are connected to each other during an assembly process, as is the case in the example shown. The manner in which the required connections between the panels 11, 12, 13, 14, 15, 16 are realized can be chosen freely within the scope of the invention. For example, in addition to the shown option of a connection to rebates 21 in one panel for receiving an edge portion of another panel, options such as gluing and / or the use of connecting elements such as screws or nails are available. Another option for the panel structure 6 is that it is formed as one integral whole, for example by pressing, punching or extruding, as shown in Figure 23. The panel structure 6 can be made of any possible suitable material or any possible suitable combination of materials. to be. An embodiment of the panel structure 6 as a single integral whole in carbon composite can be chosen, for example, to realize a high structural bearing capacity.

Claims (30)

CONCLUSIONS A building module (1) configured for use for building a building structure (100) such as a flat wall (101), comprising: - a number of panels (11, 12, 13, 14, 15, 16) which are mutually connected and form a panel structure (6) with internal spaces (7), and - an active coupling component (31) for coupling the building module (1) to an adjacent similar building module (1) in a coupling position of the building module (1), which active coupling component (31) is at least partially in an internal space (7) of the panel structure (6) is arranged and is movable in the building module (1) between an insertion position to leave room in the coupling position of the building module (1) for a passive coupling component (32) of the adjacent similar building module (1) and a closing position to engage the passive coupling component (32) of the adjacent similar building module (1) in the coupling position of the building module (1). Building module (1) according to claim 1, comprising at least one filling body (40) which is at least partially located in an interior space (7) of the panel structure (6). The building module (1) according to claim 2, wherein the filling body (40) has heat insulating properties. Building module (1) according to claim 2 or 3, comprising a filling body (40) which is at least partially located in an internal space (7) of the panel structure (6) in which the active coupling component (31) is also partially located, the filling body (40) is provided with a viewing opening (42) which is positioned to allow a view of the active coupling component (31) from outside the building module (1) when it is in one of the inserting position and the closing position and around the at least partially obscure the active coupling component (31) from outside the building module (1) when it is in the other of the insertion position and the closing position. Building module (1) according to claim 4, wherein the viewing opening (42) is positioned to allow a view of the active coupling component (31) from outside the building module (1) when it is in the closed position and to the active coupling component ( 31) from outside the building module (1) at least partially hidden from view when it is in the insertion position. Building module (1) according to one of claims 2-5, comprising two filling bodies (40) which are located in an open internal space (7) of the panel structure (6) and are freely accessible from outside the building module (1), wherein each of the filling bodies (40) has a stepped surface (41) for connection to a complementary stepped surface (41) of a freely accessible filling body (41) of a similar building module (1). Building module (1) according to one of claims 1-6, wherein the active coupling component can be brought from the inserting position to the closing position and vice versa by means of a linear movement of at least one element thereof. Building module (1) according to one of claims 1-7, wherein the active coupling component (31) comprises an assembly of a screw body (33) and a closing element (34) arranged on the screw body (33), which screw body (33) the panel structure (6) is attached. The building module (1) according to any of claims 1-8, wherein the active coupling component (31) comprises a beveled surface (36), which beveled surface (36) is configured to be connected to a passive coupling component (32) of an adjacent building module ( 1) to be in contact when in the coupling position of the building module (1) the active coupling component (31) is in the closing position. Building module (1) according to one of claims 1-9, comprising a passive coupling component (32) which is arranged at least partially in an internal space (7) of the panel structure (6), which passive coupling component (32) is configured to being engaged in the coupling position of the building module (1) with an active coupling component (31) of an adjacent similar building module (1) which is in the closed position. The building module (1) according to claim 10, wherein the passive coupling component (32) and the active coupling component (31) are arranged at least partially in the same internal space (7) of the panel structure (6). The building module (1) according to claim 10 or 11, wherein the passive coupling component (32) and the active coupling component (31) are located on opposite sides of the building module (1). The building module (1) according to any of claims 10-12, wherein the passive coupling component (32) comprises a rod-shaped body (35) that extends into an interior space (7) of the panel structure (6). Building module (1) according to one of claims 1-13, wherein the panel structure (6) comprises external panels (11, 12) of which a main body surface forms an outer surface of the building module (1), and number of internal panels (13, 14, 15, 16) of which a main body surface extends into the interior of the panel structure (6). Building module (1) according to claim 14, wherein the panel structure (6) comprises two external panels (11, 12) which are positioned at a distance from each other and which extend parallel to each other, and wherein at least a number of internal panels (13, 14) extend perpendicular to the outer panels (11, 12). Building module (1) according to claim 14 or 15, wherein on one side of the building module (1) the external panels (11, 12) extend to a higher level than the internal panels (13, 14, 15, 16), and wherein on an opposite side of the building module (1) the internal panels (13, 14, 15, 16) extend to a higher level than the external panels (11, 12). A building module (1) according to any of claims 14-16, wherein an external panel (11, 12) of the panel structure (6) is provided with an opening (38) for access to the active coupling component (31) from outside the building module (1) possible. A building module (1) according to any of claims 1-17, wherein the panels (11, 12, 13, 14, 15, 16) of the panel structure (6) are connected to each other without the use of connecting elements. Building module (1) according to one of claims 1-18, wherein the panels (11, 12, 13, 14, 15, 16) of the panel structure (6) are connected to each other on the basis of tongue and groove connections. Building module (1) according to one of claims 1-19, comprising two active coupling components (31) that are positioned at a distance from each other. The building module (1) according to any of claims 1 to 20, comprising two passive coupling components (32) that are positioned at a distance from each other. An elongated, multiple building module (2) configured for use for supporting a plurality of building modules (1) according to any of claims 1-21, comprising: - a number of panels (11, 12, 13, 14, 15, 16, 17) which are mutually connected and form a panel structure (6) with internal spaces (7), and - a number of passive coupling components (32) which are each arranged at least partially in an interior space (7) of the panel structure (6) and are configured to be engaged by an active coupling component (31) of a building module (1) when the the building module (1) is placed in a coupling position against the multiple building module (2) and the active coupling component (31) of the building module (1) is brought into the closed position. The elongated, multiple building module (2) according to claim 22, wherein the panel structure (6) comprises three external panels (11, 12, 17), a main body surface of which forms an outer surface of the multiple building module (2) and which together form a base gutter (8). ) with a U-shaped cross-section, and a number of internal panels (13, 14, 15, 16) partially located in the base gutter (8). An elongated, multiple building module (3) configured for use for covering a plurality of building modules (1) according to any of claims 1-21, comprising: - a number of panels (11, 12, 13, 14, 15, 16, 17) which are mutually connected and form a panel structure (6) with internal spaces (7), and - a number of active coupling components (31), each of which is arranged at least partially in an interior space (7) of the panel structure (6) and which is configured to engage a passive coupling component (32) of a building module (1) when the multiple building module (3) is placed in a coupling position against the building module (1) and the active coupling component (31) of the multiple building module (3) is brought into the closed position. The elongated, multiple building module (3) according to claim 24, wherein the panel structure (6) comprises three external panels (11, 12, 17), a main body surface of which forms an outer surface of the multiple building module (3) and which together form a base gutter (8). ) with a U-shaped cross-section, and a number of internal panels (13, 14, 15, 16) partially located in the base gutter (8). A building construction (100) comprising a plurality of building modules (1) according to any of claims 1-21 which are mutually coupled by means of their coupling components (31, 32). The building structure (100) according to claim 26, wherein the building modules (1) are placed in a semi-brick relationship. A building structure (100) according to claim 26 or 27, comprising at least one of the elongated, multiple building module (2) according to claim 22 or 23 and the elongated, multiple building module (3) according to claim 24 or 25, wherein a number of building modules ( 1) and the multiple building module (2, 3) are mutually coupled through their coupling components (31, 32). A method for constructing a building structure (100), wherein a number of building modules (1) according to one of claims 1-21 are provided, brought relative to each other in a coupling position, and through their coupling components (31, 32) be coupled to each other, whereby the active coupling components (31) of the building modules (1) are brought from the insertion position to the closing position, and wherein a building module (1) is not positioned earlier than At least one freely accessible building module (1) is brought into the coupling position then the at least one freely accessible building module (1) is coupled to at least one rear building module (1). The method of claim 29, wherein the building modules (1) are in a half 10 stone bond can be placed. 1/11 2/11