NL1000911C2 - Wall construction element. - Google Patents

Description

Wall construction element.

The invention relates to a wall element for the high-rise building, at least consisting of one building element enclosing at least one continuous hollow space, at least partly consisting of a geopolymer material, wherein at least side walls of the building element are intended for connection to other building elements and the building elements have the form of construction rods glued together laterally to form the wall element and wherein the hollow spaces 10 extend in the longitudinal direction of the construction rods.

Wall-building elements for high-rise buildings, however, to the same extent for ceilings and floors, must, as is known, be designed and planned from a constructional point of view, but also equally with regard to heat and sound insulation 15. Requirements with regard to the preventive fire protection, which in general require special measures when using organic materials, arise in order to ensure that any toxic swelling gases that may arise do not pose any danger. In order to keep the amount of manual work in view of the costs involved as low as possible when erecting construction works, the use of industrially pre-manufactured construction parts is effective. On the other hand, with increasing prefabrication of such building parts, the flexibility on the building side decreases, especially in the event of subsequent changes. The quantity of industrial prefabrication must therefore be limited.

German patent application P-43.30.762.0 discloses a wall element for the high-rise construction, which consists of at least one cavity enclosed building block made of a geopolymer material, which is of trapezoidal shape in external cross-section, whereby by inserting between made of material-like fitting parts, which are glued to the building blocks with a homogeneous material, that is to say, again using a geopolymer material, flat or polygonal curved wall elements can be produced. The cavities indicated can be used to accommodate 5 installation devices, to conduct a heat transfer medium, to improve the heat and sound insulation properties, but also to use static reinforcement of the wall element. The separate building block can also be manufactured partly as a foam material 10 and partly without foam, so that it is possible to provide an increased heat conductivity with this wall part, so that, for example in the case of outer walls, these parts are suitable for absorption and further conduction of striking heat radiation.

German wall application 44.01.033 discloses a wall element, which is composed of separate, rectangular-block-shaped building blocks, which are joined together laterally to form a wall element, in particular glued together. Seen in cross-section, the separate building block is characterized, starting from one side, by a sandwich-like construction, wherein on the other side lying opposite this side, a continuous hollow space is provided, which serves as a medium pipe for accommodating installation devices or also a building static or heat insulating material is usable. In order to form this hollow space, the outer layer of the building block facing the relevant side is curved and protrudes from the base of the building block. At least the outer layers of the building block consist for reasons of fire protection of an inorganic material, in particular a geopolymer material, wherein layers applied between these outer layers can consist of non-foamed or foamed material, taking into account the use of the wall element. In principle, an organic foam material, for example polyurethane 1000911 3, can also be used inside the building block. Within the boundaries of a wall element, the cavities of the building blocks may form a two-dimensional pipe network and be incorporated in the cycle of a heat transfer medium, so that two-dimensional cooling or heating of a space is possible.

From US patent 4,952,450, various products consisting of foamed plastic or synthetic resin are known, which are composed of cylindrical, tubular building elements. The building elements can be placed side by side in a plane, which forms a layer, by welding or gluing together. However, it is also possible to combine several such layers to form a block, the number of the tubular and the cylindrical, ie solid rod, building elements varying according to the desired elasticity properties of the product. Intermediate layers of a foam plastic material may also be arranged between the individual layers. However, the products manufactured in this way are only cushions, filling parts, swimming bodies, floating bodies and the like, so not wall elements for high-rise buildings, where the structural properties are in the foreground. It also concerns products in which the question of flammability plays at least no distinctive role.

US Pat. No. 1,796,316 discloses a wall element consisting of separate, laterally placed construction rods, which consist of a fibrous material mixed with a cementitious binder. However, they can also consist of wood fiber material. The essential feature of the construction rods is a centrally arranged cylindrical continuous hollow space extending in their longitudinal direction, of which walls - which again extend over the entire length of the construction rod - radially extending, with ribs of equal width to each other stick out. Variations of this cross-sectional geometry 1000911 4 have a substantially similar structure. The front and the back of a wall element formed from these construction rods, which can also be used in the context of roof structures, can be covered with cladding elements, the cavities bounded by ribs lying against each other, as well as the central hollow space of the construction rods can be at least partially filled with concrete and furthermore one side of the wall element can be covered by metal ribs. In total, a wall element which is extremely inhomogeneous in terms of material is produced, which, in accordance with the concrete choice of composition as regards materials of the construction rods, also has a relatively high organic proportion.

From German patent application 41.24.982 resp. Dutch patent application 92.00890 is known of a tubular building component, for instance consisting of a geopolymer material or ceramic, wherein parts of the peripheral region are porous, namely with open pores, so that this building component for air-conditioning, in particular for aeration and / or room ventilation is suitable. Due to the partly porous design, moist warm air flowing inside this building part can simultaneously serve to bring the room to the desired temperature and to humidify the room, whereby walls with large surfaces can be manufactured from these building parts , about which a heat and moisture exchange is simultaneously given between the space to be air-conditioned on the one hand and the internal space of the building parts on the other.

Finally, German patent application 44.00.533 discloses a roof frost brick, which essentially consists of a basic body, which is triangular in cross-section and enclosing in its longitudinal direction, a hollow body, which is made of a geopolymer material 35 and which its underside is designed and fitted for sealing against roof surfaces. The hollow space of this roof frost block defines a 1000911 air conduction channel, which, by butting against each other, extends several of such roof frost blocks over the entire length of a roof frost.

Geopolymeric materials are, for example, from 5 "Ceramic Matrix for Composites", Ceram. Scary. Sci. Proc., Pages 835 to 841, are known from German patent specification 35.12.515-C2, from German patent specification 32.29.339-C2 and from German patent specification 33.03.409-C2. These materials can be used in the construction industry, inter alia, in numerous modifications, for example foamed and non-foamed, reinforced or unreinforced. They essentially have the properties of ceramic materials, but the cost and energy-intensive firing process characteristic of the latter material group is omitted. For example, these materials can be processed by molding and foaming and they cure in a mold at temperatures below 100 ° C. On the other hand, these materials can be subsequently ceramicized via a high-temperature treatment.

It is the object of the invention to further develop a wall element of the type indicated in the preamble with high flexibility on the construction side with a view to mounting and use properties.

This task is solved with such a building element 25 according to the invention with the measures that the hollow spaces extend centrally in the direction of the longitudinal axis of the building rods, that the building rods have a length corresponding to the height of a recess, and that the front and / or the back of the wall element are covered with cladding elements, which consist of profiled metal sheet or of plates of geopolymer material or of ceramic.

The starting point here is a wall element, which is composed of building elements formed as modules and constructed as construction rods, which each enclose hollow spaces. The flexibility in the use of these construction rods is ensured by the cavities mentioned, so that the 1000911 6 construction rods as such form only the outer frames. The construction rods consist of a geopolymer material and on this basis embrace all the advantages of this material, which, inter alia, consists in the easy mechanical, in particular machining processability, which is of great significance in the event of structural changes afterwards. These advantages furthermore consist in the possibility of homogeneous gluing of the building elements for the formation of wall elements, so that the external structure of the wall element can be considered to be completely homogeneous from a material viewpoint. The use of the wall elements formed from these construction rods can also take place in a multitude of ways within a high-rise structure. For example, the load-bearing or only supporting walls, partitions, but equally ceilings and floors, stairs and so on, are also eligible. With different building physics requirements with regard to statics, heat and sound insulation, but also the installation technology, the air-conditioning and the heating of 20 rooms to the correct temperature, one can, among other things, by using the cavities accordingly and by conditioning, in particular structuring of the geopolymeric material can be easily taken into account. The construction rods have a length corresponding to the height of a storey - it is thus a particularly efficient embodiment. In particular, when the construction rods are formed from a geopolymer foam material, corresponding to the relatively low density, nevertheless no major assembly and, in particular, handling technical problems arise. The distribution elements covering the front and back of the wall element can be glued to the construction rods - however, a detachable connection in the form of a screw fastening is also suitable.

The features of claim 2 are directed to the main uses of said hollow spaces of the building rods according to the invention. 1000 9 1 1 7, for example, are filled with concrete, possibly in reinforced form, with a view to improving the structural load-bearing capacity. However, they can also serve for the installation of installation components such as, for example, pipelines, but also for electric cables. Finally, the cavities can be used directly as a media pipe for fresh water or waste water, but also for conducting a heat transfer medium within a heating circuit or for the purpose of aeration and venting as well as the air conditioning of rooms. In all these cases, the construction rods are arranged and are connected in such a way that a pipe network closed for use as a media pipe presents itself.

The features of claims 3 and 4 are directed to the geometrical design of the construction rods, in view of their external cross-section. Based on this, they will regularly have a rectangular, a square or an octagonal cross section.

The construction rods are glued together in accordance with the features of claims 5 and 6, which can be done using yet another geopolymer material, so that a homogenous overall structure is obtained. However, this can also be done to the same extent by means of a mineral glue based on a cement-polymer dispersion, the latter of which entails the advantage of a certain elasticity.

For example, in the case of the construction of the cross section of the construction rods in the manner of a regular octagon, when they are placed sideways against each other, triangular recesses are formed, which in turn can be used in many ways. This use can be carried out according to the features of claim 7 with a view to improving the static load-bearing capacity or the transverse stiffness of the wall element - however use for the purpose of the installation technique is also eligible.

According to the features 1000 911 8 of claim 8, the construction rods can only be foamed over part of their circumference and otherwise be compact, that is to say non-foamed. This has the advantage that when conducting a heat transfer medium 5 inside the said cavities, essentially only a heat transfer to the side of the construction rod takes place, which is compactly set, while on the other hand, in the other directions, which are foamed adjustment of the construction rod material, no appreciable heat transfer takes place. This embodiment can be used particularly advantageously in the context of the space heating effected via the wall or the floor. Further uses exist in the case of use in the context of external walls, in that heat radiation falling on the compact side of the construction rods is absorbed and can be dissipated via a heat-conducting medium flowing into the interior of the cavity and usable in the context of a heating system. is.

In accordance with the features of claim 9, at least the layers of the construction rods adjoining the internal surfaces of the cavities are compact, that is to say, foamed. This is especially useful when the hollow space is used immediately for guiding media. In principle, however, the total surface area of the construction rod can also be compact in this sense.

Further modifications concern the circumferential open pore setting of the construction rod material. Since such an embodiment takes place over at least a part of the circumference, it is also possible to make a contribution to the room air-conditioning via this, because a moist, i.e. water-laden, heat-carrying medium is conducted via the hollow space, which, on the basis of the open-pored version, can exit from the construction rod to the environment. Conversely, a contribution to the venting, in particular to the removal of turbulent air laden with harmful substances, can also be made in this way simultaneously. Due to the large number of flow channels existing via the open-pore embodiment, this embodiment has the advantage of the lowest possible noise development.

The invention will be explained in more detail below with reference to the exemplary embodiments shown diagrammatically in the drawings.

Figure 1 shows a cross section of a wall element according to the invention.

Figure 2 shows another embodiment of a wall element according to the invention in cross section.

Figure 3 shows an enlarged partial representation of a wall element according to the invention.

In Fig. 1, cross-section 1 indicates rectangular construction rods consisting of a geopolymer foam material, which are put together sideways such that a flat front and back side 3 of a wall element are formed. The construction rods 1 are at their tangent points either dust homogeneous, i.e. using a geopolymer material, which can be foamed or foamed, or a mineral adhesive based on a cement-polymer dispersion. The use of the latter glue provides the wall element with an increased elasticity against sliding loads parallel to the longitudinal sides of the construction rods 1.

The construction rods 1 can in principle have a length corresponding to the height of a deepening. However, they can also have shorter dimensions and are glued on their ends to provide the required length. For this bonding, similar points of view apply as for the longitudinal bonding, ie this can be done either with a homogeneous material or on the basis of a cement-polymer dispersion.

1000911 10

Each construction rod 1 has a centrally arranged, hollow cross-section circular space 4 extending along its longitudinal axis, which extends continuously over the entire construction rod 1 and can be used in many ways.

A first use can consist of filling the hollow space with concrete 5, namely with concrete made on the construction site, which can be used reinforced or unreinforced. Via such a concrete filling, the static load-bearing capacity of the construction rod is substantially increased, so that a wall element, which is formed at least partly from such construction rods 1, of which the hollow spaces 4 are filled with concrete, can be used in the context of load-bearing or at least load-bearing walls 15.

While the static properties of this wall are significantly influenced by the concrete, the good heat insulating properties of the geopolymeric foam material further determine the heat insulation values of the single construction rod.

A further use of the hollow spaces 4 may consist of at least one pipeline 6 being accommodated therein. This pipeline 6 can be such a conduit for the conduction of fresh water or industrial water or waste water. A pipeline of a heating system is also eligible, in which the cavity 4 can otherwise be filled with a foam material, preferably on a mineral basis, to further improve the thermal insulation.

The hollow spaces 4 can further be used to conduct electrical cables 7. Since the material of the construction rods 1, namely the geopolymer foam, can be machined in a simple manner, that is to say by drilling, sawing and the like, in this way electrical switching devices can be accommodated at desired locations of the construction rod, which lines 1000911 11 received in the interior of the cavity 4 cooperate. If necessary, the bores in the walls of the construction rod caused by such switching devices can also be closed again, namely because a construction part corresponding to the dimensions of the bore is inserted there and is preferably glued to the walls in a homogeneous manner.

Finally, the hollow spaces 4 can also continue to exist as hollow spaces, so that they only contribute to the heat and sound insulation. Furthermore, a use of the hollow spaces 4 is directly suitable as a media guide, in which case the material of the construction rods 1 is compact, that is to say pore-free, in the immediate vicinity of the inner walls of the hollow spaces 4. According to the type of the media guided via the cavities 4, for example waste gases, acid condensates, etc., a special coating on the inside of these cavities 4 can further be provided.

The construction rods 1 can in principle be arranged vertically within the framework of a wall element. However, a horizontal arrangement or a mixed vertical horizontal arrangement is equally eligible.

There is further the possibility of arranging the construction rods 25 in the context of ceilings, floors, stairs and the like in building elements which extend partly horizontally.

Plate-like cladding elements are indicated by 8, which cover the front side 2 and the back side 3 as surface 30 and may consist of, for example, compact geopolymer material, cellular ceramic plates or brick. These cladding elements are in a glued connection with the construction rods 1, in the case of cladding elements of geopolymer material preferably a fabric-high gluing is considered. In principle, however, a mineral adhesive based on a cement-polymer dispersion can also be used for this bonding. Finally, the cladding elements 8 can also be detachably connected, for example by screwing them to the construction rods. This is obvious if frequent maintenance work or changes to the installation devices extending inside the cavity 4 are to be taken into account.

The cladding elements 8 can furthermore also consist of profiled metal sheet, and it is further possible to use plate elements of reinforced geopolymer material here.

The construction rods of the other exemplary embodiments are characterized in that they are material homogeneous, in particular material homogeneous in structure. This means that they have equal heat insulation properties on all sides as well as heat storage and heat radiation absorption properties. In particular when the cavities 4 are used as a network extending over a larger surface area to conduct a heat transfer medium, for instance air, which is either forcedly guided by means of a blower or is subjected to a pure convection radiation , it is possible to design the individual construction rods on one side from compact, that is to say non-foamed, geopolymer material and foamed on the other side. The construction rod can thereby absorb heat radiation via the former side, in which case a dark coloring is effective, in which case this absorbed heat is absorbed by the medium flowing into the interior of the cavities 4 and for the purpose of heating up the temperature. the building can be used. It is thus possible, in the frame of a building, to design the side of the walls facing the sunny side, in particular of its construction rods, on the outside of solid geopolymer material, and on the sunny side facing away, on the other hand, the construction rods on the inside solid. In case the hollow spaces 4 1000911 13 of the building rods - based on at least part of the building construction - form a closed pipeline network, in this way it is possible to heat radiation via the sun-facing side of the building rods. to absorb solar radiation, and by means of this heat also to heat the side of the building facing away from the sun via the heat transfer medium flowing into the cavities 4.

However, the geopolymeric material also offers the possibility of open-pore adjustment with which a certain gas permeability is attainable. This property of the building rods can be used for the air-conditioning of rooms, because, for example, an air-water vapor mixture flows inside the hollow spaces 4, which flow via the pores of the building rods not only for setting the temperature, but also for the humidification of the room air is used. In the reverse sense, a venting, in particular a discharge of air loaded with harmful substances, can also be achieved via the porosity. To replace such an open-pored setting of the construction rods over at least a part of an outer circumference, it is of course also possible to provide separate openings through which the hollow space 4 is in an exchange relationship with the respective atmosphere of the inner space of the building.

The exemplary embodiment of a wall element shown in figure 2 differs from that according to figure 1 first of all because instead of rectangular or 30 square construction rods 1, construction rods 9 are used, the cross section of which in each case has the shape of a regular octagon. The building rods are again constructed as hollow building parts and comprise a hollow space 10 extending along its longitudinal cross-section, circular cross-section 10. The building rods 9 are in each case laterally joined together with one of their circumferential sides, either under homogenous bonding or using 1000911 14 is a mineral adhesive based on a cement-polymer dispersion and preferably consists of a geopolymer foam material. They may otherwise have a one-storey version, or consist of several segments glued to each other in the same manner on their end faces.

In addition to a vertical arrangement of the construction rods 9, a horizontal consideration is equally applicable and the construction parts formed from these construction rods can be used in the context of walls, namely load-bearing, supporting or pure partition walls, floors, ceilings and stairs.

The said cavities 10 can again be used in the same manner as that of the example 1. 15 Eligible here is a filling made of concrete 5, with which a reinforcement of the static load-bearing capacity is achieved or a further use of the hollow space for accommodating installation devices, for instance electrical lines, pipelines or a direct use of the hollow space. 10 as a conduction for media.

Owing to the cross-sectional geometry of the octagonal construction rods 9, triangular recesses 13 are formed in the front side 11 and the back side 12 in cross section, which can also be used in many ways. For example, a filling made of concrete 14 is eligible here, possibly in reinforced form. Likewise, these recesses 13 can also be used to accommodate installation and pipelines.

A further possibility for improving the static properties of the wall element formed from these construction rods 1 consists in inserting steel profile parts into these recesses 13, which are designed either as a triangular hollow profile part 15 or as an angle profile part 16. The hollow spaces bounded in each case by the profile parts 15, 16 35 can also be used in the manner indicated above.

17 again indicates cladding elements, which are provided in the same manner as the cladding elements 8 according to Fig. 1.

Finally, Figure 3 shows a variant of a construction rod 18, which again consists of a geopolymer 5 foam material, in which a cylindrical hollow space 19 partly ends in a surface, so that the hollow space 19, the longitudinal axis of which extends parallel to the outside 20. of the construction rod 18 is accessible from this outside. This outer side 20 is again covered by a cladding element 21, which is provided in the same way as the cladding elements 8, 17 and is attached to the construction rod 18. The construction rod 18 may otherwise have a width dimension which corresponds to that of a conventional wall element.

The use of the hollow space 19 can otherwise be effected in the same manner as in the above exemplary embodiments. An electrical lead 17 is shown in figure 3 only as an example.

The exemplary embodiment drawn in Figure 3 is suitable, inter alia, for use as a building block of a heating system, wherein a heat transfer medium flows within the hollow space 19, the coating element 21 of which is solid, i.e. non-foamed, set geopolymer material, so that in the direction 25 of the cladding element 21 have good heat transfer properties, but on the other hand do not exist in the other directions due to the foaming properties of the geopolymeric material of the construction rod 18. Equally, this constellation can also be used in the context of an outer wall 30, whereby striking heat radiation is absorbed via the cladding element 21, in particular in conjunction with a dark coloring, and heat transfer medium flowing through the cavity 19 is removed and for application in the context of a heating system is supplied thereto.

A further use of this principle may exist in the context of underfloor heating, in which the 1000911 16 cladding element 21 forms the top layer intended for heat transfer and wherein the construction rods 18, in particular their hollow spaces 19, are uniformly under the floor. horizontal, extending over a larger area.

1 00 0 9 1 1

Claims (9)

Wall element for the high-rise building, at least consisting of one building element enclosing at least one continuous hollow space (4, 10, 19), at least partly consisting of a geopolymer material, wherein 5 at least side walls of the building element are intended for connection to other building elements and are arranged, wherein the building elements have the form of building rods (1, 9, 18) glued together laterally to form the wall element and wherein the hollow spaces (4, 10, 19) extend in the longitudinal direction of the building rods, with characterized in that the hollow spaces (4, 10, 19) extend centrally in the direction of the longitudinal axis of the construction rods (1, 9, 18), that the construction rods (1, 9, 18) have a length corresponding to with the height of a recess, and that the front (2, 11) and / or the back (3, 12.) of the wall element are covered with cladding elements (8, 21), which are made of profiled metal sheet or plates of geopolymer material or consist of ceramic. Wall element according to claim 1, characterized in that the cavities (4, 10, 19) for receiving constructionally active mass such as, for example, concrete, for accommodating installation devices or for guiding media for heating, - and ventilation of rooms or to conduct fresh water or waste water. Wall element according to claim 1 or 2, characterized in that the construction rods (1) have a rectangular cross section. Wall element according to claim 1 or 2, characterized in that the construction rods (9) have a cross section corresponding to a regular polygon. 1000911 Wall element according to one of Claims 1 to 4, characterized in that the construction rods (1, 9, 18) are glued to each other in a homogeneous manner. Wall element according to one of Claims 1 to 5 and 4, characterized in that the construction rods (1, 9, 18) are glued together by means of a mineral adhesive based on a cement-polymer dispersion. Wall element according to any one of claims 4 to 6, characterized in that the construction rods (9) are placed side by side in part to form a wall element and that in the front (11) and the back (12). ) present recesses (13) are present as hollow spaces, which are filled with a constructionally active material such as, for example, concrete, which, in order to absorb metals, increase the building elements, such as profile parts (15, 16), which increase the strength of the wall element, or inclusion of installation devices. Wall element according to one of Claims 1 to 7, characterized in that the construction rods consist of a foam material on one part of their circumference and on the other part of a compact, that is to say non-foamed, material. Wall element according to any one of claims 1 to 8, characterized in that at least the internal surfaces of the cavities (4, 10, 19) are compact, that is to say non-foamed. -o-o-o-o-o-o-o-o- 1000911