DE3730679A1 - Structural element for erecting walls - Google Patents

Abstract

The invention relates to a structural element for erecting walls, having two connection surfaces (12, 14) arranged on opposite sides, one of the connection surfaces (12, 14) being provided with at least one groove (16) and the other connection surface (12, 14) being provided with at least one tongue (18) which is intended for interacting with the groove of a further structural element. The structural element (10) has, moreover, at least a first cavity (20) which connects the two connection surfaces (12, 14) to one another, is open at both ends and whose central longitudinal axes intersect by groove (16) and tongue (18). The invention is characterized in that groove (16) and tongue (18) are widened in the region of the cavity (20). Furthermore, the first cavity (20) exhibits, in a manner known per se, in the region of one end, a widening (22) towards the opening and, at its other end, a peripheral continuation (24) which projects out of the plane of the groove (16) and tongue (18). Said continuation (24) can be introduced into the cavity widening (22) of a further structural element (10). <IMAGE>

Description

The invention relates to a component for creating walls, with two connections arranged on opposite sides surfaces, one of the connecting surfaces with at least one Groove and the other connection surface with at least one for Determine interaction with the groove of another component Spring is provided, as well as at least a first, which at connecting the connecting surfaces with each other and at both Ends open cavity, the central longitudinal axis of the central longitudinal cuts the tongue and groove.

In practice, components are known that are adjacent to them elements on all contact or connection surfaces are interlocked by grooves and tongues. Relating to a ver tical wall have these elements going through in the middle de cavities perpendicular to their horizontal ver  binding surfaces run. When building a wall these cavities filled with concrete or the like to make a solid Establish connection to transfer forces. A such a component is a faithful replica Module known for example from DE-GM 73 151 881.

The grooves and tongues of these components serve primarily Line for centering the elements. You can with respect to a vertical wall, in the transverse direction and each only very limited in shape in the longitudinal direction te, since they have only a very little pronounced ge own. The hold of the wall or the elements against each other by means of a material connection Glue or mortar reached. This has in addition to this arising costs, due to additional material and additional working time, also the disadvantage that such a he did not provide Mauer with hardened connecting material can be easily dismantled and reassembled. In all re gel when a wall of this type is dismantled individual components damaged or destroyed, so that these cannot be used again. Therefore are suitable such components not for walls should only be fulfilled for a short period of time.

In addition, these components have another crucial disadvantage. Should be in the one created by them Wall installation of flush-mounted supply lines follow, so have to laboriously cutouts in this wall be beaten. After laying the wire he follows, these recesses are then ver again closed. This is particularly difficult if the planned lei through several floors, or if they are in buildings that have been built for a long time are to be relocated.

Therefore components have already been proposed (DE-OS  23 51 632), in the middle perpendicular to the conn Void areas are provided in the composite wall mutually via projections and depressions to grab. The cavities are used for laying supply cables. For power transmission or centering are on the horizontal connecting surfaces of the components, bezo on a vertical wall, no grooves and tongues see. The force-transmitting connection of the individual elements te in a composite wall is made by an adhesive that is on is applied to the surfaces. By meshing the Cavities are prevented from gluing into the cavities can penetrate spaces and block them. At the same time who which the component hereby centers each other. In order to excess glue can flow out, is a middle run in the longitudinal direction in the upper connecting surface de groove provided, but a corresponding tongue is missing the lower connecting surface for a tongue and groove joint dung. Although by means of these components supply lines can be laid in a simple manner these have the same disadvantages as the first-mentioned construction elements. In relation to a vertical wall, they can cross Only transfer forces to a very small extent without glue In addition, they can be used of an adhesive not for the creation of walls or walls deploy that are to be erected for a short time.

The object of the invention is to provide a component of the ge called to create the forces in a wall network Transverse and longitudinal direction also safe without mortar or glue can transfer and that a simple transfer of Versor power lines allowed. The above task is thereby solved that tongue and groove expanded in the area of the cavity are and in a manner known per se the first cavity in the Area of one end towards the opening an extension and one at the other end out of the plane the groove or the tongue protruding circumferential extension  owns that in the cavity expansion of another building elements can be introduced.

The proposed solution enables supply lines can be easily installed and that the components are large even without mortar Take up forces both lengthways and crossways can. In particular, this prevents parts or a complete series of components according to the invention within a wall network by the large, as a result of Earthquakes or the like occurring forces from the wall composite be pushed out.

In a preferred embodiment there is one according to the invention Pressboard component. This material is light and bil lig manufacture. Components made from it can all be used for walls or buildings that are only for should be created in one place for a short time. By the possibility of form-fitting the components only sufficient stability can connect so quickly and simple, for example, construction huts, show booths or the like, also by laypersons be put. Through the cavities already provided can also easily supply Lay cables in such buildings. The component but can also be made of any other material, for example made of alumina.

Because a scale model of a Ge building can significantly facilitate the planning phase proposed in a further embodiment of the invention, a Model kit to provide a variety of fiction contains appropriate components in model size. In addition to the Such a model kit can also do the planning be used for game purposes.

Further advantageous refinements and a preferred off management form are explained with reference to the drawing. Show it:  

Fig. 1 is a perspective view of a device according to the invention,

Fig. 2 is a plan view through a device according to Fig. 1,

Fig. 3 shows a longitudinal section through a component according to FIG. 1,

Fig. 4 is a plan view of a recess provided with a device according to Fig. 1,

Fig. 5 is a reduced representation of a top view of a T-shaped component,

Fig. 6 is a reduced representation of a plan view of an L-shaped component,

Fig. 7 is a reduced representation of a top view of a cross-shaped component,

Fig. 8 is a reduced representation of a plan view of an arc-shaped component,

Figure 9 is a reduced representation of a plan view of an S-shaped component.,

Fig. 10 is a perspective view section of a white direct component with a U-shaped cross,

Fig. 11 is a perspective view of a further component with a T-förmi gen cross-section.

A cuboid component 10 shown in FIGS. 1-3 has the dimensions of a standardized component. However, it can also deviate from these dimensions depending on the intended use. For example, it is conceivable that a component 10 is designed wider for a load-bearing wall or as an intermediate element is only half the size of a standardized building block.

In Fig. 1, the component 10 is shown so that its upper and lower connecting surfaces 12 , 14 are parallel to the horizontal. In the middle, it is provided with a vertically extending groove 16 starting from the upper connecting surface 12 . The lower connecting surface 14 has a spring 18 which also corresponds in shape and dimension to the groove 16 and also runs vertically. Groove 16 and tongue 18 extend over the entire length of element 10 . But it is also possible that groove 16 and tongue 18 are provided only in sections on the two connection surfaces 14 , 16 . This results in a particularly positive connection in all directions of the horizontal plane. Groove 16 and tongue 18 can also extend outside half of the central longitudinal axis of the component 10 . It is also possible, depending on the width of the element 10, to provide a plurality of grooves 16 or tongues 18 per connecting surface 12 , 14 . These can also be combined with one another at a connecting surface 12 , 14 . Finally, it is possible that both do not extend in a straight line over the component 10 , but in any other desired form.

The width of the tongue 18 is preferably tolerated closely to the width of the groove 16 . In this way, on the one hand, a secure and firm positive connection between two components is produced and, on the other hand, a construction element cannot be levered out of another component by a force acting perpendicularly on one of its longitudinal sides 26 , 28 . In a preferred embodiment, the width of the groove 16 or the tongue 18 is approximately one third of the total width of the component 10 . If several grooves 16 or tongues 18 arranged parallel to one another are provided on a connecting surface 14 , 16 , the width of the groove 16 or tongues 18 can of course be reduced, or the width of the element 10 can be increased ver. For example, this is conceivable for load-bearing walls.

In a preferred embodiment, the depth of the groove 16 is approximately one third of the total height of the construction element 10 according to the invention. In this way, a particularly good, high-force connection between two superimposed components is achieved. Of course, the groove depth can be smaller or larger. It is also possible for a component with several grooves to have different depths.

In a preferred embodiment, the height of the spring 18 is somewhat less than the depth of the groove 16 . This creates a gap between the groove 16 and tongue 18 of two components placed one on top of the other, in which additional glue or mortar can be added to further increase the strength of a wall created from these elements. With a positive connection between two superimposed elements, the height of the tongue 18 can of course be equal to the depth of the groove 16 . It is also conceivable that the spring 18 is greater than the depth of the groove 16 , so that the gap between their lower or upper connecting surfaces is formed between two components placed one on the other. Mortar or adhesive can also be inserted here or insulating material can be placed in between. The gap between the connecting surfaces of two components can also be used on one or both sides for inserting or attaching other types of components, for example plates.

Of course, a combination of the above Types of use of the gap between the two connections surfaces of two components possible.

Groove 16 and tongue 18 have a rectangular cross section, but which can also have any other conceivable shape. In the bottom of the groove, the component 10 is provided with two first, continuous cavities 20 , the central longitudinal axes of which cut the central longitudinal axes of the groove 16 and tongue 18 . These first cavities 20 each have an extension 22 at their ends pointing towards the spring 18 . At their other ends they also each have an extension 24 projecting out of the plane of the groove base, which extension can be inserted into the cavity expansion of a further component. It can be designed so that it centers two components only against each other or in such a way that it seals the resulting te by two Bauelemen extending cavity from the environment. The latter can be done, for example, by a tight fit or by additional sealing means. The height of the extension 24 can be both the same and slightly less than the depth of the extension 22 . However, it is also possible that it is somewhat higher than the depth of the extension 22 . This creates a gap between the tongue and groove as well as between the upper and lower connec tion surface of two superimposed components. This column can be used in a variety of ways, as already described above.

The shape of the cross-sectional area of the first cavity 20 can be of any type, preferably it is circular. Of course, the first cavity 20 can also have differently combined cross-sectional areas, insofar as only the extension 24 of a component can be inserted into the extension 22 of another element. The first two cavities 20 of a component 10 are arranged in relation to each other so that they are aligned in the grid-shaped wall composite with the first cavities of others, above and below the respective component 10 arranged further components. This creates a large number of continuous cavities in a wall, which can be used in different ways. For example, it is conceivable that supply lines, not shown, run in them, or that suitable clamping means, not shown, are provided in order to additionally brace the entire wall in the direction of the central longitudinal axes of the first cavities. However, any other type of use is also conceivable. The interlocking of the extension 24 in the component 10 in the expansion of a further element prevents this material from penetrating into the first cavities 20 when the base of the groove is poured out with an adhesive or mortar and can clog them. At the same time, the components placed one inside the other are centered against each other.

Of course, it is also possible that the extension 24 is located at the end of the first cavity 20 facing the spring 18 and the extension 22 is located at the opposite end. In addition, only one or more than two first cavities 20 can be provided per component 10 . It is possible that individual first cavities 20 have no connection to the first cavity of other components, or all first cavities have such a connection. Such a blindly ending first cavity 20 can be used, for example, for filling in mortar or adhesive into the groove base of components connected to one another in the longitudinal direction. Components with only a first cavity 20 can be used, for example, between two lintels or windows.

In the area of the first cavities 20 , the groove 16 and the tongue 18 are widened. This ensures that two nested components are securely hooked in the two directions of a horizontal plane, since the extension of the spring 18 engages in the expansion of the groove 16 . If the transverse dimension of the cavity 20 is smaller than the transverse dimension of the groove extension, a channel is formed between the groove wall and the cavity 20 , along which adhesive or mortar can flow. The entire groove base can thus be filled in without the mortar or adhesive being able to get into the cavities 20 . This is also possible with nested components. The shape of the expansion of the groove 16 and tongue 18 is independent of the shape of the cavity 20th The extension on each side of the groove 16 and tongue 18 is preferably arcuate.

The component 10 is provided on one of its long sides 26 , 28 with continuous one or more second cavities 30 running parallel to the first cavities 20 . In a preferred embodiment, these cavities 30 have a circular cross section, but can also have any other cross section. The cavities 30 can be provided on both long sides 26 , 28 . They are used for ventilation or insulation by air, but can also be used to bring an adhesive or mortar onto the connecting surfaces of two superimposed components.

On the other longitudinal side 28, the device is provided with overlapping and extending over the entire height insulating inserts 32 provided. Like the second cavities 30, these can be arranged on both longitudinal sides 26 , 28 . However, a combination of second cavities 30 and the insulating material inserts 32 is conceivable with correspondingly wide components or reduced groove widths.

The long sides 26 , 28 of the component 10 are shown in the drawing figures as flat, smooth surfaces. As with any other component, they can be plastered or clad with other means. It is also possible that they are provided with ornaments or the like so that they can be used as gemstones.

It is also possible to provide one or both longitudinal sides 26 , 28 with an upwardly open recess 50 for receiving support beams or the like. ( Fig. 4) Parallel to the central longitudinal axis of the groove 16 or tongue 18 be the component 10 sits one or more in the longitudinal sides 26 , 28 and at both ends open, third cavities 38 , which preferably have a circular cross section. These third cavities 38 can also be used for air insulation. However, supply lines (not shown) should preferably be laid in them. The supply lines can be branched independently of the lines in the first cavities 20 or from these. For this purpose, it is necessary that a recess, not shown, for example in the form of a control box, is provided at one point in the wall assembly. The recess is made at the location of the first cavity 20 that holds the supply line provided for branching ent. The recess is so deep into the component that its base plane, which runs parallel to the respective longitudinal side 26 , 28 , intersects the first cavity 20 . The supply line can then be removed and pushed through the third cavity or cavities 38 to the point at which they are to be coupled to a connection located outside the wall. This makes it possible for supply lines to be laid in a simple manner in walls which have already been erected. Above all, no major chiselling work has to be carried out, because they are only necessary at the points at which the supply line is transferred from the first cavities 20 into the third cavities 38 and to which they are to be led out of the wall.

The third cavities 38 can also serve to brace a wall parallel to the central longitudinal axes of the groove 16 or tongue 18 by means of suitable clamping means, not shown.

There is a possibility that the second and third cavities 30 , 38 are arranged so that their central longitudinal axes intersect. In these cases, the second cavities 30 cannot be used to apply mortar or adhesive to the connecting surfaces of two components placed on one another.

On its two end faces 34 , 36 , the component 10 has two vertically extending, centrally arranged recesses 40 . Their central longitudinal axes intersect the central longitudinal axes of groove 16 or tongue 18 . Thus, 40 mortar or adhesive can be filled in with cohesively connected components through the recess 40 if these are already arranged next to one another in one layer. It is possible that one as well as both end faces 34 , 36 have such a depression 40 . The depression 40 can also be designed as a groove. An elevation 42 designed as a spring engages in this groove on the end face of one of its component. A device 10 may thus on one end side 34, 36 designed as a groove Vertie Fung 40 and have on the other designed as a spring boss 42nd As a result, the components are interlocked with one another on all sides. The height of the tongue should be slightly less than the depth of the groove, so that a gap is used to fill in the mortar or adhesive. The tongue and groove preferably have a rectangular cross section, but can also have any other. It is possible to provide a further depression 14 in the elevation 42 in the middle thereof. This increases the gap that is created between two components on the end faces.

In Figs. 5 to 9 further Bauelemen invention are shown te. They differ from the element 4 described in the drawing figures only by their shape, so that the description can be limited to their intended use.

In Fig. 5 a T-shaped component 100 is shown, which is used in the cases where the walls abut each other at an angle of 90 °. His legs 102 are the same length, but can also have different lengths.

A component 200 for corners is shown in FIG. 6. In plan view, it has the shape of the letter L with legs 202 of different lengths. Depending on the intended use, one or the other leg 202 may be longer. However, it is also possible for both legs 202 to have the same length. The third cavities 30 are bent at right angles at the apex of the L '. For better execution of supply lines, they can also be rounded. The third cavities 30 in the long longitudinal sides 26 , 28 of the legs 202 are open on both sides in both longitudinal directions. As a result, bracing means and / or supply lines can be carried out in a simple manner through an entire wall. But it is also possible that they have no openings in the region of the apex of the L '.

A cross-shaped component 300 is shown in FIG. 7. It is primarily used when four walls meet at an angle of 90 °. Its legs 302 are of the same length, but can also have different lengths. As with the L-shaped component 200 , the third cavities 38 can have rounded corners in the respective longitudinal sides 26 , 28 .

An arcuate component 400 is shown in FIG. 8. By using these components 400 , chimneys, towers and the like can be built. However, they can also be used for excavating and lining up tunnel structures. In the latter case, the connecting surfaces 14 , 16 run vertically. The first cavities 20 can then serve to accommodate suitable tensioning means, not shown.

Fig. 9 is finally an S-shaped component 500 ge shows. It is used for the grid-shaped connection of two Bo-shaped components 400 , which are strung together in an S-shape.

So that the components 10 of a foundation, not shown, or can be placed on top of one another from the ground, a further, U-shaped component 600 is easily seen ( FIG. 10). The distance between the two free legs 604 of the U-shaped component 600 corresponds to the width of a spring 18 of a component 10 . It is fastened to the foundation or the ground with the U open at the top. Thus, the components 5 to 9 can be used together with U-shaped the device 600100-500 shown in Fig., It is either already in the manufacturing process or the shape adapted to the construction site accordingly edited. The latter applies only to the components according to FIGS . 5 to 7. It is possible to provide the U-shaped component 600 with further means, not shown, in order to be able to attach other components, for example base plates.

Finally, FIG. 11 shows a component 700 with a T-shaped cross section. This element 700 is used, for example, as an upper closure element. It can also, like the U-shaped component 600, be provided with additional means not shown. The width of its middle leg 704 corresponds at most to the width of the groove 16 .

Finally, it should be pointed out that the cavities 20 of the components 10 can also be used for pouring concrete. For example, on a corner it is possible to end the wall in front of the corner. In every second row, a single component 10 protrudes from the end face of the respective wall.

Formwork boards can then be used to pour 20 concrete along the entire height of the two walls through the first cavities. After the concrete has hardened, a secure and firmly bonded connection is created.

Claims (36)

1. Component for creating walls, with two connection surfaces arranged on opposite sides, one of the connection surfaces being provided with at least one groove and the other connection surface being provided with at least one spring intended for cooperation with the groove of a further component, and with at least a first one , The two connecting surfaces interconnecting and open at both ends cavity, the sen longitudinal axis intersects the central longitudinal axis of tongue and groove, characterized in that the groove ( 16 ) and tongue ( 18 ) in the region of the cavity ( 20 ) are expanded and that in in a manner known per se, the first cavity ( 20 ) has an extension ( 22 ) in the region of its one end towards the opening and also has one protruding from the plane of the groove ( 16 ) or the tongue ( 18 ) at its other end has ongoing extension ( 24 ), which is a feasible in the cavity extension ( 22 ) of a further component ( 10 ). 2. Component according to claim 1, characterized in that in the wall composite the central longitudinal matter of the first cavity ( 20 ) with the central longitudinal axis of the first cavity ( 20 ) of a further component ( 10 ) is aligned. 3. The component according to claim 2, characterized by two first cavities ( 20 ), each in the raster-shaped wall composite with the first cavity ( 20 ) of a staggered, further component ( 10 ). 4. Component according to one of the preceding claims, characterized in that the extension ( 24 ) sealingly engages in the cavity expansion in the cavity expansion ( 22 ) of a further component ( 10 ). 5. Component according to one of the preceding claims, characterized in that the depth of the groove ( 16 ) is greater than the height of the spring ( 18 ) corresponing with it. 6. Component according to one of the preceding claims, characterized in that the groove ( 16 ) and the spring ( 18 ) extend over the entire length of the component ( 10 ). 7. Component according to one of the preceding claims, characterized in that the groove ( 16 ) and the spring ( 18 ) in the middle of the two connec tion surfaces ( 12 , 14 ) are arranged. 8. Component according to one of the preceding claims, characterized in that the width of the groove ( 16 ) or tongue ( 18 ) is approximately one third of the total width of the component ( 10 ). 9. Component according to one of the preceding claims, characterized in that the depth of the groove ( 16 ) or the height of the spring ( 18 ) is approximately one third of the total height of the component ( 10 ). 10. The component according to one of the preceding claims, characterized in that outside of the groove ( 16 ) and tongue ( 18 ) parallel to the first cavity ( 20 ) extending, second cavities ( 30 ) are arranged. 11. The component according to one of the preceding claims, characterized in that parallel to the central longitudinal axis of the groove ( 16 ) or tongue ( 18 ) at the ends open, third cavities extend over the entire length of the component ( 10 ). 12. The component according to claim 1 to 11, characterized in that the first, second and third th cavities ( 20 , 30 , 38 ) have a circular cross-sectional area. 13. The component according to any one of the preceding claims, characterized in that one of the two end faces ( 34 , 36 ) connected to one another by groove ( 16 ) or tongue ( 18 ) connect to one another with at least one of the two connecting surfaces ( 12 , 14 ) the depression ( 40 ) and / or elevation ( 42 ) is provided. 14. The component according to claim 13, characterized in that the central longitudinal axis of a recess ( 40 ) intersects the central longitudinal axes of the groove ( 16 ) and tongue ( 18 ). 15. The component according to claim 14, characterized in that at least one recess ( 40 ) as a groove and an elevation ( 42 ) is designed as an intended with the groove of a further component ( 10 ) cooperating spring. 16. The component according to claim 15, characterized in that the depth of the recess ( 40 ) formed as a groove is greater than the height of the elevation ( 42 ) corresponding to it as a spring. 17. The component according to one of the preceding claims, characterized in that at least one of the longitudinal sides ( 26 , 28 ) is provided with a further recess ( 50 ). 18. The component according to claim 1 to 17, characterized in that along at least one of the two long sides ( 26 , 28 ) of the component ( 10 ) overlapping and extending over the entire height insulating material inserts ( 32 ) are arranged. 19. Component according to one of the preceding claims, characterized in that all the grooves ( 16 , 40 ) and springs ( 18 , 42 ) have a rectangular cross section. 20. The component according to claim 1 to 19, characterized ge indicates that it consists of pressboard. 21. The component according to claim 1 to 19, characterized ge indicates that it consists of alumina. 22. The component according to claim 1 to 21, characterized net by a cuboid shape. 23. The component according to claim 1 to 21, characterized ge indicates that there is an im in plan view has an essentially T-shaped shape. 24. The component according to claim 23, characterized in that in at least one leg ( 102 ) of the T-shaped component ( 100 ) at least one cavity ( 20 , 30 , 38 ) is arranged. 25. The component according to claim 24, characterized in that the legs ( 102 ) of the T-shaped component ( 100 ) are of equal length. 26. The component according to claim 1 to 21, characterized ge indicates that it is essentially a top view Lichen shape. 27. The component according to claim 26, characterized in that at least one cavity ( 20 , 30, 38 ) is arranged in at least one leg ( 202 ) of the L-shaped component ( 200 ). 28. The component according to claim 27, characterized in that all legs ( 202 ) of the L-shaped component ( 200 ) are of equal length. 29. The component according to claim 1 to 21, characterized ge indicates that there is an im in plan view has essentially cruciform shape. 30. The component according to claim 29, characterized in that in at least one angle ( 302 ) of the cruciform component ( 300 ) at least one cavity ( 20 , 30 , 38 ) is arranged. 31. The component according to claim 30, characterized in that all legs ( 302 ) of the cross-shaped component ( 300 ) are of equal length. 32. Component according to claim 1 to 21, characterized ge indicates that there is an im in plan view has an essentially circular arc shape. 33. Component according to claim 1 to 21, characterized ge indicates that there is an im in plan view has an essentially S-shaped shape. 34. Composite of components according to claims 1 to 33, characterized by a further element ( 600 ) which has a U-shaped cross-sectional area. 35. Composite according to claim 34, characterized by a further element ( 700 ) which has a T-shaped cross-sectional area. 36. Model kit, characterized net that he has a variety of component according to a or more of claims 1 to 35 in model size contains.