EP0069116A2 - Building element, particularly building block - Google Patents

Abstract

Building element, particularly building block (1), consisting of at least two separate parts (2, 3) which can be connected by means of separate webs (4) and between which, if desired, an insulating member (5) or the like can be inserted. Each web (4) has a substantially flat central portion, from which emerges, on one longitudinal side, at least one projection (8) engaging in one of the parts (2, 3) to be connected, on the opposite longitudinal side either an identical projection (8) or at least one hook or the like for securing the second part, and also, if desired, a holding bracket for the insulating member (5) is or are provided. The projections (8) can have splayed extensions (9) at their outer ends. In the region of the central portion of each web (4), at least one resilient tongue (11) which projects on one side can be provided. The webs (4) can be of two-piece design: their height must not exceed the height of the building element. Each of the parts (2, 3) to be connected has, at least in the region of opposite end faces, slots or the like (12, 13) for receiving the projections (8), splayed extensions (9), etc. In addition, such slots or the like (12, 13) can also be formed at other points. <IMAGE>

Description

For some time now, there has been a trend in the construction industry in particular to improve heat and sound insulation, on the one hand to reduce energy consumption and on the other hand to keep noise pollution to a minimum. For this purpose, two walls were originally erected at a distance from one another and the space between them was filled with an insulating body or with insulating material. This uneconomical process was soon replaced by the provision of individual components, each of which has an insulating body or can be provided with such directly on the building. For example, Building blocks from two stone layers, which are held together by an interposed insulating body made of polystyrene (see AT-PSen 331 012 and 335 140), and building blocks from two spaced stone layers, which are connected by integral bridges and between which an insulating body is inserted can. While the former has the disadvantage that the cohesion of the two stone layers is lost if the insulating body is destroyed (e.g. by fire), it is disadvantageous in the latter that cold bridges are present on the one hand due to the relatively solid webs for strength reasons and on the other hand due to the one-piece construction of the building blocks Material selection is limited. In both types of components, the insulating bodies must also have a certain shape (in the first case they have dovetail profiles for engaging in the stone layers and in the second case recesses for receiving the webs), which is also a disadvantage from the point of view of the manufacturing effort.

The aim of the invention is to eliminate the disadvantages outlined, that is to create a component in which there is great variability in the materials and dimensions of the constituent components, cold bridges are reduced to a minimum without impairing the strength properties and - if desired - insulation - The simplest form and any texture can be used.

This goal is achieved with a component, in particular a component, which according to the invention has at least two separate parts which can be connected by means of separate webs and between which an insulating body or the like, if appropriate. can be used, is marked.

Any combination of materials, shapes and dimensions can now be selected by providing at least two separate parts. For example, one of the parts can function as a load-bearing element, and another part can only function as a decorative element. Since the webs are also separate components of the component, on the one hand the component can be given different dimensions by a diversity of the webs and on the other hand the web dimensions can be defined with regard to minimal cold bridges while ensuring sufficient strength through the freedom of choice of the material. The webs allow the two component parts to be kept at a distance from one another, so that - if desired - insulating material can be filled in between them or a simply shaped insulating body can be used. This can be done either during the manufacture of the components or during their installation. However, it is also possible to connect the two parts without a gap, so that a composite element is obtained which, for example, consists of a part providing the necessary strength and a part serving for decorative purposes.

Preferably, the component according to the invention is characterized in that each web has a substantially flat central section, from which on one long side at least one approach engages in one of the parts to be connected, on the opposite long side either a similar approach or at least one hook or . Like. for hanging the second part and, if necessary, a retaining tab for one Insulating body is or are provided. The striving for the narrowest possible cold bridges results in the design of the web with a thin, essentially flat middle section. If the two parts of the component are to be connected to one another in the course of production, the provision of approaches on both long sides of the central section is recommended. If, on the other hand, a combination of the two parts is only intended during the laying or joining of the components, the web variant with at least one shoulder on one long side and at least one hook on the second long side will be selected. In such a case, it is first recommended to produce a bandage of similar parts of the components, in which the webs have either already been inserted beforehand or are only inserted after the bandage has been completed. The second parts of the components can then be hung on the hooks. It is entirely conceivable that a common second component part is assigned to several first component parts. This can occur, for example, in the case of a building wall constructed from structural component parts, to which cladding or facade panels are then hung. If insulating bodies are still to be provided between the first and second component parts, retaining tabs will expediently be formed on the webs for these in order to facilitate the assembly of the components.

It is advantageous if, for each web, at least one of the two long sides of the central section starts from a single extension, which forms an obtuse angle with the central section. In this embodiment, the webs can be used in the region of the end faces of the parts of the component to be connected such that their central sections are aligned with the end faces of the components. If such approaches are provided on both long sides of the central sections, components can be obtained whose outer contours resemble a cuboid. If it is not intended to arrange the webs directly on the outer surface of the component, it may be expedient if an extension is provided on each of the two long sides of the central section, which is perpendicular to the central section and projects beyond it on both sides. Webs formed in this way have an essentially I-shaped profile and are particularly suitable for components with rotational symmetry, in which they are most advantageously used in a radial direction.

To improve the hold of the lugs in the parts of the components, i.e. To increase the security of the connection of the two parts through the web, each extension can be provided with expansion processes at its outer end.

A further preferred embodiment of the web is characterized by the fact that at least one of the two long sides of the central section has two lugs, one of which is flush with the central section and the second is perpendicular to the latter, with angled projections being provided on the outer ends of the two lugs are. The two approaches, starting from a longitudinal side of the central section of the web, ensure a somewhat better anchoring of the web in the parts of the component to be connected than the aforementioned individual approach, which protrudes from the central section at an obtuse angle.

in die zu verbindenden teile einzuformen Da in den meisten Anwendungsfällen die beiden Bauelementteile durch die Stege voneinander distanziert gehalten werden sollen, um in den so erhaltenen Zwischenraum einen Isolierkörper einsetzen zu können, empfiehlt es sich, jeden Steg im Bereich seines Mittelabschnittes mit wenigstens einer einseitig vorspringenden, federnden Zunge zu versehen. Hiedurch können eingesetzte Isolierkörper in einfacher Weise in Position gehalten werden. Solche Zungen können entweder integrale Bestandteile der Mittelabschnitte darstellen oder als separate Teile an diesen angebracht sein.The webs are most conveniently inserted into the parts of the component to be connected. In order to be able to do this in a defined manner for all components, it is advantageous if each web has a limit stop on one of its end faces in the area of each attachment provided. In addition to inserting the webs (during manufacture or when using the components), it is also conceivable to use them in the course of

molded into the parts to be connected Since in most applications the two component parts are to be kept apart from one another by the webs in order to be able to insert an insulating body into the intermediate space thus obtained, it is advisable to provide each web in the region of its central section with at least one resilient tongue projecting on one side. In this way, insulated bodies used can be held in position in a simple manner. Such tongues can either be integral parts of the central sections or attached to them as separate parts.

In the event that the two component parts are kept apart from one another by the webs and the spaces which are initially free are only to be foamed with an insulating material after the components have been laid, it is advantageous if each web has at least one opening in its central section. This allows the inflowing foam to be distributed more evenly over the components. Such breakthroughs also save weight. If the components are building blocks, such breakthroughs increase the adhesion of mortar or plaster. To achieve the latter, it is also sufficient to make the bar surfaces rough.

To improve the adaptability of the components during laying, each web can have a corrugated area in its central section, which gives the connection of the two component parts a certain flexibility.

It is also advantageous if each web is made in two parts, with its two web parts being assembled in the region of its central section. The two web parts can be connected, for example, by a snap connection consisting of a bead and a groove. This embodiment enables any Detaching and inserting individual parts of the components in a component assembly that has already been completed, or producing an association from parts of one type, to which the parts of the other type can subsequently be fastened securely. Furthermore, this web design also ensures that the components are more adaptable when laying than the one-piece webs with a flat central section. The two web parts can also be connected by an elastic sleeve surrounding their ends, which are preferably equipped with a T-profile. Apart from increasing the adaptability, the purpose of this measure is to dampen the formwork cable through the web. Such damping (compared to a one-piece web) is also achieved if the two web parts overlap and are connected by elastic rivets. For the elastic sleeve or the elastic rivets, rubber or plastic can be used as materials.

The web height usually corresponds to a maximum of the component height, since projecting web areas could easily be damaged during transport etc. of the components. If webs are not (only) used in the area of the end faces of the components but (also) inside them, it may be desirable to make such center webs lower than the component height. The reason for this lies in the fact that a full height central web would completely interrupt any insulation layer or an insulating body that might be provided, but a lower central web would not. however, in the latter case, the insulating body would have to have a recess for receiving the central web.

The webs according to the invention - like the components themselves - are mass-produced articles for which plastic (for example polyamide, polypropylene) is generally recommended as a material with regard to the desired properties (sufficient strength, low thermal conductivity). But there are Bridges can also be made from synthetic resin-bonded materials, metal, plastic-coated metal or metal-reinforced plastic

In order to enable the use of the webs according to the invention, each part of a component must have at least one slot for receiving a shoulder or a hook or the like, at least in the area of opposite end faces. of a web and, if appropriate, recesses for receiving the extensions or the spreading extensions and a recess for receiving the limit stop. The slots etc. can either be formed during the manufacture of the components or only cut or milled when they are used. In the simplest case, a slot etc. is provided in the component parts only in the area of opposite end faces. In order to enable the insertion of further webs in the interior of the components, which may be desirable to increase the strength of the connection of the individual parts or in view of any necessary cutting in front of bathroom elements when setting up a bandage, further slits can be placed next to one another between the two end faces of the bathroom element parts, etc Finally, it may also be desirable to be able to hold the two component parts at different distances from one another with webs of the same size. This variability is required if insulating bodies of different thicknesses are to be used between the two parts or if the two parts are also used should be snugly together. To ensure all of this, at least one of the parts to be connected can be provided at least the same distance from one of the end faces, at least two slots etc., which are spaced apart in a direction perpendicular to the facing surfaces of the parts.

As already mentioned, an intermediate space between two parts of a component can optionally remain free provided with an insulating body or filled with an insulating material. The latter can also be done, for example, by foaming the intermediate space. To make this possible in a simple manner, it is advantageous if at least one of the parts of the component preferably has an opening in the region of an end face. The foam can flow into the interior of the component through this opening. The preference for the position of the opening in the region of an end face is due to the production technology. Instead of providing such an inflow opening directly, it is often cheaper to provide at least one of the component parts, preferably in the region of an end face, only with a recess which faces the part connected to this part and is covered on the outside by a comparatively thin remaining wall. If necessary, this residual wall can be easily pierced and the access to the interior of the component can be exposed.

Although the component according to the invention has so far been explained with reference to two parts to be connected, it can of course also be composed of a plurality of parts which are connected in a sandwich-like manner by the webs.

The invention is explained in more detail below with reference to exemplary embodiments of components in the form of building blocks illustrated in the drawing. 1 shows a plan view of a component according to the invention in the form of a component, FIG. 2 shows a side view of the component according to FIG. 1, FIG. 3 shows an enlarged plan view of one of the components shown in FIG. 1 shown webs of the module, FIG. 4 shows a side view of the web according to FIG. 3, FIG. 5 shows a section along the line VV of FIG. 4, FIG. 6 shows an enlarged section of the two parts of the module connected according to FIG. 1, 7 shows a side view of the detail according to FIG. 6, FIG. 8 shows a representation analogous to FIG. 3 of a further embodiment of the web according to the invention. Fig. 9 is an illustration analogous to FIG. b, the two building block parts being designed to receive a web according to FIG. 8, FIGS. 10 and 11 top views of two further embodiments of the web according to the invention, FIGS. 12 and 13 a plan and a side view of a building part with another Variant of the web according to the invention, FIG. 14 shows a plan view of a modified embodiment of the module according to the invention, FIG. 15 shows a section along the line XV-XV of FIG. 14, FIG. 16 shows a detail from FIG. 14, but with a web used differently 17 shows a plan view of a corner stone designed in accordance with the invention, FIG. 18 shows a partial plan view of a ring or tubular building block designed in accordance with the invention, variant of the component according to the invention, FIG. 22 shows a section along the line XXII-XXII of FIG. 21 and FIG. 23 shows a part Section along the line XXIII XXIII of FIG. 21.

As requested by the share Fig. 1 and 2 bestent the designed as block 1 ^f uhrte component of two, a bearing stone part 2 and a plaster base (front layer) 3 which are connected by two bars 4. An insulating body 5 (or an insulating mass) is inserted into the space between the two component parts 2 and 3. The supporting stone part 2 has chambers 6 known per se. 1 and 2, the block 1 is shown in the position in which it is bricked up, i. _h . the chambers 6 are open at the bottom so that no mortar can penetrate them. However, the manufacture of such stone parts 2 takes place in the reverse position, since the mold cores which keep the chambers free are pulled out upwards. In this production position, the webs 4 can be inserted into the parts 2 and 3 from above in order to assemble the module 1.

3 to 5 is one of the dim. 1, and 2nd turned webs 4 shown. As can be seen, the web 4 consists of a substantially thin, flat central section 7, from which on both longitudinal sides lugs 8 originate, which each form an obtuse angle with the central section, each lug 8 shows + at its outer end spreading extensions 9 on one of the A limit stop 10 is provided in the end face of the web 4 in the region of each attachment 8. A resilient tongue 11 projecting on one side is formed in the central section 7.

6 and 7 it can be seen that in both component parts, 2 and 3, a slot 12 is formed in the area of each end face for receiving the shoulder 8 of a web 4. Likewise, there is a recess 13 for receiving the expansion processes 9 and a recess 14 for receiving the limit stop 10. The width of the slots 1? etc.-is preferably chosen so that the webs 4 have a press fit in parts 2 and 3. The webs 4 are inserted into parts 2 and 3 until the limit stops 10 are entirely in the depressions 14.

8 shows a modified embodiment of the web 4. In this case, two projections 15 extend from each longitudinal side of the central section 7, one of which is aligned with the central section ⁷ and the second is perpendicular thereto, with both projections 15 being provided at the outer ends 15 with angled extensions 16. As shown in FIG. 9, slots 17 and recesses 18 are then formed in parts 2 and 3 of this web variant.

10 and 11 further web variants are shown. According to FIG. 10, the web 4 has a corrugated area 19 in its central section 7, which gives the web 4 greater flexibility. 11, on the other hand, the web 4 is made in two parts, the two web parts in the region of the middle section 7 by a consisting of bead 20 and gutter 21 snap connection are assembled. This embodiment enables part 2 or 3 to be removed from a block assembly as long as it is not mortared. As can be seen, there are no resilient elements in both web variants (FIGS. 10, 11). Tongues 11 present.

12 and 13 show a further embodiment of the web 4. In this, an angled extension 8 with expansion processes 9 is provided only on one of the long sides of the central section 7 ′. On the opposite long side, however, there are two hooks 22 on which part 3 (plaster base) can be hung. Instead of a plaster base 3 assigned to a single stone part 2, larger facade panels or the like can also be attached to the hooks 22. be hung up. In order to hold the provided insulating body 5 in position, retaining tabs 23 are formed on the webs 4 in addition to the resilient tongues 11. In the embodiment according to FIGS. 12 and 13, it would also be possible to hang the facade panels or the like. to dispense at all and instead to apply the plaster directly to the insulating body 5, which, however, would have to have appropriately prepared surfaces for this purpose.

The embodiment of the component according to the invention according to FIGS. 14, 15 and 16 differs from that according to FIGS. 1 and 2 in that, in addition to the end faces, slots 12, recesses 13 and depressions 14 are formed in the stone interior for receiving the associated web sections . in addition, two slots 12 etc. are provided on each end face of the supporting stone part 2. The measures taken offer a number of possible variations. First, parts 2 and 3 can be connected to one another by more than two webs 4, if desired or necessary. An additional web 4 is provided in FIG. 14, which can either be as high as module 1 or shorter (cf. FIG. 15). In the first case, the insulating body 5 must be divided; in the second case it only has to be provided with a recess for the additional web 4.

A further variation possibility lies in the division of the building block 1. Such a division is often necessary when building up the building blocks; it is usually done by cutting or breaking preformed notches. In the building block 1 according to the invention according to FIGS. 14 to 16, a division can take place at those places where there are additional slots 12 etc. in the interior of the stone. To do this, you first have to insert a web 4 into the slots 12, etc. in question. The sharing can then be carried out. The measures taken ensure that webs 4 are present on both end faces even in the case of a divided module.

The third variation possibility is provided by the provision of two (or more) slots 12 etc. on the end faces of part 2. Characterized the distance between the parts 2 and 3 can namely ^(g in particular from Fi. 16 shown) can be changed when, for example, an insulating body 5 modified thickness used and a narrower or wider space between the parts 2 and 3 with an insulating (eg Perlyt , Leca, Hyperlyte) should be filled. It is also possible to choose the spacing of the slots 12 of the stone part 2 so that the parts 2 and 3 can abut one another.

17 shows a further embodiment variant of the component according to the invention, namely a corner stone 24. In view of the previous explanations, this figure does not require any further description.

Fig. 18 illustrates an annular or tubular block 25, the two parts, an inner shell 26 and one Outer jacket 27, which are connected by webs 4 with an I-shaped profile. Segment-shaped insulating bodies 28 are accommodated between the inner and the outer jacket. The space in between could also be filled with loose insulating material. The I-profile of each web 4 comes about from the fact that on both longitudinal sides of the central section 7 there is a projection 29 which is perpendicular to the central section 7 and which projects beyond the central section 7 on both sides. Slits 30 for receiving the lugs 29 are formed in the inner and outer shells 26 and 27, respectively. As can be seen, webs 4 do not have to be inserted into all such slots 30.

FIG. 19 shows a web variant which is linked to the embodiment of FIG. 11. Instead of the snap connection 20, 21, the two ends of the web parts are connected by an elastic sleeve 31. Both ends of the web part have a T-shaped profile in order to ensure a good hold in the sleeve 31. The ends can either be poured into the sleeve 31 or inserted into the prefabricated sleeve.

In the embodiment of the web 4 according to FIG. 20, the two web parts overlap and are connected by, for example, two elastic rivets 32. Rubber or plastic is used as the elastic material; it ensures that the formwork cable is damped by the web 4.

FIG. 21 shows an embodiment of the component according to the invention (component 1), which differs from that of FIG. 1 in that in part 3 either an opening 33 according to FIG. 22 or one covered by a thin residual wall 34 towards the outside 23 is formed in the region of an end surface. In addition, each web 4 has, for example, two circular openings 36. No insulating body 5 is accommodated in module 1. The opening 33 and the After breaking through the remaining wall 34 as a result of the opening 35, the opening can be used as an inflow channel for the foam of an insulating material, provided that an insulation is to be carried out after a component assembly has been produced. The openings 36 of the webs 4 allow a good distribution of the inflowing foam within the components combined to form a bandage.

Claims (20)

1. Component, in particular module, characterized by at least two separate parts (2, 3; 26, 27) which can be connected by means of separate webs (4) and between which an insulating body (5; 28) or the like may be used. can be used. 2. Component according to claim 1, characterized in that each web (4) has a substantially flat central portion (7), of which on one longitudinal side at least one in one of the parts to be connected (2, 3; 26, 27) engaging approach (8; 15; 29) goes out, on the opposite long side either a similar approach (8; 15; 29) or at least one hook (22) or the like. for attaching the second part and, if appropriate, a retaining tab (23) for an insulating body (5) is or are provided. 3. Component according to claim 2, characterized in that from at least one of the two long sides of the central section (7) a single extension (8) starts, which includes an obtuse angle with the central section (7). 4. The component according to claim 2, characterized in that on each of the two long sides of the central section (7) a projection (29) is provided which is perpendicular to the central section (7) and projects beyond it on both sides (Fig. 18). 5 Component according to one of claims 2 to 4, characterized in that each extension (8) has spreading extensions (9) at its outer end. 6 Component according to claim 2, characterized in that from at least one of the two long sides of the central section (7) two lugs (15), one of which is aligned with the central section (7) and the second is perpendicular thereto, with the outer Ends of both lugs (15) with respect to these angled extensions (16) are provided (Fig. 8). 7. The component according to one of claims 2 to 6, characterized in that each web (4) has a limit stop (10) on one of its end faces in the region of each provided attachment (8; 15). 8. Component according to one of claims 2 to 7, characterized in that each web (4) in the region of its central portion (7) has at least one resilient tongue (11) projecting on one side. 9. The component according to one of claims 2 to 8, characterized in that each web (4) in its central portion (7) has at least one opening i0. Component according to one of claims 2 to 9, characterized in that each web (4) has a corrugated area (19) in its central section (7) (Fig. 10) 11. The component according to one of claims to 9, characterized in that each web (4) is made in two parts, its two web parts being assembled in the region of its central portion (7). 12. The component according to claim 11, characterized in that the connection of the two web parts by a bead (20) and groove (21) existing snap connection. 13. The component according to claim 11, characterized in that the two web parts are connected by a preferably equipped with a T-profile. 14. The component according to claim 11, characterized in that the two web parts overlap each other and are connected by elastic rivets. 15. The component according to one of claims 1 to 14, characterized in that the web height corresponds at most to the component height. 16. The component according to one of claims 1 to 15, characterized in that each of its parts (2, 3; 26, 27) at least in the region of opposite end faces at least one slot (12; 17; 30) for receiving a shoulder (8; 15; 29) or a hook (22) or the like. A web (4) and optionally recesses (13; 18) for receiving the extensions (16) or the spreading extensions (9) and a recess (14) for receiving of the limit stop (10). 17. The component according to claim 16, characterized in that between the opposite end faces still further slots (12), etc., are provided side by side (Fig. 14). 18. The component according to claim 16 or 17, characterized in that in at least one of the parts to be connected (2, 3) are each provided at one and the same distance from one of the end faces at least two slots (12) etc. which are in one the mutually facing surfaces of the parts (2, 3) are perpendicular to one another (FIGS. 14, 16). 19. Component according to one of claims 1 to 18, characterized in that at least one of its parts preferably has an opening in the region of an end face. 20. Component according to one of claims 1 to 18, characterized in that at least one of its parts preferably in the region of an end face has a recess facing the part connected to it, which is covered on the outside by a comparatively thin remaining wall.

Images