NL1018101C2 - Structural element in block form for buildings, external shape of which is determined by bottom, top and four sides, and at least one side being provided with slot formed in plastics material in which sheet material can be fixed - Google Patents

Abstract

The structural element in block form, the external shape of which is determined by a bottom (3), a top (2) and four sides (12,13) adjoining one another. A first of the sides (12) is provided with a first slot (7) that opens on the first side and extends the complete length of the first side. The part of the first slot that is located in the structural element is delimited by a plastics material.

Description

Masable building element as well as use thereof and wall provided with such a building element.

The present invention relates to a bricklable building element, the underside and top of which are of a brick-like material that can be bricked.

When building houses with walls made of bricklable material, it is a well-known phenomenon that moisture can pull up along the walls or sink down along the walls and thus cause moisture problems inside the house. Furthermore, it is a known phenomenon that when placing an extension against an outer wall 10 cold can enter the building through that outer wall and heat can leave the building. This phenomenon occurs in particular with walls made of a brick material. According to the invention, a bricklable brick-like material is understood to mean not only baked bricklable bricks, carved natural bricklable bricks, or bricks formed from concrete-like material, but also concrete walls cast as a whole. Such building materials have the property that they are porous to a greater or lesser extent and can thus lead moisture up or moisture down. When, for example, the facade has become very moist due to rainfall, such bricklable materials can introduce the moisture into the building. This is one of the reasons why people often work with cavity walls. When built on a moist surface, walls constructed from such bricklable materials can cause moisture to penetrate upwards from the floor into the home.

According to a first aspect, the present invention has for its object to provide a bricklable building element that overcomes the aforementioned problems.

In order to achieve this aim, a bricklable building element is provided according to the first aspect of the invention, comprising: an upper layer of brickable brick-like material, a lower layer of brick-ready brick-like material, and a moisture-tight plastic intermediate layer located between the lower and upper layer. The bricklable building element thus obtained is, as it were, a sandwich-like, at least three-layer building element. By manufacturing the top and bottom layer of a bricklable brick-like material, it is ensured that the building element can be built into a wall by bricklaying. By providing a moisture-tight plastic intermediate layer between the lower and upper layer, 101 8101 2, both a thermal bridge and a moisture barrier are provided. This prevents cold from passing the bricklable building element according to the invention transversely of the direction of extension of its layers. Due to the moisture-tight properties, moisture is also prevented from passing transversely to the layer direction in the one or the other direction. Such a bricklable building element can be used advantageously in various places, such as cavity walls under the roll layer, with a vertical dilatation in the facade, at floor height under an inner cavity leaf, under a sill of a facade element, with a roof trim connection, as well as in the roof trim connection. especially also above all conservatory, glass roof, sloping roof connections on the facade.

According to an advantageous embodiment, the first side of the building element is provided with a slot formed in the plastic intermediate layer, which slot extends parallel to the plastic intermediate layer along the whole of that side. Such a slot makes a very simple and reliable mounting of sheet material on the facade possible.

The invention is understood by such a sheet material, for example, to be an aluminum, plastic setting or a lead bib. Such sheet metal is generally attached to a facade by milling a slot in the facade, often in the cement joints, inserting an edge of the sheet material here and then fixing it all by attaching the rest of the milled slot with joint grout. to fill. The disadvantage of joint grout, in particular with metal sheet, is that joint grout and metal sheet adhere very poorly to each other. By now forming a slot in the plastic interlayer, it becomes possible to insert the sheet material with an edge zone into that slot formed in the plastic interlayer and then insert that edge zone into it by means of tried and tested methods, such as gluing or by means of a kit or possibly a rubber or plastic strip. to secure that slot. As the trench in the building element will already be prefabricated, it is no longer necessary to grind or mill a trench in the façade.

In order to prevent the passage of rising or settling moisture along the plastic intermediate layer, it is of additional advantage according to the invention if the building element is coated at least partially, preferably wholly, with a plastic coating layer on the second side opposite to said first side. which coating layer is preferably of the same material as the moisture-proof plastic intermediate layer, wherein the plastic coating layer is connected to the moisture-proof plastic intermediate layer. When used, the covering layer is positioned on the side of the building element that is turned inwards, in particular the cavity.

In order to prevent moisture dripping downwards along the inside, in particular the inside cavity side of the building element, and ultimately to be able to lead to the outside of the building element, it is preferred according to the invention if the covering layer is the second side of the upper layer at least partially coated and when the top edge of the coating layer is slanted towards the top layer. The upper edge of the covering layer thus absorbs dripping / dripping moisture downwards and introduces the building element - which, given the stony material in the upper layer, is porous and moisture-transmitting - to the moisture-tight plastic layer along the building element along the top of the building element or the outside of the facade.

According to a second aspect, the invention has for its object to provide an improved bricklable building element that is particularly suitable for fixing sheet metal thereto.

According to the second aspect of the invention, that object is achieved by providing a bricklable building element, preferably according to the properties of the brickable building element according to the first aspect of the invention, which bricklaying building element according to the second aspect of the invention comprises: a top side of bricklable brick-like material, and a bottom side of bricklable brick-like material, wherein along a first side parallel to that top and bottom a strip of a plastic material is embedded in the building element, said strip extending along the whole of that side and is provided with a slot opening on that first side which extends parallel to that top and bottom along all of that first side. The embedded strip can - viewed in the depth direction of the slot - very well extend only over a part of the building element. The advantages of this bricklable building element according to the second aspect have already been explained with reference to the intermediate layer of the building element according to the first aspect which is incorporated therein. s'v? * U 1 '! ·,! 4 shaped slot. The same applies to the following special embodiment of the bricklable building element according to the second aspect.

According to the second aspect of the invention, it is of particular advantage if that strip is the edge zone of a moisture-tight plastic intermediate layer located between the lower and upper layer.

According to a further advantageous embodiment of the second aspect, on the second side opposite the first side, a plastic covering layer is provided which is connected to the moisture-tight plastic intermediate layer. According to a still further advantageous embodiment, this covering layer is provided at the top with an edge draining towards the building element.

With the building element according to both the first and the second aspect of the invention, it is of particular advantage if the plastic intermediate layer is made of rubber or rubber-like material. Rubber and rubbery materials, in addition to being highly moisture-proof, also work very well as a thermal bridge. Within the scope of this invention, rubber or rubber-like material is certainly understood to mean both artificial and natural rubber or rubber-like material based on both artificial and nutritional rubber, wherein the artificial rubber and natural rubber are both separate from each other (one or the other ) if can be used in combination.

The invention further relates to the use of a building element according to both the first and the second aspect of the invention, wherein the top layer resp. essentially horizontal. According to a special embodiment, the building element according to the first and / or the second aspect is used here for obtaining a thermal bridge active in the vertical direction. According to another, further advantageous embodiment, the building element according to a first and / or second aspect of the invention is used for fixing plate material, such as an aluminum plate or a lead bib, to a wall.

The invention further relates to a wall provided with a building element according to the first and / or second aspect of the invention. This wall will in particular be a cavity wall, the building element according to the first and / or second aspect of the invention then being placed in the outer wall.

The present invention is explained in more detail below with reference to a number of exemplary embodiments schematically shown in the drawings.

5

It shows:

Figure 1 is a schematic perspective view of a building element that embodies both the first and the second aspect of the invention;

Figure 2 shows a schematic sectional view of an application of the building element according to the invention, embodying both the first and the second aspect thereof;

Figure 3 shows a schematic cross-sectional view of a further application of the building element according to the invention, embodying both the first and the second aspect thereof; Figure 4 shows a schematic sectional view of a still further application of the building element according to the invention, embodying both the first and the second aspect thereof;

Figure 5 shows a schematic cross-sectional view of a still further application of the building element according to the invention, embodying the first aspect thereof; and Figure 6 shows a schematic sectional view of a still further application of the building element according to the invention, embodying the second aspect thereof.

Figure 1 shows a building element indicated in its entirety by 1. The building element 1 has an upper side 2, a lower side 3, a first side 12 and a second side 13 opposite it. The concepts "top side" and "bottom side" 20 are related here to the orientation of the building element 1 intended for installation. top edge 9 to be discussed yet is absent or is effectively not required and optionally the covering layer 8 to be discussed is absent or not required, then the bottom and top can be interchanged.

The building element 1 as shown in figure 1 is made up of an upper layer 4 of bricklable material, a lower layer 5 of bricklastic material, which is also bricklable, and an intermediate layer 6 of plastic, and in particular a moisture-proof plastic the majority of the plastics inherently also have cold / heat transport interrupting properties.

On the first side 12, a slot 7 is formed in the material of the intermediate layer 6. This slot 7 extends substantially parallel to the upper side 2 and lower side 3 over the entire side 12. As further discussed in more detail below, it is possible to attach a profile, plate (whether or not set) or lead flashing 99 in the slot 7.

101810 1 6

On the opposite second side 13, a covering layer 8 formed as a whole with the intermediate layer 6 is provided. This covering layer 8 does not necessarily have to be integrally formed with intermediate layer 6 and can also be a separate layer 8 which will then be connected to layer 6, for example by gluing. In the example shown in Figure 1, the covering layer 8 is provided on the entire second side 13. However, the covering layer 8 does not have to extend over the entire second side 13. In particular, the covering layer 8 need not extend over the second side of the bottom 3. The covering layer 8 will preferably extend at least over a portion of the second side of the upper layer 4.

This need by no means be the entire height of the second side of the top layer 4. Generally, it will suffice if the covering layer 8 measured from the underside of the upper layer 4 has a height of 5 to 10 mm. The upper edge 9 of the covering layer 8 runs obliquely at an angle α, draining away in the direction of the upper layer 4.

In the example shown in Figure 1, the cross-section of the building element 1, viewed parallel to the plane of the drawing, is the same everywhere. However, this is not a requirement.

In view of being able to withstand a pressure in the vertical direction, it is quite conceivable that pressure-resistant elements are present in the intermediate layer 6 which contact the upper layer 4 on the one hand and the lower layer 5 on the other. This will be particularly advantageous if the intermediate layer 6 is a material that is relatively sensitive to pressure, that is to say compressed under the influence of a compressive force.

The top layer 4 can be made of ordinary brick, but can also be cut from a natural stone and be formed from a concrete mixture. The same applies to the lower layer 5 which will preferably be of the same material and the same composition and preferably even of the same dimensions as the upper layer 4. The intermediate layer 6 can be made of a pressure-resistant rubber-like material. The intermediate layer 6 can have a height of approximately 10 mm, while the slot 7 can have a height of approximately 5 mm. Approximately 30 mm can be at the level of the lower and upper layer 4. The thickness of the covering layer 8 can be approximately 10 mm. The width of the component extending parallel to the plane of drawings and extending transversely to the height direction can total approximately 110 mm. The length of the component extending perpendicular to the surface of drawings transversely to the height direction can be approximately 200 mm. The aforementioned dimensions are only intended to be indicative and in no way limitative of the scope of the invention.

With regard to the second aspect of the invention, the part of the building element to the left of the center line 14 could be made entirely of a stone-like material.

Figure 2 shows an application of the building element 1 according to the invention just above the connection of a conservatory roof 20 to the outside 21 of a facade, wherein the facade is a cavity wall with an inner wall 23 and outer wall 22. The layer 24 is an insulating layer. 25 is a ceiling or floor. Arrow dripping downwards along the inside 10 of the outer wall 22 according to arrow 26 is collected on the draining upper edge 9 and guided to the upper surface of building element 1 according to the invention. This moisture can then be drained outside via the porous joint or overlying stone. Moisture problems below the building element 1 according to the invention are thus prevented. Due to the moisture-tightness of the intermediate layer 6, the permeability of moisture from top to bottom is completely excluded. Inserted into slot 7 is an aluminum setting plate 27 which is fixed here by means of sealant, glue or possibly a rubber strip. The building element 1 in the application according to Figure 2 prevents on the one hand that a vertical downward transport of moisture can occur through the outer wall 22, which could lead to moisture problems under the greenhouse roof 20 and also prevents cold from coming through the outer wall 22 from above it. conservatory roof 20 is led to the wall section below conservatory roof 20, which would result in cold in the conservatory.

Figure 3 shows an application of a building element 1 according to the invention which essentially differs from Figure 2 only in the sense that a flat roof 28 is provided instead of a conservatory roof 20. Therefore, corresponding reference numbers are used for corresponding parts.

Figure 4 shows, in a schematic cross-sectional view, a portion of, for example, a conservatory at ground level 35. A foundation 30, a finishing floor 33, a layer of stone 34 supporting the foundation and a slidable back and forth perpendicular to the plane of the drawing are shown. sliding door 32. The building element 1 according to the invention is used here to prevent rising damp and to provide a practical fixing point for an L-shaped piece of setting 31 in cross-section. The setting 31 can be inserted here in a simple manner into the slot 7 of the building element 1 according to the invention and possibly be fixed in it by means of glue, sealant etc. It is in the situation from figure 4 possibly conceivable only to insert the setting 31 into the slot 7 and not to secure it therein.

Figure 5 shows a situation in which the building element 1 according to the invention is only used to repel rising damp. The figure shown in Figure 5 can be, for example, the connection of a conservatory to a building. Herein 40 is the part of an outer façade lying below ground level, 41 the crawl space, 42 the floor of the original building, 43 the concrete floor of the conservatory and 44 the finishing floor thereof.

Figure 6 shows diagrammatically in cross-section the connection of a flat roof to an outer facade. The building element 1 is here only used as a simple and practical fastening means for a profile 45 or, if necessary, typesetting. The building element 1 is here provided as a top layer on an outer wall 46 with a cavity wall 46, 47. The flat roof is indicated by 49.

Claims (13)

A bricklable building element, comprising: an upper layer of bricklable brick-like material, 5. a lower layer of bricklable brick-like material, a moisture-tight plastic intermediate layer located between the lower and upper layers. 2. Building element as claimed in claim 1, wherein a first side of the building element is provided with a slot formed in the plastic intermediate layer which extends parallel to the plastic layer along all of that side. Building component as claimed in claim 1 or 2, wherein the building element on the second side opposite to said first side is at least partially covered with a plastic covering layer of preferably the same material as the moisture-tight plastic intermediate layer, wherein the plastic covering layer with the moisture-tight plastic intermediate layer connected. Building component as claimed in claim 3, wherein the covering layer at least partially covers the second side of the upper layer and wherein the upper edge of the covering layer is slanted downwardly towards the upper layer. 5. A bricklable building element, preferably according to any one of the preceding claims, comprising: 20. an upper side of bricklable brick-like material, and a bottom side of bricklable brick-like material, wherein along a first side parallel to said upper and lower side a strip of a plastic material is embedded in the building element, said strip extending along the whole of that side and being provided with a slot opening on that first side which extends parallel to that top and bottom along all of that first side. Masable building element according to claim 5, wherein said strip is the edge zone of a moisture-tight plastic intermediate layer located between the lower and upper layer. 7. Building element as claimed in claim 6, wherein the building element on the second side opposite to said first side is at least partially covered with a covering layer of preferably the same material as the moisture-proof plastic; An intermediate layer, wherein the plastic covering layer is connected to the moisture-tight plastic intermediate layer. Building component as claimed in claim 7, wherein the covering layer at least partially covers the second side of the upper layer and wherein the upper edge 5 of the covering layer is designed obliquely to the upper layer. Building component according to one of the preceding claims, wherein the plastic intermediate layer is made of rubber or a rubber-like material. Use of a building element according to any one of the preceding claims, wherein the top layer or top side is essentially horizontal. Use according to claim 10 for obtaining a cold bridge operating in the vertical direction. Use according to claim 10 or 11 for fixing plate material, such as an aluminum plate or a lead bib, to a wall. Wall provided with building element according to one of the preceding claims. 101810 1