EP1566487B1 - Method for covering insulation using a profile - Google Patents

Description

The invention relates to the use of a profile for covering insulation edges of insulating layers, in particular of Perimeterdämmschichten on outer walls of foundation walls.

Profiles of the aforementioned type are used for covering and sealing of insulating layers on outer walls of foundation walls. The insulation edge to be covered is usually just below the terrain surface of the surrounding soil. Such insulation is increasingly being carried out as Perimeterdämmung. A perimeter insulation consists of plate material, which is laid successively from the bottom plate upwards. As a result, the top plate, except for special cases, must be cut. This cutting edge must be protected to prevent moisture and dirt from getting between the insulation material and the foundation wall.

Previously known from practice covers are made of custom-made and folded metal tracks, since the strength of the insulation varies. For example, perimeter insulation panels currently in use have thicknesses of 50, 60, 70, 80, 90 and 100 mm. Furthermore, an additional drainage and protective layer, for example in the form of a dimpled sheet, can be applied, thereby further increasing the overall strength of the insulation. The resulting individual production of covers is complicated and expensive.

A profile for covering the upper end of an insulation on outer walls of foundations already goes from the DE - A - 1 964 769 out. In the known profile is a drip tray, which is located above the end of the insulating board extending slightly above the ground level and this top end covered to prevent rainwater from entering the insulation layers. With its upper side portion of the drip tray rests against the masonry, while the lower side portion is spaced from the Dämmschichten and rests on the floor.

From the US Pat. No. 3,888,087 is a dimpled sheet made of plastic known for the foundation wall protection, which has ribs in the lower area. The lower section serves to cover a projection of the foundation and a water-carrying pipe. Since both parts are in front of the level of the foundation wall, the lower track section of the wall covering dimpled sheet can be bent obliquely forward, so that the lower portion covers these parts before earth poured in front of the wall or dimpled sheet while the dimpled sheet as a whole the outside of the structure is pressed. For the bending or bending of the lower portion of the web, the ribs on the lower portion of the dimpled sheet are formed parallel and spaced apart and horizontally. Along the ribs takes place - depending on the width of the obliquely to be bent path section - the bending of the lower section.

From the GB - A - 2 189 523 is a connecting profile made of plastic for plates or webs known to seal these against moisture with each other. The connection profile consists of two plate pairs connected along a welding line, which form receiving slots for adjacent plates or webs on both edge edges. The connection profile has longitudinal beads or fold lines on which it can be bent.

Object of the present invention is to provide a profile for use for covering insulation edges of insulation layers of the type mentioned above, which ensures a good seal of the blank edges of the insulating layers.

According to the invention, the profile consequently consists of an easily manufactured sheet of flat material which, in its production form, e.g. in the stack, can be transported flat and stored. In the surface of the web bending lines are introduced parallel to the longitudinal direction. They serve to ensure that the respective used profile is formed from the web by corresponding bending or folding of side sections in a simple manner. A bending line is here understood to mean any structuring of the web material which makes it possible to bend the side sections along a predetermined line. The material of the web is bendable at least at the bending lines. Preferably, the web in its entirety consists of longitudinally bending lines bendable material, but would also be possible a web of non-bendable, namely dimensionally stable and longitudinally extending track sections which are flexibly connected to each other at the bending lines.

The direction of the bend of the side sections of the web is basically arbitrary and is based on the local conditions. Preferably, it is angled so that a right angle is formed between adjacent sections. In general, the outer side sections abut the outside of the structure and on the insulation and can be fixed there, while the remaining sections are available for covering.

The web is provided with a plurality of bend lines such that the web has a central portion selectable in width by the bend lines, followed by the bendable side portions on both sides. According to the invention, the profile can be used universally and adapted to the respectively given on site insulation thickness. For all conventional insulation thicknesses, only one type of track needs to be manufactured and stored. As a result, in addition to a considerable cost reduction in production, storage and transport of the web or the profile also easier handling of the construction site is achieved. The width-selectable middle section is preferably used to cover the upper narrow side of the insulation, but in principle, other geometries are conceivable.

The number of side sections is by appropriate bending on the bending lines selectable. Thus, the web can be brought into a variety of profile shapes. However, it is expedient that a first side section and a second side section can be bent in opposite directions from the central section in such a way that the profile acquires a Z-shape (claim 2). Such a Z-shape corresponds to a frequently occurring application. A tight connection of the profile on an insulation outside is with the downwardly angled first side portion and a corresponding connection, for example, to a foundation wall is easily accessible with the upwardly angled second side portion. In principle, only two bending lines are required to produce a Z-profile, but several are expediently provided so that, as already mentioned above, the width of the middle section of the respective thickness of the insulating layer can be adapted.

The bending lines are expediently arranged on the path such that the first side section can be bent at a plurality of bending lines and the second side section can be bent at a predetermined bending line (claim 3). By this arrangement, the width of the second side portion is the same even with different insulation thicknesses, which makes sense for a uniform installation, and advantageous for optical reasons, if the second side portion protrudes from the ground or even serves as a plaster finish on the outer wall.

As already mentioned, a bending line is understood to be any structuring of the web material which allows angling along a predetermined line. Possible structures are z. B. thickening of the material, where a wrinkle is possible. However, it is preferred that the bending lines are formed as lines along which weakened the web material, namely, for example, constricted, notched or formed as a film hinge (claim 4). Such bending lines can be easily in a train, even with subsequent processing, bring. Furthermore, it is easier to bend through the weakening of the web and therefore particularly economical.

The bending lines are preferably formed as V-notches (claim 5). In the execution of the bending lines as notches, the angle of the flanks is basically selectable according to the preferred position of use of the side sections. According to a development of the invention, however, it is preferred that the flanks of the V-notches form a right angle (claim 6). Such a shape of the notches can be, for example, at achieve a Z-shaped profile, a higher stability of the profile at the bending lines. In addition, a stop is given for the bend, which facilitates the folding of a profile with mutually perpendicular sections, as in the above-mentioned Z-shaped profile.

According to a development of the invention it is preferred that the bending lines on the web depending on the predetermined bending direction at the top or bottom of the web run (claim 7). Alternatively, it is also possible to apply the bending lines so that the adjacent track sections are selectively bendable in two directions. However, it is preferable that the bending directions are predetermined.

Because of the different thickness dimensions of Perimeterdämmplatten the bending lines expedient for the first side section a distance of about 10 mm (claim 8). Basically, depending on the application and strength of the insulation, other distances are conceivable here.

According to an advantageous embodiment of the invention is of the edge region, which is assigned to the abzuwinkelnden second side portion, a contact leg obliquely angled (claim 9). By this arrangement, if necessary, a gap formed between unevenness of the outer wall or the like between the angled side portion and the foundation wall is sealed. The contact leg can be integrally formed on the web material as well as attached to this.

Preferably, in the first side portion and / or second side portion recesses for fastening means, in particular elongated holes, each provided with a longitudinal axis parallel to the trajectory (claim 10). This can be a simple installation with common fasteners, such as screws, nails or dowels achieve. Such recesses can be introduced in the formation of the web in the material, but it is also conceivable subsequent introduction of the recesses, for example by drilling or punching. An arrangement of the longitudinal axis of the slots parallel to the path is advantageous for easy adjustment, but other arrangements, depending on the application, are conceivable.

According to an advantageous embodiment of the invention, the recesses are designed as material weakenings (claim 11). This ensures that no moisture penetrates through unused recesses under the profile. Nevertheless, the web sections of recesses required for fastening can easily be pressed out or otherwise removed by the weakening of the web.

According to a development of the invention, a self-adhesive layer is present on the first side section and / or the second side section (claim 12). In this case results in a much faster assembly of the profiles and a lower material usage, since further fasteners are not needed. The self-adhesive layer also has sealing properties.

In a further alternative embodiment, surfaces for receiving a self-adhesive layer are present on the first side section and / or the second side section (claim 13). This alternative represents a compromise between material use and assembly time, with the advantage that the adhesive used can be chosen on site for the corresponding substrate. Furthermore, an attachment with the usual in the construction sector PU foam can be performed.

For the production of easily bendable webs are all materials into consideration, which are easily produced in sheet form and can be provided with bending lines along which portions of the web are angled. Advantageously, the web consists of rot-proof material, in particular of plastic, preferably PVC (claim 14). In this case, there is a significant extension of the life of the profile. Plastic, especially PVC, is easily malleable and inexpensive.

For the shaping of the web different possibilities are considered. However, it is preferred that the web is an extrusion product (claim 15). In particular, in a plastic sheet this is advantageous. For larger quantities, roll production by calendering is also considered (claim 16). When manufactured by calendering, formations of the material, such as weakenings, can be easily incorporated. Therefore, this method is particularly economical.

Fig. 1

eine Querschnittsansicht einer ersten Ausführungsform der vorliegenden Erfindung;

Fig. 2

eine Querschnittsansicht einer zweiten Ausführungsform der vorliegenden Erfindung;

Fig. 3

eine Draufsicht der in Fig. 2 gezeigten Ausführungsform;

Fig. 4

eine Querschnittsansicht der zweiten Ausführungsform der vorliegenden Erfindung in einer Gebrauchsform;

Fig. 5

eine Schnittansicht einer Grundmauer mit montierter Dämmschicht und daran befestigtem Profil entsprechend der zweiten Ausführungsform und

Fig. 6

eine Ansicht des an einer Dämmschicht befestigten Profils.

The invention will be explained in more detail below with reference to embodiments with reference to the drawings. Hereby shows:

Fig. 1

a cross-sectional view of a first embodiment of the present invention;

Fig. 2

a cross-sectional view of a second embodiment of the present invention;

Fig. 3

a top view of the Fig. 2 embodiment shown;

Fig. 4

a cross-sectional view of the second embodiment of the present invention in a form of use;

Fig. 5

a sectional view of a foundation wall with mounted insulating layer and attached thereto profile according to the second embodiment and

Fig. 6

a view of the attached to an insulating layer profile.

Fig. 1 shows a cross section of an elongated sheet 12, which is produced as an endless product by extruding plastic, namely PVC, and divided into common lengths. The web 12 has parallel to its longitudinal extension extending bending lines in the form of top and bottom V-grooves 1, 14, in which for producing a profile 12a with Z-shape for covering insulating layers 8 of the web 12 sections, namely in the Usually a first side section 5 and a second side section 6, are bendable. Long holes 3 in the side sections 5, 6 (see. Figure 3 ) are used to attach the profile 12a to walls or the like.

As indicated by dashed lines in Fig. 1 is shown, the first side portion 5 - depending on the width of the covering of the desired profile 12a - angled along one of the V-grooves 1. The second side portion 6 is angled at the predetermined V-notch 14. By stepwise possible bending of the first side portion 5 is formed in a width corresponding selectable middle section 2, which serves to cover an insulating layer 8. The two side sections 5, 6 serve to fasten the profile 12a to the insulation and to the foundation wall. The V-notches 1, 14 are formed as a film hinge to facilitate the folding of the web 12 along the bending lines. This results in an optimum compromise of bending stiffness and stability.

At the in Fig. 2 illustrated cross-sectional view is a second embodiment of the present invention. Opposite the in Fig. 1 shown embodiment, this has an obliquely angled contact legs 4. The contact leg 4 is arranged on the second side section 6, which forms the building-side connection of the profile 12a. The contact leg 4 serves to seal a gap, possibly formed due to unevenness of the outer wall or the like, between the side section 6 and a base wall 10.

In this embodiment, the V-grooves 1 at a distance of 10 mm. This distance corresponds to the levels of thicknesses of 50, 60, 70, 80, 90, 100 and 110 mm of perimeter insulations. Any protective and surface drainage layer on the outside of the insulation may also have a thickness of 10 mm. By a suitable bending of the web 12 at the corresponding V-notch 1, a matching connection to the respective insulation thickness is achieved. The V-grooves 1 have a flank angle of 90 °. As a result, a higher stability is achieved at right angles angulation.

A top view of in Fig. 2 shown second embodiment of the present invention is in Fig. 3 shown. The figure shows the parallel to the V-grooves 1, 14 arranged long holes 3, which facilitate the assembly of the profile 12a. The figure also shows the contact leg 4, which is arranged on the second side section 6.

Fig. 4 shows a along one of the V-notches 1 down and along the predetermined V-notch 14 upwards at right angles angled path, from which a ready-Z-profile 12a for covering Perimeterdämmschichten arises.

Fig. 5 shows a like in Fig. 4 Angled profile 12a in Z-shape, which is mounted on an upper side of the insulating layer 8 on an outer wall of the foundation wall 10. The covered insulating layer 8 consists of a perimeter insulation 8a and a dimpled sheet 9 applied to the perimeter insulation. The insulating layer 8 terminates near the top of the surrounding soil 11. The figure illustrates the adaptation of the width of the middle section 2 of the profile 12a to the given insulation thickness.

In Fig. 6 is an attachment of the profile 12a of Fig. 5 shown at the insulating layer 8 and at the base wall 10. The first side section 5 is fastened with dowels 13 to the insulating layer 8. The second side section 6 is fastened to the foundation wall 10 with dowels 13a. The dowels used are chosen appropriately for the respective carrier material.

Claims (16)

1. The use of a profile for covering insulation edges of insulating layers on buildings, in particular, perimeter insulating layers on foundation walls, characterized in that the profile (12a) consists of a web (12) made of flat material with bending lines running parallel to its longitudinal direction, along which side sections (5, 6) are bendable and the web (12) is provided with a plurality of bending lines, that the web (12) has a center section (2) selectable through the bending lines in width for covering the insulation edges, to which on both sides the bendable side sections (5, 6) are attached for fastening to the outside of the building and to the insulation.
2. The use of a profile according to claim 1, characterized in that a first side section (5) and a second side section (6) are bendable in the opposite direction from the center section (2) such that the profile (12a) obtains a Z-shape.
3. The use of a profile according to claim 2, characterized in that the first side section (5) is bendable at a plurality of bending lines and the second side section (6) is bendable at a predetermined bending line.
4. The use of a profile according to claim 3, characterized in that the bending lines are formed as lines, along which the web material is weakened, namely, for example, narrowed down, notched or formed as an integral hinge.
5. The use of a profile of one of claims 1-4, characterized in that the bending lines are designed as V-notches (1, 14).
6. The use of a profile according to claim 5, characterized in that the flanks of the V-notches (1, 14) form a right angle.
7. The use of a profile according to one of claims 1-6, characterized in that depending on a predetermined bending direction the bending lines on the web (12) run on the upper- or lower side of the web (12).
8. The use of a profile according to one of claims 3-7, characterized in that the bending lines for the first side section (5) have a distance of approx. 10 mm.
9. The use of a profile according to one of claims 3-8, characterized in that from the edge area of the web (12) which is assigned to the second side section (6) to be bent, a contact leg (4) is bent diagonally.
10. The use of a profile according to one of claims 3-9, characterized in that in the first side section (5) and/or second side section (6) recesses are provided for fastening means, in particular, elongated holes (3), in each case with a longitudinal axis parallel to the web trajectory.
11. The use of a profile according to claim 10, characterized in that the recesses are designed as material weakenings.
12. The use of a profile according to one of claims 3-11, characterized in that on the first side section (5) and/or on the second side section (6) a self-adhesive layer is present.
13. The use of a profile according to one of claims 3-12, characterized in that on the first side section (5) and/or on the second side section (6) surface areas are present for reception of a self-adhesive layer.
14. The use of a profile according to one of claims 1-13, characterized in that the web (12) consists of rot-proof material, in particular, of plastic, preferably PVC.
15. The use of a profile according to one of claims 1-14, characterized in that the web (12) is an extrusion product.
16. The use of a profile according to one of claims 1-15, characterized in that the web (12) is formed by calendering.

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