BE1025577B1 - Device for thermal exterior wall insulation - Google Patents

Abstract

The invention relates to a device for thermally and watertight finishing of roof edges of buildings with a flat or slightly sloping roof surface, wherein an Etics outer wall insulation is provided between a supporting wall and an outer wall, the roof edge possibly being provided with a curb, roof height one or more contiguous L-shaped Etics insulation elements comprising a vertical leg provided for in the space between the supporting wall (or optional upstand) and the outer wall and a horizontal leg provided for on the supporting wall or the optional roof edge.

Description

BE2017 / 5682

Device for thermal exterior wall insulation.

The present invention relates to a device for thermal outer wall insulation or an ETICS system (External Thermal Insulation Composite System), more specifically to an ETICS system for eaves.

Facade insulation is the installation of insulation material, between the load-bearing wall of a building and the outside wall. Insulation is available in the form of rigid preformed panels. The edges are provided with a rebate (with overhang), with tongue and groove or with straight edges. The plate surface can be profiled or flat.

There are specific requirements regarding the insulation of the façade and its sealing at the edge of a flat or slightly sloping roof.

The roof edge must be carried out in compliance with certain rules: prevent rainwater from overflowing from the roof surface to the roof edge, divert dripping rainwater away from the façade, prevent water penetration at the roof perimeter (the place where the seal ends).

The finishing of the roof edge must be higher than the roof surface. The roof edge must drain to the roof surface. That is why the eaves of flat and slightly sloping roofs, or roofs without overhanging eaves, are finished with a curb.

The term uprising is understood to mean a unit in which the roof seal is connected watertight against an upside,

BE2017 / 5682 such as a rising wall, a roof edge or a roof penetration (eg fireplaces, domes, sills, ...). With regard to the invention, the term upstand is specifically applied to a roof edge, so where the roof changes into a wall below.

For flat roofs with a slope of 2 to 5%, a curb of at least 150 mm above the finished roof must be realized at the edge of the roof. With roof slopes between 5% and 10%, it is assumed that no water stagnation can occur at the roof edge. To also exclude water overflow, it is sufficient to provide a small upstand (minimum 25 mm). With roof slopes of more than 10%, neither water overflow nor water stagnation can occur and no upstand must be provided.

The waterproofing of a curb involves two steps: the seal of the kim, i.e. the transition between the flat roof and the vertical wall, and the finishing of the curb.

The seal of the roof edge must be fully extended to the end of the curb.

The roof edge must always be provided with a finish. Hereby it must be ensured that this finish can be permanently connected to the roof seal. Among the known ways to finish the eaves one distinguishes three groups of finishes.

The first group is the profiles that are directly connected to the seal, such as metal collars (rarely used in new construction) and

B E2017 / 5682 roof edge profiles in aluminum, plastic or metal foil sheets. A disadvantage of such profiles is that they are visible on the top of the outer wall and also require a separate seal to connect to the roof seal.

A second group is the composite profiles, in which the seal or a strip of seal is clamped. These profiles were developed for use with plastic seals. In principle, the roof seal is first installed under the profile, after which the profile is attached to the structure. The sealing strip clamped in the profile is then connected to the roof seal. The assembled fittings are screwed on and the connection to the seal is made according to the manufacturer's guidelines. The corners are equipped with pre-welded corner pieces. A disadvantage of such profiles is the complex structure and assembly.

A third group are the capstones (from concrete or natural stone) or wall caps (from metal). In both cases, the seal is extended over the entire wall width and wall length and must be wider than the wall. These are placed on the seal (regardless of the type), without being directly connected to it. A capstone is less recommended because ultimately there is no vertical protection present here in the area immediately below the capstone.

In addition to sealing and finishing, the insulation of the roof edge is particularly important.

B E2017 / 5682

To prevent cold bridges from forming, the curb is thermally insulated. The continuity of the thermal insulation layers must not be interrupted at the edge of the roof. A known method of insulation is by means of an insulation plate that is laid horizontally on the curb and vertically against the curb. The disadvantage is that this is a rather cumbersome method where close attention must be paid to connecting the insulation at the height of the elevation.

The finishing, sealing and insulation of eaves therefore poses a number of problems. For modern buildings, the eaves are usually finished with an L-profile that extends partly over the roof and partly over the wall. However, a disadvantage is that this roof profile is aesthetically disturbing. Another important disadvantage is that the insulation of the roof edge is not optimal at the height of the roof profile and allows cold bridges.

Damaged eaves are also a major problem, with parts affected by thermal stress, corrosion, atmospheric pollution, stains, rainwater penetration and cold penetration.

The present invention has for its object to provide a solution to at least one of the aforementioned and other disadvantages. More specifically, the present invention offers a solution to the combined problem of finishing, sealing and insulation of eaves.

To this end the invention relates to a device for thermally and watertight finishing of roof edges of buildings with a flat or slightly sloping roof surface, wherein between a

BE2017 / 5682 supporting wall and an outer wall an (Etics) outer wall insulation is provided, the roof edge possibly being provided with an upstand, the device at the level of the roof edge comprising one or more L-shaped (Etics) insulation elements consisting of a vertical leg provided for in the space between the supporting wall (or optional curb) and the outer wall and a horizontal leg provided for on the supporting wall or the optional roof edge, the device at the height of the top of the outer wall and the one or more adjacent insulation elements include a roof edge profile that is proportioned in such a way that it is not visible on the outside wall. The one or more L-shaped (Etics) insulation elements are placed consecutively together or against each other so that no thermal bridges are created.

Advantages are: no thermal bridges, no special requirements in the construction, no intervention of a roofer even after installation, (Etics) compatible, applicable for all facade thicknesses, no mechanical fixing required,

The insulation elements are pushed in on site and do not have to be mechanically fixed, as a result of which no additional thermal bridges or corrosion of screws and the like are created.

In the installed state, there is a connection between the vertical leg of the insulation element with the (Etics) outer wall insulation that is located between the supporting wall and the outer wall and the horizontal leg bridges at least the thickness of the supporting wall or the optional roof edge.

B E2017 / 5682

Cold bridges are avoided by connecting insulation elements together. The Etics isolation element of the invention is part of an all-in-one Etics system.

Because the length of the horizontal leg of the insulating element is at least equal to the thickness of the supporting wall or the optional curb, the supporting wall or curb is completely finished. The length of the horizontal leg of the insulating element is preferably greater than the thickness of the supporting wall or the optional upstand, so that a certain margin of sealing is obtained.

The insulating elements are preferably slightly inclined on the free top side for drainage of rainwater to the roof surface. Optionally, only a portion of the top can be slightly sloping.

The advantage is that this promotes water drainage to the roof surface.

In the installed state, the insulation element has two free sides, the top side and the front side of the horizontal leg.

The insulation element is made in a number of standard dimensions, but can be cut in all possible ways to fit into existing dimensions. The vertical leg of the insulation element is 10 cm thick as standard.

In a preferred embodiment of a device according to the invention, the vertical leg has a thickness equal to the thickness of the (Etics) facade insulation between the

BE2017 / 5682 supporting wall and the outer wall if there is no façade insulation at the height of the vertical leg or has a smaller thickness if there is a narrower part of façade insulation at the height of the vertical leg.

The insulation element is fully compatible with all (Etics) facade systems. The thickness of the vertical leg of the insulation element can correspond to the space between the supporting wall and the outer wall. In that case the head end of the vertical leg connects to the underlying one (Etics)

exterior wall insulation who himself between the retaining wall and the outside facade is located. It is also possible prevent the thickness from the vertical leg is smaller Then the space between the retaining wall and the outside facade. In that case is still a extra part (Etics)

external wall insulation installed between the vertical leg and the supporting wall. The vertical leg of the insulating element preferably connects to the outer wall in order to obtain a complete finish of the space between the outer wall and the roof edge.

In the installed state, the top side of the insulation element preferably comes just below the top of the outer wall. The insulation element must certainly not extend beyond the outer wall.

Where the (Etics) insulation element of the present invention connects to other (Etics) insulation, a complementary cut-out can be provided to slide or snap both insulation together. This may also be the case between two connecting insulating elements on which the

Short sides of the insulating element are provided with complementary cut-outs, for example tongue and groove. This can also be the case for the end of the vertical element which can be provided with complementary cut-outs.

The end of the horizontal element can be finished straight or obliquely.

In a alternative embodiment of a insulation element according to the invention can it end from it horizontal element yet a vertical part contain Which about the revolt

crochet.

Where a roof edge makes an angle, for example 90 °, the insulation element is cut off (45 °). The insulation element can also be cut at the right angle for a suitable connection with a façade at a certain angle.

In a preferred embodiment of a device according to the invention, the insulating elements are treated seamlessly at least on the free top side, preferably also on the free end face, with an (Etics) reinforcement mortar.

This reinforces the insulation material against external influences.

In yet another preferred embodiment of a device according to the invention, the insulating elements are treated at least on the free top side, preferably also on the free end face, with a UV-resistant roof paint, preferably in a white color.

BE2017 / 5682

The roof paint is preferably applied to the reinforcement mortar.

In contrast to known roof edge finishes, the roof edge profile of the invention is seamlessly integrated into the outer wall and no protruding profiles are visible. This means that the eaves profile is completely concealed and gives a profile-free view of the outer facade, whereby the eaves and the façade form one whole. This meets the contemporary needs of modern buildings.

Other advantages are: no pollution below the profile and no noise or damage due to rain or hail.

For this purpose, the roof edge profile extends from the insulating element to the outer wall, the roof edge profile comprising two profiled ends, one end leaning against the top of the outer wall to the front or just at the outer edge of the outer wall and the other end at least leaning against the sloping side of the insulation element.

The eaves profile is preferably a pultrusion or fiberglass-reinforced polyester profile. The thermal expansion of these profiles is very small, in contrast to PVC profiles.

The roof edge profiles preferably have a specific shape depending on the material of the outer wall.

The insulation elements are preferably composed of expanded polystyrene (EPS, XPS), mineral wool (MW),

BE2017 / 5682 polyisocyanurate (PIR), polyurethane (PUR), hemp (HEMP), wood fiber (Woodwool), cell glass.

The wall cladding of the outer wall preferably consists of decorative plaster, masonry, concrete or other.

The invention also relates to an L-shaped insulating element for use in a device as described above.

The invention further relates to a roof edge profile for use in a device as described above.

The invention also relates to the use of an (Etics) system as described above for thermally insulating and / or seamlessly finishing a roof edge.

The invention also relates to a roof construction or façade construction comprising (Etics) insulation elements and / or roof edge profiles according to one of claims 1 to 12.

Finally, the invention relates to a method for thermally insulating a roof edge of a construction comprising a supporting wall, a roofing plate provided with an insulating layer, a curb provided with an insulating layer against the inner wall, a sealing membrane on both previous insulating layers and the curb, (Etics) cavity insulation between the supporting wall and outer wall, the method comprising the following steps: a) placing an insulation element on top of the sealing membrane with the vertical leg in the remaining space of the cavity between the supporting wall and the outer wall, b) placing of a

B E2017 / 5682 roof edge profile between the insulation element and the top of the outer wall to just against the extreme edge of the facade, c) applying a sealing membrane and a (Etics) reinforcement mortar on top of the insulation element and the free side, and d ) applying one or more layers of UV-resistant roof paint on the sloping side of the insulation element and on the free side.

With the insight to better demonstrate the features of the invention, a preferred embodiment of a device according to the invention is described below as an example without any limiting character, with reference to the accompanying drawing, in which:

figure 1 represents an existing embodiment for thermal insulation of a roof edge;

figure 2 represents a preferred embodiment of a device according to the invention;

figures 3 a-b represent an L-shaped insulation element 16 according to the invention; and figures 4 a-c show some embodiments of a (Etics) roof edge profile 18 according to the invention.

Figure 1 shows an example of an existing embodiment for thermal insulation of a roof edge.

To avoid the occurrence of thermal bridges, the continuity of the thermal insulation layers at the height of the roof edge must not be interrupted.

B E2017 / 5682

The construction of the roof edge is as follows. On the load-bearing brickwork (supporting wall) 1 and the bearing floor 4 a brickwork upright comes. In the space between on the one hand the supporting wall 1 and the upstand 5 and on the other hand the façade masonry (outer wall) 2, a cavity insulation 3 (the thickness of which must be adjusted to the applicable thermal regulations) is provided. A slope layer and a vapor barrier 7 are provided on the bearing floor 4. Above that is an insulation layer 8 to insulate the roof surface. The vertical wall of the upstand 5 is also provided with an insulating layer 8.

An insulating layer is provided against the vertical wall of the upstand 5. For insulating the top side of the upstand 5, wooden goalkeepers 9 are fixed in the upstand at an intermediate distance. Between the keepers 9 an insulation layer 10, a cavity cover 11 and a sealing membrane 12. The sealing membrane 12 extends from the outer outer edge of the outer wall 2 to the roof surface insulation 8. The roof edge is then finished with a roof edge profile 13 and an edge strip 14. The whole is sealed with kit 15.

Figure 2 shows an embodiment of a device according to the invention.

As is known, on the supporting brickwork (supporting wall) 1 and the bearing floor 4 a curb 5 comes from brickwork. A slope layer 6 and an insulation layer 8 are provided on the bearing floor 4 to insulate the roof surface. The vertical wall of the upstand 5 is also provided with an insulating layer 8.

BE2017 / 5682

An (Etics) cavity insulation 3 is provided in the space between the supporting wall 1 and the facade masonry (outer wall) 2. Where the insulation element 16 comes, the (Etics) cavity insulation 3 has a smaller thickness.

A universal sealing membrane 17 is provided on this cavity insulation 3, which membrane is laid over the upstand 5 and the insulating layers 8 of the vertical wall of the upstand 5 up to the roof surface.

The L-shaped insulating element 16 is provided on top of the universal sealing membrane with the vertical leg in the remaining space of the cavity. The insulation element 16 reaches just below the facade brickwork 2, where a roof edge profile is provided.

The roof edge profile 18 covers the upper edge of the outer wall 2 and comes to just the extreme edge of the facade. The eaves profile 18 is concealed in such a way that it is not visible from the outside wall. As a result, the (Etics) insulation is seamlessly integrated into the façade and looks completely profile-free, in contrast to known roof finishes.

On top of the insulation element 16 is a sealing membrane and a (Etics) reinforcement mortar 20. The whole is finished with one or more layers of UV-resistant roof paint 21.

The water seal consists of a 5-stage seal. This completely prevents water infiltration. A first stage seal consists of an insulating layer on the roof plate and one against the curb (roof edge). A second stage seal

BE2017 / 5682 consists of an L-shaped insulation block according to the invention, integrated into an (Etics) facade system, as a buffer against cold bridges. The insulation block works like an umbrella over the roof edge. A third stage seal comprises a (Etics) reinforcement mortar reinforced with fiberglass that is applied to the free parts of the insulation block, i.e. on the top and the free vertical side. A fourth stage seal comprises a roof paint that is UV-resistant, environmentally friendly and cold-elastic and does not heat up much (white color). A fifth stage seal comprises a seal of the movement joints with, for example, Caparol's Fugendichtband.

Figures 3 a and b show an L-shaped insulation element 16 according to the invention. The slope of the top side is preferably 8 °. The vertical leg 16 'has a thickness of 10 cm as standard. The horizontal leg 16 is standard 40 cm (figure 3a) or 60 cm (figure 3b) and can be shortened according to the total thickness of the facade.

Figure 4 shows some embodiments of a roof edge profile 18 according to the invention. The roof edge profiles are preferably pultrusion profiles. The thermal expansion coefficient is very low (6) compared to thermoplastic profiles (70).

The eaves profile 18 is fixed to the insulation element with a fiber-reinforced mortar.

Figure 4a shows a roof edge profile for decorative plasters, Figure 4b a roof edge profile for bricks and Figure 4c a roof edge profile for artificial stone.

BE2017 / 5682

Each roof edge profile 18 has, in accordance with the insulation element 16, a vertical leg and a sloping leg. Both legs follow the lines of the isolation element. Minimum bonding is required on the insulation element, which increases the reinforcement of this profile and reduces the thermal linear stress between the two materials.

Moreover, each roof edge profile 18 has a specific curb with a nose against which the facade cladding on the front (facade surface) can seamlessly connect.

The roof edge profile 18 can also be provided with a horizontal sealing nose against rainwater infiltration.

A pultrusion coupling piece 23 is provided between two ends of a roof edge profile 18, which is pushed in between two profiles on the facade side. Through this connection, different profiles can be linked to each other, so that a horizontal and level line can be obtained. An additional advantage of this coupling piece 23 is that it is placed linearly with the profile at the front, whereby the upper side is sealed between two profiles. The coupling piece 23 also has an additional strengthening effect. Given the very low thermal linear expansion of the profiles, rainwater infiltration is non-existent.

For sealing the insulating element at the level of the insulation layer 8 of the upstand, a pultrusion thermoprofile 22 can be used. This thermoprofile is placed first and then the insulation element.

BE2017 / 5682

The present invention is by no means limited to the embodiments described as examples and shown in the figures, but a device according to the invention as defined by the claims can be realized according to all kinds of variants without departing from the scope of the invention.

Claims (12)

Conclusions. 1. - Device for thermally and watertight finishing of roof edges of buildings with a flat or slightly sloping roof surface, wherein (Etics) outer wall insulation (3) is provided between a supporting wall (1) and an outer wall (2), the roof edge possibly being is provided with an upstand (5), characterized in that the device comprises one or more L-shaped (Etics) insulation elements (16) at the height of the roof edge consisting of a vertical leg (16 ') provided for in the space between the supporting wall (1) or optional curb (5) and the outer wall (2), and a horizontal leg (16) provided for on the supporting wall (1) or the optional curb (5), the device at the height of the top of the outer wall (2) and the one or more connecting insulating elements (16) comprise a roof edge profile (18) that is proportioned in such a way that it is not visible on the outer wall (2). Device according to claim 1, characterized in that the roof edge profile (18) extends from the insulating element (16) to the outer wall (2), wherein the roof edge profile (18) comprises two profiled ends, one end leaning against the top side from the outer wall (2) to the front or just at the outer edge of the outer wall (2) and the other end at least leaning against the sloping side of the insulation element (16). Device according to claim 1 or 2, characterized in that, in the installed state, the vertical leg (16 ') is connected to the (Etics) outer wall insulation (3) between the supporting wall (1) and the outer wall (2), and the horizontal leg B E2017 / 5682 (16) bridges at least the thickness of the supporting wall (1) or the optional upstand (5). Device according to one of the preceding claims, characterized in that the insulation elements (16) on the free top side are slightly sloping for drainage of rain water to the roof surface. Device according to one of the preceding claims, characterized in that the vertical leg (16) has a thickness equal to the thickness of the (Etics) wall insulation (3) between the supporting wall (1) and the outer wall (2) if there is there is no façade insulation at the height of the vertical leg, or has a smaller thickness if there is a narrower part of the façade insulation (3) at the height of the vertical leg. Device according to one of the preceding claims, characterized in that the insulating elements (16) are treated at least on the free top side, preferably also on the free side, with an (Etics) reinforcement mortar (20). Device according to one of the preceding claims, characterized in that the insulating elements (16) are treated at least on the free top side, preferably also on the free side, with a UV-resistant roof paint (21). Device according to one characterized in that pultrusion profile. from it the previous roof edge profile conclusions, (18) a 9.- Device according to one from the previous conclu sies, characterized in that the insulation elements (16) to be BE2017 / 5682 composed of expanded polystyrene (EPS, XPS), mineral wool (MW), polyisocyanurate (PIR), polyurethane (PUR), hemp (HEMP), wood fiber (Woodwool), cell glass. Device according to one of the preceding claims, characterized in that the wall covering of the outer wall (2) consists of decorative plaster, brickwork, concrete or other. 11. L-shaped insulation element (16) for use in a device according to one of claims 1 to 10 for thermally insulating and / or seamlessly finishing a roof edge. A roof edge profile (18) for use in a device according to one of claims 1 to 10 for thermally insulating and / or seamlessly finishing a roof edge. 13. - Roof construction or facade construction comprising insulating elements (16) and / or roof edge profiles (18) according to one of claims 1 to 10. Method for thermally insulating a roof edge with a device according to one of claims 1 to 10 of a construction comprising a supporting wall (1), a roofing plate (4) provided with an insulating layer (8), a curb (5) provided with an insulating layer (8) against the inner wall, a sealing membrane (17) on both preceding insulating layers (8) and the upstand (5), a (Etics) cavity insulation (3) between the supporting wall (1) and outer wall (2) , the method comprising the following steps: a) placing an L-shaped insulation element (16) with the horizontal leg (16) on top of the sealing membrane BE2017 / 5682 (17) and with the vertical leg (16 ') in the remaining space of the cavity between the supporting wall (1) / cavity insulation (3) and the outer wall (2), b) placing a roof edge profile (18) wherein the one 5 end is leaning against the top of the outer wall to the front or just against the outer edge of the outer wall and the other end leans at least against the sloping side of the insulation element, c) applying a sealing membrane (19) and a 10 (Etics) reinforcement mortar (20) on top of the insulation element (16) and the free side, d) applying one or more layers of UV-resistant roof paint (21) on the sloping side of the insulation element (16) and on the free side.