BE1025290B1 - METHOD FOR INSTALLING A WINDOW OR DOOR PROFILE - Google Patents

Abstract

The invention relates to a method for installing a window or door profile against a surface of a wall. A supporting frame is first applied to the surface of the wall in a first position and is then repositioned in a second position by sliding the supporting frame along the surface of the wall. The window or door profile is then attached to the supporting frame. The adhesive has a processing time T of at least 3 minutes and an initial adhesion during the processing time T of at least 15 kg / m2. The invention further relates to a wall construction comprising a window or door profile installed by this method.

Description

Method for installing a window or door profile

FIELD OF THE INVENTION

The invention relates to a method for installing a window or door profile against a surface of a wall. The invention further relates to a wall construction provided with a window or door profile, such as, for example, an inner wall or outer wall construction, wherein the window or door profile is installed against the inner or outer surface of the wall.

Background art

For a long time, window systems were the weak point in the pursuit of energy-efficient buildings. In the meantime, highly energy-efficient materials such as super-insulating window profiles and high-efficiency glass are available. However, mounting the window profiles remains critical. The assembly must not only meet strict mechanical requirements, such as requirements regarding weight and wind loads. The assembly must also guarantee an air and watertight seal. Moreover, the creation of cold bridges must be avoided. Furthermore, it is important that assembly on the site is simple and can preferably be carried out by a single person.

An interesting technique for mounting window or door profiles is the technique where a window or door profile is mounted against a surface of a wall and where insulation material is subsequently applied to the wall so that the window or door profile and the insulation are in the same (vertical) ) are flat. This technique is generally referred to as front wall mounting and has the advantage that the isothermal progression is linear. This linear isothermal course is interesting from a thermal point of view. However, this technique also has disadvantages. The installation of a window or door profile against the outer or inner surface of the wall is complex and expensive.

When mounting a window profile against the inner or outer surface of a wall, it is usual to first position the window profile via clamps against the inner or outer surface of the wall in order to subsequently fix it mechanically. In other methods, one or more supporting elements are first attached to the inner or outer surface of the wall and the window profile is then mechanically attached to the one or more supporting elements. In certain known embodiments, a supporting element, such as, for example, a supporting beam, is arranged at the bottom of the window recess and the window profile is supported by this supporting element during placement and subsequently mechanically attached to this supporting element. In known embodiments, different support elements are arranged around the wall recess and the window profile is subsequently mechanically attached to the support elements. The known methods have the disadvantage that they are not only labor-intensive but, moreover, not used by a single person

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BE2017 / 5838 can be carried out on site. Moreover, there is a chance that window or door profiles that are installed in this way will not be installed correctly so that wind, air and water tightness cannot always be guaranteed and cold bridges can be created.

There is therefore a need for an improved method for installing window or door profiles against a surface of a wall.

Summary of the invention

It is an object of the invention to provide a method for installing a window or door profile that allows an air, wind and watertight seal to be obtained and wherein cold bridges are avoided.

It is another object of the invention to provide a user-friendly method for installing a window or door profile that can be easily carried out by a single person at a site.

It is a further object of the invention to provide a method for installing a window or door profile in which a supporting frame is applied to the surface of a wall by means of an adhesive, the initial adhesion of the supporting frame to the surface of the wall being sufficiently is large to ensure adhesion and at the same time allows the supporting frame to move along the surface of the wall to the final position of the supporting frame.

According to a first aspect of the invention, a method for installing a window or door profile against a wall is provided. According to this method, the window or door profile is mounted against a surface of the wall ("front wall mounting"). The method is suitable for mounting a window or door profile against the first surface (for example the outer surface of a wall) or against the second surface (for example the inner surface of a wall). The wall against which the window or door profile is installed is provided with a wall recess characterized by a circumference O1. The method according to the invention comprises the following steps

- providing a supporting frame with an inner circumference O2, the inner circumference O2 largely corresponding to the circumference O1 of the wall recess,

- applying the supporting frame to the surface of the wall by means of an adhesive by first placing the supporting frame by means of the adhesive in a first position against the outer surface of the wall and then repositioning the supporting frame in a second position by shifting the supporting frame along the outer surface of the wall from the first position to the second position;

- attaching the window or door profile to the inner circumference O2 of the supporting frame;

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The adhesive has a processing time T of at least 3 minutes. The processing time T is hereby defined as the period (starting from the application of the adhesive) in which the supporting frame can be moved along the surface of the wall by a distance of at least 0.1 cm. The initial adhesion of the supporting frame to the surface of the wall during the processing time T is at least 15 kg / m ² .

By the term "wall" is meant a building element, usually a vertical building element, which is obtained by placing different elements on each other (for example blocks, bricks or bricks) or which is obtained by pouring or pouring a material into a ( temporary mold or formwork such as a concrete wall. The term "wall" includes exterior walls (walls on the outside of a building), interior walls (walls between two spaces in a building), single walls, multiple walls, such as, for example, double walls and in particular double walls with a cavity, load-bearing walls and non-load-bearing walls. A wall is characterized by a first surface and a second surface. For example, the first surface of a wall corresponds to the outer surface, the second surface of a wall corresponds to the inner surface of the wall. It is of course also possible that the first surface of a wall corresponds to the inner surface of the wall and that the second surface of a wall corresponds to the outer surface of the wall.

The method according to the invention is particularly suitable for walls against which - after mounting the window or door profiles - insulating material is placed. The insulating material is preferably placed in such a way that the window and door profiles and the insulating material lie in one plane, preferably in one vertical plane.

The term "wall recess" means an opening in a wall. This recess is usually rectangular but can in principle have any possible shape. In the context of this invention, a wall recess is intended as a recess for mounting a window or door profile. The wall recess has an O1 circumference. For a rectangular wall recess, the circumference O1 corresponds to twice the sum of the height and the width of the wall recess (2x (H + B)).

The term "supporting frame" means a frame, frame or frame that is mounted against a wall and on which the window or door profile is subsequently mounted. The supporting framework is also called console. The supporting frame is for instance made of wood, plastic or reinforced plastic such as for instance a glass fiber reinforced plastic.

The supporting frame preferably comprises at least partially a material with a bearing capacity of at least 30 kg per linear meter of the material (30 kg / m). More preferably, the bearing capacity of the supporting frame is more than 40 kg / m, more than 100 kg / m, more than 200 kg / m, more than 300 kg / m, more than 500 kg / m, more than 600 kg / m m, more than 800 kg / m. In certain embodiments, the supporting framework comprises at least

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BE2017 / 5838 4 partly a material with a high bearing capacity and at least partly an insulating material.

The supporting framework can consist of one element or several elements. The supporting frame is preferably placed as a whole against the surface of the wall. If the supporting frame consists of several elements, these are preferably mounted first so that the supporting frame can be mounted as a whole.

The supporting frame is usually rectangular, although other shapes are not excluded.

The supporting frame preferably has the shape of the window or door profile.

The supporting framework has an inner circumference O2. For a rectangular supporting frame, the circumference O2 corresponds to twice the sum of the height and the width of the supporting frame, wherein both the height and the width of the supporting frame are measured along the inside of the supporting frame. As mentioned above, the inner circumference O2 of the supporting frame substantially corresponds to the circumference O1 of the wall recess. More preferably, the inner circumference O2 of the supporting frame corresponds to the circumference O1 of the wall recess. The term "predominantly agreed" means that the inner circumference O2 of the supporting frame does not deviate more than 10 cm, preferably not more than 5 cm or not more than 3 cm, from the circumference O1 of the wall recess. Preferably, the length of each side of the inner circumference O2 of the supporting frame does not deviate more than 20 mm, and more preferably not more than 10 mm or not more than 5 mm, from the length of the corresponding side of the circumference O1 of the wall recess.i

By the term "window or door profile" is meant a frame, frame or frame with or without one or more windows, panels, movable windows, movable panels or combinations thereof. A window or door profile is usually rectangular, although other forms of window or door profiles are not excluded. A window or door profile can comprise any possible material known in the art for making window or door profiles. A window or door profile can for instance be manufactured from wood, plastic, aluminum or combinations thereof. Moreover, a window or door profile can be made from a composite material or from a combination of materials such as, for example, from reinforced plastic or from a combination of for example wood and aluminum or from a combination of aluminum and polyurethane.

Wooden window or door profiles include, for example, window or door profiles made from tropical wood; window or door profiles made of plastic include, for example, polyvinyl chloride (PVC). Window or door profiles comprising a composite include, for example, glass fiber reinforced plastic, such as glass fiber reinforced polyvinyl chloride.

The outer circumference of the window or door profile is preferably slightly smaller than the inner circumference O2 of the supporting frame. Preferably the outer circumference of the window is2017 / 5838

BE2017 / 5838 or door profile adapted in such a way that when the window or door profile is placed in the supporting frame a joint is created varying between 5 and 25 mm, preferably a joint between 10 and 20 mm, such as for example 15 mm.

The term "adhesive" means a chemical intended to attach two or more elements to each other. Glue is a synonym for adhesive. The term adhesive includes both one-component adhesives and multi-component adhesives, in particular two-component adhesives.

One-component adhesives are understood to be adhesives that cure by means of physical drying or a chemical reaction with one or more elements in the environment, for example by reaction with air moisture. It is clear that a one-component adhesive may consist of several components that have already been mixed prior to application of the adhesive, are stable when the adhesive is stored and cure after application by contact with one or more elements in the environment.

By two-component adhesives is meant adhesives in which two components must be mixed together to start the reaction.

The adhesive has a processing time T of at least 3 minutes. Preferably, the processing time T of the adhesive is at least 5 minutes, such as, for example, at least 8 minutes or at least 10 minutes. The processing time T is defined as the period (starting from the application of the adhesive) in which the supporting frame can be shifted by a distance of at least 0.1 cm along the surface of the wall

Preferably, the supporting frame can be moved along the surface of the wall during the processing time T by a distance of at least 1 cm, or by a distance of 2 cm.

The processing time T is preferably a maximum of 1 hour and 2 hours.

If the supporting frame is shifted over the specified distance during the processing time, the effect on the adhesion of the supporting frame to the wall surface after complete curing is negligible.

In preferred embodiments, the processing time T of the adhesive is at least minutes or at least 10 minutes and during this processing time T the supporting frame can be shifted by a distance of at least 1 cm along the surface of the wall.

The initial adhesion of the supporting frame to the outer surface of the wall is at least 15 kg / m ² . In preferred embodiments, the initial adhesion of the supporting frame to the (outer) surface of the wall is at least 40 kg / m ² , at least 60 kg / m ² , at least 80 kg / m ² , at least 100 kg / m ² or at least 125 kg / m ² .

In the method according to the invention, the supporting frame is first applied by means of the adhesive in a first position. In this first position, the supporting frame is preferably in the vicinity of the wall recess. It is not necessary for the supporting frame to be leveled in the first position.

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After the supporting frame is applied to the surface of the wall by means of the adhesive in a first position, the supporting frame is repositioned in a second position. The supporting frame is herein preferably shifted along the surface of the wall. In the second position, the supporting frame is preferably level. Moreover, the inner circumference O2 of the supporting frame in the second position preferably overlaps with the circumference O1 of the wall recess. Repositioning the supporting frame from the first position to the second position is an operation that can be performed by a single person.

It is clear that the mounting and repositioning of the supporting frame must take place within the processing time of the adhesive.

The method according to the invention has the advantage that the adhesive guarantees that the supporting frame is held against the wall once it is placed against the surface of the wall and that, furthermore, during the processing period T of the adhesive in the final position (second position) ) can be placed by moving the supporting frame along the wall. As a result, no additional person is required or no additional (mechanical) means such as, for example, clamps are required to hold the supporting frame against the wall and, moreover, the supporting frame can be moved to the final position (second position) by a single person.

Moreover, it is important that the repositioning of the supporting frame within the processing time T of the adhesive does not have any adverse effects on the final adhesion of the supporting frame to the surface of the wall, i.e. on the adhesion of the supporting frame to the surface. of the wall after complete curing of the adhesive.

It may be desirable that the supporting frame after it is positioned in the second position be mechanically secured to the surface of the wall. The mechanical fixing comprises, for example, fixing by screwing the supporting frame to the wall.

Preferably, after curing, the adhesive forms a watertight and airtight seal between the supporting frame and the outer surface of the wall.

In preferred methods, the surface of the wall against which the window or door profile is mounted is, prior to applying the supporting frame, at least partially cleaned or pre-treated. Hereby at least the surface of the wall against which the supporting frame is placed is cleaned. Any technique of cleaning or pretreatment known in the art can be considered for this. Cleaning or pre-treating the surface of the wall against which the supporting frame will be mounted can have a positive effect on the adhesion of the supporting frame to the surface of the wall, both on initial adhesion and on adhesion after complete curing of the adhesive.

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The window or door profile can be attached to the supporting frame by any technique known in the art, such as, for example, by a mechanical attachment.

A second aspect of the invention relates to a wall construction provided with a supporting frame and further provided with a window or door profile. The wall construction includes:

- a wall provided with a wall recess with a circumference O1;

- a supporting frame with an inner circumference O2 attached to one of the surfaces of the wall by means of an adhesive, the inner circumference of the supporting frame largely corresponding to the circumference O1 of the wall recess;

- a window or door profile attached to the inner circumference O2 of the supporting frame;

wherein the adhesive has a processing time T of at least 3 minutes, with the processing time T defined as the time period (starting from applying the adhesive) in which the supporting frame can be moved along the surface of the wall by a distance of at least 0.1 cm, and wherein the initial adhesion of the supporting frame to the outer surface of the wall during the processing time T is at least 15 kg / m ² .

In preferred embodiments, the wall construction according to the invention comprises a wall on which an insulating material is applied, for example a single wall on which an insulating material is applied. The insulation material is preferably applied after the window and / or door profiles are placed against the surface of the wall. The insulating material, the supporting frame and the window or door profile are preferably placed in the same plane, preferably in the same vertical plane.

In other preferred embodiments, the wall construction according to the invention comprises a cavity wall construction wherein the outer wall is placed after placement of the window or door profiles and the cavity insulation. The window and door profiles and the cavity insulation are preferably placed in the same plane, preferably in the same vertical plane.

Brief description of the drawings

The invention is further elucidated with reference to the accompanying drawings, in which:

FIG. 1 illustrates a wall construction according to the invention in perspective view, wherein a wall recess is provided with a supporting frame and with a window profile;

FIG. 2 illustrates the transverse section of a wall construction as shown in figure 1;

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FIG. 3 illustrates the transverse section of a second embodiment of a wall construction according to the invention.

Description of embodiments

Figure 1 shows a wall construction 1 according to the invention in front perspective. Figure 2 represents the transverse section of the wall construction 1 shown in Figure 1. The wall construction 1 comprises a wall 2, such as for example a single outer wall. The wall 2 is provided with a rectangular wall recess 3. The wall recess 3 has a height H and a width B. The circumference O1 of the wall recess 3 corresponds to the sum of the height H and the width B multiplied by 2. At the outer surface A supporting frame 5 is provided on the wall 4. The height H 'of the supporting frame 5 measured along the inner circumference O2 of the supporting frame 5 corresponds or approximately corresponds to the height H of the wall recess 3; the width B 'of the supporting frame 5 measured along the inner circumference O2 of the supporting frame 5 corresponds or approximately corresponds to the width B of the wall recess. This means that the inner circumference O2 corresponds or approximately corresponds to the circumference O1 of the wall recess 3.

The supporting frame 5 is applied as a whole against the outer surface 4 of the wall 2. For this purpose, the adhesive 6 is applied to the supporting frame 5 and the supporting frame 5 is then placed against the outer surface 4 of the wall 2. The position in which the supporting frame is placed is called the first position. This first position is preferably in the vicinity of the window recess 3. The initial adhesion of the adhesive 6 is preferably at least 15 kg / m ² and more preferably at least 80 kg / m ² . Due to the minimum initial adhesion, the supporting frame 5 is held against the wall 2 and there is no additional person or additional (mechanical) means, such as, for example, clamps are required to hold the supporting frame 5 against the wall 2.

The adhesive 6 has a processing time T of at least 3 minutes and preferably a processing time of at least 5 minutes. As mentioned above, the processing time T is defined as the period in which the supporting frame 5 can be moved along the surface 4 of the wall 2 by a distance of at least 0.1 cm. Preferably, the supporting frame 5 can be moved along the surface 4 of the wall 2 during a processing time of at least 5 minutes over a distance of at least 1 cm.

After the supporting frame 5 has been positioned in the final (second) position, the supporting frame 5 may or may not be mechanically attached to the surface 4 of the wall 2.

The window profile 7 is then attached to the inner circumference O2 of the supporting frame 5.

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The wall construction 1 can further be provided with insulation material (not shown). The insulating material is preferably placed against the outer surface 4 of the wall 2. Preferably the insulating material, the supporting frame 5 and the window profile 7 lie in one plane.

Figure 3 represents the cross section of the part of a wall construction 1 for similar to wall construction shown in Figure 1 and Figure 2. In the embodiment shown in Figure 3, the supporting frame 5 comprises an L-shaped profile.

Details adhesive

The adhesive for attaching the supporting frame to the surface of the wall preferably has an initial bond of at least 15 kg / m ² and more preferably an initial bond of at least 80 kg / m ² . The adhesive comprises, for example, at least one polymer or prepolymer and at least one thickener. Furthermore, the adhesive may optionally comprise at least one filler and / or additional additives.

The polymer or prepolymer concentration in the adhesive preferably ranges between 10 and 75 wt% and more preferably between 20 and 50 wt%. The polymer or prepolymer concentration in the adhesive is, for example, 30 wt%. The concentration of thickener in the adhesive preferably varies between 0.1 and 25 wt% and more preferably between 1 and 10 wt%, such as for example 5 wt%. If a filler is present, the concentration of the filler in the adhesive preferably varies between 1 and 75 wt% and more preferably between 40 and 65 wt% such as, for example, 55 wt%. The concentration of the thickener and the filler together preferably varies between 10 wt% and 80 wt% and more preferably between 45 and 65 wt% such as, for example, 60 wt%.

The polymer or prepolymer is preferably selected from the group of polyurethane polymers or prepolymers and silane-terminated polymers and prepolymers.

Both organic and inorganic components can be considered as thickeners.

Organic thickeners include, for example, polyacrylates, polymethacrylates, vinyl polymers, polycarbocyl acids, polyethers, cellulose ethers, polyimines, polyamides, ... Also agar-agar, gum arabic, alginates, pectins, dextrins, gelatins, ... can be used as thickeners.

Inorganic thickeners include, for example, (poly) silica and salts or derivatives thereof and clay minerals such as, for example, zeolites.

Particularly suitable fillers are inorganic fillers, although organic fillers are not excluded. Examples of inorganic fillers include silicates, carbonates, sulfates, earth diatom, zeolites, gypsum, graphite and hematite.

Additional additives may be considered catalysts, for example curing catalysts, adhesion promoters such as, for example, silane or silane-based adhesion promoters, dyes, pigments, plasticizers or combinations thereof.

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Method for determining the initial bond

The test is performed under the following test conditions:

- temperature: 23 ° C ± 2 ° C

- relative humidity: 50% ± 5%

The adhesive and the test materials used are conditioned for at least 24 hours at a temperature of 23 ° C ± 2 ° and a relative humidity of 50% ± 5%.

The following materials are used to perform the test:

- wooden plate (untreated beech) 3 cm wide, 15 cm long and 4 mm thick, provided with an 8 mm hole at the end of one of the 3 cm sides and provided with a marking line. The marking line is 10 cm from the 3 cm side where no hole has been made and is parallel to the 3 cm side;

- a plate of anodized aluminum 1.5 cm wide, 15 cm long and 2 mm thick;

- six balls of stainless steel with a diameter of 2 mm;

- an applicator for applying the adhesive;

- a spring unit (weighing hook) (Persola, 10 kg);

- a draw bench (Zwick 2010) equipped with a 200 N load cell.

Method for determining the initial bond:

In the middle of the wooden plate a layer of adhesive is applied with an applicator of at least 2 mm thick, 2 cm wide and more than 10 cm long, measured from the side of 3 cm where no hole has been made until just over the marking line. The six steel balls have the function of ensuring a final uniform layer thickness of 2 mm for the adhesive and must be evenly distributed in the adhesive that comes into contact with the aluminum plate, for example at every corner point and in the middle of both long sides of the adhesive layer.

Then the aluminum plate is pressed by hand onto the layer of adhesive with balls so that the aluminum plate makes a good and complete contact with the layer of adhesive. The end of the aluminum plate must be flush with the marking line. Because there are steel balls in the adhesive layer as described above, the aluminum plate cannot tilt during pressing.

The wooden plate is then hung in the spring unit at the 8 mm opening provided in the wooden plate. The spring unit is in turn clamped in the upper clamp of the draw bench. The aluminum plate is then clamped in the lower clamp of the draw bench.

After this, the tensile test is started and the tensile curve is recorded whereby the force measured in the longitudinal direction of the wooden plate as a function of the displacement of the upper part of the tensile bench at a constant tensile speed of 2 mm / min. The value of the initial bond is derived from this draw curve and corresponds to the maximum force

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BE2017 / 5838 11, wherein the draw curve just shows a linear course. Namely, up to this point only the spring is stretched, whereby the measured force is directly proportional to the displacement of the upper part of the tensile tester, while the aluminum plate still remains in place. The moment at which the draw curve no longer runs linearly is also the moment at which the aluminum plate starts to shift relative to the wooden plate, more specifically with respect to the marking line.

The value for the initial bond (kg / m ² ) based on the maximum force at which the tension curve still shows a linear course is calculated as follows:

_ Fmt F _m t

A g * A 9.81 * 0.0015

At which:

m: mass (kg)

Fmt: maximum force at which the tension curve just shows a linear course (N) g: fall acceleration = 9.81 m / s ²

A: surface of glued surface = 0.0015 m ²

As a check, the instantaneous value on the spring unit (in kg) can be read when the aluminum plate starts to slide.

References wall construction wall wall recess outer surface supporting frame adhesive window profile

Claims (14)

Conclusions Method for installing a window or door profile (7) against a surface (4) of a wall (2) provided with a wall recess (3) with circumference 01, the method comprising the following steps - providing a supporting frame (5) with an inner circumference 02, the inner circumference 02 largely corresponding to the circumference 01 of the wall recess (3); - applying the supporting frame (5) against the surface (4) of the wall (2) by means of an adhesive (6) by first placing the supporting frame (5) by means of the adhesive (6) in a first position to place against the surface (4) of the wall (2) and then reposition the supporting frame (5) in a second position by moving the supporting frame (5) along the surface (4) of the wall (2) from the first position to the second position; - attaching the window or door profile (7) to the inner circumference 02 of the supporting frame (5); wherein the adhesive (6) for applying the supporting frame (5) against the surface (4) of the wall (2) has an initial adhesion of at least 15 kg / m ² and a processing time T of at least 3 minutes, the processing time T is defined as the period in which the supporting frame (5) can be moved along the surface (4) of the wall (2) over a distance of at least 0.1 cm by one person without aids. Method according to claim 1, wherein the adhesive (6) has a processing time of at least 5 minutes, the processing time T being defined as the period in which the supporting frame (5) along the surface (4) of the wall (2) a distance of at least 1 cm can be shifted by one person without aids. Method according to claim 1 or claim 2, wherein the initial adhesion is at least 80 kg / m ² . Method according to one of the preceding claims, wherein the supporting frame (5) is arranged in one piece against the surface (4) of the wall (2). Method according to one of the preceding claims, wherein the inner circumference 02 of the supporting frame (5) when the supporting frame (5) is in the second position coincides with the circumference O1 of the wall recess (3). Method according to one of the preceding claims, wherein the supporting frame (5) is repositioned from the first to the second position within a time period of BE2017 / 5838 count from the application of the adhesive that is less than or equal to the processing time T of the adhesive. Method according to one of the preceding claims, wherein the method comprises the following additional step after applying the supporting frame (5) to the surface (4) of the wall (2) by means of an adhesive (6): - mechanically fixing the supporting frame (5) to the surface (4) of the wall (2). Method according to one of the preceding claims, in which the adhesive (6), after curing, provides a watertight and airtight seal between the supporting frame (5) and the surface (4) of the wall (2). Method according to one of the preceding claims, wherein the supporting frame (5) at least partially comprises a material with a high bearing capacity. Method according to one of the preceding claims, wherein the method of applying the supporting frame (5) to the outer surface (4) of the wall (2) by means of an adhesive (6) comprises the following additional step: - cleaning or pre-treating the surface (4) of the wall (2). Method according to one of the preceding claims, wherein the window or door profile (7) is attached to the supporting frame (5) by a mechanical attachment. A wall construction (1) comprising - a wall (2) provided with a wall recess (3) with a circumference 01; - a supporting frame (5) with an inner circumference O2 attached to a surface (4) of the wall (2) by means of an adhesive (6), the inner circumference O2 of the supporting frame (5) largely corresponding to the circumference 01 of the wall recess (3); - a window or door profile (7) attached to the inner circumference 02 of the supporting frame (5); wherein the adhesive (6) for applying the supporting frame (5) against the surface (4) of the wall (2) has an initial adhesion of at least 15 kg / m ² and a processing time T of at least 3 minutes, the processing time T is defined as the period in which the supporting frame (5) can be moved along the surface (4) of the wall (2) over a distance of at least 0.1 cm by one person without aids. BE2017 / 5838 A wall structure (1) according to claim 12, wherein the wall structure (1) comprises a single-walled outer wall wherein insulating material is placed against the surface (4) of the wall (2) after installation of the window or door profile (7) or after installation of window or door profiles (7) A wall structure (1) according to claim 12, wherein the wall structure (1) comprises a cavity wall wherein the outer wall is placed after installation of the window or door profile (7) or after installation of the window or door profiles (7).