RU2778982C1 - System and method for outside mounting of windows in the insulation zone - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: group of inventions relates to the field of construction, namely to the system and method for outside mounting of windows in the insulation zone. The system for outside mounting of windows in the insulation zone is characterized by the presence of three components: a load-bearing beam of high-density expanded polystyrene (EPS, 150 kg/m³) with a size of 100×85×1175 mm, of different cross-sections, at the ends of the beam there is a connection of the dovetail type, adhesive sealant (hybrid polymer) and self-tapping screws (size from 7.5×112 to 7.5×400 mm). A method for outside mounting of windows into the insulation zone is disclosed, characterized by the fact that profiles made of high-density foamed polystyrene are glued and screwed onto the wall from the outside around the window opening, as a result, a closed warm bearing box is obtained in the zone of effective wall insulation, into which the window is then mounted.

EFFECT: ensuring the possibility of simple and convenient installation of windows in the insulation zone with protection of joints between parts of the structure from the negative effects of the environment.

8 cl, 5 dwg

Description

Technical field

SUBSTANCE: group of inventions relates to the field of construction, namely to a system and method for remote installation of windows into the insulation zone.

State of the art

During construction, windows in a multilayer wall are traditionally mounted directly on the edge of the window opening by fixing them to self-tapping screws or plates. However, this type of installation leads to the appearance of mold on the slopes due to the cooling of the wall by zero isotherms and the impact of adverse environmental conditions (humidity, heating power, temperature). In addition to this type of window installation, various types of insulation of the slopes themselves are used, but this does not completely eliminate the problem. In addition, a method of remote mounting of windows on metal brackets of various designs is used so that zero isotherms do not touch the wall, however, such installation requires a very skilled workforce, since the installer must not only correctly ensure the mounting joint of the window, bracket and insulation, but also provide additional insulation the bracket itself, otherwise freezing along the bracket is possible; the window cannot be dismantled in the future without partial dismantling of the facade, since it is fixed to the bracket from the outside, and then the attachment point is closed with facade decoration. In addition, when mounted on metal brackets, thermal bridges (cold bridges) are formed, which significantly reduces the effectiveness of the thermal protection of the building and may cause condensation. When remote mounting on metal brackets, the problem is the organization of the mounting seam when using mineral wool heaters around the opening, since it is impossible to qualitatively eliminate the gap between the window and the mineral wool mounting foam, due to the fact that the mineral wool insulation is soft, and the foam squeezes it out of the seam during expansion.

The intermediate heat-insulating structure for doors and windows made of aluminum-plastic composite material is known from the prior art (patent document CN 103527036). The intermediate thermal insulation structure consists of partly aluminum material and partly plastic steel, part of aluminum material is clamped with steel part of plastic; a part made of aluminum material is provided, with a passage for installing equipment. The disadvantage of this solution is the complexity of installation, insufficient protection of the joints between parts of the structure from environmental influences.

Known Construction of the installation of external windows of the building and the method of their use (patent document CN 111677235). The mounting structure includes a box body, wherein the box body is provided with an installation room, which contains a bottom plate, a top plate and two side plates, the mounting groove is open on the bottom plate, the inner walls of the side plates are slidably connected to the partition, the entire top plate and side plates are rigidly connected to the guide rails located at the end from the box body, the length of the guide rails is greater than the length of the box body, two parallel columns, both columns located between the guides, are rigidly connected to square plates and contain column bodies, upper and lower ends, two ends, respectively are slidably connected to the upper and lower slide rails, the column bodies are respectively connected to the two ends by rotation, the square plates are provided with a plurality of threaded holes and are connected by a plurality of screws, the screws pass through the square plates and are connected re thread with threaded holes, and the ends of the screws near the coupling body are connected to a vertical pressure plate. The design of the installation provides more convenient installation of external windows of a building with large volumes, the screws pass through square plates and are connected by threads to threaded holes, and the ends of the screws near the coupling body are connected to a vertical pressure plate. The disadvantage of this solution is the complexity of the structure itself, insufficient protection of the joints between the parts of the structure from environmental influences.

A device for insulating window corners is known (patent document KR 1020150072140), which facilitates the installation of an insulating frame exclusively around the corner of windows and doors and prevents dew condensation and heat loss by preventing heating, thermal conductivity after installation and eliminating the temperature difference between indoor and outdoor rooms. To achieve this, the present invention provides an insulating frame for a corner of windows and doors, in which a pair of insulating frames are integrated with each other around an insulating sheet, and a pair of reinforcing frames composed of insulating frames are integrated with each other around an insulating material. On both adjacent sides of the insulating frame, double panes are installed perpendicular to each other, thereby facilitating the installation of the insulating frame around the corner of windows and doors. The disadvantage of this solution is the complexity of the design and the mandatory need to install double glazing.

Known Heat-insulating external window shutters (patent document US 5893242). The technical solution involves assembling a damper for installation on the outer side of a building wall, including one or two damper panels, equipped with upper and lower rollers moving along guides in a plane remote from the outer wall and parallel to it. The shutter panels are thermally insulated and provided with seals extending along the periphery of the window opening when the panels are in the closed position, so as to form an air-insulating chamber with the window unit inside the window opening. The disadvantage of the solution is the weak protection of the joints between the parts of the structure from the effects of the environment.

The technical problem to be solved by the group of inventions is the simplification of the installation of windows, provided that the thermal insulation properties are preserved and the joints between the parts of the structure are maximally protected from the environment (elimination of the problem of the formation of cold bridges).

Disclosure of the essence of the invention The technical result is to provide the possibility of simple and convenient installation of windows in the insulation zone with the protection of joints between parts of the structure from the negative effects of the environment.

The technical result is achieved by the fact that the proposed system for remote installation of windows into the insulation zone is characterized by the presence of three components: a bearing beam (profile) made of high-density expanded polystyrene foam (EPS, 150 kg/m3) with a size of 100 mm. × 85 mm. × 1175 mm. of various sections, at the ends of the beam there is a dovetail joint, sealant glue (hybrid polymer) and fastening screws (size from 7.5 × 112 to 7.5 × 400 mm).

A method of remote installation of windows into the zone of insulation is also proposed, characterized by the fact that on the wall from the outside around the window opening profiles of expanded polystyrene foam of high density are glued and screwed with self-tapping screws, as a result, in the zone of effective wall insulation (mineral wool, polystyrene), a closed, warm the carrier frame into which the window is then mounted into which the window is mounted, in the following order: the width of the window opening is measured, 2 profile widths 85 × 2 = 170 mm are added to it and two pieces of the profile are cut off - the bottom and top of the box, the protrusions and depressions that form the connection type "dovetail" at the ends of the profile, cut off, if necessary, the profiles are joined through the "dovetail" connection in the required quantity with the obligatory sealing of the junction of the profiles with adhesive sealant - a hybrid polymer, the height of the opening is measured, 2 pieces of the profile are cut to this size for vertical box parts; if necessary, the profiles are joined through a dovetail joint in the required quantity with mandatory sealing of the junction of the profiles with a hybrid polymer, two tracks of a hybrid polymer are applied to the bottom profile of the box, without breaks, 8 mm high., the profile is tightly pressed against the edge of the opening, so, so that the profile protrudes by 85 mm on each side of the opening, while the hybrid polymer must completely fill all the voids between the profile and the wall, if there are irregularities on the wall above 7-8 mm - the wall is pre-leveled with plaster, the profile is leveled and screwed with screws to the wall, indent from the edges of the profile 150 mm. with a pitch between the screws of not more than 800 mm., while for walls made of concrete, brick and slotted ceramics, pre-drilling is required, the vertical parts of the box are installed along the edge of the opening, relying on the protruding parts of the lower profile, the joints between the lower and vertical profile must be sealed with a hybrid polymer , while mounting on the wall is similar to the bottom profile, the top profile is installed in such a way that it protrudes 85 mm beyond the opening. on each side and rests on the vertical parts of the box, the fastening process is similar to the lower and vertical profiles, the uneven geometry of the opening is leveled, while the profile is allowed to go inside the opening up to 25 mm., while applying a hybrid polymer to the profile in such a way that both tracks of the sealant were on the wall, the window is installed after the hybrid polymer has hardened for 24 hours in the opening according to the level, fixed to the mounting screws, while the mounting seam is foamed and closed with vapor barrier and diffusion tapes, the insulation is installed and the facade is clad around the profile box.

The preferred options are:

the foamed mounting seam is closed with pre-compressed sealing tapes after the window is installed;

installation of insulation and finishing of the facade is carried out before installing the window in the profile box;

Mounting plates are used instead of mounting screws.

The combination of the above essential features leads to the fact that:

the high density of the profile ensures its reliable fastening to the wall and allows the installation of very heavy translucent structures (SPK) in the zone of effective insulation, and the profile size is 1175 mm long. provides good transport mobility at the facility, allowing one person to work with the material, the presence of dovetail attachment points on the ends of the profile allows you to assemble a profile of any length without losing thermal and mechanical properties at the joints, adhesive sealant provides not only fastening the profile to the wall, but also hydro-vapor barrier of the wall-profile joint, the size of the self-tapping screw is from 7.5 × 112 to 7.5 × 400 mm. provides the most reliable fastening of the structure to the wall of the building, thanks to the even surfaces of the profiles, insulation is easily and reliably docked to them, the window is installed in a rigid carrier material that has the thermophysical properties of foam plastic and the strength of light wood, while it does not absorb moisture and does not rot.

Brief description of the drawings

The essence of the invention is illustrated by drawings. In FIG. 1 shows a drawing of the mounting unit (section top / side of the frame), where:

1. Pre-compressed sealing tape (PSUL; standard outer tape when installing windows according to GOST)

2. Mounting foam

3. Mineral wool insulation

4. Decorative finishing of the facade

5. Adhesive sealant - hybrid polymer

6. Window screw

7. Profile screw

8. Bar profile

9. Vapor barrier tape

10. Interior trim

Figure 2 shows a photo of the mounted carrier box without insulation, figure 3 shows a profile photo with mineral wool insulation adjoining and facade decoration, figures 4-5 show profile photos with mineral wool insulation adjoining and partial facade decoration.

Implementation of the invention.

The presented method of remote installation of windows in the insulation zone is carried out as follows:

1. The width of the window opening is measured, 2 profile widths are added to it (85 × 2 = 170 mm) and two pieces of the profile are cut off - the bottom and top of the box, the protrusions and depressions that form a dovetail connection at the ends of the profile are cut off. If one profile is not enough, the profiles are joined through a dovetail joint in the required quantity with the obligatory sealing of the junction of the profiles with adhesive sealant - a hybrid polymer (for the best result, the blaugelb Power Fix hybrid polymer is used: https://www.das- neue-blaugelb.de/fileadmin/MB_Products/WDVS_Daemmung/Triotherm/DOWNLOADS/TDS/RU_TDS_blaugelb_Hybrid_Polymer_Power_Fix_weiss.pdf).

2. The height of the opening is measured, 2 pieces of the profile are cut to this size (for example, Triotherm profile beams https://www.trio content/uploads/2018/11/Profil-blaugelb-Triotherm-l,pdf) for the vertical parts of the box (left and right). If one profile is not enough, the profiles are joined through a dovetail joint in the required quantity with the obligatory sealing of the junction of the profiles with a hybrid polymer.

3. Two lines of hybrid polymer are applied to the bottom profile of the box, without breaks, 8 mm high. It has been experimentally confirmed that this height is optimal for achieving the desired result, when using blaugelb Power Fix adhesive sealant, the height of the track is formed due to the special shape of the spout for the mounting gun supplied with the blaugelb Power Fix hybrid polymer. The profile is tightly pressed against the edge of the opening, so that the profile protrudes 85 mm from each side of the opening. The hybrid polymer must completely fill all the voids between the profile and the wall, if the irregularities on the wall are higher than 7-8 mm, the wall is leveled with plaster. The profile is leveled and screwed with screws (for example, blaugelb FK T-30: https://www.das-neue-blaugelb.de/fileadmin/user_upload/RU_TDS_blaugelb_Rahmenfixschraube_FK_T3Q.pdf) to the wall, indent from the edges of the profile 150 mm. with a step between screws no more than 800 mm. For walls made of concrete, brick and slotted ceramics, pre-drilling is required.

4. After installation at the level of the lower profile, the vertical parts of the box are installed, they are installed along the edge of the opening, relying on the protruding parts of the lower profile, the joints between the lower and vertical profiles must be sealed with a hybrid polymer. Wall mounting is similar to the bottom profile.

5. The top profile is mounted last, it, like the bottom one, protrudes beyond the opening by 85 mm. on each side and rests on the vertical parts of the box. The fastening process is similar to the bottom and vertical profiles.

6. To equalize the uneven geometry of the opening, it is allowed for the profile to go inside the opening up to 25 mm, while the obligatory condition is the application of a hybrid polymer to the profile in such a way that both tracks of the sealant are on the wall.

7. After fixing all the profiles around the opening and hardening of the hybrid polymer (24 hours), a load-bearing closed box is formed of a warm and durable material, of regular geometric shape, ready for window installation.

8. Depending on the project and facade finishing materials, it is possible to immediately install a window in such a box, and then bring insulation and facade cladding, or first bring insulation and facade decoration to the box, and then install the window.

9. The window is installed in the opening according to the level, fixed to the mounting screws. The mounting seam is foamed and closed with vapor barrier and diffusion or PSUL tapes. Mounting plates can be used instead of mounting screws.

Unlike remote mounting on metal brackets, the window is fixed from inside the opening (as with standard window installation, and further dismantling of the window (after the end of its service life) will not require partial disassembly of the facade. Due to the warm carrier box in the insulation zone, the window is mounted in the usual way (as in a normal opening), while near-zero isotherms passing through the center of the window do not touch the load-bearing wall and do not cool the slopes to the dew point, protecting them from mold formation.

Due to the noted advantages, the system and method for remote installation of windows into the insulation zone ensures the achievement of the technical result - ensuring the possibility of simple and convenient installation of windows into the insulation zone with protection of the joints between the parts of the structure from the negative effects of the environment, which includes:

- simplification of the window installation process due to the optimal selection of system materials and their size, reducing the level of requirements for the qualification of installers;

- the absence of cold bridges due to the installation of the window in a warm, durable box and the sealing of the joints;

- no problems with the organization of the mounting seam when using mineral wool insulation around the opening, since the mounting seam between the window and the supporting warm beam is foamed, the mineral wool also adjoins directly to the bar without gaps.

Claims (16)

1. A system for remote installation of windows into the insulation zone, characterized by the presence of at least four bearing profiles made of expanded polystyrene foam with a density of 150 kg / m ³ , 100 × 85 × 1175 mm in size, glued with a hybrid polymer-based adhesive-sealant and screwed with fastening screws with a size from 7.5×112 to 7.5×400 mm on the wall from the outer side around the window opening, while at the ends of the profiles there are protrusions and depressions, which provide the possibility of forming a dovetail-type connection between the profiles. 2. The method of remote installation of windows into the zone of insulation, implemented using the materials of the system according to claim 1, characterized in that on the wall from the outside around the window opening profiles of expanded polystyrene foam are glued and screwed with self-tapping screws, forming a closed box into which the window is mounted in following order: - the width of the window opening is measured, 2 profile widths are added to it and two pieces of the profile are cut off - the bottom and top of the box, the protrusions and depressions that form a dovetail connection at the ends of the profile are cut off, - the height of the opening is measured, 2 pieces of the profile are cut to this size for the vertical parts of the box; - two tracks of a hybrid polymer 8 mm high are applied to the bottom profile of the box, the profile is pressed against the edge of the opening so that the profile protrudes 85 mm from each side of the opening, while the hybrid polymer must completely fill all the voids between the profile and the wall, the profile is leveled and screwed to the wall with screws, indent from the edges of the profile 150 mm with a pitch between the screws no more than 800 mm, - the vertical parts of the box are installed along the edge of the opening, relying on the protruding parts of the lower profile, the joints between the lower and vertical profiles are necessarily sealed with a hybrid polymer, while mounting on the wall is similar to the lower profile; - the upper profile is installed in such a way that it protrudes 85 mm from each side of the opening and rests on the vertical parts of the box, the fastening process is similar to the lower and vertical profiles; - alignment of irregularities in the geometry of the opening is carried out; - the window is installed after the hybrid polymer has hardened for 24 hours in the opening according to the level, fixed to the mounting screws, while the mounting seam is foamed and closed with vapor barrier and diffusion tapes; - installation of insulation and facade cladding around the profile box. 3. The method of remote installation of windows into the insulation zone according to claim 2, characterized in that, if necessary, the profiles are joined through a dovetail joint in the required quantity with mandatory sealing of the junction of the profiles with glue-sealant - a hybrid polymer. 4. The method of remote installation of windows into the zone of insulation according to paragraph 2. or 3, characterized in that if there are irregularities on the wall above 7-8 mm, the wall is pre-leveled with plaster mortar. 5. The method of remote installation of windows into the insulation zone according to claim 2, or 3, or 4, characterized in that when applying the hybrid polymer to the lower profile for walls made of concrete, brick and slotted ceramics, pre-drilling is performed. 6. The method of remote installation of windows into the zone of insulation according to claim 2, or 3, or 4, or 5, characterized in that when leveling the uneven geometry of the opening, the profile can go inside the opening up to 25 mm, while a hybrid polymer is applied without fail on profile so that both tracks of the sealant are on the wall. 7. The method of remote installation of windows into the insulation zone according to claim 2, or 3, or 4, or 5, or 6, characterized in that the foamed mounting seam is closed with PSUL tapes after window installation. 8. The method of remote installation of windows into the insulation zone according to claim 2, or 3, or 4, or 5, or 6, or 7, characterized in that the insulation is installed and the facade is finished before the window is installed in the profile box.

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