RU2736018C1 - Method for assembly of double-glazed windows in houses of log and unit for vertical interfacing of insulating glass unit with load-bearing wooden elements of frame - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: group of inventions relates to the field of construction, in particular, to a method for installation of double-glazed windows in half-timbered houses from a log and a unit for vertical connection of a double-glazed window with load-bearing wooden elements of the frame. Method of insulating glass units in log houses consists in that, first, sealing strips are fixed on posts, horizontal pane is installed in portal of horizontal beam, limiters are fixed to portal on horizontal elements between posts, then between the above double-glazed windows on the vertical posts there installed are spacer plates, and the formed process space in the recess between the double-glazed windows and the remote planks is filled with insulant. Further, along the edge of the insulating glass units at the installation of the false panel, a sealing tape is attached, after which the heated interface unit is pressed with a false panel. Along the bottom the double-glazed windows rest on the part of the lower beam protruding beyond the outer plane of the vertical elements.

EFFECT: technical result is reduction of facade thermal conductivity.

7 cl, 5 dwg

Description

The group of inventions relates to the field of construction, in particular to a method for installing double-glazed windows in houses of half-timbered type from a bar and a unit for vertical conjugation of a double-glazed window with supporting wooden frame elements.

Fachwerk is a technology for building houses, in which the capital load of the building is borne by vertical supports - racks made of timber in the walls of the building. Unlike traditional frame walls, the space between the supports is occupied by dense heavy material, for example, brick, wood, concrete, adobe, clay. At the same time, the bearing racks made of timber are not masked in the wall, but remain visible, creating a characteristic look of the structure. The trend of modern design of houses - half-timbered houses become completely glass walls, when the glazing area of the house occupies at least 60% of the wall surface.

Traditionally, in the manufacture of houses from a bar, frameless double-glazed windows are mounted in the frame of an opening from a glued bar, then the corners of the double-glazed window are fixed with glazing beads until complete sealing (see photo 1, 2). The installation of double-glazed windows in the opening frame is described in DE102017113981 (d.p. 2018-12-27, E04B2 / 96; E06B3 / 54), in particular, the description of the invention states that the glazing (20) is placed in the area between two posts (12) ...

The problem is that when installing double-glazed windows in the inter-girder space, beams and posts made of laminated veneer lumber located between the double-glazed windows are prone to freezing. With large sizes of double-glazed windows covering the space of a house made of timber, thermal insulation decreases, which requires much more resources to maintain a favorable temperature inside the house in cold seasons. Another problem is that glued laminated timber shrinks - a natural process that occurs due to changes in the structure and properties of the material. It should be noted that in comparison with other wood materials, glued laminated timber has the most minimal shrinkage, only 0.5-1% of the initial height of the object, due to a special manufacturing technology, but, nevertheless, when working with a large glazing area, this circumstance should be taken into account and possible consequences that create the risk of cracking of glass units, its fallout. This is due to the fact that a double-glazed window does not withstand a large load, which is directed vertically when a wooden house shrinks.

From the prior art, a method of mounting window and door blocks in houses made of logs and beams is known (patent for invention No. 2589536, IPC E06B1 / 00, publ. 10.07.2016), aimed at simplifying and reducing the labor intensity of the procedure for installing window (door) blocks into openings made in walls from a bar or log of natural moisture. For this, a casing is made and installed, which contains "ridges", "risers", horizontal elements. In this solution, the cage has the function of a sealing frame for the window block, which is inserted into it according to standard technology into the opening frame. Despite the advantages of the proposed method associated with the installation of window blocks, it does not solve the problem of maintaining the thermal insulation of the house, including during the period of shrinkage of the wood structures of the house.

The present invention is aimed at solving the problem of improving the thermal properties of a wooden house with a large glazing area. When solving this problem, a technical result is achieved, which consists in reducing the thermal conductivity of the facade due to the fact that it is proposed to mount double-glazed windows not in the opening of the opening, but on top of the facade made of timber. Closing the racks with double-glazed windows, insulation and an overlay with a false panel made of wood, they are insulated, which provides significant resistance to freezing. Thus, the thermal performance of the house is improved, the thermal conductivity of the facade is reduced due to greater insulation of the facade with panoramic glazing. At the same time, another disadvantage associated with the shrinkage of the timber is eliminated - cracking, loss of the glass unit due to the shrinkage of the timber.

The solution of this problem and the achievement of technical results became possible due to the fact that for the installation of double-glazed windows in houses from a bar it is proposed to use double-glazed windows larger than the closed openings between the posts and beams of the frame of the house and false panels. To implement the method, first, sealing strips are attached to the racks, double-glazed windows are installed in the portal into the portal on the horizontal elements between the racks, then spacer strips are installed between the said double-glazed windows on vertical racks, and the resulting technological space in the recess between the double-glazed windows and the spacer strips is filled with insulation ... Further, along the edge of the double-glazed windows in the places where the false panels are installed, a sealing tape is attached, after which the insulated interface is pressed with the false panel. At the bottom, the double-glazed windows rest on the part of the lower beam protruding beyond the outer plane of the vertical elements (pillars).

The unit for vertical interfacing of a double-glazed window with supporting wooden frame elements includes double-glazed windows, a supporting frame post, a vertical T-section false panel, a spacer bar, insulation, sealing tape, sealant, foam and hardware / fasteners. The bezel is made of wood. Insulation is used of the type of polyisocyanurate foam (PIR) for installation in a technological recess between double-glazed windows and spacers. The sealing tape is attached at the junctions of the glass units with the load-bearing wooden frame elements.

The essence of the invention is illustrated by the following illustrative materials:

Fig. 1 is a view of a fragment of a rack-and-beam frame of a half-timbered house with

double-glazed windows installed on top of the opening - timber facade;

figure 2 - shows the installation of a double-glazed window with an adjacent false panel;

figure 3 - a node of a vertical seam between glass units (insulated interface);

figure 4 is a view of a bezel with a built-in spacer bar;

figure 5 - insulated unit for supporting the glass unit on the supporting horizontal frame beams.

The post-beam frame of a half-timbered house consists of a vertically placed bar - posts 1 and crossbars - horizontal beams 2. For the installation of double-glazed windows 3 over the opening (over the facade from a bar) between posts 1 and beams 2, double-glazed windows are used at least 5 cm more with on each side of the size of the opening and a bezel 4 imitating glued laminated timber (figure 1). For a specialist, it is obvious that 5 cm is a conditional value that depends on the width of the beam used, it remains important that the glass unit must be larger than the opening to be closed in order to ensure an even overlay on top of it, but not more than half the width of the vertical post after minus the width of the distance bar.

Referring to FIG. 2 and 3, the proposed method for installing a glass unit on top of the racks from a bar is as follows. In the portal of the horizontal beam 2 from the inside, wooden limiters are installed (not shown in the figure) in the level with the posts 1 so that the outer and inner surfaces of the glass units 3 do not change the geometry. The portal is an opening or niche of regular geometric shape (square, rectangular or trapezoidal) formed by the lateral sides of the racks and beams. Before the installation of double-glazed windows on the racks 1 at the junction of wood and glass units, sealing strips 5 are installed. Depending on their width and profile, the strips are fixed in one or two rows.

Then the installation of double-glazed windows 3 is carried out. At the same time, the gaps between the horizontal beams 2 and the double-glazed windows 3 are adjusted by means of window linings (wedges) so that there are equal gaps on the upper and lower sides of the double-glazed windows 3.

After installing the double-glazed windows 3 into the portal and adjusting the gaps in order to fix the double-glazed windows 3 in the portal, place stops on the horizontal beam 2 so that the double-glazed windows do not fall out.

Further, between two double-glazed windows 3 on vertical posts 1, spacer strips 6 are fixed with self-tapping screws, and the resulting space behind the spacer plate is filled with mounting foam. Spacer strips 6, made of plastic, are designed on the one hand to adjust the distance between the glass 3, on the other - to adjust the gap between the glass 3 and the bezel 4 (figure 2).

The space in the recess between the double-glazed windows 3 and the spacer strips 6 is filled with a heater 7, which is used as any environmentally friendly heat-insulating material such as polyisocyanurate foam (PIR) with high heat-shielding properties. The gaps between the insulation 7 and the end of the double-glazed windows 3 are also filled with foam.

Further, along the edge of double-glazed windows 3, in places where lining made of a wooden profile - false panels 4 are provided, a sealing tape 8 is installed 8. The resulting insulated interface is pressed with a false panel 4, which is additionally fixed with self-tapping screws 9 to leave the appearance of the rack and decorate the resulting the seam.

The bezel 4 is made of wood and has a T-shaped cross-section along its entire length, with the exception of the places where the bezel joins the spacer bar 6 (Fig. 4). At the points of connection with the distance strip, the T-shaped protrusion is ground down to form a groove in the false panel, thus, in the places where the false panel 4 adjoins the distance strip 6, the false panel has a rectangular section.

At the final stage of installation, along the perimeter of the technological gaps, masking tape is applied to the edges of the glass units 3 on both sides. Technological gaps between double-glazed windows 3 and false panel 4, as well as between double-glazed windows 3 and horizontal beam 2, are filled with silicone sealant 10, window linings (wedges) are cut off, the seam is leveled. After the sealant 10 has dried, remove the masking tape and limiters for double-glazed windows, and make a surface defect.

At the bottom, the double-glazed windows 3 rest on the protruding part of the lower beam 2 (the main beam). If double-glazed windows are installed in several rows (floors), the upper double-glazed windows are supported on the protruding part of the middle beam (main beam).

A distinctive feature of the present invention is that it is intended for half-timbered houses with timber supporting elements from a bar. The double-glazed windows 3 in the proposed solution are self-supporting elements resting on the supporting wooden elements of the frame 2. The bezel 4 is made of wood, not aluminum or plastic, serves for pressing and fastening the double-glazed windows 3, ensures the distance of the double-glazed windows, resistance to freezing and simultaneously performs the function of a decorative and architectural element of the facade. Insulation 7 ensures heat retention at the junctions of double-glazed windows with bearing pillar 1. Seals 5, 8 perceive dynamic wind load from glass and help to evenly transfer it to pillar 1, that is, they act as a damper, and also seal the seam between glass and wood from the inside ... Sealing tape 8 and sealant 10 provide vapor and water tightness of the connection. Self-tapping screws 9 are used to fasten the clamping bar 4 to the rack 1. These features improve the thermal properties of a half-timbered house with a large glazing area, in particular, the thermal conductivity of the facade decreases, and problems associated with shrinkage of a wooden beam are eliminated.

Claims (7)

1. A method of installing double-glazed windows in houses from a bar, characterized by the fact that double-glazed windows are used with a size larger than the openings between the posts 1 and the beams 2, and a T-shaped false panel 4 with a rectangular groove for accepting a distance bar, while first on racks 1 fasten sealing strips 5, install double-glazed windows 3 into the portal of horizontal beam 2, then spacer strips 6 are installed on vertical racks 1 between the indicated double-glazed windows 3, and the resulting technological space in the recess between double-glazed windows 3 and spacer strips 6 is filled with insulation 7, then attached along the edge of the double-glazed windows 3 in the places where the false panel 4 is installed, the sealing tape 8, after which the insulated interface unit is pressed with the false panel 4, while at the bottom the double-glazed windows 3 rest on the lower part of the beam 2. 2. The method according to claim 1, characterized in that the bezel 4 is made of wood material. 3. The method according to claim 1, characterized in that the spacer bars are made of plastic. 4. The method according to claim 1, characterized in that the bezel 4 is fixed with self-tapping screws 9. 5. The method according to claim 1, characterized in that the technological gaps between the double-glazed windows 3 and the false panel 4, as well as between the double-glazed windows 3 and the horizontal beam 2 are filled with silicone sealant 10. 6. Node of vertical conjugation of a double-glazed window with supporting wooden frame elements, including double-glazed windows 3, a supporting frame of the frame 1, characterized in that it contains a T-shaped false panel 4 with a rectangular groove for accepting a distance strip, a distance strip 6, a heater 7, a sealing tapes 5 and 8, while the false panel 4 is made of wood, the insulation 7 is installed in the technological space in the recess between the double-glazed windows 3 and the spacer strips 6, and the sealing tape is attached at the junctions of the double-glazed windows with the supporting wooden frame elements. 7. The assembly according to claim 6, characterized in that it contains silicone sealant, polyurethane foam and fasteners.

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