RU2792935C1 - Method of warming balconies or loggias - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for insulating balconies or loggias, including upper and lower balcony slabs with an existing window system, is claimed. First, supports are mounted on the lower balcony slab, then additional window structures are installed on the supports close to the existing window system. Then the joints are sealed. At the same time, additional window structures are rigidly attached to the upper balcony slab and to the supports with the help of fixing elements. Pieces of a profile pipe of rectangular section fixed to the bottom plate are used as supports for additional window structures. Protruding structural elements of the existing window system are additionally insulated and covered with thermal insulation boxes.

EFFECT: increase in the reliability of the structure and an increase in thermal insulation.

24 cl, 3 dwg

Description

The claimed invention relates to construction, and more specifically to a method of thermal insulation of such structures as a balcony, loggia, terrace and the like with translucent glazing.

From the prior art, a method is known for thermal insulation of the building envelope (patent RU 2702482, published on 08.10.2019), consisting of a frame and a glazing element fixed to it, in which an additional glazing element is glued to the existing glazing element from the side of the room with a gap providing a sealed air chamber between the existing glazing element and the glued glazing element, and the gap is made by installing a spacer frame, which is glued between the existing glazing element and the glued glazing element through a non-hardening sealant on opposite sides of the frame, in addition, when gluing the spacer frame and the glazing element, gaps are also left along the perimeter between them and the frame of the enclosing structure, while the fastening of the spacer frame and the glued glazing element to the frame of the enclosing structure is ensured by fixing them with a sealant, which fills the gap between the structure frame and the spacer frame, the structure frame and the glued glazing element.

The disadvantages of this method are the low reliability of the design and low thermal insulation.

The closest known is the method of insulating a balcony with glazing with an aluminum profile system (patent RU 2708293, published on 05.12.2019), by installing metal-plastic window structures. Metal-plastic window structures are installed close to the aluminum profile system with the formation of a single structure, while first opening sashes are dismantled on the aluminum profile system and metal corners are installed on the base of the balcony along the edge of the ceiling perpendicular to each static amplifier of the aluminum profile system, one for each vertical profile of metal-plastic window structures , then a sealing material is attached to the vertical and horizontal profiles of the aluminum profile system, then metal-plastic window structures are mounted close to it between the static amplifiers of the aluminum profile system, with a gap between the static amplifier and the end face of the metal-plastic window structure, the gaps are sealed and closed with platbands, after which from the outside of the opening sash around the perimeter, a metal lining is mounted.

However, the disadvantages of the known method are also low reliability of the design and low thermal insulation.

The purpose of the claimed invention is to eliminate the identified shortcomings in order to achieve the following technical result: increasing the reliability of the structure, increasing thermal insulation.

This goal is achieved as follows: a method for insulating balconies or loggias, including an upper and lower balcony slab with an existing window system, in which, first, supports are mounted on the lower balcony slab, on which additional window structures are installed close to the existing window system, after which the seams are sealed, characterized in that additional window structures are rigidly attached to the upper balcony slab and to the supports with the help of fixing elements, moreover, as supports for additional window structures, sections of a profile pipe of rectangular section are used, fixed to the bottom slab, and the protruding structural elements of the existing window system are additionally insulated and closed with thermoboxes.

The method of insulation, in particular, can be characterized by the fact that corners are used as fixing elements for additional window structures.

The method of insulation, in particular, can be characterized by the fact that the supports of additional window structures are covered from above with a floor, while the floor is additionally insulated.

The method of insulation, in particular, may be characterized by the fact that the upper balcony slab is covered with a ceiling, while additional insulation of the ceiling is carried out.

The method of insulation, in particular, can be characterized by the fact that foiled polystyrene foam is used as a heater for protruding structural elements.

The method of insulation, in particular, can be characterized by the fact that polystyrene is used as a heater for protruding structural elements.

The method of insulation, in particular, can be characterized by the fact that reinforced polystyrene foam is used as a heater for protruding structural elements.

The method of insulation, in particular, may be characterized by the fact that the insulation is fixed with the help of adhesive mixtures.

The method of insulation, in particular, can be characterized by the fact that the insulation is fixed with the help of mounting foam.

The method of insulation, in particular, may be characterized by the fact that the insulation is fixed with the help of dowels.

The method of insulation, in particular, can be characterized by the fact that the thermal box is made of polyvinyl chloride.

The method of insulation, in particular, can be characterized by the fact that seamless thermal boxes are used.

The method of insulation, in particular, can be characterized by the fact that the wall thickness of the thermal box is from 8 mm to 32 mm.

The method of insulation, in particular, may be characterized by the fact that the supporting profile pipe is fixed using a dowel connection.

The method of insulation, in particular, can be characterized by the fact that the supporting profile pipe has dimensions from 45×45 mm to 75×75 mm.

The method of insulation, in particular, can be characterized by the fact that the supporting profile pipe has a length of 300 mm to 500 mm.

The method of insulation, in particular, can be characterized by the fact that the supporting profile pipe is made of steel.

The method of insulation, in particular, can be characterized by the fact that before installing additional window structures, the opening sashes of the existing window system are dismantled, while after dismantling, a frame with an opening sash is installed, where the additional opening sashes are installed flush with the outer side of the existing window system.

The method of insulation, in particular, may be characterized by the fact that before installing additional window structures, the opening sashes of the existing window system are dismantled, while after dismantling, a frame with an opening sash is installed, where the additional opening sashes are covered with paint and varnish material in accordance with the color of the existing glazing of the facade of the building .

The essence of the claimed invention is illustrated by drawings, where:

Fig. 1 Schematically shows a balcony with an existing window system from the developer and installed supporting profile pipes;

Fig. 2 Schematically shows a balcony with additional window structures;

Fig. 3 Schematically shows the structural element of the existing window system with a thermal box, where the numbers indicate:

1. Lower balcony plate

2. Initial construct of the existing window system

3. The base of the double-glazed window of the existing window system

4. Double-glazed window of the existing window system

5. Supports for additional window structures

6. Fixing supports for additional window structures

7. Frames of additional window structures

8. Double-glazed window of additional window structures

9. The base of the double-glazed window of additional window structures

10. Fixing elements

11. Flooring

12. Floor insulation

13. Insulation of protruding structural elements

14. Plastic box (Thermobox)

The method of warming a balcony or loggia is carried out as follows

The objective of the invention is to insulate such parts of the building structure as a balcony, loggia, terrace and the like with translucent glazing. A large number of housing stock is equipped with balconies or loggias with cold glazing, which usually protects only from precipitation. Cold glazing usually includes balcony railing elements, structural elements, a frame (2) and a double-glazed window (4). At the bottom of the frame, the base of the double-glazed window (3) is fixed. Complete replacement of glazing with the installation of warm double-glazed windows is a rather time-consuming task. Due to the proposed method, reliable thermal insulation is obtained, while maintaining the existing glazing, which also significantly reduces the complexity of the procedure.

At the very beginning of the proposed method, supports of additional window structures (5) are mounted on the lower balcony slab (1). As a support for additional window structures, a rectangular support profile pipe is used. A rectangular profile pipe is a durable and reliable structural element that can withstand a significant weight of additional window structures. A wide mounting surface provides additional stability and reliability of fixing additional window structures on it. To ensure the reliability of installation, the supports are made with special holes for fasteners (6), then, for example, using a dowel connection, a rigid installation of the supports is ensured. Taking into account the load, in order to ensure reliable retention of additional window structures, the supporting profile pipe can have dimensions from 45 × 45 mm to 75 × 75 mm. A pipe with a smaller cross section does not provide reliable retention of window structures, while the use of a pipe with a larger cross section significantly raises the floor of the room, which is often impractical. The supporting profile pipe can have a length of 300 mm to 500 mm, which ensures a reliable further installation of a warm floor. A shorter length may not always be a support for subsequent flooring, and a large pipe length prevents the installation of several pipes at the corners of the insulated room, which can also affect the reliability of the installation of additional window structures. The supporting profile pipe can be made of steel, as a material with high strength characteristics and ensuring overall structural reliability.

After mounting the supports, close to the frame of the existing window system (2), additional window structures are installed. Additional window structures are frames (7) with double-glazed windows (8). At the bottom of the frame, the base of the double-glazed window (9) is fixed. Additional window structures serve as a reliable heat insulator that allows you to retain heat even in harsh climatic conditions. In this case, additional window structures are fixed from above and below with the help of fixing elements (10). Fastening from above occurs by rigid fixing of the fixing elements (including with the help of dowels) to the upper balcony slab, on the one hand, and to additional window structures, on the other hand. Fastening from below occurs by rigid fixing of the fixing elements (including with the help of fasteners) to the supporting profile pipe, on the one hand, and to additional window structures, on the other hand. Thus, in addition to fixing with the help of adhesive and sealing compositions at the junction of the original construct of the primary glazing and the frame of additional window structures, there is an additional fixation of window structures from above and below. At the same time, this type of fixation is the most rigid and reliable, which determines the strength of the installed additional glazing. Corners can act as fixing elements of additional window structures, as the most technologically advanced in the performance of this type of construction work and ensuring the reliability of retention. Or, as fixing elements, strips of metal can act, the advantage of which is the absence of protruding parts outside the connected elements. Additionally, if necessary, adjust the height of additional window structures using corner elements placed on the support profile pipe (not shown in Fig.).

In order to ensure thermal insulation of the insulated window structure, the protruding structural elements of the existing window system are additionally insulated and covered with thermal boxes. Even in the case of installing additional window structures to the existing window system, the ribs of the frames, which are cold bridges, remain uncovered, therefore, in order to prepare a warm room, it is imperative to carry out additional insulation of the protruding structural elements as well. To this end, as shown in FIG. 3, the protruding structural elements are covered with insulation (13). As a heater, foil polystyrene foam, polystyrene, reinforced polystyrene foam can act. These types of heaters showed themselves well in the implementation of the proposed method, providing reliable thermal insulation even in harsh climatic conditions. However, other similar materials may also be used. For a heater, it is important to provide for a tight fixation to the structural elements, which will ensure the absence of gaps with the external environment and high thermal insulation. For these purposes, the insulation can be fixed, for example, using adhesive mixtures, or using mounting foam. Also, for the insulation, it is important to provide a reliable fixation to the structural elements, which will ensure the durability of its retention. For these purposes, the insulation can be fixed, for example, with the help of dowels. The protruding structural elements insulated in this way are additionally covered from above with thermal boxes (14). The thermal box also additionally acts as a heat-insulating element. To ensure that there are no gaps that can serve as a source of cold, the thermal box can be made seamless. One of the preferred materials for the manufacture of a thermal box, providing low thermal conductivity, may be polyvinyl chloride. However, it is possible to use any other materials with low thermal conductivity. The wall thickness of the thermobox, as a rule, ranges from 8 mm to 32 mm. A smaller wall thickness does not provide sufficient thermal insulation, while with a larger wall thickness it is necessary to make structural changes to the surrounding structural elements, which may adversely affect the thermal insulation properties of the structure being mounted.

To ensure reliable thermal insulation, the supports of additional window structures can be covered from above with a floor (11), and the floor can be additionally insulated (12). In addition, the upper balcony slab can be covered with a ceiling (not shown in Fig.), which can be additionally insulated. Undoubtedly, all of the above operations make it possible to create an insulated structure for a balcony or loggia.

In addition, if the existing window system has opening sashes, they are dismantled at the very beginning of work. A frame with an opening sash is then installed, whereby the sash can be installed flush with the outside of the existing window system. Atmospheric precipitation, in the case of, for example, dismantled and not installed new sashes inside the frames, can get between the existing window system and additional window structures. Moisture reduces the durability and reliability of the structure. Also, the missing sash with a frame significantly reduces thermal insulation. Thus, in case of dismantling the opening sash, it is necessary to install a frame with a new opening sash. In addition, additional opening sashes, if necessary, can be coated with paint and varnish material in accordance with the color of the existing glazing of the facade of the building. The presence of a paintwork material significantly increases the durability of the structure (and hence reliability) due to the obstacle to the aggressive influence of the external environment (ultraviolet, precipitation and other factors affecting the durability of metal-plastic structures).

Before installing additional window structures, window sills can be installed between the upper balcony slab and the existing window system. Moisture (for example, from atmospheric precipitation) reduces the durability of building structures due to increased corrosion processes, swelling of moisture-proof materials, and so on. The presence of window sills allows you to divert atmospheric precipitation, due to which, durability and reliability increase (according to GOST 27.002-2015 Reliability in technology).

Thus, the use of a method for insulating a balcony or loggia, rigidly fixing additional window structures at the top and bottom, pre-installed on a fixed support profile pipe of a rectangular village, and subsequent insulation of protruding structural elements, with their closure with thermal boxes, allows achieving the claimed technical result, namely - increasing the reliability of the structure and increasing thermal insulation.

The proposed method can be widely used in areas with unfavorable climate.

Claims (24)

1. A method for insulating balconies or loggias, including upper and lower balcony slabs with an existing window system, in which, first, supports are mounted on the lower balcony slab, on which additional window structures are installed close to the existing window system, after which the seams are sealed, characterized in that additional window structures are rigidly attached to the upper balcony slab and to the supports with the help of fixing elements, moreover, sections of a profile pipe of rectangular section fixed to the bottom plate are used as supports for additional window structures, and the protruding structural elements of the existing window system are additionally insulated and covered with thermal boxes. 2. The method of insulation according to claim 1, characterized in that before installing additional window structures, window sills are installed between the upper balcony slab and the existing window system. 3. The method of insulation according to claim 1, characterized in that corners are used as fixing elements for additional window structures. 4. The method of insulation according to claim 1, characterized in that the supports of additional window structures are covered from above with a floor. 5. The method of insulation according to claim 4, characterized in that the floor is additionally insulated. 6. The method of insulation according to claim 1, characterized in that the upper balcony plate is covered with a ceiling. 7. The method of insulation according to claim 6, characterized in that additional insulation of the ceiling is performed. 8. The method of insulation according to claim 1, characterized in that foiled polystyrene foam is used as a heater for protruding structural elements. 9. The method of insulation according to claim 1, characterized in that polystyrene is used as a heater for protruding structural elements. 10. The method of insulation according to claim 1, characterized in that reinforced polystyrene foam is used as a heater for protruding structural elements. 11. The method of insulation according to claim 1, characterized in that the insulation is fixed with the help of adhesive mixtures. 12. The method of insulation according to claim 1, characterized in that the insulation is fixed with mounting foam. 13. The method of insulation according to claim 1, characterized in that the insulation is fixed with dish-shaped dowels. 14. The method of insulation according to claim 1, characterized in that the thermal box is made of polyvinyl chloride. 15. The method of insulation according to claim 1, characterized in that seamless thermal boxes are used. 16. The method of insulation according to claim 1, characterized in that the wall thickness of the thermal box is from 8 to 32 mm. 17. The method of insulation according to claim 1, characterized in that the supporting profile pipe is fixed using a dowel connection. 18. The method of insulation according to claim 1, characterized in that the supporting profile pipe has dimensions from 45 × 45 mm to 75 × 75 mm. 19. The method of insulation according to claim 1, characterized in that the supporting profile pipe has a length of 300 to 500 mm. 20. The method of insulation according to claim 1, characterized in that the supporting profile pipe is made of steel. 21. The method of insulation according to claim 1, characterized in that prior to the installation of additional window structures, the opening sashes of the existing window system are dismantled. 22. The method of insulation according to claim 21, characterized in that, after dismantling, a frame with an opening sash is installed. 23. Insulation method according to claim 22, characterized in that additional opening sashes are installed flush with the outside of the existing window system. 24. The method of insulation according to claim 22, characterized in that the additional opening sashes are covered with a paintwork material in accordance with the color of the existing glazing of the facade of the building.

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