RU209365U1 - HEAT-INSULATING AND SOUND-INSULATING PARTITION - Google Patents

Abstract

The utility model relates to the field of construction and can be used as a partition used in the construction of civil and industrial buildings, which are subject to requirements for fire resistance, heat insulation and sound insulation of premises. is achieved by the fact that glass dolomite sheets are accepted as outer skin sheets, and the space between the sheets is filled with heat-insulating material based on mineral wool, as well as an additional layer of sound insulation MaxForte-SoundPRO based on aluminosilicate fiber, while glass dolomite sheets are fastened together with a Z-shaped galvanized profile .

Description

The utility model relates to the field of construction and can be used as a partition in the construction of civil and industrial buildings, which are subject to requirements for heat and sound insulation of premises, as well as their fire resistance.

A heat-insulating wall panel is known, containing a heat-insulating plate associated with a frame made of profiles of galvanized steel or plastic, C-shaped, inserted into the body of the plate on both sides (RU 121283 U1, pub. 20.10.2012, bul. No. 29) . This utility model requires a casting mold, which implies industrial production. The use of another technology using a ready-made body of the slab and fixing the frame profiles in the cut grooves is difficult to organize in the conditions of the construction site, as well as to ensure high strength and tightness of the joints, which reduces the thermal insulation efficiency of this panel. Also, this panel has a low fire resistance, since there are no fire-resistant materials in the design.

A well-known design of a partition element with a fibrous filler, consisting of two outer shells located at some distance from each other, in particular from gypsum boards, and a filler made of heat-insulating material made of fibers, made of at least two mirror-opposite multilayer insulating boards (RU 2339770 C2, published 11/27/2008, Bull. No. 33).

The disadvantage of this solution is the complexity of manufacturing this panel, as well as the use of materials with low fire resistance.

A wall panel is known (RU 160271 U1, pub. 03/10/2016 Bull. No. 7), containing two outer sheets, between which there is an inner sound-proof layer fastened to them or a heat-insulating layer, a U-shaped metal profile.

This utility model has low hygiene due to the use of polyurethane foam as a heater. The disadvantage of this technical solution is the overrun of the insulation, because. outer sheets with the following parameters are used: height 2750 mm, width 600 mm. To fill the required intersheet space, unified sizes of heaters will not work.

The closest, taken as a prototype, is the design of a flexible partition (RU 198477 U1, claim. 12.03.20; publ. 13.07.20, bull. No. 20), consisting of a soundproof material, a box-shaped profile and sheathing made of glass-magnesite sheets. This design has a low thermal insulation capacity, due to the lack of thermal insulation material and the small thickness of the partition (only 66 mm), which limits its scope, in addition, the presence of "cold bridges" in box-shaped profiles reduces the thermal insulation ability of the partition.

The claimed utility model, like the well-known prototype, contains 2 outer sheets, between which are placed a heat-insulating and noise-insulating layer, a Z-shaped thin-walled galvanized thermal profile.

The objective of this utility model is to increase the heat-insulating, sound-proofing ability of the partition and its fire resistance.

The technical result is achieved by the fact that glass dolomite sheets are used as outer skin sheets, and the space between the sheets is filled with heat-insulating material based on mineral wool, as well as an additional layer of sound insulation MaxForte-SoundPRO based on aluminosilicate fiber, while the glass dolomite sheets are fastened together by a Z-shaped galvanized profile.

Glass dolomite sheets (SDL) are used as cladding in the proposed partition according to the publications: 1) R.Kh. Khuziahmetov, R.A. Ibragimov, A.I. Khamitova, I.D. Tverdov. Physical and chemical bases for obtaining facing building materials based on low-quality magnesian raw materials. Bulletin of the Technological University. 2019. Vol. 22. No. 11. pp. 92-98; 2) Pat. No. 2744365 Russian Federation, C1. A method of obtaining a binder based on dolomite for the manufacture of wall and finishing products for civil engineering / Khuziakhmetov R.Kh., Ibragimov R.A. publ. 03/05/2021. Bull. No. 7. - 4 s.

As a heat-insulating layer, it is possible to use fire-resistant insulation: mineral wool, glass wool, basalt wool, ecowool, according to GOST 9573-2012. Plates with the following characteristics are used: length 500-6000 mm, width 500-2000 mm, thickness 100-200 mm, thermal conductivity not more than 0.041-0.036 W / (m-K), depending on the brand of the plate.

As a sound insulation layer, it is possible to use MaxForte-SoundPRO sheets based on aluminosilicate fiber.

As a thin-walled profile, it is possible to use a galvanized thermal profile with a Z-shaped section according to GOST R 58384-2019, dimensions 100 × 50 mm and a height equal to the height of the sheet.

Making outer sheets of glass dolomite, as well as using non-combustible material as a heater: mineral wool, glass wool, basalt wool; as a layer of sound insulation MaxForte-SoundPRO, consisting of a non-combustible material - aluminosilicate fiber; thin-walled galvanized thermal profile (GOST R 58384-2019) makes it possible to attribute the utility model to a fire-resistant structure, according to GOST 3024-94.

The assembly of the partition is carried out in the following way.

Metal profiles 100 × 50 with a Z-shaped section according to GOST R 58384-2019 are installed at the installation site in increments of 1 m. Then they are fixed to the floor and ceiling. A glass dolomite sheet measuring 2000×1200×10 mm is sequentially attached to a metal profile using self-tapping screws with a pitch of 150 mm. After that, mineral wool boards are mounted between the guide profiles. At the next stage, MaxForte-SoundPRO sheets are applied to the mounted insulation and fixed, the sheets are overlapped with a value of 2-3 cm.

In FIG. 1 shows a section of the structure at the assembly stage, where: 1 - a metal Z-shaped profile 100 × 50 mm, 2 - a glass dolomite sheet measuring 2000 × 1200 × 10 mm, 3 - a heat-insulating material 100 mm thick, 4 - a MaxForte-SoundPRO sound insulation layer with a thickness 12 mm. The pitch of the screws is 150 mm.

In FIG. Figure 2 shows a top view of a heat-insulating and sound-proof partition, consisting of the following elements: 1 - metal Z-profile 100 × 50 mm, 2 - glass dolomite sheet measuring 2000 × 1200 × 10 mm, 3 - heat-insulating material, 4 - MaxForte-SoundPRO sound insulation layer 12 mm thick.

Installation of a partition with the following parameters: 2 sheathing sheets of glass dolomite 8 mm thick with a density of 1000 kg/m ³ ; thermal insulation 100 mm thick; a sound insulation layer 12 mm thick with a density of 40 kg/m ³ provides the required sound insulation characteristics according to SP 23-103-2003.

In FIG. Figure 3 shows the dependence of the absorption of the sound level on the frequency characteristics of the sound: 2 sheets of glass dolomite cladding 8 mm thick, thermal insulation (mineral wool) 100 mm thick, sound insulation layer MaxForte-SoundPRO 12 mm thick.

This utility model makes it possible to provide the required parameters of thermal insulation of the partition - the air temperature in the premises must comply with the requirements of SP 50.13330.2012, the difference between the temperature of the internal air and the temperature of the internal surface of the enclosing structures at the design temperature of the internal air must not exceed that required by SP 50.13330.2012, heated rooms separated from unheated rooms should have a layer (s) of effective thermal insulation, as well as layers of materials with low air permeability, providing protection against air exfiltration. This is achieved by varying the thickness of the SDL sheet and insulation, as well as the use of materials with the following coefficients. thermal conductivity: λ=0.036 W/m°С (insulation), λ=0.14 W/m°С (sheet), λtpp=8 W/m°С (profile), λ=0.036 W/m°С (layer soundproofing). On FIG. 4 shows the dependence of the calculated heat transfer resistance on the thickness of the SDL and the thickness of the insulation, the thickness of the sound insulation layer is assumed to be constant and equal to 12 mm.

Claims (1)

Heat-insulating and sound-insulating partition, consisting of sheet sheathing, fastened with self-tapping screws with a pitch of 150 mm to guide profiles, mounted with a pitch of 1 m and a sound insulation layer, characterized in that glass dolomite sheets with a thickness of 8 mm are used as sheathing, fastened to a Z-shaped galvanized profile, and the space between the profiles is filled with heat-insulating material based on mineral wool 100 mm thick, as well as an additional layer of sound insulation MaxForte-SoundPRO based on aluminosilicate fiber 12 mm thick.

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