RU2659110C2 - Heat-saving light-concrete panel of the building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: useful model refers to building structures - panels made of solid concrete for enclosing parts of buildings: external walls, insulating coatings and ceilings. Heat-saving light-concrete panel of the building includes a fixed formwork made of cement-bonded particleboard (CBP), connected by internal cross-links, each of which consists of: 2 steel sidewalls rigidly fastened by steel screws to the CBP of the U-shaped profile with elastic shelves, bends, rectangular grooves to fix the transverse connection, round holes for steel screws, fastening sidewalls to the CBP, as well as with pockets for skipping reinforcing bars of the panel, and a fixed transverse strip of the channel-shaped profile with protrusions at the ends for fixation in the grooves of the sidewalls and holes for passing the reinforcing bars of the rods. In this case, the fixing cross bar is made of a combined, consisting of 2 35-40 mm wide steel end elements with protrusions for fixing in the grooves of the sidewalls, and a glass-reinforced plastic channel with a thickness of no more than 3 mm with round holes for passing reinforcing bars, fastened with steel screws to the steel end elements of the cross bar. Concrete part of the panel is made of monolithic polystyrene concrete with a density of 150-250 kg/m³.

EFFECT: technical result is ensured compliance with the regulatory requirements for energy conservation while minimizing the costs of their production.

1 cl, 5 dwg, 1 tbl

Description

The utility model relates to building structures - reinforced panels of cast concrete for the enclosing parts of buildings (external walls, insulated coatings and ceilings).

The objective of this utility model is to create a heat-saving panel, the design of which ensures compliance with regulatory requirements for energy saving while minimizing the cost of their manufacture.

Known structural and technical solution of reinforced concrete monolithic panels, molded in fixed formwork formed by external cement-bonded particleboards (DSP), fixed by transverse steel bonds [1]. In this case, the transverse connections consist of 2 types of steel parts 1.25-1.50 mm thick: a) sidewalls with a width of 45-50 mm of a U-shaped profile with elastic shelves and bends, as well as with round holes for steel screws fastening sidewalls to TsSP, and b) the fixed cross-section of a channel-shaped profile. Rectangular grooves are provided in the sidewalls, and protrusions are provided in the locking bar, and after the locking bar is inserted fully into the sidewalls with elastically expandable shelves, its protrusions fall into the corresponding grooves of the sidewalls, fixing the specified distance and parallelism between the DSP. Pockets are also provided in the sidewall, and round holes for passing the rods reinforcing the panel are provided in the transverse strip.

The disadvantage of this technical solution, which was adopted as a prototype, is that steel cross-links (of the order of 8-10 pcs. Per 1 m ^{2 of} the panel surface) significantly impair the heat-shielding properties of the panels in the building envelope, significantly increasing the heat consumption on them heating. Moreover, even when using lightweight (for example, lightweight expanded clay aggregate) and monolithic cellular concrete with a density of 400-500 kg / m ³ to comply with regulatory requirements for thermal protection [2] it is necessary for the middle strip of Russia to have wall panels about 400-600 mm thick, which economically inefficient. Also, when using monolithic heavy concrete laid in a formwork made of DSP with an internal clearance of up to 25 cm, it is economically inefficient to use (to meet heat-saving requirements) external additional external insulation of panels with mineral wool or polystyrene foam 100-150 mm thick.

The solution to this problem is achieved by the fact that for the transverse connections between the DSP, a fixing strip is used, including a fiberglass channel with low thermal conductivity, and the monolithic part of the panels is molded from low-heat-conductive polystyrene concrete.

Thus, it is proposed to perform the design of a fixed transverse strip combined, consisting of 2 steel end elements with a width of 35-40 mm of a U-shaped profile having elastic shelves, bends and protrusions for fixing in the grooves of the sidewalls, and a fiberglass channel with a thickness of not more than 3 mm, fastened with steel screws to the steel end elements of the transverse bar. Moreover, the concrete part of the panel is made of hardened monolithic polystyrene concrete with a density of 225-250 kg / m ³ .

Additionally, to increase the heat-shielding properties for the concrete part of the panel, monolithic polystyrene concrete with a density of 150-200 kg / m ³ can be used, provided that the steel parts of the transverse bonds are galvanized. In this case, fiberglass rods or / and a galvanized steel profile are used to reinforce the panels.

For the possibility of unhindered placement of the rods for reinforcing the panel in the fiberglass channel, round holes are provided, similar to those used in the prototype.

In FIG. 1 shows a fragment of the panel, including: fixed formwork from TsSP - 1, polystyrene concrete part - 2, transverse assembly, including steel sidewalls - 3, fastened with steel screws to the TsSP, fixed transverse bar, including steel end elements - 4 and fiberglass channel - 5, fastened with steel screws - 6 to steel end elements; in FIG. 2 - assembly drawing of a fixed transverse strip, including steel end elements - 4 with protrusions - 12 for fixing in the grooves of the sidewalls and fiberglass channel - 5, fastened to each other with steel screws - 6; in FIG. 3 - steel sidewalls with elastic shelves - 7, bends - 8, round holes - 9 for steel screws securing the sidewalls to the DSP, rectangular grooves - 10 for fixing the transverse strip and pockets - 11 for passing rods reinforcing the panel; in Fig. 4 - a steel end element with protrusions - 12 for fixing in the grooves of the sidewalls and holes - 13 for fastening the fiberglass channel with steel screws, and in Fig. 5 - fiberglass channel with round holes - 14 for the passage of reinforcing bars.

Technical and economic data of the proposed technical solutions for the exterior wall panel of buildings in comparison with the prototype are shown in the table.

As follows from the data in the table, the proposed technical solution leads to the expected effect - providing normalized values of the reduced heat transfer resistance (R _o = 2.33 ÷ 4.18 m ² ° C / W) with a decrease in panel thickness of 1.5-2 , 5 times and reducing the cost of manufacturing the panel in 1.5-1.7 times.

References

1. Technical documentation for the production of panels from DSP VST SYSTEM MANUAL, company VST Verbundschalungtechnik GmbH, Austria.

2. SP 50.13330.2012. Thermal protection of buildings.

3. GOST R 51263-2012. Polystyrene concrete. Technical conditions

Notes:

1. Estimated number of links - 9 pcs. on 1 m ^{2 of the} surface of the panels.

2. The calculated thermal conductivity of steel was adopted according to SP 50.13330.2012 [2], polystyrene concrete according to GOST R 51263-2012 [3], fiberglass according to the NIIIZhB and TsSP with a density of 1150 kg / m ³ λ _B = 0.4 W / (m ° C) - according to the reference data.

Claims (2)

1. Heat-saving light-concrete panel of the building, including fixed formwork made of cement-bonded particleboards (DSP), connected by internal transverse ties, each of which consists of: 2 steel U-shaped steel sidewalls with elastic shelves, elbows, rigidly fastened with steel screws to the DSP , rectangular grooves for fixing the transverse connection, round holes for steel screws, fastening the sidewalls to the DSP, as well as with pockets for skipping the reinforcing rods of the panel, and a locking transverse strip of the channel-shaped prof for protrusions at the ends for fixing in the grooves of the sidewalls and openings for the passage of reinforcing rods of the panel, characterized in that the locking transverse bar is made of a combination of 2 steel end elements 35-40 mm wide with protrusions for fixing in the grooves of the sidewalls, and fiberglass channel with a thickness of not more than 3 mm with round holes for the passage of reinforcing bars, fastened with steel screws to the steel end elements of the transverse strip, while the concrete part of the panel is made of a monolithic floor istirolbetona density of 150-250 kg / m ^3. 2. The heat-saving lightweight concrete panel of the building according to claim 1, characterized in that the steel parts of the internal cross-connections are galvanized, the panel is reinforced with fiberglass rods and / or galvanized steel profile, and the concrete part of the panel is made of monolithic polystyrene concrete with a density of 150-200 kg / m ³ .

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