RU153413U1 - HOLLOW BUILDING WITH ASSEMBLY STEEL STRUCTURE - Google Patents

Abstract

1. A hollow prefabricated structure containing a hollow roof (A), a hollow wall, a hollow window frame, a hollow vertical and horizontal beam, a hollow floor slab and a hollow floor, characterized in that the building elements consist of a steel frame, two wall panels and hollow layer. 2. A hollow structure with a prefabricated structure according to claim 1, characterized in that the hollow roof consists of a first and a second panel, a first hollow layer and a frame. 3. A hollow structure with a prefabricated structure according to claim 1, characterized in that the hollow inner and outer wall consists of two wall panels, a hollow layer and a frame. 4. A hollow prefabricated structure according to claim 1, characterized in that the hollow window frame and the hollow vertical and horizontal beams consist of a vertical and horizontal beam, a hollow layer and a T-shaped panel. 5. A hollow structure with a prefabricated structure according to claim 1, characterized in that the hollow floor slabs and the hollow floor consist of two panels, a hollow layer and a frame. 6. A hollow structure with a prefabricated structure according to claim 1, characterized in that their production is carried out at the plant according to a working drawing and a layout map, and the assembly is carried out at the destination using Silakpor panels made of autoclaved aerated concrete.

Description

This utility model relates to the construction industry and relates to a hollow structure with prefabricated steel structure.

Construction objects are used in many areas: cultural, objects for work and human life. The construction process, including the design phase, is accompanied by large expenditures of energy and resources, as well as accompanied by discharges of water, gas and other substances. Therefore, maximizing energy savings, protecting the environment and reducing pollution and construction waste, providing people with healthy, comfortable, highly efficient, environmentally friendly buildings, is the main task.

A known method of constructing a permanent residential building, including casting reinforced concrete in place to obtain a monolithic base, main wall, inner wall, pillar, annular beam, load-bearing beam, floor, inclined beam, inclined floor and skating beam of the house in the erected formwork, while the main wall , the width of which can be adjusted by selecting various types of formwork profiles and through pins, is hollow and includes one outer wall and one inner wall or one outer wall and two inner the lower walls, and the hollow part, which can be filled with heat-shielding and heat-insulating materials or filled with water (invention patent CN 101892743, priority date 06/19/2010, publication date 11/24/2010).

Known prefabricated house, including floor, roof, walls, characterized in that it consists of prefabricated hollow structural slabs. Prefabricated hollow structural slabs on four sides have thin walls, as well as a series of parallel holes located in the central layer of the slab. In the upper and lower parts of the house there are steel frames connected to the hollow plates by fasteners, sealing elements are provided at each joint of the hollow plates, (utility model patent CN 1097831, priority date 07.22.1993, publication date 01.25.1995) , (selected as a prototype).

The disadvantages of these analogues is the lack of fire resistance and thermal insulation.

Designing a roof and walls of a traditional structure requires external thermal insulation, internal thermal insulation and thermal insulation between the walls (sandwich panels). However, at the moment, not all scientific knowledge is used to ensure high thermal insulation of buildings. Based on science-based knowledge, it is preferable to use air with a thermal conductivity coefficient of 0.023w / (m · k) as a heat-insulating layer, carefully select the used building materials, and carry out science-based design.

The technical task of the claimed utility model is to ensure environmental friendliness, thermal insulation, sound insulation, fire resistance, earthquake resistance, energy saving, low cost, durability of the structure with a hollow structure.

The solution to the technical problem in the utility model is proposed due to the construction of a hollow structure containing a hollow roof (A), a hollow wall (B), a hollow window frame and hollow vertical and horizontal beams (C), hollow floor slabs and a hollow floor (D).

The hollow roof (A) consists of: the first panel (1), the first hollow layer and the frame (2), the second panel (3).

Hollow wall (B): the outer wall consists of a third wall panel (4), a second hollow layer and a frame (5), a fourth panel (6); the fifth panel (7), the third hollow layer and the frame (8), and the sixth panel (9) enter the inner wall.

The hollow window frame and the hollow vertical and horizontal beams (C) consist of a vertical and horizontal beam (10), a fourth hollow layer (11) and a T-shaped panel (12).

Hollow floor slabs and hollow floor (D): floor slabs consist of a seventh panel (13), a fifth hollow layer and a frame (14), an eighth panel (15); the hollow floor consists of the ninth panel (16), the sixth hollow layer and the frame (17), the tenth panel (18).

Hollow structures (A), (B), (C), (D) are produced at the plant according to the working drawing and layout chart, and are assembled at the place of work using autoclaved Silacpor panels of cellular concrete.

Blueprints:

Figure 1 - General design diagram;

Figure 2 is a sectional view of the inner wall;

Figure 3 is a view of a hollow window frame and a hollow vertical and horizontal beams;

Figure 4 - the angular connection of the walls with an internal angle;

Figure 5 - the angular connection of the walls with the outer corner;

Figure 6 - T-shaped connection between the outer and inner wall

Figure 7 - T-shaped connection between the inner walls;

Figure 8 - T-shaped connection between the walls.

The design shown in the drawings contains a hollow roof (A), a hollow wall (B), a hollow window frame, hollow vertical and horizontal beams (C), hollow floor slabs and a hollow floor (D).

The hollow roof (A) consists of a first panel (1), a first hollow layer and a frame (2), and a second panel (3). A special sealant is used for sealing and soft connection between the panels, and the two-layer panel and the metal structure are fixed with special screw bolts and special bolts with a hook-shaped head.

Hollow wall (B): the outer wall consists of a third wall panel (4), a second hollow layer and a frame (5), a fourth panel (6); The inner wall is composed of a fifth panel (7), a third hollow layer and a frame (8), and a sixth panel (9). A special sealant is used for sealing and soft connection between the panels, and the two-layer panel and the metal structure are fixed with special screw bolts and special bolts with a hook-shaped head.

The hollow window frame and the hollow vertical and horizontal beams (C) consist of a vertical and horizontal beam (10), a fourth hollow layer (11) and a T-shaped panel (12). A special sealant is used for sealing and soft connection between the panels, and the two-layer panel and the metal structure are fixed with special screw bolts and special bolts with a hook-shaped head.

Hollow floor slabs and hollow floor (D): floor slabs consist of a seventh panel (13), a fifth hollow layer and a frame (14), an eighth panel (15); the floor consists of a ninth panel (16), a sixth hollow layer and a frame (17), a tenth panel (18). A special sealant is used for sealing and soft connection between the panels, and the two-layer panel and the metal structure are fixed with special screw bolts and special bolts with a hook-shaped head.

A hollow roof (A), a hollow wall (B), a hollow window frame, hollow vertical and horizontal beams (C), hollow floor slabs and a hollow floor (D) are produced at the factory according to the working drawing and layout map, assembled at the place of work with using Autoclaved Silacpor Cellular Concrete Panels.

In the claimed utility model, it is preferable to use natural resources with a coefficient of thermal conductivity of 0.023w / (m · k) - air as a heat-insulating, sound-insulating and fire-retardant layer. In addition, the used building materials are carefully selected to achieve the specified building characteristics, in particular: maximum energy savings required by the building standards of thermal insulation, fire resistance, seismic resistance of sound insulation, environmental safety, low cost and durability.

The density of the panel with a thickness of 100 mm is 53 kg / m, the thermal resistance is 0.83 w / (m ² · k), the thermal conductivity is 0.12 w / (m · k), the thermal storage coefficient is 2.15 w / (m ² · k), the coefficient of thermal expansion is 7.0 × 10 ^-6 / ° С, the sound insulation coefficient is 37.7 dB, the fire resistance is 4 hours, two-layer reinforcement is located inside the panel, the compressive strength is more than 4.00 N / mm ² , the bending strength is more than 1.00 N / mm ² , shear strength more than 0.50 N / mm ^2, a modulus of elasticity more than 1800N / mm ² (album release th institute of design and construction standards of the PRC, №03SG715-1. GUOJIIAJIANZHUBIAOZHUNSHEJI 03SG715-1).

The hollow roof (A) consists of the first panel 100 mm thick (1), the first hollow layer and the frame 100 mm thick (2), the second panel 100 mm thick (3), the coefficient of heat transfer can reach 0.16 W / (m ² · k )

Hollow wall (B): the outer wall consists of a third wall panel 100 mm thick (4), a second hollow layer and a frame 100 mm thick (5), a fourth panel 100 mm thick (6); the value of the heat transfer coefficient can reach 0.16 W / (m ² · k).

The inner wall consists of a fifth panel with a thickness of 50 mm (7), a third hollow layer and a frame with a thickness of 50 mm (8), and a sixth panel with a thickness of 50 mm (9), the value of the heat transfer coefficient can reach 0.19 W / (m · k).

The hollow window frame and the hollow vertical and horizontal beams (C) are made up of a vertical and horizontal beam (10), a fourth hollow layer 100 mm thick (11) and a T-shaped panel 100 mm thick (12), the value of the heat transfer coefficient can reach 0.16 W / (m ² · k).

Hollow floor slabs and hollow floor (D): soundproof indicators of hollow roofs, hollow internal and external walls and hollow floor slabs can reach up to 50-74.5 dB or more, the hollow floor can effectively protect against moisture.

Earthquake resistance, fireproof and anticorrosion properties: the density of the panel 100 mm thick is 53 kg / m, the lightweight panel can reduce the vertical load, use special sealant for sealing and soft connection between the panels and fasten the two-layer panel and the metal structure with special screw bolts and special bolts with hook-shaped the head can withstand seismic activity up to 8-9 points. Dry air filled with a hollow layer protects pipes, steel materials from fire and corrosion. When the panel thickness reaches 50-100 mm, the fire limit reaches up to 2-4 hours and the panel is a swelling element of fire. Thus, hollow buildings have a fire safety class of class A or more.

The use of hollow panels is environmentally friendly, and beneficial in terms of economic and resource costs. The panels are non-radioactive green building materials, they can reduce the vertical load and reduce the amount of steel used, use "air" as thermal insulation. In addition, cost reduction is achieved by using the factory production and assembly method at the place of work, which ensures not only a high construction rate, but and reduce salary costs.

The limiting values of the thermal conductivity coefficient for energy-efficient roofs, building walls in England, the USA, Russia, Japan, Canada, Denmark, Sweden, respectively: 0.45, 0.45, 0.44, 0.42, 0.38, 0.3, 0.17W / (m ² · k),

The limiting value of the coefficient of thermal conductivity on roofs, walls of a hollow structure with a prefabricated steel structure in this utility model patent can reach up to 0.16 W / (m ² · k), which corresponds to and exceeds the existing world level.

Claims (6)

1. A hollow building with a prefabricated structure comprising a hollow roof (A), a hollow wall, a hollow window frame, a hollow vertical and horizontal beam, a hollow floor slab and a hollow floor, characterized in that the structural elements consist of a steel frame, two wall panels and hollow layer. 2. The hollow structure with the prefabricated structure according to claim 1, characterized in that the hollow roof consists of the first and second panels, the first hollow layer and the frame. 3. A hollow structure with a prefabricated structure according to claim 1, characterized in that the hollow inner and outer wall consists of two wall panels, a hollow layer and a frame. 4. The hollow structure with the prefabricated structure according to claim 1, characterized in that the hollow window frame and the hollow vertical and horizontal beams consist of a vertical and horizontal beam, a hollow layer and a T-shaped panel. 5. The hollow structure with the prefabricated structure according to claim 1, characterized in that the hollow floor slabs and the hollow floor consist of two panels, a hollow layer and a frame. 6. The hollow structure with the prefabricated structure according to claim 1, characterized in that their production is carried out at the factory according to the working drawing and layout map, and the assembly is carried out at the destination using autoclaved Silacpore concrete panels.

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