RU100788U1 - HIGH ENGINEERING CONSTRUCTION PANEL - Google Patents

Abstract

 1. A building panel containing a series-connected fence plate, a vapor barrier film, a rigid welded metal frame, heat insulation, waterproofing, an external fence plate, characterized in that the engineering networks are placed in a profile frame, and a rigid frame provides a load bearing for the construction of small and medium-sized buildings number of storeys. ! 2. The construction panel according to claim 1, characterized in that the assembly of the rigid frame is carried out by bolting. ! 3. The construction panel according to claim 1, characterized in that the assembly of the rigid frame is carried out by connecting on self-drilling screws with a press washer. ! 4. The construction panel according to claim 1, characterized in that the profile frame is made of galvanized steel profile U; FROM; Z-shaped type. ! 5. The construction panel according to claim 1, characterized in that according to claim 4, the profile frame contains vertical struts and horizontal ties, runs. ! 6. The construction panel according to claim 1, characterized in that a lock connection of adjacent panels is built into the rigid frame.

Description

The utility model “Construction Panel of High Engineering Complexity” (SPVIS) relates to the field of construction, namely, to the production of panels of wall and floor floors and can be used in the construction of low-rise buildings for mass and individual development.

Known wall panel with a metal frame, RU 62128 U1, E04 1/24, 2007.

The frame design of the wall panel is made of thin-walled metal profiles connected by a detachable connection. The heat and sound insulation layer is laid inside the frame made of a perforated metal profile and is protected from the inside by a vapor barrier film, and from the outside by a diffusion waterproof film. The frames of wall panels and ceilings are sheathed with plasterboard or gypsum fiber sheets.

This frame wall panel has good heat-insulating protective properties, but insufficient load bearing capacity for the construction of buildings of small and medium floors.

Closest to the claimed utility model is the design of the panel, RU 80870 U1 E04В 2/02 (2006), containing series-connected layers:

inner plate, vapor barrier film, sound-absorbing tape, metal frame, waterproof layer, insulation, outer plate and facade finish layer. As the outer and inner layer is used glass-magnesite plate.

The frame is made of U- and C-shaped galvanized steel profiles with perforation. The connection of the frame elements is carried out using self-drilling screws or rivets. Inside the construction panel communications can be placed. The internal volume of the panel is filled with cellulose insulation Unisol.

This building panel has increased fire resistance, high thermal insulation properties, high soundproofing properties. Houses built from such panels can withstand seismic loads of up to 9 on the Richter scale.

The objective of the declared useful panel (SPVIS) is the creation of an improved building panel that allows you to design and erect, in a short time, buildings and constructions of small and medium-sized floors of full readiness "turnkey", with a set of systems of engineering networks for internal use.

The problem is solved in that in a building panel, successively interconnected, like a sandwich, layers: an inner plate, a vapor barrier film, a sound-absorbing film, a metal rigid frame, a metal profile frame with engineering networks and heat-insulating material placed inside, a waterproof layer, an external plate and front finishing layer.

The basis of the panel is a rigid frame made of profile steel pipe, which performs a load bearing function and ensures the erection of a building of a design permissible number of storeys. The frame is covered with protective anticorrosive and fireproof layers.

A profile frame is assembled on top of the rigid frame and inside it. Its task is to place utilities and a heat-insulating layer. The rigid and profile frame are interconnected using self-drilling screws with a press washer. The profile frame is made of galvanized thermoprofile U, Z and C-shaped section.

Engineering networks: pipelines for sewage, hot water supply, cold water supply, steam-water heating, air conditioning cooler circulation, cable channels of electric networks, soldering boxes, air ducts of ventilation and supply systems, control control elements and shutoff valves - are installed in the volume of the profile frame. Cable channels, pipelines, ducts and additional highways pass through technological openings, windows, openings made in vertical racks and horizontal runs of the forming panel, with their fixation using clamps, fastening clips.

The free space in the forming frame, between vertical posts, horizontal runs and elements of utility networks, is filled with a non-combustible, environmentally friendly mineral insulation with high heat, acousto-insulating properties. To prevent the accumulation of condensate and moisture in the internal volume of the structure (SPVIS), vapor barrier layers and layers of external protective sheathing are glued on both sides of the panel. At least one of the engineering network systems is embedded in the profile frame.

The design of the construction panel provides for the possibility of docking with an adjacent one, thereby ensuring the continuity of the connection of internal engineering networks to a single building trunk.

The essential features of a utility model are:

- the presence of a rigid frame that carries a large vertical load, allowing you to build buildings of small and medium floors; ''

- the presence of a profile frame;

- availability of engineering network systems located in the scope of the panel construction;

- the presence of insulating layers.

The set of essential features provides the following technical results in the design and construction of low-rise buildings and structures:

- the panel is manufactured under production conditions on the conveyor;

- construction time is reduced;

- improving the culture of production in construction;

- high quality of interior decoration is ensured, since all elements of engineering networks are hidden in the scope of panel construction and do not interfere with high-quality finishing work;

- there is the possibility of verification tests of engineering networks at the manufacturing stage.

The implementation of a utility model of a building panel is considered in the figure, Figure 1 and Figure 2.

Building panel Fig. 1. contains series-connected layers:

inner plate (1), vapor barrier film (2), profile frame made of galvanized sheet (3), rigid supporting frame made of profile steel sheet (4), thermal insulation layer (9), waterproofing layer (10), external facade cladding plate ( eleven). Engineering networks are located inside the profile frame: sewers (5), pipelines (6), air ducts (7), clamps and fastening clips (8).

Figure 2. The location of utility networks inside the profile frame of the panel is shown. The profile frame (1) is made of a Z-shaped profile in the form of a volumetric frame with a depth of 150 mm, sufficient to accommodate utility networks and insulation. Sewer pipes (2), hot and cold water supply pipes (3), air ducts (4) are placed in the frame volume. The space between the elements of utility networks in the profile frame is filled with thermal insulation (5). The sides of the construction of the profile frame are glued with a layer of vapor barrier and waterproofing (6), and an external finishing layer (7) is performed. For maintenance of utility networks, the panel provides a technological hatch (8), which provides access to the revision of the sewer (9) and to the shutoff valves (10) of hot and cold water supply.

Building panels are technologically advanced for production at the plant by the in-line conveyor method. The rigid frame is welded separately and, after application of the protective coating, enters the assembly area. On the conveyor, a profile frame made of galvanized profile elements is “put on” on a rigid frame. In the profile frame, elements of pipelines and highways are passed through the technological holes of the vertical struts and horizontal ties and girders. In the scope of the construction, the assemblies of engineering networks are mounted, fixing on the frame using clamps, clips and other fasteners, the free space is filled with heat-insulating material. The connection of the panel elements is carried out mechanically using screwdrivers for self-drilling screws with a press washer. Layers of vapor and waterproofing are fixed on the frame with silicate sealant. External fencing plates are mounted on self-tapping screws.

When erecting a building, builders, along with a full set of panels, receive a technological guide to the installation sequence developed for the project.

For the construction of a house of 100 m / 2, a team of 4 people and 2-3 weeks of time is required.

Claims (6)

1. A building panel containing a series-connected fence plate, a vapor barrier film, a rigid welded metal frame, heat insulation, waterproofing, an external fence plate, characterized in that the engineering networks are placed in a profile frame, and a rigid frame provides a load bearing for the construction of small and medium-sized buildings number of storeys. 2. The construction panel according to claim 1, characterized in that the assembly of the rigid frame is carried out by bolting. 3. The construction panel according to claim 1, characterized in that the assembly of the rigid frame is carried out by connecting on self-drilling screws with a press washer. 4. The construction panel according to claim 1, characterized in that the profile frame is made of galvanized steel profile U; FROM; Z-shaped type. 5. The construction panel according to claim 1, characterized in that according to claim 4, the profile frame contains vertical struts and horizontal ties, runs. 6. The construction panel according to claim 1, characterized in that a lock connection of adjacent panels is built into the rigid frame.