RU172633U1 - ENERGY SAVING PANEL - Google Patents

Abstract

The utility model relates to the field of construction, namely to building structures, consisting mainly of load-bearing elements such as blocks or panels, and can be used for the construction of load-bearing and enclosing structures for the purpose of low-cost, environmentally friendly and efficient construction of capital buildings and structures with high load-bearing capacity without application of hoisting and special mechanisms. The technical result of the claimed utility model is: ensuring the structural strength of the wall panel without the use of glue and chemical compounds, as well as the ability to effectively use the product as a building envelope, as well as ceilings and partitions between rooms. To achieve this technical result, an energy-saving panel is proposed, consisting of at least one plate of heat-insulating material based on basalt fiber with a thickness of at least 40 mm, placed in two supporting metal profiles, the metal profiles being made in a C-shape, with a thickness of at least 1, 3 mm and fixedly connected to the plate by pressing, and the plates are interconnected by non-metallic facade fasteners. 5 ill.

Description

 The utility model relates to the field of construction, namely to building structures, consisting mainly of load-bearing elements such as blocks or panels, and can be used for the construction of load-bearing and enclosing structures for the purpose of low-cost, environmentally friendly and efficient construction of capital buildings and structures with high load-bearing capacity without application of hoisting and special mechanisms.

A well-known building panel (http://www.dom-panel.ru/tehnologiya/), which is a multilayer structure consisting of supporting bent U-shaped steel profiles, for the manufacture of which rolled sheet steel 1 mm thick, with a corrosion-resistant coating is used, made by hot galvanizing, seamlessly connected with the internal filling of non-combustible plates based on basalt fiber.

A disadvantage of the known technical solution is: low structural strength due to the use of U-shaped profiles with a thickness of 1 mm, the use of adhesive and chemical elements, the inability to use the technical solution in the field of capital construction.

The closest technical solution, selected as a prototype, is the building envelope for building a building (utility model patent No. 74932, published July 20, 2008), comprising wall panels made of heat-insulating material fixedly placed in a supporting metal profile, where the panels interconnected to form a single fencing frame. This design contains single-layer panels containing a mineral wool slab of basalt rocks as a heat-insulating material, the panels are fixed to the lower harness and in height with each other, including in the corners, through connecting elements made of anticorrosive material, and at the top all wall panels are connected along the perimeter of the strapping of steel framing bent corners and at least two rows of wooden beams, while the metal profile of each panel is fixed to the upper strapping.

The disadvantages of the prototype are: low structural strength due to the use of U-shaped profiles, unsuitability when used as floors, the use of adhesive and chemical elements, the increased degree of decay and decomposition of wooden parts, which makes it impossible to use this prototype in the field of capital construction.

The objective of the claimed utility model is to eliminate the above disadvantages.

The technical result of the claimed utility model is: ensuring the structural strength of the wall panel without the use of glue and chemical compounds, as well as the ability to effectively use the product as a building enveloping structure, and as ceilings.

To achieve the technical result, an energy-saving panel is proposed, consisting of at least two plates of heat-insulating material based on basalt fiber with a thickness of at least 40 mm, each of which is placed in two supporting metal profiles, characterized in that the metal profiles are made in a C-shape , with a thickness of at least 1.3 mm and fixedly connected to the plate by pressing, and the plates are interconnected by non-metallic facade fasteners.

The use of a C-shaped profile with a thickness of at least 1.3 mm ensures its reliable connection with the plate by horizontal pressing, eliminates the possibility of losing the integrity of the structure (separating the plate from the profile) during the construction or operation of buildings, ensures the strength of the structure during the construction of building envelopes and floors . The profile is fixedly connected to the plate by a press without the use of additional fasteners or adhesive compositions.

The essence of the utility model is illustrated by drawings. The figure 1 shows an example of a two-layer energy-saving panel; figure 2 shows an example of a three-layer energy-saving panel; Figures 3,4,5 show examples of panel assembly, where:

1 - plates;

2 - C-shaped profile.

The figure 1 shows an energy-saving panel consisting of two plates (1) with a thickness of 80 mm from a heat-insulating material based on basalt fiber with a thickness of 80 mm, placed in a bearing C-shaped metal profiles (2) and interconnected by non-metallic facade fasteners (in the figure not shown).

The figure 2 shows an energy-saving panel consisting of three plates (1) with a thickness of 80 mm from a heat insulating material based on basalt fiber with a thickness of 80 mm, placed in a bearing C-shaped metal profiles (2) and interconnected by non-metallic facade fasteners (in the figure not shown).

The figure 3 shows an example of the connection of three-layer panels in the construction, in particular, of building envelopes.

The figure 4 shows an example of the connection of three-layer panels and a single-layer panel that performs the function of the end wall. The figure 5 shows an example of the angular connection of three-layer panels. The panels are fastened to the foundation using galvanized rails or corners, and the top level of the wall or superstructure of the next floor is tied with T-shaped galvanized profiles. To use panels on walls and non-operating floors, the products are mounted parallel to each other, in contrast to the floor and operated floors, where the products are laid perpendicular to each other. In addition, the ceilings are additionally connected by a U-shaped galvanized profile to the internal or external walls.

Panel plates can be made with a width of 300 mm to 3000 mm, a height of 300 mm. Profiles and guides used for fastening panels to the foundation, tying the upper level of the wall or superstructure of the subsequent floor can be made with perforation, stainless steel, aluminum, hot and cold galvanizing, with and without corrosion treatment.

Non-metallic facade fasteners without the use of adhesive compounds and chemical compounds are used to connect the plates of the energy-saving panels to each other, which provides not only additional rigidity and reliability of the structure, but also its absolute environmental friendliness. To connect the panels to each other, they are used in particular: screw, anchor, rivet and bolt joints using additional, flat and bent, perforated and non-perforated elements.

The plates of the panels are interconnected with an offset so that when assembling the panels the metal C-shaped profiles do not touch each other (there are no cold bridges).

The analysis of patent and scientific and technical literature did not reveal technical solutions with a similar set of essential features, which allows us to conclude that the criterion of "novelty" of the proposed utility model is met.

Claims (1)

 An energy-saving panel consisting of at least two plates of heat-insulating material based on basalt fiber with a thickness of at least 40 mm, each of which is placed in two supporting metal profiles, characterized in that the metal profiles are made in a C-shape, with a thickness of at least 1.3 mm and are fixedly connected to the plate by the pressing method, and the plates are interconnected by non-metallic facade fasteners.

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