RU45416U1 - SYSTEM OF EXTERNAL HEATING OF THE BUILDING "THERMOSHEELS" - Google Patents

Abstract

The utility model relates to the field of construction, namely, to systems of external insulation of buildings. The system comprises prefabricated multilayer hinged panels, a supporting frame, fastening means and means for sealing joints, each panel being made with a separate frame, which is built into it and is a prefabricated element of the specified common supporting frame of the system. Frames are attached to the panels in the factory, which significantly improves the quality of their fastening and saves time on the construction site. The frames made together with the panels have accurate pre-calculated sizes, which allows you to quickly install and connect them together, forming a single strong supporting frame. Moreover, due to the quality of the joints, it is possible to reduce the thickness and weight of the elements that make up the panel frame.

Description

The utility model relates to the field of construction, namely, to systems of external insulation of buildings.

Now the most common systems of external insulation of buildings, containing rectangular insulation plates, fasteners and reinforcing mesh. For thermal insulation, insulation boards are glued to the wall of the building, additionally fixed by mechanical means, impregnated and coated with a water-dispersed acrylic primer. (See, for example, patent RU 2171340, 2001.07.27). Installation of such systems is long and time-consuming, depending on weather conditions.

Another type of system is known which comprises rectangular multilayer panels, fasteners and sealing means. With the help of fasteners - parts of complex shape and screws, each panel autonomously joins the building at a certain distance, a seal is laid in the joints between the panels. (See, for example, US Pat. No. 5,398,473 Mar. 21, 1995.)

Installation of such systems is faster, but the lack of a common supporting frame makes it impossible to use them for buildings that are subject to significant loads. For example, loads from the effects of wind on high-rise buildings. Thus, the reliability of these systems is insufficient. The closest in technical essence to the claimed utility model is the system described in patent US 5, 564, 243 Oct. 15, 1996. This system comprises prefabricated multilayer hinged panels, a supporting frame, fastening means, and means for sealing joints. In this case, the supporting frame is made in the form

longitudinal vertical elements fixed with a certain step on the building. Each vertical element is formed of channels welded together at the joints. Multilayer hinged panels, which usually have a rectangular shape, are attached to the frame. Multilayer hinged panels are formed of expanded polystyrene and additionally contain a reinforcing layer in the form of a mesh, a decorative layer.

Such systems are reliable and efficient, but very heavy, due to the large weight of the metal frame, which must be attached to the ceiling of the building. This limits the scope of this technical solution. In addition, the installation of the system, namely, fixing many panels to the frame, is very time-consuming, and as in previous analogue systems, the possibility of work is closely related to weather conditions.

The utility model is based on the task of improving the well-known system of external insulation by means of a new design of panels and frame, which will allow:

- increase the manufacturability of the installation of the system, which will lead to a reduction in installation time, a decrease in the complexity, independence from weather conditions;

- perform the supporting frame without resting on the floor, which will increase the usable area of the building;

- reduce the weight of the system as a whole, which will reduce the load on the building and provide an opportunity to use it in multi-story buildings.

The problem is solved in that in the known system of external insulation of the building, containing prefabricated multilayer hinged panels, supporting frame, fastening means and means for sealing joints, according to the utility model, each

the panel is made with a separate frame, which is built into it and is a prefabricated element of the overall supporting frame of the system.

Frames are attached to the panels in the factory, which significantly improves the quality of fastening and saves time on the construction site. The frames made together with the panels have accurate pre-calculated sizes, which allows you to quickly install and connect them together, forming a single strong supporting frame. Moreover, due to the quality of the joints, it is possible to reduce the thickness and weight of the elements that make up the panel frame.

In the subsequent development of the utility model, said panel frame is fixed directly to the metal profile of the panel, which is rigidly embedded in its heat-insulating material. This allows you to get a very reliable connection between the panel and its built-in frame and enhance the above technical results.

It is better when the panel frame is made of steel profiles, for example, corners. This allows you to quickly and reliably fasten it, allows you to use the system in severe dynamic conditions.

It is also advisable when the specified frame of the panel is made with means for attaching to the base, such as a wall. This adds convenience during installation.

For small buildings, it is advisable when the frame of the panel is made of wooden timber. It is cheap and environmentally friendly.

Alternatively, said panel frame may also be made of corrugated metal sheet.

It is most appropriate when the panels have a shape that meets

architectural elements of the building. The frame can be, for example, in the form of a polygon, and the panel is rounded.

The essence of the utility model will be explained in more detail below using the drawings, which show:

Fig 1. is a General view of a fragment of the finished panel with a built-in frame;

figure 2 is a view of the base panel of expanded polystyrene, in which a metal profile is rigidly embedded;

figure 3 is an example of a panel frame;

4 is an example of execution of the panel curved shape;

5 is a diagram of a system installation option.

The building's external insulation system contains prefabricated multilayer hinged panels, which consist of a base layer 1 made of expanded polystyrene, to which a reinforcing mesh 2 is attached using a layer of glue 3, a layer of gypsum cardboard 4, and an external decorative layer 5. A frame is built into each panel , consisting of at least several rigidly connected steel profiles 6 and 7, attached to a metal profile 8, which is rigidly embedded in the base of the panel.

Typically, the frame of the panels are welded and contain, in addition to steel profiles, hot-rolled strips 9, as shown in Fig.3.

The frame may be curved, for example, as shown in figure 4, which shows a panel with a curved surface, which in addition to insulation adorns the concrete facade 10 of the building.

Using the proposed insulation system, it is possible to build strong walls that can be load-bearing.

Figure 5 shows an example of installing a thermal insulation system for flat walls 11. The system is installed with a technological gap 12. The top panel 1 has an opening in the frame, with which it is installed on the washer 13 on the pin 14 of the mounting bracket 15, which in turn is welded to the lower panel II and the embedded part 16, made in this case from a hot-rolled corner 17. Between the panels there is a seal 18, which has a thickness of 19 (not less than 20 mm). The seam between the panels is sealed with sealant.

The system is used in this way.

First, they measure the wall of the building, which must be insulated and break it into fragments that will correspond to the dimensions of future panels, or rather the dimensions of the frames of these panels (for example, when using the panel it is necessary to change the shape of an architectural element).

Once the dimensions of the panels with integrated frames are determined, they are manufactured in an industrial environment using known equipment.

It is advisable to produce panels as large as possible (as far as transportation conditions allow).

Finished panels are mounted one on top of the other with a gap that is sealed, for example, as shown in FIG.

Thus, the installation of the system is technological and quick, much less time-consuming in comparison with the known existing analogues, as a result of using the system, the useful area of the building is saved. The system can be used for any structures.

Claims (7)

1. The system of external insulation of the building, containing prefabricated multilayer hinged panels, supporting frame, fastening means and means for sealing joints, characterized in that each panel is made with a separate frame, which is built into it and is a prefabricated element of the specified common supporting frame of the system. 2. The system according to claim 1, characterized in that said panel frame is attached directly to the metal profile of the panel, which is rigidly embedded in its heat-insulating material. 3. The system according to claim 1 or 2, characterized in that the said frame of the panel is made of steel profiles, for example corners. 4. The system according to claim 3, characterized in that said panel frame is made with means for attaching to a base, such as a wall. 5. The system according to claim 1 or 2, characterized in that said panel frame is made of wooden timber. 6. The system according to claim 1 or 2, characterized in that said panel frame is made of corrugated metal sheet. 7. The system according to any one of claims 1 to 6, characterized in that the panels have a shape that meets the architectural elements of the building.