RU143009U1 - MOUNTING PANEL OF FENDING DESIGN - Google Patents

Abstract

1. The hinged panel of the enclosing structure, including the inner frame, made in the form of a rectangular frame of metal profiles, as well as the outer and inner cladding plates connected to the frame, characterized in that the cladding panels are made of foam-ceramic material, and the cladding panels connected to the frame are on the side the frames are joined together by means of an integral connection, while along the perimeter of the plates from the side of the metal frame, angular dihedral recesses are made that form when the plates are joined between each other a trihedral surface, forming a contact zone with the trihedral surface of the metal frame mating to it. 2. The hinged panel according to claim 1, characterized in that the one-piece connection of the plates to each other is carried out by means of an adhesive connection or adhesive point connections. The hinged panel according to claim 1, characterized in that the cladding panels are made up of components that are interconnected by means of adhesive joints.

Description

The utility model relates to the construction industry, namely to the production and installation of curtain wall panels of enclosing structures and is intended for use in the construction of buildings and structures.

The hinged facade panel is known from the prior art (RF Patent No. 2485259, IPC E04C 2/38, publ. 06/20/2013), comprising an external facing plate, an internal wall plate and a fixing structure located between the external facing plate and the internal wall plate and at least at least partially immersed in polyurethane foam, the mounting structure comprising a metal frame comprising at least two side posts, an upper cross member and a lower cross member.

A disadvantage of the known hinged panel is the large mass and material consumption of its design, due to its multilayer, due to the need to place additional materials between the outer and inner plates that increase the fire resistance, thermal and sound insulation characteristics of the known panel.

The objective of this utility model is to reduce the weight and material consumption of the design of the hinged panel while improving the operational properties of the material used in its design.

The technical result achieved by using the proposed technical solution is to expand the construction and operational characteristics of the curtain wall panel of the building envelope, namely, the creation of a two-layer curtain wall panel consisting of non-combustible material and combining high thermal and sound insulation indicators, as well as the construction of the curtain wall panel, which is not difficult to manufacturing and having optimal weight and size characteristics that facilitate its installation, storage and protractor ovku. Using the panel will reduce the construction time of buildings and structures, facilitate the redevelopment and (if necessary) dismantling of buildings.

The technical result is achieved through the use of a hinged panel of the enclosing structure, including an internal frame made in the form of a rectangular frame made of metal profiles, as well as external and internal facing plates connected to the frame, and in accordance with this utility model, the facing plates are made of foam-ceramic material, moreover facing plates connected to the frame from the side of the frame are joined together by means of an integral connection, while along the perimeter of the plates from the side us metal frame formed dihedral corner recesses forming plates during docking between a triangular face forming a nip with the response it triangular surface of the metal frame.

The implementation of facing plates made of ceramic foam material allows to achieve the claimed technical result, namely, to increase the construction and operational characteristics of the hinged panel. This is achieved thanks to the unique combination of the properties of foam ceramics, which combines the following properties:

- stable thermal conductivity in various climatic conditions;

- high strength at low density;

- durability and stability of properties;

- low water absorption of less than 1% by volume;

- frost resistance more than 100 cycles;

- stability of geometric dimensions over time;

- environmental friendliness and fire safety;

- lack of organic and polymeric materials;

- temperature resistance up to 1000 ° C;

- the absence of harmful emissions during the ignition of other structural elements of the building and during operation in extreme climatic conditions;

- chemical, biological and zoological resistance;

- high energy efficiency of buildings in both cold and hot climates (reduces cooling costs).

Due to its porous structure, ceramic foam is a very light material, which allows to reduce material consumption and, consequently, labor costs during transportation and construction, if necessary using this universal lightweight structural and heat-insulating material in hard-to-reach regions with a small selection of building materials, without the use of a large number of highly skilled labor and heavy construction equipment, thereby increasing simplicity and cost-effectiveness in construction.

The jointing of the facing plates from the side of the frame by means of one-piece connection, as well as the execution along the perimeter of the plates from the side of the metal frame of angular dihedral recesses, which, when the plates are joined together, form a trihedral surface that forms a contact zone with the trihedral surface of the metal frame that responds to it, which ensures a durable and reliable connection between the structural elements of the panel.

No technical solutions matching the totality of essential features of the utility model have been identified, which allows us to conclude that the utility model meets the patentability criterion of “novelty”.

The utility model is illustrated by drawings, where: in FIG. 1 shows a General view of the hinged panel with a spatial separation of parts; in FIG. 2 - frame hinged panel (a - front view, b - side view); in FIG. 3 is a vertical section of an ordinary joint of adjacent hinged panels.

The claimed cladding hinged panel is shown in FIG. 1 in one of its preferred embodiments. The hinged panel comprises an outer cladding plate 1, an inner cladding plate 2 and a mounting structure, which is a rectangular frame frame 3 located between the outer 1 and the inner 2 cladding plates. Frame frame 3 consists of horizontal 4 and vertical 5 steel profiles, which are rigidly interconnected by means of welded joints. In the upper part of the vertical profiles 5 on the studs 6 and 7 (Fig. 2) by means of fasteners 8 steel suspensions 9 are fixed for hanging the panel on the brackets 10 of the supporting structure 11 (Fig. 3). The outer 1 and inner 2 facing plates along their perimeter from the side of the metal frame 3 are equipped with angular dihedral recesses 12 (Fig. 1), which rely on the profiles 4 and 5 of the frame 3. At the same time, the recesses 12 are made with a depth that allows the inner frame to be connected to the center the surface 13 of the plates 1 and 2 among themselves. The permanent connection of the plates to each other is carried out by means of adhesive bonding or point adhesive bonding. Plates 1 and 2 can be made in one of the variants of the composite of three parts, which are also interconnected by means of adhesive bonding or point adhesive bonding. The vertical profiles 5 of the frame 3 in their lower part have guide inserts 14 of steel pipes (Fig. 3), mounted on the stud 15 (Fig. 2) with fasteners 8 and allowing the inserts 14 to be fixed when mounting the underlying panel (Fig. 3) its vertical profiles 5. In the upper part of the plate 2 there are mounting holes 16 (Fig. 1) for suspensions 9 fixed to the brackets 10 of the supporting structure 11 by means of bolt elements 17 (Fig. 3).

The claimed utility model is implemented as follows.

Hinged panels are manufactured in the factory. The frame frame 3 is made from the profile pipe to fit the panel. The connection of profiles 4 and 5 of the frame 3 is carried out by welding. Then, on the frame 3, the panel is assembled from the outer 1 and inner 2 ceramic foam plates by gluing them together. After that, the necessary mounting holes 16 for suspensions 9 are made in the inner plate 2. At the final stage of panel assembly in its upper part, the suspensions 9 are mounted on the frame 3 through pre-prepared holes 16, after which the outer plate is painted with a special composition of natural components (for example, giving the resemblance to natural stone). Then, brackets 10 for suspensions 9 are mounted on the supporting structure 11 (for example, the front part of the building). The brackets 10 have a special form of mounting, which makes it possible to compensate for irregularities in the walls or structures of the building. The mounting of the brackets 10 is carried out by welding directly to the supporting structure 11 or to a pre-installed embedded parts. Hinged panels on the facade is carried out from the bottom up. Installation is carried out by hanging the panel on the brackets 10 using suspensions 9 installed in the upper part of the panel and fixing it with bolt elements 17. The vertical panels are also interconnected by means of guide inserts 14 fixed inside the profiles 5 of the frame 3. Then the joints are sealed and joints between adjacent panels, which is carried out by a special elastic facade sealant.

Claims (3)

1. The hinged panel of the enclosing structure, including the inner frame, made in the form of a rectangular frame of metal profiles, as well as the outer and inner cladding plates connected to the frame, characterized in that the cladding panels are made of foam-ceramic material, and the cladding panels connected to the frame are on the side the frames are joined together by means of an integral connection, while along the perimeter of the plates from the side of the metal frame, angular dihedral recesses are made that form when the plates are joined between each other a trihedral surface, forming a zone of contact with the trihedral surface of the metal frame mating to it. 2. The hinged panel according to claim 1, characterized in that the one-piece connection of the plates to each other is carried out by means of an adhesive connection or adhesive point connections. 3. The hinged panel according to claim 1, characterized in that the cladding plates are made up of components that are interconnected by means of adhesive joints.