RU181271U1 - WALL PANEL - Google Patents

Abstract

The utility model relates to construction and can be used in the construction of buildings for various purposes from especially lightweight concrete (for example, polystyrene concrete). panels, with the required strength, fire characteristics, to increase versatility and improve the operational characteristics of the wall panel, with reduced complexity and the cost of its manufacture. The problem is solved in that the wall panel comprises a wall panel frame made of vertical and horizontal steel C-, U-shaped cold-formed profiles and hardening liquid material. The wall panel frame has at least one stiffener. A reinforcing metal frame is fixed to the wall panel frame. According to the claimed utility model, the hardening liquid material is poured into the panel frame, the height and length of the C-, U-shaped cold-formed profiles are equal, respectively, to the height and length of the wall panel, and the extreme vertical cold-formed profiles are connected with the previous vertical ones using stiffeners made of metal corners rigidly fixed to the frame and located horizontally. Additionally, if necessary, a thermal noise insulation layer is mounted in the wall panel. The reinforcing metal frame is made of steel reinforcement with a diameter of 6-8 mm, and a layer of sand-cement screed 50 mm thick is poured over the reinforcing metal frame. Thus, the technical result achieved using the claimed utility model consists in simplifying the design of the wall panel, increasing heat and noise insulation properties, reducing the complexity of its manufacture and simplifying installation.

Description

The utility model relates to construction and can be used in the construction of buildings for various purposes from especially lightweight concrete (for example, polystyrene concrete).

Known wall panel according to patent RU 22163 U1, comprising a block of heat-insulating material and a frame associated with it, characterized in that the frame is made of U-shaped metal profiles installed around the perimeter from the inner and / or outer sides of the block and monolithically connected with it , the block is made of foamed polystyrene of self-extinguishing grades with a density of 16-30 kg / m3, while the frame is equipped with intermediate elements.

A disadvantage of the known panel is that the use of foamed polystyrene with a density of 16-30 kg / m3 does not provide adequate structural strength, the design has a low factory readiness and additional two-sided finish is required when installing it.

Known wall panel according to the patent RU 45747 U1, includes a metal frame made of bent profile and a monolithic layer of insulation made of cast polystyrene concrete, while on the one side there is a covering in the form of an inner facing layer attached to the metal frame through a vapor barrier, and on the other side a layer is made insulation from pouring polystyrene concrete with a protective and decorative coating, and the thickness of the metal frame is not more than 2/3 of the thickness of the monolithic layer of insulation from pouring polystyrene concrete.

The disadvantages of the known panel are:

1. The use of self-tapping screws, which can corrode and further destroy (including during operation) the metal frame, which is a hello to the possible delamination of the finishing layer;

2. The use of polystyrene concrete with a density of 300-500 kg / m ³ makes the panel heavy;

3. The use of cladding layers (for example, gypsum fiber board) does not allow to obtain the necessary strength for mounting on the wall mounted elements and other items.

Known wall panel according to patent RU 54977 U1, including a metal frame made of bent profile, sheathing in the form of an inner facing layer and a monolithic layer of insulation made of cast polystyrene concrete with a protective and decorative coating, characterized in that a layer is located between the inner facing and monolithic of cast polystyrene concrete layers of sand-cement mortar, made with a thickness of not more than 20 mm, and the metal frame has a thickness of 1/2 the thickness of the monolithic layer of insulation, and is located inside In this layer, moreover, cavities in the form of half-cylinders are made on the vertical end faces of the panel.

The disadvantages of the known panel are:

1. Placing the facing layers (for example, gypsum board) on the cement-sand layer does not provide the necessary stiffness of adhesion of the two layers, and peeling may occur during installation and operation of the panel;

2. The use of cladding layers (for example, gypsum fiber board) does not allow to obtain the necessary strength for mounting on the wall mounted elements and other items.

Known above-the-head bridge type jumper made of particularly lightweight concrete according to patent RU 101061 U1, comprising a steel reinforcing element located symmetrically with respect to the vertical axis and below the horizontal axis of the cross section of the bridge, characterized in that at least one galvanized steel is used as the reinforcing element U-shaped profile. The U-shaped profile is made up to 3 m long from steel with a thickness of 0.45-0.55 mm and has in cross section a shelf 75-100 mm wide and two ribs of the same size - 25-50 mm. The U-shaped profile is placed in the jumper with the ribs up and the shelf down, spaced from the lower flat surface of the jumper at a distance of 20 mm The overhead bridge has a length of up to 3 m, a cross section with a width of 110-300 mm and a height of 200-400 mm and is made of polystyrene concrete with a density of 250-600 kg / m ³ or aerated concrete with a density of more than 400 kg / m ³ .

A disadvantage of the known panel is that the use of polystyrene concrete with a density of 250-600 kg / m ³ or aerated concrete with a density of more than 400 kg / m ³ leads to an increase in the mass of the finished product. At the same time, the use of these materials leads to low thermal insulation characteristics of the specified jumper

As the closest analogue of the prototype, the wall panel according to RU 170811 U1 was selected, the frame of which is made of vertical, horizontal and inclined steel cold-formed profiles and hardened liquid material, into which the panel frame is immersed, characterized in that the walls of the cold-formed panel frame profiles have large-sized punches with rolling, comparable in size to the dimensions of the profile wall and, together, forming a single steel concrete structure. In this case, the frame of the wall panel is made of profiles made of steel sheet with a thickness of 0.5 to 3.0 mm. Also, the frame of the wall panel may have at least one stiffening element made of a metal strip or of a steel cold-formed profile and located diagonally. Also, the frame elements of the wall panel can be interconnected demountably, for example, using self-tapping screws, or inextricably, for example, using rivets, welding. In addition, the thickness of the wall panel is from 50 to 800 mm. Also C-, U-shaped cold-formed profiles can have at least one additional stiffener in the shelf. Also, the wall panel is made of C-, U-shaped cold-formed profiles with a height of 50 to 400 mm and a shelf width of 35 to 120 mm, with bends from 5 to 35 mm. In this case, a reinforcing metal mesh or a composite mesh with fastening to the wall panel frame can be installed in the space between the wall panel frame of C-, U-shaped cold-formed profiles and the outer surface of the wall. Also, in cold-formed sections with large-sized punching with rolling, additional holes can be made in which horizontal and / or vertical reinforcing bars are installed. The distance from the surface of the frame of the wall panel to the outer surface of the wall panel is in the range from 6 to 150 mm. Also, at least one embedded part can be fixed to the frame. Also, the outer surface of the hardening liquid material can be textured on at least one side or part thereof. Also on the outside of the wall can be mounted an additional layer of thermal insulation, for example, of mineral wool, polystyrene foam, followed by a ventilated facade or plastering, for example, a wet facade system. Also on the outside of the panel can be mounted an additional layer of thermal insulation from hardening liquid material with higher thermal properties, for example, from foam concrete with a density of 400 kg / m ³ , polystyrene concrete, which may have a volumetric coloring and / or textured surface obtained in the process of forming the structure wall panel. Also, a groove can be made along the perimeter of the wall panel at least on one side. The disadvantages of the prototype are:

1. The manufacturing technology of this panel is very complex, includes many technological cycles, requires specialized equipment, which ultimately leads to increased labor costs and the cost of the panel;

2. The complexity of the design of this panel leads to additional consumption of materials and to a significant increase in the cost of the finished product;

3. The use of C-, U-shaped profiles with a height of 50 to 400 mm complicates the manufacture of frames for large panels, leading to additional technological operations for fastening profiles.

The objective of the utility model is to eliminate the indicated disadvantages of the prototype and to use new technical solutions, which will make it possible to construct wall panels that are structurally simpler and lighter than the prototype, with the required strength, fire characteristics, increase versatility and improve the operational characteristics of the wall panel, with reduced labor and cost its manufacture.

The technical result achieved using the claimed utility model is to simplify the design of the wall panel, increase the heat and noise insulation properties, reduce the complexity of its manufacture and simplify installation.

The problem is solved in that the wall panel has the following characteristics common with the prototype: Wall panel, the frame of which is made of vertical and horizontal steel C-, U-shaped cold-formed profiles and hardening liquid material; the wall panel frame has at least one stiffener; a reinforcing metal frame is fixed to the wall panel frame. According to the claimed utility model, the hallmark of the wall panel are: hardening liquid material is poured into the frame of the panel; the height and length of the C-, U-shaped cold-formed profiles is equal, respectively, to the height and length of the wall panel, and the extreme vertical cold-formed profiles are connected with the previous vertical profiles using stiffeners made of metal corners, rigidly fixed to the frame and arranged horizontally; additionally, if necessary, a thermal noise insulation layer is mounted in the wall panel; the reinforcing metal frame is made of steel reinforcement with a diameter of 6-8 mm, while between the reinforcing metal frame and the surface of the wall panel, electrical wiring is laid in the corrugation with mounting boxes and a layer of sand-cement screed 50 mm thick is poured; as a hardening liquid material, liquid polystyrene concrete with a density of 150-300 kg / m ^{3 is used} ; C-, U-shaped cold-formed profiles are made with a thickness of 1.5-2.2 mm.

The inventive utility model is illustrated using the figure in FIG. 1, which shows the appearance and composition of the wall panel: 1 - frame; 2 - hardening liquid material; 3 - thermal noise insulation layer; 4 - reinforcing metal frame; 5 - wiring in the corrugation with mounting boxes; 6 - sand-cement screed, 7 - eye bolts; 8 - threaded rivets; 9 - angle brackets 10 - metal corners; 11 - embedded parts for vertical panel mounting.

The frame 1 is made of vertical and horizontal C-, U-shaped cold-formed steel profiles with a thickness of 1.5-2.2 mm, interconnected one by one using resistance welding. This thickness provides the necessary strength and rigidity of the frame, depending on operating conditions. The extreme vertical profiles at the locations of embedded parts for the vertical fastening of the panel 11 are additionally connected with the previous vertical profiles by horizontally arranged metal corners 10, rigidly fixed to the frame 1, for example, by contact welding. Metal corners 10 act as stiffeners. This design of the frame 1 increases the strength of the finished wall panel to the vertical and horizontal loads that occur during installation and operation. The walls of the cold-formed profiles of the carcass 1 of the wall panel have large-sized punching without rolling (not shown in Fig.), Which ensure the bonding of all compartments of the carcass 1, forming a single structure. Eyebolts 7 are mounted on the frame 1, and each place for placing the eyebolts 7 is reinforced with a metal plate (not shown in FIG.) Fastened to a bolted connection with a vertical profile onto which a metal “sleeve” with a thread is welded (in FIG. not shown) for the eyebolt 7. The frame is filled with hardening liquid material (for example, polystyrene concrete) 2 with a density of 150-300 kg / m. The selected density range provides the necessary thermal characteristics of the panel depending on the climatic conditions of use and a small weight of the finished panel, compared with similar panels.

A thermo-noise insulation layer 3 (for example, Isolon 3010 or ThermoZvukoIzol Forte) is mounted in the cavity for pouring the hardened liquid material 2, which provides an increase in the thermal and noise insulation characteristics of the wall panel. A reinforcing metal frame 4 of reinforcement with a diameter of 6-8 mm is mounted on the inside of the panel by welding. On top of the reinforcing metal frame 4, between it and the surface of the panel, wiring is installed in the corrugation with mounting boxes (sockets) 5 and a layer of sand-cement screed 6 with a thickness of 50 mm is poured. Frame 1 made of reinforcement of a given diameter and sand-cement screed 6 provide the necessary strength of the wall panel. The reinforcing metal frame 4 provides additional strength to the finished wall panel and provides a connection between the body of the wall panel and the sand-cement screed 6. On the opposite side, in accordance with the conditions of installation and use, either a heat-insulating layer (for example, from mineral wool) is mounted if used “Wet facade” (not shown in FIG.), Or fasteners for insulating layer device (not shown in FIG.) Or threaded rivets 8 for subsystems of ventilated facades. The wall panel is mounted at the installation site using angle brackets 9 mounted on self-drilling screws (not shown in Fig.).

The manufacture of the wall panel is provided in the factory. The main stages of production: manufacturing of the frame 1 (cutting of cold-formed profiles, large-size punching, resistance welding, reinforcement at the points of attachment of eyebolts 7); filling with hardening liquid material (polystyrene concrete) 2; installation and installation of thermal noise insulation layer 3; final filling with polystyrene concrete 2; installation of a reinforcing metal frame 4; installation of electrical wiring in the corrugation with mounting boxes (sockets) 5; pouring sand and cement screed 6; installation of threaded rivets 8 or corner brackets 9 for the facade - the device of the facade, if necessary.

Wall panel works as follows.

Strength indicators are provided by a welded frame 1 filled with polystyrene concrete 2. Additional horizontal reinforcement of the frame 1 is provided in the extreme sections where the greatest horizontal loads arise during installation and operation. The claimed wall panel is used as non-bearing, supporting and self-supporting building envelopes based on the design solution. Fire protection of the structure: in case of fire, the panel structure on one inner side is closed by a sand-cement screed 6 on the other sides, the metal frame 1 is closed during installation by panels (not shown in Fig.) Made of non-combustible material (for example, a hinged facade with insulation, etc. .).

Noise isolation is provided by polystyrene concrete 2 and the additional use of thermal noise insulation layer 3.

Thermal insulation properties are provided by polystyrene concrete 2 of various densities of 150-300 kg / m ³ and the use of heat and noise insulation layer 3. With increased requirements for thermal insulation, an additional thermal insulation layer (for example, from mineral wool) is mounted.

Claims (3)

1. Wall panel, the frame of which is made of vertical and horizontal steel C-, U-shaped cold-formed profiles and hardening liquid material; the wall panel frame has at least one stiffener; a reinforcing metal frame is fixed to the frame of the wall panel, characterized in that the hardened liquid material is poured into the frame of the panel; the height and length of C-, U-shaped cold-formed profiles is equal, respectively, to the height and length of the wall panel, and the extreme vertical cold-formed profiles are connected to the previous vertical profiles using stiffeners made of metal corners, rigidly fixed to the frame and arranged horizontally; additionally, a thermal noise insulation layer is mounted in the wall panel; the reinforcing metal frame is made of steel reinforcement with a diameter of 6-8 mm, while electrical wiring in the corrugation with mounting boxes is laid between the reinforcing metal frame and the surface of the wall panel, and a layer of sand-cement screed 50 mm thick is poured. 2. The wall panel according to claim 1, characterized in that liquid polystyrene concrete with a density of 150-300 kg / m ^{3 is} used as a hardening liquid material. 3. Wall panel according to paragraphs. 1 and 2, characterized in that the C-, U-shaped cold-formed profiles are made with a thickness of 1.5-2.2 mm

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