RU205438U1 - Wall panel - Google Patents

Abstract

The utility model relates to construction, namely to multilayer wall panels, mainly used in the construction of low-rise buildings. The outer part of the wall panel is made of wooden plates (1), for example, oriented strand board (OSB), with dimensions of 1250x700 (900) x10 mm, located parallel to each other. Bearing columns (2) in the form of PVC pipes with a diameter of 110 mm and a height of 600 (800) mm are installed between the wooden slabs (1), inside the wall panel, on which, flush with the edges (top and bottom), there are intermediate elements ( 3), which is a structure of 2 parallel and 2 mutually perpendicular plywood, rectangular boards, forming a rectangular cell, the length of the sides of which corresponds to the diameter of the column, which is located in it. The intermediate element (3) serves to create greater stability of the bearing column (2) inside the wall panel, and also serves as a connecting link between adjacent (bottom, top, side) wall panels. The intermediate elements (3) are rigidly attached to the wooden plates (1), for example, using self-tapping screws, while the wooden plates (1) are installed in such a way that they do not completely cover the intermediate elements (3) located below and from one of the side sides of the wall panel, leaving them with a visible part (about 75 mm), which is a ridge, while the upper and opposite side sides of the wooden plate (1) go beyond the boundaries of the intermediate element (3), forming an empty space (groove), in which, during installation, the visible (ridge) part of the intermediate element (3) of the adjacent wall panel (top and side) is inserted. The distance between the inner walls of the wooden slabs (1) of the wall panel corresponds to the distance between the outer sides of 2 parallel boards of the intermediate element (3), thus the top and side sides of the wall panel also act as a guide for the intermediary elements (3) of the wall panels located on one of the adjacent tiers. 3 ill.

Description

The utility model relates to construction, namely to multilayer wall panels, mainly used in the construction of low-rise buildings.

Known wall bearing panel containing a reinforcing element of rectangular configuration, enclosed in a shell of aerated concrete, while the reinforcing element is made in the form of columns of bearing steel pipes filled with filler, and horizontal ties, at one end of each bearing pipe is a recess, on the other at the end, a catcher is made in the form of a hemisphere protruding beyond the panel body (RU 193030, IPC E04C 2/06; E04B 1/04, publ. 10.10.2019)

Known multilayer wall panel containing interconnected layers, one of which is load-bearing and formed between removable formwork, and the other is heat-insulating. The load-bearing layer is made of expanded clay concrete with internal reinforcement made of PVC pipes, installed in the vertical direction, and metal rods, laid in the horizontal direction. The heat-insulating layer is made of polystyrene, in which the communications are laid. Additionally, the multilayer wall panel contains a facade layer of a moisture-resistant gypsum fiber sheet (GVLV), a reinforcing layer of a fine-meshed fiberglass mesh, a heat, moisture and sound insulating layer of extruded polystyrene foam, a layer for interior decoration of a moisture-resistant gypsum board (GKLV). The layers are interconnected by gluing, and on top between the heat, moisture and sound insulating layer of extruded polystyrene foam and a heat insulating foam layer, a cavity is formed due to the execution of a facade layer of GVLV with a heat, moisture and sound insulating layer of extruded polystyrene foam and a heat insulating layer foam plastic with a layer for interior decoration made of gypsum plasterboard that is larger in height than the inner bearing layer of expanded clay concrete (RU 2336395, IPC E04C 2/284; E04B 2/84, publ. 20.10.2008)

A common disadvantage of the known analogs is the high labor intensity of manufacturing and assembling the panel itself, which requires special skills and special equipment (crane) during installation.

The task facing the author is to create a lightweight, small-sized, corrosion-resistant wall panel, the device of which allows it to be easily and quickly mounted directly on the construction site itself when erecting the walls of low-rise buildings.

The problem is solved thanks to the device of the inventive wall panel.

The essence of the claimed utility model is the possibility of simple and quick erection of the walls of low-rise buildings with your own hands without the use of special equipment, due to the fact that the wall panel is made of wooden slabs, between which are installed supporting columns in the form of PVC pipes, on which intermediate elements are located, which are a structure of 2 parallel and 2 mutually perpendicular, plywood, rectangular boards, forming a rectangular cell, the length of the sides of which corresponds to the diameter of the column, which is located in it, and serving to create greater stability of the bearing column inside the wall panel, as well as being connecting link between adjacent (bottom, top, side) wall panels.

FIG. 1 shows the interior of a wall panel.

FIG. 2 shows the outside of a wall panel.

FIG. 3 shows a wall element assembled from the inventive panel.

Wall panel device.

The outer part of the wall panel is made of wooden boards (1), for example, oriented strand board (OSB), dimensions 1250x700 (900) x10 mm, located parallel to each other. Bearing columns (2) in the form of PVC pipes with a diameter of 110 mm and a height of 600 (800) mm are installed between the wooden slabs (1), inside the wall panel, on which, flush with the edges (top and bottom), there are intermediate elements ( 3), which is a structure of 2 parallel and 2 mutually perpendicular plywood, rectangular boards, forming a rectangular cell, the length of the sides of which corresponds to the diameter of the column, which is located in it. The intermediate element (3) serves to create greater stability of the bearing column (2) inside the wall panel, and also serves as a link between adjacent (bottom, top, side) wall panels.

The intermediate elements (3) are rigidly attached to the wooden plates (1), for example, using self-tapping screws, while the wooden plates (1) are installed in such a way that they do not completely cover the intermediate elements (3) located below and with one of the the sides of the wall panel, leaving them with a visible part (about 75 mm), which is a ridge, while the upper and opposite side of the wooden plate (1) goes beyond the boundaries of the intermediate element (3), forming an empty space (groove), into which, during installation, the visible (ridge) part of the intermediate element (3) of the adjacent wall panel (top and side) is inserted. The distance between the inner walls of the wooden slabs (1) of the wall panel corresponds to the distance between the outer sides of 2 parallel boards of the mediating element (3), thus the top and side sides of the wall panel also act as a guide for the mediating elements (3) of the wall panels located on one of the adjacent tiers.

Method of mounting wall panels during the construction of a building.

Installation of wall panels is carried out on a foundation, which can serve as: foundation slab, strip foundation (grillage) or frame foundation. In the foundation, along the perimeter of the outer and inner walls of the building being erected, there are recesses with a size corresponding to the size of the lower visible (ridge) part of the intermediate element (3), which is installed in them, thereby fixing the wall panel in a vertical position and creating a direction for installing adjacent wall panels of the first (lower) tier. Also, the foundation along the perimeter of the outer and inner walls has reinforcement outlets (not shown in the figure), whose location corresponds to the location of the bearing columns (2), which are put on the reinforcement outlets. The bearing columns (2) also have reinforcement outlets for connection and subsequent concreting of the bearing columns (2) of the overlying tier. After that, the bearing columns are filled with heavy concrete of the design class; the space between the columns inside the panel is filled with light foam concrete under the mark of the bottom of the monolithic armored belt, i.e. to the top of the column (2). Further, the reinforcement cage is installed and the heavy concrete is laid to embed the armored belt under the mark of the deepening into the wall panel of the intermediate elements (3) of the panels of the overlying tier. After filling the lower tier with concrete, according to the same principle, taking into account the window and door openings, the wall panels of the next tier of walls are installed. When installing the slabs vertically, it is important to maintain the alignment of the columns (2) for the stability of the structure. Thus, the inventive wall panel serves as a permanent formwork.

Due to its small overall dimensions and low weight (about 30 kg.), No special construction equipment is needed for the installation of wall panels. The dimensions of the panels are tied to the dimension of the wooden (OSB) slabs (1), or derived from them. The required number of floors and the size of the spans are provided by the selection of the diameter and reinforcement of the bearing columns (2).

Further improvement of the proposed structural system using the claimed wall panels can follow the path of simplifying the installation process during the construction of buildings, due to:

- full factory preparation of wall panels (including putty, plaster, painting);

- the quality of their workmanship (adjustment in place is not required),

- creation of a basic range of wall panels;

- development of installation technology;

- detailed development of all stages of installation work.

Based on the foregoing, it should be concluded that the proposed frame structural system of wall panels, using PVC pipes as load-bearing columns (2), allows the construction of low-rise buildings that meet all standards of quality, environmental friendliness, energy efficiency and economy. The simplicity of the design and manufacture of wall panels will significantly reduce the construction time of buildings.

Thus, the task assigned to the author has been completed.

Claims (1)

A wall panel, the outer part of which is made of wooden slabs located parallel to each other, between which are installed supporting columns in the form of PVC pipes, on which, flush with the edges, there are intermediate elements, which are a structure of 2 parallel and 2 mutually perpendicular rectangular boards, forming a rectangular cell, the length of the sides of which corresponds to the diameter of the column, which is located in it, the intermediate elements are rigidly attached to the wooden plates, while the wooden plates are installed in such a way that they do not completely cover the intermediate elements located below and with one of the lateral sides of the wall panel, leaving them with a visible part, which is a ridge, while the upper and opposite side of the wooden slab extends beyond the boundaries of the mediator element, forming an empty space for inserting the visible part of the mediator element of the adjacent wall panel.

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