RU223852U1 - CORNER CONSTRUCTION ELEMENT FROM GYPSUM-CONTAINING MATERIAL - Google Patents

Abstract

The utility model relates to structural corner connecting elements of plasterboard panels. Expansion of the arsenal of tools related to corner building elements made of gypsum-containing material is achieved due to the fact that the element contains a corner section with a rounded outer surface and adjacent shelves. The shelves are rectilinear in shape and located at right angles to each other. The width of the end of one shelf is 8-15 mm, the width of the end of the second shelf is 8-100 mm. In addition, the end section of the outer side of the flange of the corner element made of gypsum-containing material can be made with a ledge. In addition, the end section of the outer side of the flange of the corner element made of gypsum-containing material can be made with a ledge in which holes are made. In addition, at the end of the flange of the corner element made of gypsum-containing material, a chamfer can be made on its outer side. In addition, a longitudinal recess can be made on the outer side of the flange of the corner element made of gypsum-containing material.

Description

The utility model relates to building structures, in particular to built-in corner connecting elements for plasterboard sheets or their analogues, gypsum plaster. It can be used for connecting perpendicularly located facing and sheathing plasterboard sheets, for connecting a plasterboard sheet with a perpendicularly located concrete, gypsum slope of a window, door, when using plaster to construct an outer corner. Can be used for installation on external corners during preliminary and decorative finishing of walls, partitions, window slopes located inside the building, when installing panels, for rounding and strengthening corner joints.

A built-in element is known (French patent for invention FR2659372, E04F13/06, 1991). The built-in element has the shape of a roller or a quarter and is used to hide and strengthen the corner joints of insulating panels, drywall, and lining used for interior decoration of residential premises. The built-in corner element is made of wood, with a rounded corner edge and contains one or two grooves made with a cutter along the entire length of its ends. Panels intended for wall decoration are inserted into the grooves. The disadvantage is that the corner element is made of wood; when installing plasterboard panels into it, gaps may form between these elements over time due to differences in the shrinkage of the materials. When installing sheets of drywall into the end grooves, the body of the corner protrudes above the surface of the lined wall. And the protruding corner element of the outer corner is a place of increased danger in the building, because with a high probability you can trip over it, get caught in clothes, or hit it.

The internal structure of a house without sharp corners is known (South Korean patent for the invention KR20080078604, E04B 2/56, 2008). Rounding the corners of a home occurs through the use of curved corner moldings, rounded ceiling molding connectors, and rounded baseboard connectors. Corner moldings are curved and installed vertically in the corner where the walls meet. Gypsum plasterboards are installed on eaves on concrete walls. The end surfaces of the rounded corner elements are connected to sheets of drywall using glue, or the drywall is inserted into the grooves formed on the end surfaces of the corner elements. The material of the corner profiles is synthetic resin. The disadvantage is the difficulty of gluing dissimilar materials, such as gypsum and synthetic resin, and the possibility of cracking of the adhesive seam. When installing drywall into the end grooves of corner elements, it becomes difficult to level the joint surface due to the use of dissimilar materials and the need to apply a thick layer of putty to the surface of the drywall.

As the closest analogue to the claimed technical solution, a gypsum support element was selected for use at the ends or joints of partitions (Great Britain patent for the invention GB2437083, E04B 2/74, 2007). In one embodiment of the invention, the support element can be used to connect two partitions located at right angles to each other. In this embodiment, the gypsum support member includes four conical sides, two of which are external and two are internal, and is configured with a curved outer corner surface. The end surfaces of the corner support element are made straight for connection with the ends of concrete partitions covered with sheets of plasterboard. The width of the ends of the supporting element in this embodiment of the invention exceeds the width of the concrete partitions. The partitions are attached to the ends of the supporting element using special racks. The disadvantage is the difficulty of accurately installing a massive and dimensional support element end-to-end with partitions, the difficulty of creating an even transition from its curved section with a large radius of curvature to the surface of the partitions when puttying, the complexity caused by the use of special connecting posts. In addition, the large dimensions of the resulting corner structure limit its scope of use. The massiveness of the structure does not allow it to be used to form window slopes with rounded corners or to make openings in walls with thin partitions.

The technical objective of the claimed utility model is to expand the arsenal of tools related to built-in corner building elements made of gypsum-containing material, made with a rounded outer corner.

The technical result of the claimed utility model is the implementation of this purpose by creating a built-in gypsum-containing, easily installed corner element with a rounded outer corner.

The technical result is achieved due to the fact that in a built-in corner element made of gypsum-containing material containing a corner section with a rounded outer surface and adjacent shelves, according to the utility model, the shelves are made of a rectilinear shape, located at right angles to each other, the width of the end of one shelf is 8-15 mm, the width of the end of the second shelf is 8-100 mm.

In addition, the end section of the outer side of the flange of the corner element made of gypsum-containing material can be made with a ledge.

In addition, the end section of the outer side of the flange of the corner element made of gypsum-containing material can be made with a ledge in which holes are made.

In addition, at the end of the flange of the corner element made of gypsum-containing material, a chamfer can be made on its outer side.

In addition, a longitudinal recess can be made on the outer side of the flange of the corner element made of gypsum-containing material.

The technical result is achieved by creating a built-in corner element, which is a long gypsum-containing corner for joining with plasterboard sheets and other gypsum-containing finishing materials. Sheets of plasterboard, installed at an angle of 90° to each other, are attached to internal metal frames to form joints between walls or partitions, or glued to the base. Making a long corner element from gypsum or gypsum-containing material with rectilinear-shaped shelves allows you to create a straight surface when connecting the corner and plasterboard. Straight-line shelves easily fit into sheet material, unlike conical shelves in the closest analogue. Making the end of one shelf 8-15 mm wide allows you to install it flush with a sheet of plasterboard, the thickness of which corresponds to the same values. Making the end with a second width of 8-100 mm allows you to dock the corner element with a sheet of plasterboard installed perpendicular to another sheet and having a thickness of 8 - 15 mm, or allows you to dock it with the material of a concrete or gypsum slope, also installed perpendicular to the sheet of plasterboard of the wall and having a thickness up to 100 mm. Making the corner element from a gypsum-containing material and with a width corresponding to the attached gypsum-containing part allows you to connect building elements without the use of adhesives, as is the case with the use of plastic corners. This makes it possible to easily obtain even, smooth corner curves of the walls without stepped protrusions at the junctions of elements. The use of homogeneous materials when connecting a corner element with finishing elements of walls or partitions makes it possible to increase the reliability of the connection, increase its service life, eliminating uneven shrinkage of materials and cracking of the structure at the junction of materials.

The end section of the outer side of the shelf of the corner element made of gypsum-containing material is made with a ledge, this allows, without protrusions and thickenings, to apply a layer of putty at the junction of the corner element and a sheet of plasterboard made with a counter ledge at the end. The thickness of the corner at the ledge corresponds to the thickness of the drywall at the ledge. This allows you to reliably connect the elements, forming a rounded corner without the formation of protrusions, bulges and irregularities at the junction, that is, seamlessly.

Making the end section of the outer side of the shelf of the corner element with a ledge in which holes are made allows, when connecting the corner to a sheet of plasterboard, before applying putty to the place of the ledge, attaching the corner element to the metal frame to which the sheet of plasterboard is attached. Screws inserted into the ledge holes of the corner element are used as fastening elements. This also allows you to easily connect building elements end-to-end to obtain a rounded outer corner between them, and rigidly fix the corner element.

Making a chamfer at the end of the flange of the corner element allows, when joining it to a sheet of plasterboard with a counter chamfer, to obtain a V-shaped recess for filling it with putty. By leveling the layer of putty flush with the flange surfaces of the corner element and drywall, a reliable connection of the elements is obtained without increasing the thickness of the joint.

Making a longitudinal recess on the outer side of the corner element shelf allows, if necessary, to insert the end of a facing layer, such as wallpaper or film, into it, which also helps to improve the manufacturability of the process of joining building elements.

In fig. 1 - cross-section of a corner building element made of gypsum-containing material with equal thickness of shelves.

In fig. 2 - cross-section of a corner building element made of gypsum-containing material with unequal flange thicknesses.

In fig. 3 - cross-section of a corner building element made of gypsum-containing material with a ledge at the end section of the shelf.

In fig. 4 is a cross-section of a corner building element made of gypsum-containing material with holes in the ledge at the end section of the shelf.

In fig. 5 - cross-section of a corner building element made of gypsum-containing material with a chamfer at the end of the flange.

In fig. 6 is a cross-section of a corner building element made of gypsum-containing material with a longitudinal recess on the outer side of the shelf.

In fig. 7 - connection of a corner building element with a plasterboard element.

In fig. 8 - connection of a corner building element with a plasterboard element and a concrete window slope.

In fig. 9 - connection of a corner building element with a plasterboard element with a ledge filled with putty.

In fig. 10 - connection of a corner building element with a plasterboard element with their fastening to a metal frame.

The built-in corner building element made of gypsum-containing material is a long volumetric structure, consisting of a corner section with a rounded outer surface 1 and two straight shelves 2 located at an angle of 90° to each other. The width of the ends a of both shelves 2 can be the same and equal to 8–15 mm. The width a of the end of one shelf 2, equal to 8–15 mm, may not coincide with the width b of the end of the second shelf 2, equal to 15–100 mm. On one or both shelves 2, a ledge 3 can be made at the end of the outer surface. In the ledge 3, through holes 4 can be made for fasteners. The end of one or both shelves 2 can be beveled and made with a chamfer 5. One or more longitudinal recesses 6 can be made on the outer surface of the shelf 2. The inner surface of the corner of the corner element can be made of various shapes, for example, it can be beveled, made at an angle or rounded shape.

The built-in corner building element is made of gypsum-containing material by casting or broaching. It is installed at the junction of sheets perpendicular to each other, made of any gypsum-containing materials, when plastering walls, at least on one side. For example, a corner is joined to sheets of plasterboard, which are made from a pressed mass based on gypsum. A long corner element is installed vertically along the ends of the plasterboard sheets. Sheets of drywall have the same width as the width of the ends of the corner element. In construction, plasterboard sheets are widely used, mainly with a thickness of 9.5 mm and 12.5 mm. Shelves 2 of the corner element are installed end-to-end with the ends of the plasterboard sheets, so that their outer surfaces are flush with each other. If necessary, a layer of putty or gypsum plaster is applied to the outer surface of the joints. A corner connection of plasterboard elements with a rounded edge of the 1st corner between the walls is obtained. If it is necessary to obtain a rounded corner from a gypsum-containing material, a corner is installed on the slope of the window opening, in which the thickness of one end of the shelf is 2b = 8-100 mm. Select the corner element required for the thickness of the end and install it between the concrete or plaster wall of the window slope and the sheet of plasterboard of the wall perpendicular to it. If necessary, apply a layer of putty to the outer surface of the joints. When using a corner element with ledges 3 at the ends of the shelves 2, the ends of the corner element and plasterboard sheets are also installed end-to-end, matching the location of the ledges on them, a reinforcing mesh is placed on the bottom of the resulting common groove, and a layer of putty is applied on top. If necessary, use a corner element with holes in the ledges 3 and screw it together with a sheet of drywall to the internal metal stand of the frame. When gluing walls with the resulting rounded joint between them, the edges of the wallpaper are inserted into vertical, longitudinal recesses 6. The use of a built-in corner element made of gypsum-containing material when plastering walls allows it to be used as a guide when leveling walls and obtaining a rounded corner.

Thus, the useful model allows you to expand the arsenal of tools related to built-in corner building elements made of gypsum-containing material by creating an easily installed corner element with a rounded outer corner.

Claims (5)

1. Built-in corner element made of gypsum-containing material, containing a corner section with a rounded outer surface and adjacent shelves, characterized in that the shelves are rectilinear in shape, located at right angles to each other, the end width of one shelf is 8-15 mm, width the end of the second shelf is 8-100 mm. 2. Corner element made of gypsum-containing material according to claim 1, characterized in that the end section of the outer side of the shelf is made with a ledge. 3. Corner element made of gypsum-containing material according to claim 2, characterized in that the end section of the outer side of the shelf is made with a ledge in which holes are made. 4. Corner element made of gypsum-containing material according to claim 1, characterized in that a chamfer is made at the end of the shelf on its outer side. 5. Corner element made of gypsum-containing material according to claim 1, characterized in that a longitudinal recess is made on the outer side of the shelf.