RU68037U1 - MORTGAGE ELEMENT FOR BUILDING STRUCTURES - Google Patents

Abstract

The utility model relates to the construction industry and can be used in the construction of walls made of piece elements not subject to plastering. The essence of the utility model: The embedded element for building structures is made in the form of an elongated parallelepiped with parallel upper and lower faces. The thickness of the embedded element corresponds to the thickness of the seam between the individual elements of the building structure, for example, between bricks. A reinforcing element in the form of a tape, for example, made of a polymer or metal material, is longitudinally installed inside the embedded element protruding beyond its inner face. The technical result from the use of the utility model is aimed at increasing the structural strength of the embedded element and reducing the complexity of the masonry using the proposed construction of the embedded element. 1 n.p. f-ly., 2 ill.

Description

The utility model relates to the construction industry and can be used in the construction of walls made of piece elements not subject to plastering.

The art of bricklaying has long been known. Despite the fact that the industry in the field of brick production has achieved great qualitative results in the field of geometric dimensions and color schemes, bricklaying is not much different from those methods that came to us from centuries ago, which require a high qualification of a bricklayer and work experience, which inevitably leads to the cost of work.

Moreover, in order to avoid contamination of the masonry front surface and preserve the beauty of the brick itself, they resort to deepening the mortar seam, which leads to a weakening of the brick structure and the destructive effect of atmospheric precipitation on the edges of the front surface elements. In addition, the cement joints between the rows of bricks look unaesthetic, no matter how they are processed.

Known gaskets for finishing joints of masonry made of artificial stones (AS USSR No. 99981, E04F 19/02, EV 1/68, E04G 21/14, 1955.01.01), laid in the seams when decorating the walls, selected as a prototype. It is proposed to make gaskets for finishing joints from non-ferrous ceramics, concrete, glass, metal or plastic. In this case, their implementation from concrete is the most appropriate.

A disadvantage of the known device is its lack of strength when made of concrete having increased fragility, insufficient strength of the bond of the gasket with the mortar seam, as well as the increased complexity of the masonry using the gasket.

The problem solved by the proposed utility model is the improvement of the embedded element for building structures.

The technical result from the use of the utility model is aimed at increasing the structural strength of the embedded element and reducing the complexity of the masonry using the proposed construction of the embedded element.

The specified technical result is achieved by the fact that a reinforcing element is additionally installed inside the embedded element for building structures, the upper and lower faces of the embedded element are made parallel, and its thickness corresponds to the thickness of the seam between the individual elements of the building structure. The implementation of the embedded element in the form of an elongated

parallelepiped, the front side of which can be equipped with decorative elements. It is also preferable to perform a reinforcing element in the form of a tape of a polymer or metal material protruding beyond the inner face of the embedded element.

In Fig.1 shows a General view of the embedded element, Fig.2 - General view of the front surface of the masonry with installed embedded elements.

The embedded element for building structures is made in the form of an elongated parallelepiped 1 with parallel upper 2 and lower 3 faces. The thickness of the embedded element 1 corresponds to the thickness of the seam between the individual elements of the building structure, for example, between bricks. Inside the embedded element 1 protruding beyond its inner face 4, a reinforcing element 5 is longitudinally installed in the form of a tape, for example, of a polymer or metal material. If necessary, it is possible to perform the outer edge 6 of the embedded element with a decorative finish, for example, with protrusions.

When using a mortgage, the element is installed with its lower face 3 along the front side of the masonry on a horizontally laid row of bricks. After that, a mortar mass is applied over a number of masonry, which is in contact with the inner side of the embedded element and the reinforcing element 5. At the same time, the mortar mass is in contact with the inner face 4 of the embedded element and is not applied to its upper face 2. On the surface thus prepared, to the upper face 2 mortgage elements and mortar mass is laid next row of bricks. In the vertical seams, the embedded element is installed in a similar way.

This ensures maximum compliance with the dimensions of horizontal and vertical seams corresponding to the thickness of the embedded element, the need to use a mooring cord disappears, it is enough to perform the first row of masonry qualitatively. The protruding reinforcing element 5 guarantees a strong bond with the mortar joint and its presence significantly strengthens the entire wall structure.

In addition, when using a mortgage element, there is no need to align each single element, which will inevitably lead to a decrease in the requirements for highly qualified personnel, a reduction in time and labor. The saving of mortar mass is also obvious, since in ordinary masonry there is an overspending in the process of horizontal and vertical alignment due to thickening or precipitation of the mortar bed and elimination of the squeezed mass.

In the case of laying in horizontal seams of building structures, it is advisable to perform a mortgage element with a length of at least 3 lengths of individual building elements. In case of laying in vertical seams of construction

structures it is advisable to perform a mortgage element with a length corresponding to the height of a single element of a building structure.

A mortgage element for building structures is made, for example, by molding from concrete.

So, compared with the prototype of the inventive mortgage element for building structures has increased structural strength due to the presence of the reinforcing element, and also reduces the complexity of the masonry due to the execution of the upper and lower faces of the embedded element parallel. In addition, the strength of the bond of the embedded element for building structures with a mortar seam of the erected walls is increased when the reinforcing element protrudes beyond the inner face of the embedded element.

Claims (4)

1. The embedded element for building structures, characterized in that the reinforcing element is additionally installed inside the embedded element, the upper and lower faces of the embedded element are made parallel, and its thickness corresponds to the thickness of the seam between the individual elements of the building structure. 2. The embedded element according to claim 1, characterized in that the embedded element has the shape of an elongated parallelepiped, the front face of which is provided with decorative elements. 3. The embedded element according to claim 1, characterized in that the reinforcing element is made in the form of a tape of a polymer or metal material. 4. The embedded element according to claim 1, characterized in that the reinforcing element is made protruding beyond the inner face of the embedded element.