RU53329U1 - WALL-MOUNTING ELEMENT AND BUILDING STRUCTURE - Google Patents

Abstract

The utility model relates to building materials and building structures constructed from these materials and can be used in capital construction for the construction of heat-insulating load-bearing walls of buildings and structures. To increase the area of bonding of masonry elements (CE) and increase the bearing capacity of a building structure (SC) in CE, vertical through cavities (VP) are equally distributed in at least three rows, and the outermost ones in the series of VP are connected to closed cavities (GP) placed on the end surfaces (TP), and in the building structure TP are connected through a mortar to each other and through the RF with rigid elements (ZhE) formed in the VP by fluid concrete, and at least on one wall (C) SK is placed decorative protective layer (DS).

Description

The utility model relates to building materials and building structures constructed from these building materials and can be used in capital construction for the construction of heat-insulating load-bearing walls of buildings and structures.

Known wall masonry element made by hot pressing of a polymeric material with filler-cellulose or sawdust and having the form of a brick, block or block of fixed formwork, in which vertical through cavities are placed, filled with heat-insulating material (floor space. Mod. No. 21703 M C. E 04 C 1/40; E 04 B 2/02; 2001).

Known prefabricated wall structure containing blocks with through vertical holes laid in rows with offset so that the vertical through holes of the rows coincide and they contain rigid elements of wood, the shape of these holes, and the length corresponding to the height of the wall structure or made up of separate elements with a height of not less than the height of two rows of blocks (Pat. for the invention No. 2225485; M CL E 04 B 2/16; 2002).

However, the known wall masonry element can only be used in the construction of internal heat-insulating partitions and in wall structures of low-rise construction, and even then with additional weather-resistant finish, since its material having low thermal conductivity, at the same time, has a low bearing load and weather resistance. In addition, the elements are joined together in the wall structure only due to the spoon and bonding surfaces of the masonry element, which, given its material, is not enough to obtain a monolithic load-bearing wall structure.

A prefabricated wall structure of blocks with through vertical holes in which rigid elements of wood are installed can also be used in low-rise construction and in the construction of heat-insulating partitions, since the tree has low thermal conductivity, but its compressive strength is inferior to this limit for concrete structures. In addition, wood elements require additional processing to give them a hole shape and antiseptic material, which increases the cost of construction. The connection of the blocks in the wall structure is also carried out, mainly by fastening their spoon and poke surfaces and partly due to the hard wooden elements, identical in shape to the holes of the block. But the installation of such elements having a length equal to the height of the wall structure is almost impossible, and their mismatch in the shape of the holes and elements having a length greater than the height of two rows of blocks (individual short elements) significantly reduce the carrying capacity of the structure.

The proposed wall masonry element and building structure of them allows to increase the bonding area of masonry elements and increase the bearing capacity of the building structure.

The essence of the utility model is that in a wall masonry element made using a polymer material in the form of, for example, brick, block or block of fixed formwork with vertical through cavities, the latter are evenly distributed in the element, at least in three rows with jumpers less than or equal to half of the corresponding cavity size, while the extreme in the row of cavities are connected with closed cavities located at least on one end surface of the element with a distance equal to the inter the distance between the rows, and in the building structure including wall masonry elements laid in rows so that the vertical through cavities of the elements in the rows coincide and they contain rigid elements corresponding in shape, equal in length to the height of the structure, the end surfaces of the wall masonry elements

they are connected with the mortar and through closed cavities the masonry elements are connected with each other and with adjacent rigid elements formed in vertical through cavities by means of fluid concrete or mortar with a compressive strength of at least 40.0 MPa, with at least one building wall Designs placed a decorative protective layer.

The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a general view of a wall masonry element, Fig. 2 is a view A of a butt end of an element, Fig. 3 is a section BB of Fig. 2, Fig. 4 is a view of a side end of an element , made in the bonded design, figure 5 is a General view of the building structure, figure 6 is a cross section KK in figure 5.

The wall masonry element is made using a polymer material in the form of a brick or block, or a fixed formwork block, on the spoon surface 1 of which vertical through cavities 2 are evenly distributed in at least three rows. They are made in the form of geometric figures, for example, a circle or a rectangle, or a hexagon with a size of 20 ÷ 60 mm, and the jumpers between them are equal to or less than half the corresponding cavity size.

Closed cavities 4 are placed on at least one end (bonded) surface 3 of the masonry element according to the number of rows of vertical through cavities 2. The distances between them are equal to the intercenter distance of the rows of vertical through cavities 2. Closed cavities 4 are connected to the outermost through cavities 2, and their length is less than the height of the wall masonry element.

In the case of manufacturing a wall masonry element for use in bonded rows of masonry, closed cavities 4 are placed on at least one side surface 5 of the masonry element and connected to vertical through cavities 2 of the adjacent row. The distance between them is equal to the intercenter distance between these cavities 2.

As the polymer material in the manufacture of the wall masonry element, a heat-insulating material with a heat conductivity coefficient of 0.05-0.1 kcal / m • h • ha, for example, is used

foamed polystyrene foam of self-extinguishing grades or expanded polystyrene crumb bonded with a mineral binder.

The building structure of these wall masonry elements contains masonry elements 6 interconnected by means of mortar, laid in rows 7, 8 with offset. In the next row 8, the masonry elements 6 are displaced relative to the same elements 6 of the previous row 7 so that their vertical through cavities 2 coincide.

Rigid elements 9 are placed in them, corresponding in shape to the vertical through cavities 2, and in length to the height of the building structure. These elements are formed by fluid concrete or mortar with a compressive strength of at least 40 MPa, which has adhesion to the material of the wall masonry element 6. The end (bonded) surfaces 3 of the masonry elements 6 are interconnected by a mortar, which is also located in closed cavities 4, and through them it is connected with rigid elements 9 adjacent to this surface, forming a monolithic connection 10. At least one decorative protective cover is placed on at least one wall of the building structure layer 11. This layer is made by applying a hydrophobic composition comprising at least one pigment or by installing decorative cladding plates 12 connected to the rigid elements 9 by the flexible ends 13 of the mortgages placed in the plates 12. Between these plates and the walls of the building structure placed layer 14 of the composition having adhesion to the materials of the plate 12 and the masonry element 6.

Depending on the design loads acting on the building structure, at least two reinforcing metal rods 15 can be installed in the vertical through cavities 2 of each masonry element 6. These rods are smaller than the dimensions of the cavities 2 and have a length exceeding the height of the two masonry elements . They are straight and U-shaped. When installing a U-shaped rod, its ends are placed in the vertical through cavities of two masonry elements laid next to each other.

When laying the row of rows 16 of the building structure, masonry elements 6 are used, in which closed cavities 4 are placed on the side surfaces 5.

The proposed wall masonry element and building structure compared to the known masonry element and prefabricated wall structure by increasing the bonding area of the masonry elements to each other, due to the presence of closed cavities on the bonded surfaces connected to adjacent rigid elements and the formation of rigid elements in vertical through cavities throughout the height of the structure with flowing concrete, allows to increase the bearing capacity of a building structure from wall masonry elements, from prepared from heat-insulating materials and practically eliminate the zone of loss of thermal energy in it.

Depending on the calculated loads acting on the building structure, each wall masonry element is reinforced with at least two metal rods, which leads to an increase in the permissible bearing loads on the structure.

As a result, the building structure, constructed from elements having a material with low thermal conductivity, acquires, along with the thermal insulation qualities that create a barrier to the transfer of thermal energy, also solidity and high bearing capacity.

Claims (8)

1. Wall masonry element made using a polymeric material in the form of, for example, brick, block or block of fixed formwork having vertical through cavities with the possibility of filling them with material different from the material of the element, characterized in that these cavities are evenly distributed in the element, at least in three rows, with a jumper between them equal to or less than half of the corresponding cavity size, and the outermost in the row of the cavity are connected to closed cavities located at least one end surface of the element with a distance equal to the intercenter distance between the rows. 2. Wall masonry element according to claim 1, characterized in that as a polymeric material using heat-insulating material with a coefficient of thermal conductivity of 0.05 ÷ 0.1 kcal / m · h · deg, for example, foamed polystyrene self-extinguishing grades or expanded polystyrene crumb bonded mineral binder. 3. Wall masonry element according to claim 1, characterized in that the vertical through cavity is made in the form of geometric shapes, for example, a circle or rectangle, or hexagon, with a size of 20 ÷ 60 mm 4. Wall masonry element according to claim 1, characterized in that the length of the closed cavities is less than the height of the masonry element. 5. Wall masonry element according to claim 1, characterized in that for use in the bonded row of masonry, closed cavities are placed on at least one side surface of the element according to the number of vertical through cavities adjacent to this surface of the row and connected to them. 6. A building structure of wall masonry elements, containing interconnected wall masonry elements stacked in rows with an offset so that the vertical through cavities of the masonry elements of the previous and subsequent rows coincide and they contain rigid elements corresponding to these cavities in shape and length - height of the building structure, characterized in that the end surfaces of the masonry elements of each row of the structure are interconnected by a solution and through closed cavities s with surrounding rigid elements, which are formed in a vertical through-cavities by means of flowable mortar or concrete with compressive strength of at least 40.0 MPa, wherein at least a decorative and protective layer is placed on one wall of a building structure. 7. The building structure of the wall masonry elements according to claim 6, characterized in that at least two metal reinforcing rods of a size smaller than the dimensions of the cavity and a length exceeding the height of two masonry elements are installed in the vertical through-cavity of the masonry elements of the previous and subsequent rows, and in shape - straight or U-shaped, with the ends of the latter installed in vertical through cavities of two adjacent masonry elements. 8. The building structure of the wall masonry elements according to claim 6, characterized in that the decorative protective layer is made in the form of decorative cladding plates equipped with flexible embedded elements, the ends of which are placed in vertical through cavities, and a layer of composition is applied between the plate and the wall of the building structure having adhesion to the materials of the plate and masonry elements.