RU129958U1 - WALL UNIT - Google Patents

Abstract

The wall block containing the outer and inner concrete layers, between which the insulation layer is installed, is equipped with X-shaped elements for connecting the outer and inner layers of the block, the ends of the X-shaped elements being monolithic in the outer and inner layers, and the middle part of each of the X-shaped elements interacts with a layer of insulation, characterized in that the length of the insulation layer is less than the length of the block and the insulation is installed with the formation of vertical grooves at the ends of the block.

Description

The claimed technical solution relates to construction and can be used in the construction of buildings and structures.

Known concrete wall block, made in the form of a monolithic parallelepiped with vertical grooves at the ends and recesses in the middle of the upper end ribs, which are installed (monolithic) mounting steel hinges (see, for example, GOST 13579-78 "Concrete blocks for basement walls. Specifications ”, Published 12.13.1977). The main disadvantage of the described concrete wall block is its low thermal resistance.

Also known is a two-layer external concrete wall block in the form of a parallelepiped with vertical grooves at the ends and recesses in the middle of the upper end ribs, into which mounting steel loops are installed (monolithic), having an internal insulating layer of heavy concrete with a thickness of at least 50 mm and an external insulation layer of light concrete on porous aggregates (see, for example, GOST 19010-82 “Wall concrete and reinforced concrete blocks for buildings. General technical conditions”, published January 29, 1982) Such a block is not effective enough for It is used in the middle and northern latitudes and does not possess sufficient strength of the connection of the layers.

Closest to the proposed solution in terms of technical nature and the achieved result (prototype) is a wall building block in the form of a parallelepiped, containing external and internal concrete layers, between which a layer of insulation is installed. As a material of a heater polystyrene is used. The block is equipped with X-shaped elements for bonding the outer and inner concrete layers of the block located at the ends of the block, the ends of the X-shaped elements being monolithic, and the middle part of each of the X-shaped elements interacting with the insulation layer having diagonally located semicircular grooves at the ends , (see patent RU No. 2191873, IPC E04C 1/41, E04C 1/40, published October 27, 2002). This design requires mechanical processing of the aggregate under exhaust ventilation, it does not allow to obtain blocks of extended length due to the absence of bonds between the concrete layers in the block body in the part between the ends, where the external and internal bearing concrete layers are connected only by adhesion to low-strength material - polystyrene , without the use of additional fixing ties.

The objective of the claimed utility model is to reduce the complexity and cost of manufacture, as well as increase the strength of concrete wall blocks of any length.

To solve this problem, the concrete wall block containing the outer and inner concrete layers, between which the insulation layer is installed, is equipped with X-shaped elements for fastening the outer and inner layers of the block, the ends of the X-shaped elements being monolithic in the outer and inner layers, and the middle part each of the X-shaped elements interacts with the insulation layer, while the length of the insulation layer is less than the length of the block and the insulation is installed with the formation of vertical grooves at the ends of the block.

In Fig.1, a longitudinal section of the block in a vertical plane along the axis of symmetry of the insulation layer, Fig.2 is a horizontal longitudinal section along the plane of installation of ties for the case of establishing ties in two levels along the height of the block.

The wall block contains the outer 1 and inner 2 concrete layers with a length of "L", X-shaped elements 3 for connecting layers 1 and 2 and a layer of insulation 4 with a length of "l", installed between the concrete layers with the formation of grooves 5 of depth "b". Layers 1 and 2 can be made of one material, for example, concrete B15 GOST 7473-94. The layers can be made of different materials, for example, the external insulation layer 1 is made of lightweight concrete on porous aggregates, and the inner insulating layer 2 is made of heavy concrete, while the thickness of the layers can be different, based on thermal and strength calculations. X-shaped elements for connecting the outer and inner layers of the block can be made of reinforcing wire GOST 6727-80 and installed at the same level along the height of the block, at 2-3 levels in height or vertically along the entire length of the block. As insulation 4, foam can be used, for example, PSB-S 50 polystyrene foam GOST 15588-86, as well as glass wool mats according to GOST 104 99 - 93 or a mineral wool board, for example, ППЖ-200 ТУ 5762-005-05292415-98 .

The wall block is made as follows. In the mold that forms the cavity along the outer contour of the block, including grooves at the ends, a heater is installed, for example, a polystyrene foam plate with a length of l = L-2b, pierced in established places by intersecting segments of the reinforcing wire of the calculated length, thus fixing future X-shaped bonds of concrete layers, fill the gaps between the walls of the mold and the insulation layer with concrete mixture, set the vibroload and form the block. After the concrete has cured, the mold is opened and a ready-made 3-layer block with insulation and bonds between concrete layers is obtained, and the sealing layer of the insulation forms end slots with a depth of "b" for joining the plates during installation: adjacent blocks form a common cavity with a width of "2b" from the slots , when filling with masonry mortar, (after curing the mortar) the blocks are fixed relative to each other.

Fixing the X-shaped connections on the insulation in any section of the block, horizontally or vertically, without reference to the grooves at the ends of the block, makes it possible to increase the mechanical strength of the wall block, which has three layers, and the possibility of manufacturing blocks of any length. The manufacture of a layer of insulation with a length "l" less than the length of the block "L", with the formation of end grooves with a depth of "b" in the finished block reduces the complexity and cost of manufacturing the block as a whole.

Thus, the use of the proposed utility model provides an increase in the mechanical strength of the wall block, makes it possible to manufacture blocks of any length, reduces the complexity and cost of manufacturing the block as a whole.

Claims (1)

The wall block containing the outer and inner concrete layers, between which the insulation layer is installed, is equipped with X-shaped elements for connecting the outer and inner layers of the block, the ends of the X-shaped elements being monolithic in the outer and inner layers, and the middle part of each of the X-shaped elements interacts with a layer of insulation, characterized in that the length of the insulation layer is less than the length of the block and the insulation is installed with the formation of vertical grooves at the ends of the block.

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