RU8382U1 - LIGHTED BRICK WALL - Google Patents

Abstract

1. Lightweight brick wall, including the outer facing and inner layers, separated by a layer of insulation, connected by transverse diaphragms using bonded bricks, characterized in that the insulation is made of piece elements of different thickness and width by alternating in height. 2. The wall according to claim 1, characterized in that the insulation layer is made with the displacement of the elements. The wall according to claim 1, characterized in that the transverse diaphragms are made of bonded bricks of the outer and inner layers and a larger insulation element in opposite directions with a pitch of t in the range of 300 - 1500 mm.

Description

 tk E 04 in 2/28, 2/42

LIGHTED BRICK WALL

The utility model relates to construction and can be used in the construction of the external walls of buildings from lightweight brickwork.

Known lightweight wall with rigid bonds, consisting of the outer, heat-insulating and inner layers. (Series 188. Residential buildings with walls of brick, melkrk blocks of cellular concrete, monolithic concrete and large lightweight concrete blocks with unified structures. Part I. Units and parts. Section 2-01. Details of walls made of lightweight brick (stone) masonry. Book I. p. 8, p. 47-57. Book 2. p. 58-92. Central Research Institute of Electric and Electronic Engineering Grazdanseltroeti, 1989.)

Closest to the proposed solution is lightweight brickwork of the outer wall, including the outer and inner walls separated by a layer of insulation, connected by transverse diaphragms of bonded bricks and made with temperature seams. (USSR author's certificate R 13337552, class E 04 В 2/28, 2/42, 1987)

The disadvantage of these lightweight walls is the large heat loss due to cold bridges along brick diaphragms.

The technical result is to increase the insulating qualities of the outer wall.

The problem is solved in that cold bridges are excluded due to the fact that the insulation is made of piece elements of different thickness and width by alternating in height, and a larger insulation element bandages the bonded bricks of the outer and inner layers of the wall, forming transverse diaphragms.

A causal relationship between the totality of the essential features of the claimed utility model and the achieved result is as follows.

The use of piece elements of different thicknesses and widths in the insulation layer allows us to use not only heat-insulating, but. and structural and heat-insulating materials capable of working in transverse diaphragms, connecting the outer and inner layers of a brick wall.

Alternating elements of the insulation in height allows you to place bonded bricks of the outer and inner layers between the large elements of the insulation, which provides a mutual connection between them in the transverse diaphragms. The offset of the insulation elements in the layer allows you to alternate the transverse diaphragms along the height and length of the wall in different directions with a step of 300-1500 mm, which provides the necessary rigidity and stability of the layers and stacks in general.

The use of a heater element in the transverse diaphragms leads to the exclusion of cold bridges and an increase in the thermal properties of the wall.

The essence of the utility model is illustrated in the drawing, where figure 1 shows a fragment of a section of the outer wall; in Fig.2 and Fig.Z plans of the outer wall for a smaller element of insulation; figure 4 is a plan of the outer wall for a larger element of the insulation.

The first row of the proposed masonry walls consists of alternating along the length of the punch I and spoon 2 bricks of the outer layer, located with a step i within 300-1500 mm; smaller elements 3 insulation with a coefficient of thermal conductivity / li, located in steps and repeating the relief of the inner

the surface of the outer layer; bricks of the inner layer located on the relief formed by the smaller elements of the insulation 3. The second, third, fourth, fifth, sixth rows of masonry walls consist of outdoor, inner layers and large elements 4 of the insulation with a coefficient, overlapping the smaller elements of 3 insulation and bonded bricks I of the outer and inner layers of the wall of the first row. The following rows of masonry are performed in the same sequence. The thickness of the outer layer is determined by the width of the brick, the inner layer - the bearing capacity of the wall, insulation elements and the presence of the air gap 5 - thermal engineering calculation.

The use of this design allows to increase the heat-insulating qualities of the external walls due to the elimination of cold bridges in the transverse stiffness diaphragms connecting the outer and inner layers of the walls.

Claims (3)

1. Lightweight brick wall, including the outer facing and inner layers, separated by a layer of insulation, connected by transverse diaphragms using bonded bricks, characterized in that the insulation is made of piece elements of different thickness and width by alternating in height.  2. The wall according to claim 1, characterized in that the insulation layer is made with the displacement of the elements. 3. The wall according to claim 1, characterized in that the transverse diaphragms are made of bonded bricks of the outer and inner layers and a larger insulation element in opposite directions with a pitch of t in the range of 300 - 1500 mm.