RU2131501C1 - Building block - Google Patents

Abstract

FIELD: low building construction; applicable in erection of civil and industrial structures with high requirements for heat-sound insulation of rooms, for instance, residential buildings, cottages and other structures. SUBSTANCE: building block has concrete shell with core from heat-insulating material installed in shell before molding of building block. Concrete shell is made of two parts, preferably, rectangular in plan, with hollows facing each other. Parts are spaced from each other and from longitudinal vertical plane of block to form gap between similar upper and lower edges facing each other. Gap is filled with heat-insulating material of core and exceeds between the edges the minimum thickness at least of one of side walls of shell parts. At least one of shell parts in block cross-section is C-shaped or channel-shaped, or tray-shaped, and the other shell part is symmetrical mirror image at least over the most part of block length, of shape of its first part of shell or corresponds to one of the shapes. In mounting of structures, offered block despite its increased sizes, does not need use of load hoisting mechanism as volume of its core exceeds 60% of building block volume and shell parts are formed from concrete with light-weight filler. EFFECT: higher heat engineering characteristics, improved sound insulation and reduced specific material consumption. 10 cl, 14 dwg

Description

 The invention relates to the field of predominantly low-rise construction, and can be used in the construction of civil and industrial structures with high requirements for heat and sound insulation of premises, for example, residential buildings, cottages and other buildings.

 Known building wall block for the construction of low-rise structures, containing a concrete shell and placed in it before forming the block core of heat-insulating material, which is up to 60% of the volume of the block (see patent RU N 2084595, class E 04 C 1/40, 1997 .).

 The shell of the block covers it on the sides and on top, and thereby creates a cold bridge when laying it in the wall structure over the entire length of the block. This circumstance leads to significant heat loss in a structure constructed from known blocks. In addition, the external sound insulation in such structures due to the presence in the blocks of concrete lintels, which are conductors of sound waves, also leaves much to be desired.

 The objective of the invention is to increase the thermal characteristics of the unit and the structures being built with its help, increasing noise insulation and reducing the material consumption of structures. During the installation of structures, the proposed block, despite its increased dimensions, does not require the use of lifting mechanisms, since the volume of its core exceeds 60% of the volume of the block, and parts of the shell are formed of concrete with lightweight aggregate. Subject to all technological requirements for its manufacture, the unit complies with the requirements of SNIP II-3-79 "Construction Heat Engineering".

 The problem is achieved in that in a building wall block containing a concrete shell and a core of heat-insulating material placed in it before molding the block, the concrete shell is made of two cavities facing each other, preferably rectangular in plan, parts spaced apart from the longitudinal the vertical plane of the block with the formation between the opposite upper and lower edges of the gap of the same name, filled with a thermal insulation material of the core and exceed between the indicated edges is the minimum thickness of at least one of the side walls of the shell parts, at least one of the shell parts in the cross section of the block has a C-shaped, or channel-shaped, or trough-like shape, and the other mirrors symmetrically at least over most of the length of the block, the shape of the first part of the shell or corresponds to one of the listed forms. In this case, the insulating material is open from at least one of its ends and on the open side is in the same plane with the side surfaces of the concrete shell parts, the wall thickness of the shell part located on the inside of the wall may exceed the thickness of the wall located on the outside of the wall; the central longitudinal axis of the core of the insulating material can be offset in plan relative to the longitudinal axis of the block to one of the side walls of the shell; the inner surface of one of the parts of the shell is formed by a cylindrical surface, and / or the intersection of cylindrical surfaces, and / or the intersection of planes located at an angle to each other and / or to cylindrical surfaces, and the other part of the shell has the shape of the inner surface, mirror symmetrical to the first or formed in the above manner; the core is made of a material with high heat-insulating properties, mainly polystyrene foam having strength and adhesion to parts of the shell after molding and heat treatment of the block, sufficient to hold them; at least one part of the concrete shell is made of expanded clay concrete, and the other is made of expanded clay concrete or other concrete with predetermined properties supplied to the mold with the core installed in it at the same time or after a time interval sufficient to at least start setting the first of the concrete mixes to be laid; the core can be made L-shaped or L-shaped in plan and its open end from the side of the section directed perpendicular to the longitudinal axis of the block is located on the side of the latter in the plane of the outer side surface of one of the shell parts, and the end part of the block from the side of the indicated section made with a concrete bridge, the thickness of which is equal to the thickness of the part of the shell to which it adjoins; L-shaped or L-shaped in terms of core made of insulating material is made composite; from the outside, the unit has a lining or protective and decorative coating.

The invention is illustrated by drawings, where figure 1 shows a building block, General view; figure 2 is the same, with a L-shaped core of heat-insulating material, providing joints of blocks at the corners of the structure; in FIG. 3 - building block with side walls - external C ₁ and internal C _{2 of} different thicknesses; 4-14 illustrate various forms of cross-sections of the core of a heat-insulating material that defines the outline of the internal cavities of the shell parts with its outline.

The building wall block consists of a shell formed by the outer part 1 and the inner part 2, which do not have direct contact with each other. The minimum distance "a ₀ " between the parts of the shell should, as practice shows, exceed the minimum thickness "c _i " of the wall of the part of the shell of the block. The inner part of the shell 2 may have a thickness "c ₂ " greater than the thickness "c ₁ " of the outer wall. The supporting parts of the block "b ₁ " and "b ₂ " may have an equal width, but in the case of increased requirements for bearing capacity, the width of the supporting part of the inner part of the shell "b ₂ " may exceed the width "b ₁ " of the supporting part of the outer part of the shell.

 In the manufacture of the block, the core 3 of expanded polystyrene or another material of similar strength and thermophysical properties is positioned and fixed in shape before being fed with expanded clay mixture or expanded clay concrete and any other mixture in the manufacture of the block with different parts of the shell - 1 outer or 2 inner. It is advisable that the outer part 1 of the shell be made of expanded clay concrete, and the inner 2, in a number of increased requirements for bearing capacity, can be made of structural concrete of a different type. The thickness of the cantilever parts of the shelves of the L-shaped, or L-shaped, or channel-shaped form must be such as to prevent chips from being applied. Blocks made in this way with a size of 490x188x290 mm had a mass, depending on the brand of expanded clay concrete, 12-15 kg, which is significantly lower than the existing ones.

 The core 3 of the heat-insulating material perceives the load only during the installation of the block. During the operation of the wall of blocks, the load, for example, from the ceiling, is transferred both to the inner part 2 of the shell and to the outer part 1.

 The use of the proposed building wall block fully ensures compliance with the requirements of SNIP 11-3-79 "Construction Heat Engineering". Due to the absence of any concrete bridges between the external and internal parts of the shell, cold bridges are completely excluded. This ensures almost perfect thermal protection, opens the prospect of several times lowering the energy consumption for heating (or cooling - in the southern latitudes) of the house, which is especially important.

Claims (10)

 1. Wall building block containing a concrete shell and a core of heat-insulating material placed in it before molding the block, characterized in that the concrete shell is made of two cavities facing each other, preferably rectangular in plan, parts spaced apart from the longitudinal vertical the plane of the block with the formation between the opposite upper and lower edges of the same-named gap, filled with a core insulating material and exceeding between the specified edges, the minimum thickness of at least one of the side walls of the shell parts, and at least one of the shell parts in the cross section of the block is C-shaped, or channel-shaped, or trough-shaped, and the other mirrors symmetrically at least for the most part the length of the block is the shape of the first part of the shell or corresponds to one of the listed forms.  2. The block according to claim 1, characterized in that the insulating material is open from at least one of its ends and on the open side is in the same plane with the side surfaces of the concrete shell parts.  3. The block according to claim 1 or 2, characterized in that the wall thickness of the part of the shell located on the inside of the wall exceeds the thickness of the wall located on the outside of the wall.  4. The block according to claim 1 or 2, characterized in that the central longitudinal axis of the core of the insulating material is shifted in plan relative to the longitudinal axis of the block to one of the side walls of the shell.  5. Block according to any one of paragraphs.1 to 4, characterized in that the inner surface of one of the parts of the shell is formed by a cylindrical surface, and / or intersection of cylindrical surfaces, and / or intersection of planes located at an angle to each other and / or to cylindrical surfaces, and the other part of the shell has the shape of an inner surface that is mirror symmetrical first or formed in the above manner.  6. The block according to any one of claims 1 to 5, characterized in that the core is made of a material with high heat-insulating properties, mainly polystyrene foam having strength and adhesion to parts of the shell after molding and heat treatment of the block, sufficient to hold them.  7. Block according to any one of claims 1 to 6, characterized in that at least one part of the concrete shell is made of expanded clay concrete, and the other is made of expanded clay concrete or other concrete with predetermined properties supplied to the mold with the core installed in it simultaneously or through a time interval sufficient at least to start setting the first of the concrete mixes to be laid.  8. The block according to claim 1 or 2, characterized in that the core is made L-shaped or L-shaped in plan and its open end from the side of the section directed perpendicular to the longitudinal axis of the block is located on the side of the latter in the plane of the outer side surface of one from the parts of the shell, and the end part of the block from the side of the specified section is made with a concrete bridge, the thickness of which is equal to the thickness of the part of the shell to which it adjoins.  9. The block according to claim 8, characterized in that the L-shaped or L-shaped in terms of core of the insulating material is made composite.  10. The block according to claims 1 or 8, characterized in that on the outside it has a lining or a protective and decorative coating.

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