RU2076179C1 - Exterior multilayer wall of building - Google Patents

Abstract

FIELD: multilayer walls of residential, social-general service and industrial buildings. SUBSTANCE: building wall has exterior layer of half brick in thickness provided with counterforts resting on floors and cast-in-place heat-insulating layer. Forms of cast-in-place layer are secured on anchors built in counterforts. Forms spacing is multiple to the distance between axes of neighboring counterforts. Forms may be left, for instance, those made of groove-ridge partition plates protected with waterproofing insulation layer from inside. Counterforts may be made discrete stepped in height forming a figure of dovetail type. A part of bricks is laid in body of exterior layer across layer plane with projections directed towards cast-in-situ layer. EFFECT: higher efficiency. 8 cl, 5 dwg

Description

 The invention relates to the field of construction and can be used in frame-type buildings with self-supporting external walls.

A known construction of a wall having a monolithic concrete core and an outer and inner coating, acting as an abandoned formwork. Elements of the outer and inner coatings are connected to each other by spacers such as anchor ties [1]
The disadvantage of the design is that the concrete wall has low thermal properties, and the outer coating of the formwork does not have load-bearing structural properties.

Also known is the design of a multilayer wall made of the outer and inner layers formed by small pieces of blocks that are joined together by special dowels installed in grooves having the shape of a "dovetail". Between themselves, the layers are installed with a gap, the value of which is determined by dowels similar to those described above. The gap may be filled with monolithic insulating concrete [2]
The described design involves the use of small-sized products of a special profile: trapezoidal, angular and narrow dovetail type and does not provide solutions for the installation of internal formwork at a design distance.

 In the American patent [3], both the outer and inner formwork left are assembled from blocks connected on special vertical keys inserted into grooves formed on the vertical edges of the blocks. The distance between the blocks of the outer and inner formwork is also determined using dowels similar to those described above.

 The disadvantage of this design is the limitation of the implementation of its outer layer self-supporting within the floor.

The closest structural solution to the multilayer wall adopted for the prototype of the present invention is the outer multilayer wall of the building, containing an external self-supporting layer in half of the brick, equipped with vertical protrusions supported on the ceiling, and a thermal insulation layer [4]
The disadvantage of this solution is its applicability only in combination with piece or plate thermal insulation.

 The objective of the invention is the provision of communication between the external small piece wall layer and the inner formwork layer.

 This task is achieved by the fact that in a multilayer wall containing an external self-supporting layer in half-brick, equipped with vertical protrusions supported on the floor, and a heat-insulating layer, vertical protrusions are made in the form of buttresses located between the floors, with anchors embedded in them, and, the heat-insulating layer is made of monolithic light-concrete mixture in the formwork, the elements of which are hung on the anchors, and the horizontal length of each formwork element is a multiple of the distance between the anchors. The formwork of the insulating layer can be fixed. It can also be formed from tongue-and-groove plates connected to an adhesive composition. Between the monolithic layer and the formwork, a waterproofing layer can be installed. Between the inner surface of the formwork and the ends of the buttresses, a gap may be formed. Buttresses can be discrete in height and take the form of overturned steps, moreover, the horizontal projection of buttress bricks protruding towards the monolithic layer of the wall forms buttress bricks in the direction of the monolithic layer of the wall. In the body of the external self-supporting layer of the wall, part of the bricks are laid discretely across the plane of the layer, and the protruding part of these bricks is turned towards the monolithic layer.

 A comparative analysis of the claimed invention with the prototype shows that the proposed design is distinguished by the fastening of the formwork of the monolithic heat-insulating layer on the anchors embedded in the buttresses of the outer layer of the wall and the execution of the formwork elements multiple in length between the axes of the adjacent buttresses. The difference also lies in the fact that the formwork is made non-removable, in particular from groove-crest plates, between which a waterproofing is installed between the monolithic layer. In addition, the thickness of the monolithic layer can be controlled by the length of the anchors, at which a gap remains between the ends of the buttresses and the formwork. The buttresses themselves are discrete in height, and their projection in plan form a dovetail-like figure. Part of the bricks of the outer layer is laid across the plane of the layer, and the protruding part of these bricks is facing the monolithic layer. This analysis allows us to conclude that there is novelty in the claimed invention.

 Comparison of this design with other analogs shows that the installation of formwork anchors in buttresses allows reliable formwork fastening when concreting a heat-insulating monolithic layer of any thickness determined by calculation, and the multiplicity of the formwork length to the distance between the axes of the buttresses makes it possible to unify the formwork elements, in particular, use gypsum grooves ridge partition plates, to protect which from moisture from the concrete mortar, install waterproofing. In addition, the implementation of the buttresses discrete allows you to save bricks, and their location in the form of a "dovetail" and the installation of discrete bricks protruding towards the monolithic layer, allows you to increase the adhesion area of the monolithic layer with the external brick layer and provide a more uniform transfer of part of the load from the external brick layer to overlap. Moreover, all of these effects can be obtained by methods known in the art. This comparison allows us to conclude that the claimed invention exceeds a known technical level.

 Figure 1 shows a General view of the wall with a removable shield formwork; figure 2 is the same with the retained formwork of the groove-ridge plates; figure 3 is a vertical section of the wall along aa; figure 4 is a horizontal section of the wall; figure 5 is a General view of the wall with discrete buttresses.

 The outer wall of the building is made in the form of an external self-supporting layer 1 formed by small piece stones 2, for example, facing bricks laid in a “half-brick”. This layer has buttresses 3, protruding inside the building, located between the floors 4 and resting on the underlying floor below. Anchoring elements 5 are projected into the masonry of the buttresses, protruding beyond the buttresses by the distance necessary to install and unfasten the formwork 6. The distance "c" between the axes 7 of the adjacent buttresses is a multiple of the horizontal length "a" of each formwork element. The space between adjacent buttresses, the outer layer and the formwork is filled with thermal insulation 8 made of monolithic lightweight concrete. The formwork of the heat-insulating layer can be made non-removable, in particular, from groove-crest gypsum partition plates 9 assembled on the adhesive 10. In this case, the requirement of the multiplicity of the length of the groove-crest plates and the distance "in" between the axes of the buttresses remains valid, however, the vertical joints 11 plates 9 do not coincide with the axes 7 of the buttresses not in each row of plates, which ensures their dressing with each other. When gypsum boards are used as formwork, their inner surface in contact with the monolithic heat-insulating layer 8 can be coated with a waterproofing layer 12, for example, of glazed glass. If, according to the calculation, the thickness of the heat-insulating layer exceeds the value “c” of the buttress of the buttress, then the formwork 6 can be mounted on the anchor elements 5 at a distance from the end surface 13 of the buttress. If necessary, the formwork can be supported from the inside by temporary inventory racks 14. Buttresses can be made not continuous but discrete in height, in this case they have a cantilever step shape 15 and for better anchoring in the body of the monolithic layer the bricks forming the consoles can be rotated relatively perpendicular to the wall surface so that their horizontal projection forms a dovetail shape 16. For better adhesion of the outer layer to the insulation layer in the body of the outer self esuschego layer part laid bricks discrete transverse plane of the layer so that the projecting portion 17 of bricks facing the monolithic layer.

 In the process of erecting the wall, an external brick layer 1 with buttresses 3 is first laid, in the seams of which the anchors 5 are embedded. Then the formwork is installed on the anchor 6. If the formwork is made of tongue-and-groove plates 9, then waterproofing is installed first, and then they are assembled on the adhesive 10 themselves slabs. In the gap between the outer layer 1 and the formwork 6, a light-concrete heat-insulating solution is supplied 8. After the hardening of the heat-insulating layer, the removable formwork is removed, and the remaining anchor heads are cut off. In the case of formwork fixed head anchors 5 are also cut off, but flush with the surface of the formwork.

 The design of the outer brick layer is such that it is built “half-brick” to the entire height of the building, and to give it vertical stability, buttresses 3 go to the edge of overlap 4 and rest on it. The use of a monolithic heat-insulating layer 8 allows the buttresses to be made discrete, since in this case the anchoring of the outer layer occurs not only by supporting the buttress on the overlap, but also by pinching the bricks protruding from the plane of the outer layer of the wall in the monolithic heat-insulating layer. This effect is enhanced when the bricks of the discrete buttresses form a dovetail in plan, and when some of the bricks of the outer layer are laid across the plane of the layer, protruding inside the monolithic layer. An even greater effect can be obtained from the use of slotted bricks (not shown in the drawings).

Claims (8)

 1. The outer multilayer wall of the building, containing an external self-supporting layer in half a brick, equipped with vertical protrusions supported on the ceiling, and a heat-insulating layer, characterized in that the vertical protrusions are made in the form of buttresses located between the ceilings, with anchors embedded in them, the heat-insulating layer made of monolithic light-concrete mixture in the formwork, the elements of which are hung on the anchor, and the horizontal length of each formwork element is a multiple of the distance between the axes of the adjacent buttresses.  2. The wall according to claim 1, characterized in that the formwork of the insulating layer is fixed.  3. The wall according to claims 1 and 2, characterized in that the formwork of the insulating layer is made of tongue-and-groove plates connected to an adhesive composition.  4. The wall according to claims 1 to 3, characterized in that a layer of waterproofing is installed between the monolithic layer and the formwork.  5. The wall according to claims 1 to 4, characterized in that a gap is formed between the inner surface of the formwork and the ends of the buttresses.  6. The wall according to claim 1, characterized in that the buttresses are discrete in height and have the form of overturned steps.  7. The wall according to paragraphs. 1 and 6, characterized in that the horizontal projection of the buttress bricks protruding towards the monolithic layer of the wall forms a dovetail-like figure.  8. The wall according to claim 1, characterized in that in the body of the outer self-supporting layer, part of the bricks are laid discretely across the plane of the layer, the protruding part of these bricks facing the monolithic layer.

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