LT5800B - Building method - Google Patents

Abstract

Invention relates to building field. Building structural elements are cut out of polystyrene foam, by special cutting machines. From the both sides there are made transverse, longitudinal grooves (2) and filed with concrete solution for their reinforcement. For additional structural reinforcement of the elements in to grooves (2) through horizontally inserted anchors (4) holes (5) there are inserted the reinforcing material (3), which are cemented by concrete solution. Without reinforcing material (3), the anchors (4) are inserted into the structural elements, it is inserted horizontally. There are made bores (6) crosswise in the walls (1), for inserting the cylindrical parts and filled with concrete solution. Base constructions, the retaining walls with tray-shaped foundation (7) are connected by reinforcement bars (9), which are vertically fixed in the foundation, by inserting reinforcement bars into vertical bores made in reinforcing base constructions, in the walls.

Description

The invention relates to the construction industry, namely to the construction of multi-purpose buildings and prefabricated houses from prefabricated structural elements and details.

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A known method of building construction using structural elements is described in LT patent no. 3555, TPK: E 04 B 5/43, E 04 C 2/52, publ. 1995, using structural elements. Each of the structural members has one top plate as well as support members perpendicular to the plate. Other structural members have both upper and lower panels. The top slabs are with reinforcements poured into the slab concrete slab. Uses metal fasteners to connect structural elements.

A known method of building construction (see U.S. Patent No. 6,985,832, TPK: G 06 F 15/00, Publ. 2004), which constructs a building from polystyrene foam (EPS) building elements coated with exterior and interior concrete mortar.

However, the disadvantage of the known building construction is that due to the lack of structural strength of building elements, the construction of the building is not sufficiently reliable, rigid. The smallest damage to the structural component of the building is the peeling off of the concrete layer as it is laid on a flat surface. For this reason, the number of floors in the building must be limited. In addition, the use of known structural elements in building construction does not ensure good microclimatic conditions indoors.

The object of the invention is to increase the strength of building elements, to extend the structural and functional capabilities by improving the thermal insulation, hygroscopic properties, operating conditions and indoor climate of the building and increasing the reliability, strength, durability, fire and seismic wave resistance.

In order to achieve the object of the invention, the structural building elements are cut out of polystyrene foam. For joining load-bearing structures, load-bearing walls to a foundation, which is shaped like a trough, they make vertical channels in their lower parts and install reinforcing bars vertically anchored in the foundation along with other reinforcing materials by pouring concrete, reinforced fiberglass, mortar. In addition, the building components are optionally provided with transverse, longitudinal grooves on both sides with a rectangular trapezoidal cross-sectional area, and they are overlaid with concrete, reinforced with fiberglass. The walls of the building are drilled through transverse openings into which non-metallic cylindrical parts are inserted and filled with an insulating material that is permeable to air and traps moisture.

Founds in a horizontal plane where the project provides for excavation of underground cavities, through concrete, reinforced fiberglass, mortar, drill holes, through which reinforcement bars are inserted and vertically inserted into subterranean cavities with no greater center spacing as 3 m and having the same layout as the foundation holes.

It infiltrates reinforcing materials into the grooves of structural elements and infills them with concrete, fiberglass reinforced mortar. Non-metallic anchors are used to reinforce reinforcing materials introduced into the counter-grooves, with the anchors inserted horizontally into the building components and through the openings at their ends. In addition, anchors are placed between the opposing grooves to reinforce the structural members when not reinforcing materials are inserted into the grooves by inserting them horizontally.

Optionally, metal, non-metal: reinforcing bars and reinforcing materials are used for the reinforcement of building elements, the connection of load-bearing structures and walls to the foundation.

Connects reinforcing materials cast into the grooves to the anchors by means of a removable joint.

The invention is illustrated in the drawings.

FIG. 1 - Polystyrene foam block. FIG. 2 is a diagram of a building component (wall). FIG. 3 is a schematic diagram of a structural structural member with transverse and longitudinal grooves. FIG. 4 is a schematic diagram of a structural element with a longitudinal groove. FIG. 5 is an anchor view of reinforcing material embedded in the opposing grooves of a building component. FIG. 6 is a view of an anchor inserted into a building component when no reinforcing materials are used. FIG. 7 - Schematic diagram of a building component - foundation. FIG. Schematic diagram of 8 building elements - foundation, when the project provides for excavation - underground cavities. FIG. 9 is a view of a building made of polystyrene foam building components.

FIG. Fig. 2 shows a structural member with transverse and longitudinal grooves 2 into which reinforcing materials 3 and holes 6 in the walls are provided to provide an indoor microclimate.

FIG. Fig. 3 shows a structural member with transverse and longitudinal grooves 2 into which reinforcing materials reinforced with anchors 4 are inserted.

FIG. Fig. 4 shows a structural element with longitudinal grooves 2 into which reinforcing materials 3, anchored

4.

FIG. 7 depicts a foundation 7 into which the reinforcing bars 9 and reinforcing materials 8 are fed into the trough.

FIG. 8 depicts a foundation 7 with a pit 10, into which reinforcement bars 9 are pierced, and reinforcing materials 8 are introduced into the foundation trough.

FIG. 9 is a general view of a building constructed in a claimed manner from structural members (see FIG. 2, FIG. 3, FIG. 4) on a foundation 7 (FIG. 7, FIG. 8).

Building elements: The lower part of the building - foundations, floors and roofs, stairways, load-bearing structures, columns, walls are cut by polystyrene foam blocks using special cutting machines according to the construction plan. (see Fig. 1). Polystyrene foam is a rigid porous material made by fusing granules of expanded polystyrene or one of its copolymers with closed pores filled with air.

Optionally transverse, longitudinal grooves - special grooves 2 (see Figures 2, 3, 4) with cross-sectional areas of geometric shapes - isosceles trapezoidal in the building components of the building. Slots 2 are used for reinforcing building elements by pouring them into concrete, reinforced glass fiber, mortar. When grooved, the concrete layer 2 stays stable and its peeling is avoided. The dimensions of the grooves 2 for building strength, stability and reliability are selected based on the thickness of the building components and the height of the building under construction. Depending on the object being built, it is not always important that, for example, stairways, floors or roof slabs are carved to secure them. Slots 2 provide additional reinforcement of building components not only with concrete, fiberglass, mortar, but also with reinforcing materials 3, which are poured into the slots

2. (see Figs. 3, 4). Reinforcing materials 3 may be optionally metallic, non-metallic. In addition, non-metallic anchors 4 are used to reinforce the reinforcing material of the opposing grooves 2 (see Fig. 5). In this way, first anchors 4 are inserted horizontally into the building components, for example into the walls 1, and then reinforcing materials 3 are inserted into the grooves 2 through the anchor holes 5 (see Figs. 3, 4). The anchors 4 may be joined to the reinforcing material 3 by a demountable joint. Anchors 4 can also be used when not reinforcing materials are used in the grooves 2. The anchors 4 are then inserted only horizontally into the structural member, which also affects the reinforcement of the structural member (see Fig. 6). The walls 1 (see Fig. 2) drill holes 6 for insertion of a good indoor microclimate, insert non-metallic cylindrical parts and fill them with an insulating material which is moisture-resistant but air-permeable. For example, it uses the name Styronit, manufactured by Styronit, as insulation material. Co., Turkey. This insulating material has good thermal and hygroscopic properties and is close to a natural material felt which also has good thermal and hygroscopic properties. For joining the load-bearing structures, the retaining walls 1 to the foundation 7, they drill vertical channels for the insertion of reinforcing material - reinforcing bars (optionally metal, non-metallic), which are mounted vertically in the base 7 (see Fig. 7, Fig. 8).

The foundation of the structure 7 is cut from a polystyrene foam block in the shape of a trough. In this form, the base 7 optionally inserts metal, non-metal reinforcing materials 8, and vertically inserts reinforcing bars 9 (optionally metal, non-metallic) for entry into wall vertical channels (see Fig. 7). If the project provides for an excavation of underground cavities 10, drill holes 7 in the horizontal plane. These openings are required for penetration of reinforcement bars 9 in the direction of the underground cavities 10 and for their vertical anchoring in the underground cavities 10 (see Fig. 8). The arrangement of the underground cavities 10 and the foundation 7 must be no more than 3 m apart. Reinforcing materials, reinforcement bars are reinforced with concrete, reinforced with fiberglass, mortar. With the right soil, there may be no excavation, and if the project is excavated, the underground cavities, their depth, size will depend on the soil characteristics and the depth of the foundation cold. The excavation is dug deeper than that of the cold zone.

At the construction site, drainage work on the leveled and compacted ground surface, excavation of excavation - underground cavities 10, if provided by the project, starts at the foundation 7. Assembles load-bearing structures, walls 1, then stairways, roof overlays. The walls are interconnected by gluing with polyurethane glue, specially designed for polystyrene foam. Building elements including walls 1 are lined with concrete, fiberglass, mortar 11 on the inside and outside. Thickness of concrete layer is 1-1.5 cm. In this way, the construction elements of polystyrene foam are reliably reinforced. The concrete is plastered and then finished.

The claimed method of building construction using polystyrene foam construction elements is reliable, simple and does not require high labor costs. In addition, the construction (number of storeys) and interior installation options are wide. Any routing of communication pipelines (heating system, plumbing, sewerage) or electrical installation is not a problem since the required cavities are easily cut in the polystyrene foam construction elements. The implementation of the claimed method does not require highly qualified personnel, as the construction elements of the building and their preparation for installation are easy. Construction structural elements can be manufactured not only at the factory but also at the construction site. The well-constructed building is robust (1 sq. M of polystyrene foam construction element can withstand 15-35 t weight), fire and seismic waves, has good thermal insulation, hygroscopic properties, alkali resistant, provides an appropriate microclimate in the premises, saving energy on heating. Furthermore, the most important thing is that simple and inexpensive means implement a quick and high-quality technical solution (see Fig. 9).

Claims (7)

DEFINITION OF INVENTION 1. The method of construction of buildings using polystyrene foam building elements, characterized in that the joining of building elements - load-bearing structures, retaining walls, to the foundation, which by means of a slit-shaped trough, forms vertical channels in the lower part of retaining walls and joints rods vertically fixed in the foundation together with other reinforcing materials by pouring concrete, reinforced fiberglass, mortar; in addition, optionally transverse, longitudinal grooves in the structural members having a cross-sectional area in the form of a rectangular trapezoidal geometric shape and overlaying them with concrete, reinforced with fiberglass; moreover, it drills transverse holes in the walls, into which non-metallic cylindrical parts are inserted and filled with insulating material which is permeable to air and traps moisture. 2. The method of constructing a building according to claim 1, characterized in that the foundation is excavated in a horizontal plane, where the project provides for excavation of underground cavities before concrete and reinforced fiberglass, mortar, drilling holes, and reinforcing bars through they are placed vertically in underground cavities with a center distance of no more than 3 m and whose arrangement corresponds to that of the foundation holes. 3. A method of constructing buildings according to claim 1, characterized in that reinforcing materials are injected into the grooves of the structural elements of the building and filled with mortar of concrete reinforced with fiberglass. 4. A method of constructing buildings according to claim 3, wherein the reinforcing materials introduced into the opposing grooves are reinforced with non-metallic anchors, after which the reinforcing materials have been inserted horizontally into the walls and through the openings at their ends. 5. A method of constructing buildings according to claim 1, characterized in that anchors are inserted between the grooves of the opposing structural elements by inserting them horizontally. 6. The method of building construction according to claims 1, 2, 3, characterized in that metal, non-metal: reinforcing bars and reinforcing materials are optionally used for reinforcing building structural elements, joining load-bearing structures, retaining walls to the foundation. 7. The method of constructing buildings according to claim 4, characterized in that the reinforcing materials inserted into the grooves are joined to the anchors by a demountable joint.