RU68547U1 - ELEMENT FOR GEOTECHNICAL CONSTRUCTION - Google Patents

Abstract

Purpose: for the construction of underground structures, foundations and foundations. Essence. The element for geotechnical construction is made in the form of an extended sleeve of polymer fabric filled with a filler. For a waterproofing device, the element is made of impervious polymer fabric and a consistent mixture. For reinforcing the soil and supporting and enclosing structures, the element is made of semipermeable polypropylene fabric and fine-grained concrete mixture. 9 zpf; 10 ill.

Description

The utility model relates to building materials, namely to elements for the construction of mainly underground structures, foundations and foundations.

A known element for the construction of underground structures, namely, for waterproofing the foundation, which is a mat made of interconnected outer layers of polymer fabric and the middle layer of bentonite clay / 1 /.

The disadvantages of this element is the inability to use for the construction of various geotechnical structures and structures such as retaining walls, anchors and reinforcing layers in the ground.

The technical task is to create a universal element for the geotechnical construction of underground structures for general purposes and reduce its cost and simplify installation work.

The problem is solved in such a way that the element for geotechnical construction, including the outer layers of synthetic fabric and the inner layer of filler, according to a utility model, the element is made in the form of an extended sleeve of polymer fabric filled with filler. The sleeve can be made of polymer fabric reinforced with fiberglass mesh. At the same time, for the construction of underground walling and load-bearing structures, the sleeve is made of a semi-permeable polypropylene fabric and filled with fine-grained concrete or filled with fine-grained concrete reinforced with rod, wire or fiber reinforcement. For the construction of building envelopes and supporting structures, the sleeve is filled with lightweight concrete, for example

polystyrene concrete. For waterproofing underground structures, the sleeve is made of impermeable polymer fabric and filled with a consistent mixture, for example, clay paste or bitumen mastic. For the drainage device, the sleeve is made of a semi-permeable polypropylene fabric and filled with drainage material, such as expanded clay sand. The sleeve can be made in the form of a rolled fabric. Or the sleeve is made of several layers of fabric of different permeability. The element has a cross section in the form of an elongated figure, or a circle, or a rectangle, or a brand, or a segment.

The proposed element differs from the known one in that the outer layer is made in the form of an extended sleeve made of a polymer fabric, for example polypropylene, filled with a filler. Moreover, depending on the type of filler, the element has various properties and can perform different functions. Aggregates - concrete mix, consistent mixture or drainage material, interacting with a polymer permeable, semi-permeable or impermeable film provide the element for geotechnical construction with desired properties depending on the functional purpose of the underground fence, vertical or horizontal, including recessed. The polymer film can be used in various forms.

In the case when the element is made of a semi-permeable polymer fabric and filled with fine-grained concrete reinforced with rod, wire or fiber reinforcement, the element is used for the installation of supporting and enclosing structures, for example, for fastening retaining walls. When the element is made of impermeable polymer fabric and filled with a grease mixture,

for example, clay paste, bitumen mastic, the element is used for waterproofing underground structures. When an element is made of a semi-permeable polypropylene fabric and filled with drainage material (expanded clay sand), the element is used to construct drainage systems. When an element is made of a semi-permeable polymer fabric and filled with lightweight concrete, such as polystyrene concrete, the building element is used to construct the building envelope of the underground part of the building and the supporting structures. Depending on the tasks and structural design solutions of the underground structure, the sleeve of the building element can be made whole or in the form of a rolled fabric. In this case, the sleeve can be made of several layers of fabric of different permeability, which will provide a given tissue permeability and strength of the outer layer. In addition, depending on the use of the building element, its cross-section may be in the form of a flattened elongated figure of an arbitrary contour (for example, when installing a foundation waterproofing), or a circle, or a rectangle, or a brand, or in the form of a crescent-shaped segment.

The drawing shows an element for geotechnical construction, where in Fig.1 a General view of the element; figure 2 - aa figure 1; figure 3, 4, 5, 6, 7, 8 - variants of the cross section of the element; Fig.9 - waterproofing device of an underground structure; figure 10 - device retaining wall.

The element consists of an outer shell - sleeve 1, made of polymer fabric, for example, of polypropylene TU-8237-012-58584000-05 or reinforced with fiberglass mesh (fiberglass) TS-07-0732-03 / 2, filler 2 and reinforcing elements 3.

In Fig.2, the element for waterproofing the base of the building is made in the form of a sleeve 1 of impermeable polymer fabric with a filler 2 of a consistent mixture (bituminous mastic or clay paste), the section of the element is elongated (flattened) in shape. In Fig. 3, the soil reinforcing element and in Fig. 4, the building envelope element is made in the form of a sleeve 1 of a semipermeable polypropylene fabric, a filler 2 of a fine-grained concrete mixture, and a frame 3, a section of an elongated flattened shape element (Fig. 3) and a rectangle shape (figure 4). In Fig. 5, the pile foundation element is made in the form of a sleeve 1 of a semipermeable fabric with a filler 2 of concrete mixture and wire reinforcement 3, the cross-section of the element is in the form of a circle. In Fig.6, the bearing building element is made in the form of a sleeve 1 of a semipermeable polypropylene fabric, a filler 2 of a polystyrene concrete mixture, and rod reinforcement 3, a section of the element in the shape of a brand. In Fig.7, the drainage system element is made in the form of a sleeve 1 of two layers of polypropylene fabric, different permeability, filler 2 made of expanded clay sand, the cross-section of the element is in the shape of a circle. In Fig. 8, the element is made in the form of a sleeve 1 from a rolled up polymer fabric, and a filler 2 from a fine-grained concrete mixture.

Examples of manufacturing elements for geotechnical construction.

Example 1. Elements for waterproofing the base of a building are made as follows (see Fig. 9).

A leveling layer 5 is laid on the soil base 4 of the excavated excavation pit 5. A waterproofing membrane is formed 6. On the leveling layer 5, sleeve layers are laid out in dense rows

elements 1. The outlets of the sleeves are placed outside the foundation. Then, a protective concrete layer 7 is formed from above and reinforcing frames 8 are mounted for concreting the foundation 9 and the enclosing elements 10 of the underground part of the structure. After that, a consistent mixture is injected into the cavity of the sleeve elements 1 — bitumen mastic, which filling the sleeve forms an element with a section of an irregular, flattened elongated shape, adhering tightly to the base and enclosing elements. If densely laid building elements are fastened together, if necessary, a waterproofing membrane 6 is formed. Such a waterproofing membrane provides high protection against groundwater, and the use of a consistent mixture of tubular elements as a filler increases its deformability during foundation precipitation without compromising waterproofing properties.

Example 2. Elements in the device retaining wall 11 are made as follows (see figure 10). Sleeves 1 made of semipermeable polypropylene fabric filled with filler 2 of fine-grained concrete are laid in several rows (see Fig. 10). To ensure lateral stability of the wall between the rows, anchor elements 12 are made of semipermeable polypropylene fabric filled with a filler 2 of fine-grained concrete. Filler 2, when filling the sleeve 1 under pressure, spreads and partially penetrates into the small pores of the fabric of the sleeve, which ensures the adhesion of the element to the soil base and to each other.

To increase the rigidity of the wall to bend, and the anchor elements to stretch inside the sleeves, a flat or three-dimensional reinforcing frame made of metal or polymer is placed

strand or bar reinforcement. The cross section of the anchor element 11 may be variable, depending on the ground conditions and the current efforts.

Information sources.

1. Scherbina E.V. Geosynthetics in construction, M Stroyizdat, 2003, pp. 17-35.

Claims (10)

1. An element for geotechnical construction, including an outer layer of synthetic fabric and an inner layer of filler, characterized in that the element is made in the form of an extended sleeve of polymer fabric filled with filler. 2. The element according to claim 1, characterized in that the sleeve is made of a polymer fabric reinforced with fiberglass mesh. 3. The element according to claim 1 or 2, characterized in that for the construction of underground walling and load-bearing structures, the sleeve is made of a semi-permeable polypropylene fabric and filled with fine-grained concrete. 4. The element according to claim 3, characterized in that the sleeve is filled with fine-grained concrete reinforced with rod, wire or fiber reinforcement. 5. The element according to claim 1, characterized in that for the construction of building envelopes and supporting structures of the building, the sleeve is filled with lightweight concrete, for example polystyrene concrete. 6. The element according to claim 1 or 2, characterized in that for the waterproofing of underground structures, the sleeve is made of impermeable polymer fabric and filled with a consistent mixture, for example, clay paste or bitumen mastic. 7. The element according to claim 1 or 2, characterized in that for the drainage device the sleeve is made of a semi-permeable polypropylene fabric and filled with drainage material, for example expanded clay sand. 8. The element according to claim 1, characterized in that the sleeve is made in the form of a rolled fabric. 9. The element according to claim 1, characterized in that the sleeve is made of several layers of fabric of different permeability. 10. The element according to claim 1, characterized in that it has a cross section in the form of an elongated figure, or circle, or rectangle, or brand, or segment.