SU1067130A1 - Counter-filtration coating for hydraulic structures - Google Patents

Abstract

1. ANTI-FILTER COATING OF HYDROTECHNICAL CONSTRUCTIONS, containing a screen of a film with jiepxHHM and lower protective layers, individual / p-6. Of course, in order to improve the reliability and durability of the coating, the lower protective layer is made of self-curing foamed polystyrene and reinforced film without a seal, and the upper layer is made of waterproof fabric, stitched and glued at the seams, and the thickness of the polystyrene foam layer is determined of the dependence t For where t is the foam polymer layer; a is the average height of the protrusion of the base of the coating. 2. The anti-filtration coating according to Clause 1, of which is that it is provided with elastic kapron straps, fixed at the bottom of the reservoir and in the upper part with o /. /

Description

The invention relates to hydrotechnical and irrigation and land reclamation construction and can be applied to hydraulic erection of large plotsadi steep slopes of reservoirs, canals with a rough base and significant pressure. The antifiltration coating of hydraulic structures is known, which contains a screen of film with upper and lower fixed layers made of a collection of reinforced concrete slabs 1 j. The disadvantage of these structures in addition to the high cost is the use of concrete in combination with film, which leads to a violation of its integrity. It is also known to have an antifiltration coating of hydraulic structures containing sisran from a film with upper layers and lower layers of protective layers. Protective layers are made of clay concrete in which stones are pressed into the clay with the aid of a vibrator f27. The disadvantage of this coating. high cost of concrete protection, laboriousness (especially for waterproofing vertical walls and narrow scope of application - concrete containers. Applying cream-shaped clay over the film with vertical and 1-fuzzy surfaces cannot protect the film from damage by concrete, as it is obvious) it will inevitably crawl along the film, 1 for example, from a steep slope, slope, bare film, and the concrete will damage it. Therefore, the implementation of this waterproofing may not be appropriate for the steep slopes of a complex profile in the presence of a rough base with a protrusion of more than 10-25 mm. In addition, it does not perform the function of hydroprotection, therefore it is also too expensive and time consuming. The purpose of the invention is to increase the reliability and durability of the coating. This goal is distorted by the fact that in an impervious coating the bottom layer is made of self-curing foamed pestopolymer and reinforced film without seams, and the top layer is made of waterproof fabric, sit and glued at the seams, and the thickness of the foam polymer layer is determined from the f 3 dependence where t is the thickness of the foam polymer layer; a - the average height of the protrusion base. - vani coating. In addition, the coating can be equipped with an elastic caprone from the traces, which are deposited on the bottom of the reservoir and in the upper part of the slope. FIG. 1 depicts the described coating; in fig. 2 shows section A-A in FIG. 1. A multi-layer coating including a waterproof film in two layers with welded willows 1, a lower protective layer from foam polymer 2, additional protection from an attached film without seams 3, an upper protective layer from waterproof tape 4, guyed flexible nylon straps 5, stone prigruek b. Polyurethane is used as the foam polymer. The barrier coating is used as follows. From the bottom, the integrity of the film provides foamed polymer layer 2, with a thickness of three times the average height of the projections. This parameter is applied taking into account the safety factor for brittle materials with their static loading. To increase the durability of the preparation, an additional reinforced film 3 without willows with overlap edges (5-10 cm) is provided over the foam polymer layer. In the absence of deformations, the multilayer Anti-filtration stay with two layers of waterproof film with a thickness of more than 0.5 mm with welded willows and an upper protective layer of rubberized canvas fabric 4 with stitched and taped seams is fixed on the steep slope of the complex profile by flexible hots. In the presence of deformations and large pressures, the coating assumes the shape of a slope and, due to the elasticity of the materials and the presence of flexible supports, its integrity will be preserved (in case of significant deformations, there are additionally known cushion folds}. Weldments of panels of enlarged modules, which, when rolled up, are delivered to the construction site, are spread out on the surface from bottom to top (along the slope y, pretreated foamed composition of ester, silicone liquid, α-dimethylbenzylamine, water, and toluene-isocyanate. Similarly, stitch and sew the canvas fabric on the construction site, mini field seams are sewn and glued. at the dam, they are buried in a concrete beam, and the upper edge with flexible ropes through guy cables 5 along the top of the slope. The combination of high-strength polymeric materials provides protection for the film, retains the flexibility of the coating, which prevents swelling of the loose slope, landslide effects, provides the anti-seepage effect of hydroprotection, and the stone layer additionally ensures the stability of the coating. Using a flexible anti-coating surface instead of a projected -concrete wall in the rock with an additional asphalt-concrete diaphragm of the base object erected by the underground method will significantly reduce costs (4 times the laboriousness of the work, protect the loose slope from water saturation and volunteering and save at least 1 rub. And from one facility).

Claims (2)

1. ANTI-FILTRATION COVERING OF HYDROTECHNICAL STRUCTURES, comprising a screen made of a film with ⁷ upper and lower protective layers, due to the fact that, for the purpose of reliability and durability, the lower protective layer is highly cured foam. In order to increase the coverage, it is full of expanded polystyrene and reinforced film without bumps, and the top layer is made of waterproof fabric ... and sewn and glued at the seams, and the thickness of the foam is determined from the dependence t = - the thickness of the foam layer; - the average height of the protrusion of the base of the coating. Antifiltration coating 1, characterized in that it is equipped with elastic $ nylon braces fixed at the bottom of the reservoir and in the upper part of the slope; where t a 2. under item