RU2055212C1 - Method for making hydraulic insulation of underground construction - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: making hydraulic insulation includes fastening to drift surface or temporal timbering through fastener parts of non-woven material strip, creation of water-proof coating, and making bearing lining. Water-proof coating is made of two layers of polymeric composition. The first layer is applied directly over the strip. On permeating the composition into the non- woven material to the predetermined depth, and after polymerization the second layer of polymeric material is applied over the first one. EFFECT: high reliability. 6 cl, 3 dwg

Description

 The invention relates to the construction and can be used in the construction of waterproofing lining of underground chambers and tunnels, which are built in a closed way.

 A known method of erecting waterproofing of an underground structure, including attaching to the surface of the excavation or temporary lining by means of fasteners of panels of nonwoven material, creating a waterproof coating by suspending the same fasteners of waterproof panels of polymeric materials and welding them along the edges and erecting a lining (1) . As a protective leveling layer between the waterproofing itself and the surface of the excavation or temporary lining, drainage panels made of nonwoven material are used, and as a waterproofing structure, rolled material in the form of specially plasticized polymer films (PVC polyvinyl chloride or PE polyethylene) with a tensile strength of at least 10 MPa at elongation at break of at least 300% To ensure a reliable double weld of joined films, a special, automatically controlled my electronically welding equipment, as well as special equipment for quality control of welded joints. In the presence of irregularities in the surface of the mine or spray concrete support (i.e., under normal mining conditions) in practice it is difficult to ensure the guaranteed quality of welds, which drastically reduces the reliability of waterproofing and, therefore, is a serious drawback of the known method.

 Closest to the proposed is a method of erecting waterproofing of an underground structure, including attaching a non-woven sheet material to an insulated surface and creating a waterproof coating of two layers of the polymer composition, the first layer being applied directly to the non-woven sheet material, and after it penetrates the non-woven sheet material, applied to him the second layer of the polymer composition (2).

 The disadvantage of this prototype method is the low reliability of the waterproofing.

 The purpose of the invention is a significant improvement in the tightness of waterproofing.

 The goal is achieved by the fact that in the method of erecting waterproofing of an underground structure, including attaching a non-woven sheet material to an insulated surface and creating a waterproof coating of two layers of a polymer composition, the first layer is applied directly to the non-woven sheet material, and after it penetrates the non-woven sheet material the second layer of the polymer composition, the non-woven sheet material is fastened using fasteners, the optimal penetration depth is set ervogo resin composition layer in the nonwoven sheet material and the second layer of the polymeric composition is applied after the penetration of the polymer composition of the first layer by a predetermined amount and after polymerization.

In a specific example of the method, the primary and secondary layers can be applied to the nonwoven fabric under stationary conditions on the day surface before hanging the panels in the underground mine, or after hanging them directly in the underground mine. It is also possible to apply the primary layer to the panels in stationary conditions prior to their suspension in the underground mine, and the secondary layer in the underground mine after suspension of the panels. In this case, the primary layer of the polymer composition is made in a contrasting color with respect to the color of the secondary layer and the color of the non-woven material, and needle-punched fabric with a surface density of at least 400 g / m ^{2 is} used as the non-woven material.

 In FIG. 1 shows a diagram of a constructed underground structure; in Fig.2 node I in Fig.1 (cross section of the waterproofing of an underground structure); in FIG. 3, view A in FIG. 1 (side view of fixed panels of nonwoven fabric).

 The method is as follows.

 Initially, the next drilling of underground mine 1 is carried out, and then, if necessary, a temporary support 2 of one type or another, for example, from spray concrete, is erected, depending on the chosen technology for the construction of the underground structure. There are three main options for the sequence of stages of further work.

Variant 1. To create a waterproof coating under stationary conditions on the day surface, on the panels 3 of nonwoven material, a primary layer 4 of the polymer composition is previously sprayed. In this case, a needle-punched fabric, for example, from chemical waste with a surface density of 400 g / m ² or a needle-punched fabric from white dacron waste with a surface density of 600 g / m ^{2, is} used as a nonwoven material.

 The value of the surface density of the nonwoven material determines the speed of its impregnation of the sprayed polymer compositions. Therefore, it is necessary to select a value of surface density that will ensure the penetration of the polymer composition into the non-woven material to a predetermined thickness in order to ensure water drainage through the non-impregnated layer of the material and at the same time the waterproofing properties of the material.

As practice shows, material with a surface density of less than 400 gm ^{2 is} very loose. Therefore, when a polymer composition is applied to it, it is soaked through and through very quickly. And such material cannot provide water drainage. As the surface density increases, the penetration of the polymer composition into the nonwoven material slows down and a waterproofing film forms on its surface. Therefore, the choice of non-woven material is carried out in each case, depending on the required thickness of the waterproofing film.

 The required penetration thickness of the polymer composition is also determined in each case, depending on the actual physical and chemical operating conditions of the underground structure (for example, water pressure, its alkalinity, etc.).

After the formation of a given thickness of the primary layer 4 (for example, half the thickness of the nonwoven material, but not less than 1 mm), it is necessary to withstand this layer before it polymerizes to form a continuous waterproofing film whose surface coincides with the surface of the nonwoven material. To ensure the waterproofing properties of the film, the degree of polymerization must be at least 50%
After polymerization, a non-woven material with an absorbed primary layer 4 of the polymer composition is applied by spraying or by any other known method, the secondary layer 5 of the polymer composition, painted in a contrast color with respect to the color of the non-woven material and the color of the primary layer so that the total thickness of the two layers of polymer composition was at least 2 mm. The contrast of these colors is explained by the convenience of visual control. The panels prepared in this way are fastened to the rocky surface of the excavation 1 or to the surface of the temporary lining 2 (in this particular case, with an overlap, but another option can be developed) using fasteners in the form of steel dowels 6 and washers 7. After fixing, they are applied by spraying the same polymer composition at the joints of the panels and the places of their attachment to the surface of the mine or temporary support. Immediately upon completion of the waterproofing works, monolithic concrete 8 is laid over the length of the concrete casting, the supporting lining is erected 9. In this case, the waterproofing is sandwiched between two layers of concrete (or concrete and rock mass). This circumstance contributes to the long-term preservation of waterproofing, favorably affects the static work of the structure.

 Variant 2. The primary layer 4 of the polymer composition is applied to the panels 3 of nonwoven material under stationary conditions on the day surface. The panels thus prepared are attached to the rocky surface of the excavation 1 or to the surface of the temporary lining 2 using fasteners (dowels 6 and washers 7). A secondary layer 5 of a polymer composition of a contrasting color with respect to the color of the primary layer and the color of the nonwoven material is applied by spraying on glued panels, paying particular attention to the reliability of coating of the joints of the panels. At the end of the waterproofing works, the gripper is concreted with the construction of the bearing lining.

 Variant 3. The initial stage of the waterproofing device is the fastening of untreated panels 3 of non-woven material to the surface of the excavation or temporary support 2 using fasteners (6 and 7). The second stage is the application of the primary layer 4 of the polymer composition in the tunnel and holding until polymerization. The third stage is the application of the secondary layer 5 of the polymer composition of a contrasting color with respect to the color of the primary layer to the color of the nonwoven fabric of the panels. The fourth stage is the concreting of the bearing lining.

 I variant of the method is used in any conditions, including with abundant water occurrences in mine workings. It is characterized by the most favorable working regime in sanitary-hygienic and environmental relations.

 The second variant of the method is used in conditions of limited water manifestations. The operating mode requires a greater amount of measures to ensure the safety of workers and environmental protection.

 III variant of the method is used in the absence of water occurrences in underground workings. It requires the greatest attention to ensuring the safety of workers and environmental safety. However, its undoubted advantage is the unified technology of waterproofing works when driving excavations without the need to organize a workshop for pre-processing non-woven panels on the day surface.

 Due to the draining properties of the non-woven fabric panels, the hydrostatic pressure of the filter from the array does not develop into water production, which avoids separation of the waterproofing from the surface of the arch and the walls to which it is attached, increasing its reliability. In addition, applying a waterproof coating of the polymer composition directly to the base in the form of panels of non-woven material provides higher adhesion of the waterproof layer with the specified material and allows you to remove the need for special preparation of the working surface or temporary support.

Claims (6)

 1. METHOD FOR CONSTRUCTING HYDROINSULATION OF UNDERGROUND CONSTRUCTION, including attaching to the insulated surface of the nonwoven sheet material and creating a waterproof coating of two layers of the polymer composition, the first layer being applied directly to the nonwoven sheet material, and after it penetrates the nonwoven sheet material, a second layer is applied to it polymer composition, characterized in that the mounting of the nonwoven sheet material is carried out using fasteners, set the optimum penetration depth Ia of the first resin composition layer in the nonwoven sheet material and the second layer of the polymeric composition is applied after the penetration of the polymer composition of the first layer by a predetermined amount and after polymerization.  2. The method according to claim 1, characterized in that the primary and secondary layers are applied to the nonwoven material under stationary conditions until the panels are suspended in the underground mine.  3. The method according to claim 1, characterized in that the primary layer is applied to the nonwoven material under stationary conditions until the panels are suspended in the underground mine, and the secondary layer is applied in the underground mine after the panels are suspended with the primary layer applied thereon.  4. The method according to claim 1, characterized in that the primary and secondary layers are applied directly in the underground mine to pre-suspended panels.  5. The method according to claim 1, characterized in that the primary layer of the polymer composition is made in a contrasting color with respect to the color of the nonwoven material and with respect to the color of the secondary layer of the polymer composition. 6. The method according to claims 1 to 5, characterized in that the needle-punched fabric with a surface density of at least 400 g / m ^{2 is} used as a nonwoven material.

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