SU1122027A1 - Method and apparatus for constructing water pool surfacing - Google Patents

Abstract

1. A method of erecting clothing of water bodies mainly from monolithic beetles, including preparing the base, concreting the coating and setting up the expansion joint by laying a joint element, characterized in that, in order to simplify the construction of clothing and increase the reliability of work, the laying of the joint forming element is carried out on a prepared base before concreting the coating. 2. A device for erecting clothing of water bodies, predominantly of monolithic concrete, including a joint-forming element in the form of a flexible tape and sealing elements, characterized in that the flexible profile tape is made in its lower peripheral part of the flat, and the vertical part of the joint-forming element is placed with a reverse ( L side of the tape at its center, while sealing elements are executed in the form of anchor ribs and are formed on both sides of the joint element.

Description

The invention relates to protective clothing devices, mainly channels and ponds of monolithic concrete and can be used in hydraulic engineering. There is a method of erection of clothes of reservoirs, in which the protective clothing of canals and reservoirs of monolithic concrete is erected as follows. In an open section of the canal, a profiler prepares the surface of the slopes and the bottom of the canals and reservoirs. After this, the installation of monolithic concrete, which is usually carried out by means of a concrete-laying machine, is started. Immediately after the concrete has been laid in the cladding body, expansion joints are created with a groove cutter (gaps 20 mm wide are cut) and then sealed. One of the drawbacks of this method of erecting monolithic linings of reservoirs is the very significant difficulty in creating the required number of seams (crevices) and their reliable sealing. Cutting the gaps under the seams is very complex in its design, energy-intensive in operation, the tooling is a seam groove. For sealing (filling) the gaps, various sealing compounds (sealants) are used, for the creation and introduction of which into the cavity of the cavity, self-contained as well as very complex devices — seams are used. Practice has shown that practically all seams of monolithic linings constructed with the use of sealing compounds are not reliable in operation. Under the influence of such a complex combination of negative natural factors, in which the protective linings of canals and reservoirs work, these seams fail, sealants lose their adhesive properties and elasticity over time. The closest in technical essence to the claimed method is the erection of clothing of reservoirs, mainly from monolithic concrete, including the preparation of the base, concreting of the coating and the installation of a movement joint by laying a joint-forming element. At the same time, in the open section of the channel, the surface of the slopes and the bottom of the reservoirs is prepared with a special excavator-profiler, whereby the concrete paver is used to place raw concrete at the base of the clothes, then using a special device into the freshly-laid concrete mix the shvoobrazuyushchy element in the form of a cross-shaped profile tape of the Const type is laid. The height of the cross-shaped profile tape must be at least 1/3 - 1/2 of the thickness of the lining. However, this method is rather laborious. A device for implementation is known. lazy way of erection of clothes of reservoirs, mainly from monolithic concrete, including a joint-forming element in the form of a flexible profile tape and sealing elements. In this device, the profile bending tape is made cruciform. However, this device is very energy-intensive and not reliable enough in operation. In addition, mortgages are cross-shaped; on bending the tape ensures the seam to work under the condition that there is no deformation in the body of the clothes or at. their availability, but in magnitude not exceeding 10-15 mm. When more than 10-15 mm deformations appear in the body of the body, this seam will completely fail, the cross-shaped tape in its horizontal part will break and very large water leaks will occur along the gap. The aim of the invention is to simplify the construction of clothing and increase reliability. The goal in part of the method is achieved by laying the joint element on a prepared substrate prior to concreting the coating. In the part of the device, the goal is achieved by the fact that the flexible profile tape is made in its lower peripheral part flat, and the vertical part of the tie-forming element is placed on the reverse side of the tape along its center, while the sealing elements are made in the form of anchor ribs and are formed on both sides of the tie-forming, th element.

Figure 1 shows a longitudinal section along the expansion joint; in figure 2 the same, in the presence of large subsidence deformations of soils; in FIG. 3 the same, for moderately deformable soil bases (with deformations of 20-40 mm); Fig. 4 is a longitudinal section through the seam in the presence of sagging deformations (the variant in which the sealing elements are placed in the body of the coating within the limits of -shaped tapes); in FIG. 3, the same with medium deformed bases.

The deformation seam with the aid of the claimed device is formed by laying the coating onto the prepared soil one — the base of the profiled tape 1, in the center of which is the vertical part of the joint forming element in the form of a flexible plate 2, on both sides of which are anchor ribs 3 that are monolithic in the body coating 4, a shrinkage crack 5 is formed above the plate 2. Along the edges in the peripheral part, the tape is pinned to the base with beads on both sides. If there are highly deformable soils at the base (subsidence, heaving, swelling, etc.) (figure 2) as a schvoobrazuyuschego element in the center of the flexible profiled tape 1, an A-shape is performed on the fold 7, which weakens the cross section of the cladding body in which a shrinkage crack is formed and at the same time fulfills the function of a deformation compensator, ensures the tightness of the seam during deformations (mutual movements) of individual Ironing blocks formed by cracking, double the amount of its height. However, if there are poorly and moderately deformable soils at the base of the reservoir, when the deformations of the lining are not so significant (do not exceed 20-40 mm) (FIG. 3), the shvoobrazuyuschy element in the center of the flexible profiled tape is made combined: rigid nnfictiny 2 and L-shaped folds at the base. The size of the L-shaped fold is prescribed only on the basis of the magnitude of the expected deformations in the body of concrete clothing and it usually will not exceed 20–30 mm in height. In addition to the above-mentioned forms of the sintering element, the latter can also be made in the form of an L-shaped tape 8, on the outer side of the facets of which sealing elements are created in the form of anchors 9, which are monolithic into the coating body, and in the lower part of the L-shaped tape there are horizontal stops 10, by means of which with the help of the studs 6 all the L-shaped tape is fixed (fixed) on the prepared soil foundation. The reliability of the specified L-shaped tape will increase when a rigid-elastic plate is created in its upper part, as a result of which the height of the A-shaped tape can be significantly (up to 2-3 times) reduced and be no more than 30-40 mm in size. .

The construction of clothing ponds by the claimed method is carried out as follows.

On the ground base prepared with the help of profiling, mark the places of passage of the expansion joints, the distance between which is determined by calculation or experimental means and which usually takes 3-5 m, on which the spinging elements are laid as flat in the lower part of the flexible profiled tape 1, the center of which is a vertical elastic-rigid plate 2, on both sides of which are anchors. The flexible bending tape 1 is pinned to the base every 1.5-2.0 m on both sides by the pins 6, and then they start concreting the coating. In the process of solidification of the laid concrete mix, a center crack 5 (slit) is formed in the center of the plate 2, by means of which temperature stresses will be removed in the body of the clothes during operation. The expansion joints created using the described shvoobrazuyuschikh elements work as follows. When the reservoir is filled, water will flow into the gap formed at the location of the joint-forming element, but it will not be able to seep into the ground, since the anchoring ribs located on both sides of the body 2 that are monolithic to the cladding will prevent this. With the deformations of the clothes of the reservoirs (mutual movements of the blocks), the scarring element in one fold and the fold at the base of the vertical rigid-elastic plate 2 will expand and thereby ensure the tightness of the expansion joint. The permissible amount of deformations of monolithic clothing, at which the water-tightness of the expansion joint will remain water, will be twice the height of the fold. For example, for a channel with a filling depth of 0 m, when found at the base, light loams belonging to the P-th category in terms of deformability, the thickness of the concrete floor is 200 mm. On the ground, a section of the channel with a soil shortage of 200-300 mm is opened by means of scrappers, after which it is refined and the surface is reinforced by a profiler of the type, after which flexible profiled strips 1 are placed every 3.5 m, in the center of which Sewing element 100 mm high in the form of a vertical rigid-elastic plate 2, at the base of which there is a fold 20 mm high, which will fully ensure the workability of clothes from deformation Nij ground base on both sides of the plate 2 are arranged on two rows of anchoring ribs spaced 30 mm from each other and from the base shvoobrazuyuschego element. The total width of the profile tape will be 170 mm. The profile tapes on both sides with pin 6 in mm are pinned to the base every 1.5 m, then proceed to concreting of the coating by means of concrete paver D-655B. The clothing of the canal made in this way will ensure its long-term and reliable operation. The proposed method of erection of clothes of reservoirs and the device for its implementation will have a number of advantages over the known solutions. It does not require for its creation complex, energy-intensive and expensive mechanisms, it simplifies the existing technology of building monolithic clothes of reservoirs, which will have higher reliability of operation, and the use of the proposed schuobrazuyuschih elements will ensure the tightness of the seam for various deformations x monolithic clothes, the size of which can be regulated within considerable limits The use of the claimed invention will significantly simplify and cheapen the creation of monolithic clothes of reservoirs with the help of existing means of mechanization (there is no need for energy-intensive and difficult to manufacture laying device profile tape), will significantly increase the anti-filtration performance of clothes, will allow more widely (and and fully translate) and effectively use the mechanized construction of monolithic clothes of ponds in this way by machines ennogo production.

Claims (2)

1. A method of erecting clothes of ponds mainly from monolithic betoy, including preparing the base, concrete coating and the device of the expansion joint by laying a seam-forming element, characterized in that, in order to simplify the technology of erecting clothes and increasing the reliability of work, laying the seam-forming element is carried out on a prepared base up to concreting coatings. 2. A device for the construction of clothes of ponds mainly of monolithic concrete, including a seam-forming element in the form of a flexible profile tape and sealing elements, characterized in that the flexible profile tape is made in its lower peripheral part flat, and the vertical part of the seam-forming element is placed with the reverse side of the tape in its center, while the sealing elements are made in the form of anchor ribs and are formed on both sides of the seam-forming element. £