RU2592104C1 - Coating slopes - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydrotechnical construction and can be used for protection against action of wind waves and to prevent wash-off of shores of lakes and rivers and water reservoirs, slopes of soil dams and channels, as well as other hydraulic structures. Coating slopes includes concrete blocks formed by injection of self-sealing concrete mixture through slots in space sewn to each other along perimeter of water-permeable webs, having flexible vertical links in form of woven tape with width of not more than 5 mm and located between upper and lower web. Flexible vertical links are arranged via through-sewing of said webs by tapes, provide required shape to concrete blocks and prevent breaking of webs under pressure of pumped concrete. Between concrete blocks there are crosspieces, having vertical links and filtering elements are in crosspieces at corners of concrete blocks. Coating is additionally equipped with flexible inclined links, internal reinforcing elements, damping layers and filtering web made from permeable material. Each flexible inclined link is connected by one end with top web at point of connection of flexible vertical link, and other end to bottom web at point of connection of adjacent flexible vertical link. Internal reinforcing elements in form of flexible ropes are arranged inside body of each concrete block between flexible vertical links and pass along whole length of coating slope. Damping layer from elastic porous material in form of flexible webs are arranged under concrete blocks without overlapping filtering elements and crosspieces and attached to filtration web, located on surface of protected slope.

EFFECT: technical result consists in improvement of reliability of coating slopes and efficiency.

1 cl, 3 dwg

Description

The invention relates to the field of hydraulic engineering and can be used to protect against wind waves and to prevent erosion of the shores of lakes, rivers, reservoirs, slopes of soil dams and canals, as well as other hydraulic structures.

Known cover slopes (Patent No. 21269635, Russian Federation, IPC ЕВВ 3/12. Universal flexible protective concrete coating / V.N. Latartsev, V.I. Birkin, V.I. Lykov, A.A. Shvetsov. Applicant and patent holder - Closed Joint-Stock Company Underwater Engineering Works “Peter” - No. 98112000/13; application. 02.07.1998; publ. 27.04.1999) [1]. A known device includes blocks and cables. Moreover, the blocks are made of concrete, and cables connect the blocks to each other.

It is also known to cover slopes (Patent No. 1298292, Russian Federation, IPC ЕВВ 3/12. Coverage of slopes of a hydraulic structure / V. M. Lyatcher, A. T. Lee, I. N. Ivaschenko. Applicant and patent holder - Hydroproject named after S. J. Zhuk - No. 3893166 / 29-15; application. 12.05.85; publ. 23.03.87) [2]. A known device includes blocks, cables, a filter element and a damping layer. The blocks are made of concrete, which absorb external loads and thereby protect the slope from mechanical damage. Cables connect blocks to each other and prevent their displacement relative to each other. The filter element is made in the form of a mat and serves to relieve filtering pressure. The damping layer is made in the form of plates of a viscoplastic material, plays the role of damping elements, which facilitates the operation of the blocks due to the perception of part of the external dynamic loads by this layer.

The disadvantages of these known devices are low technology, high complexity and cost, long construction period, as well as low reliability.

The low tech of the known devices is due to the need to involve various technological operations and a significant amount of construction equipment when arranging various coating layers. So, when laying blocks, crane equipment is needed, when installing filter elements, a dump truck, an excavator, a bulldozer and a roller are needed, when installing damping elements, special equipment for laying viscoplastic materials and its compaction is necessary. In this case, it is necessary to strictly observe a certain sequence of these complex operations. Violation of the sequence can lead to the rapid destruction of the slope.

The high complexity and cost are associated with the low manufacturability of the known coatings, with a large number of elements, the need to use various technological operations when arranging them, the complex work of fastening the blocks together, the need to use a large number of such expensive building materials as metal, concrete, and significant transportation costs and numerous construction equipment.

The long term of the erection of the coating is a consequence of low manufacturability and significant complexity of the known technical solutions. Each operation is performed only after the previous one is completed. For such sequential operations and preparation of the next equipment, time is required, which increases the overall term of work.

. // HANSA. - 1996. - Nr. 8, S. 54, рис. 2, 3, 4) [3] - прототип. Это известное устройство включает блоки, верхнее полотно, нижнее полотно, гибкие вертикальные связи, перемычки и фильтрующие элементы. Нижнее и верхнее полотна изготавливаются из синтетического, водостойкого, тканого водопроницаемо го материала. Блоки выполнены из бетона непосредственно на месте размещения защитного покрытия путем заполнения самоуплотняющейся бетонной смесью пространства между верхним и нижним полотнами. Для предотвращения вытекания бетона из покрытия по верху и низу сооружения полотна сшиваются. Размеры блоков не превышают 1,5 на 1,5 м. Нижнее полотно частично выполняет также функцию демпфирующей прослойки. Гибкие вертикальные связи из тканых лент шириной 5 мм размещены путем прошивания между верхним и нижним полотнами и обеспечивают требуемую форму блока в виде «подушки» за счет предотвращения неконтролируемого расширения при подаче бетонной смеси в блок. Перемычки выполняют роль тросов, они связывают между собой блоки и предотвращают их смещение относительно друг друга. Конструкция перемычек аналогична блокам. Они размещены по периметру каждого блока и выполнены со значительно меньшими размерами по ширине и толщине по сравнению с размерами блока. Фильтрующие элементы размещены в перемычках в угловых зонах блоков и обеспечивают снятие фильтрационного давления. Представляют собой участки прямоугольной формы размером 50 на 50 мм, не заполненные бетоном, где верхнее и нижнее полотна сшиты между собой.The closest technical solution is to cover the slopes (Hackmann G. Die COLCRETE-Matte und die verklammerte Steinschtittung. Systeme zum Schutz hochbelastaster Hafensohlen / G. Hackmann, K.

. // HANSA. - 1996. - Nr. 8, S. 54, fig. 2, 3, 4) [3] is a prototype. This known device includes blocks, upper canvas, lower canvas, flexible vertical ties, jumpers and filter elements. The lower and upper webs are made of synthetic, waterproof, woven, water-permeable material. The blocks are made of concrete directly at the place of placement of the protective coating by filling the self-compacting concrete mixture with the space between the upper and lower canvas. To prevent leakage of concrete from the coating on the top and bottom of the structure of the canvas are sewn. The dimensions of the blocks do not exceed 1.5 by 1.5 m. The lower canvas partially also serves as a damping layer. Flexible vertical ties of woven tapes with a width of 5 mm are placed by flashing between the upper and lower webs and provide the required block shape in the form of a “pillow” by preventing uncontrolled expansion when the concrete mixture is fed into the block. Jumpers play the role of cables, they bind blocks together and prevent their displacement relative to each other. The design of jumpers is similar to blocks. They are placed around the perimeter of each block and are made with significantly smaller dimensions in width and thickness compared to the dimensions of the block. The filtering elements are placed in jumpers in the corner zones of the blocks and provide removal of filtering pressure. They are sections of a rectangular shape measuring 50 by 50 mm, not filled with concrete, where the upper and lower webs are sewn together.

The disadvantage of this device is its low reliability.

The low reliability of the known slope cover is due to the fact that the blocks are connected to each other only by means of jumpers. When exposed to high waves, the blocks perceive significant dynamic effects, due to which significant tensile stresses appear in the jumpers. Such prolonged exposure can lead to the destruction of jumpers and disruption of the connections between the individual blocks. In turn, the violation of the bonds between the individual blocks will lead to the displacement of the blocks relative to each other, to the leaching of the slope soil and will cause the destruction of the entire coating.

The essence of the invention lies in the creation of a unified design of the coating of slopes, which allows to increase the reliability and economic efficiency of coating slopes.

The technical result of the invention is to increase the reliability of coating slopes and their efficiency.

The specified technical result during the implementation of the invention is achieved by the fact that in a known slope coating, including concrete blocks formed by forcing a self-compacting concrete mixture through slots into the space of permeable seams sewn together along the perimeter, having flexible vertical ties in the form of woven tapes with a width of not more than 5 mm located between the upper and lower canvas, arranged by through sewing through tapes of these paintings, providing the required shape for concrete blocks and preventing rupture of canvases under the pressure of injected concrete, with jumpers located between concrete blocks having vertical connections and filter elements located in jumpers at the corners of concrete blocks, a feature is that it is additionally equipped with flexible inclined connections, internal reinforcing elements, damping layers and filtering a web of permeable material, with each flexible inclined connection connected at one end to the upper fabric at the junction of the flexible vertical connection and the other end - with the lower canvas at the junction of the adjacent flexible vertical connection; internal reinforcing elements in the form of flexible ropes, placed inside the body of each concrete block between flexible vertical ties and extend along the entire length of the slope; damping layers of elastic porous material in the form of flexible cloths are located under concrete blocks, without overlapping filter elements and jumpers, and are attached to a filter cloth located on the surface of the protected slope.

Flexible inclined connections and internal reinforcing elements are made of metal or synthetic threads. Damping layers are made of elastic porous material, such as foamed rubber, and the filter cloth of a permeable non-woven or woven material. The pitch of the internal reinforcing elements, vertical and inclined connections are selected from the condition of a uniform arrangement in the blocks, taking into account the stresses arising in the design. Strength and deformation characteristics of the coating elements, the length and pitch of vertical and inclined bonds are assigned from the conditions of ensuring the reliability of their work during installation, filling with concrete, external influences during operation and ensuring stability within the protected structure.

The slope coating is made in the form of a single flexible system, which is twisted into a roll for transportation to the place of operation. After laying the coating on the protected slope, to form concrete blocks, through the slots located in the upper part of the coating, the space between the upper and lower canvas is filled with a self-compacting concrete mixture.

The claimed invention is aimed at solving the problem of improving the reliability of slope cover by increasing the strength of a single flexible system due to the presence of structural elements: flexible inclined connections, internal reinforcing elements, damping layers and filter cloth, as well as due to the presence of communication between the elements and their mutual location: flexible inclined connections are placed between the upper and lower webs and each flexible inclined connection is connected at one end to the upper canvas and the other to om - a backsheet; internal reinforcing elements are placed inside the body of each block, pass along the entire length of the slope cover and are connected at their opposite ends with jumpers; damping layers are located under the blocks between the lower cloth and the filter cloth; the filter cloth is placed under the damping layers and jumpers, and its upper surface is attached to the damping layers and jumpers. The presence of elements and their connections provides an increase in the strength of the connection between the blocks and the strength of the blocks themselves, an organized collection and removal of filtered water along the filter sheet and further along the filter element, and the presence of damping layers reduces the dynamic effect on the blocks and slope. All this will provide increased reliability of the slope cover.

The invention is illustrated by drawings. In FIG. 1 shows the coverage of slopes, a general view; in FIG. 2 is a side view of a slope covering a slope; in FIG. 3 is a front cross-sectional view of the slope cover.

The figures indicate: 1 - the upper canvas; 2 - lower canvas; 3 - flexible vertical connections; 4 - filter element; 5 - concrete block; 6 - jumper; 7 - damping layer; 8 - filter cloth; 9 - internal reinforcing element; 10 - flexible oblique connection; 11 - place through flashing the fabric.

The slope coating in its initial state is a single flexible system consisting of an upper web 1, a lower web 2, flexible vertical ties 3, jumpers 6, filter elements 4, which is equipped with flexible inclined ties 10, internal reinforcing elements 9, damping layers 7 and filter cloth 8. The coating of slopes is made in the factory with the possibility of twisting into a roll to ensure transportation to the place of installation.

In this case, the flexible inclined connection 10 is placed between the upper web 1 and the lower web 2 and each flexible inclined connection 10 is connected at one end to the upper web 1 at the junction of the flexible vertical link 3, and the other end to the lower web 2 at the junction of the adjacent flexible vertical link 3. The internal reinforcing elements 9 are made in the form of flexible ropes of metal or synthetic threads, placed inside the body of each block between the upper blade 1 and the lower blade 2 and between the flexible vertical ties 3 in parallel tkosu pass along the entire length of the slope cover, and attached at their ends to opposite jumpers 6. Damping layers 7 are made of elastic porous material in the form of a flexible cloth, each damping layer 7 is located under the concrete block 5 between the lower cloth 2 and the filter cloth 8. Filter the web 8 is made of water-transmitting material, placed under the damping layers 7 and jumpers 6, its upper surface is attached to the damping layers 7 and jumpers 6, and the lower surface it is addressed to the protected slope. A flexible slope coating system is manufactured in the factory.

After transportation to the place of operation, it is untwisted and laid on a slope. Next, it is filled with a self-compacting concrete mixture through a slot (not shown) in the upper sheet 1 by means of a concrete pump. As a result of the concrete mixture filling the space between the upper blade 1 and the lower blade 2, concrete blocks 5 are formed. The shape of the concrete blocks 5 is ensured by a given length of flexible vertical ties 3 and flexible inclined ties 10. The internal reinforcing elements 9 penetrate the concrete blocks 5 between the upper blade 1 and the lower blade 2, providing reinforcement of each concrete block 5 and a reliable connection of concrete blocks 5 to each other.

Covering slopes works as follows.

When the wind waves run in, concrete blocks 5 perceive their dynamic impact and protect the slope from destruction and erosion. In this case, the jumpers 6 experience variable tensile stresses. The presence of internal reinforcing elements 9 ensures the strength of the concrete blocks 5 and the strong connection of the individual concrete blocks 5 with each other, and therefore the reliable operation of the coating of slopes.

The damping layers 7 located under the concrete blocks 5, having greater compressibility than the soil of the slope body, absorb a part of the external dynamic effects and thereby increase the reliability of the coating of the slopes.

Ground water available in the slope array under the concrete blocks 5, along the filtering cloth 8 are moved to the filtering elements 4 and are organized to the surface of the slopes. This ensures that filtration pressure is removed from the concrete blocks 5, which prevents the possibility of washing out soil particles from the slope and increases the reliability of the slope coating.

Flexible inclined connections 10, working together with flexible vertical connections 3, provide a reliable connection of the upper blade 1 and the lower blade 2, concrete blocks 5, which also increases the overall reliability of the slope coating.

Thus, the proposed design of the slope coating will provide increased reliability of the protective coating of the slopes.

As a result of applying the proposed construction of the slope cover, a significant economic effect is achieved by minimizing the costly repair work to restore the performance of traditional well-known structures. In particular, if we take the cost of repair work 1 square. m slope in the amount of 4.5 thousand rubles., then for a slope of 100 square meters. m economic effect will be about 75 thousand rubles.

Claims (1)

Covering slopes, including concrete blocks formed by forcing a self-compacting concrete mixture through slots into the space of permeable seams sewn together along the perimeter, having flexible vertical ties in the form of woven tapes of a width of not more than 5 mm, located between the upper and lower fabric, arranged through through sewing tapes of these paintings, providing the required shape to concrete blocks and preventing the canvas from breaking under the pressure of the injected concrete, with bridges located between the concrete blocks with vertical links and filter elements located in lintels at the corners of concrete blocks, characterized in that it is additionally equipped with flexible inclined connections, internal reinforcing elements, damping layers and a filter cloth made of permeable material, each flexible inclined connection connected by one the end with the upper fabric at the junction of the flexible vertical connection, and the other end with the lower fabric at the junction of the adjacent flexible vertical connection, internal ar peaceable elements in the form of flexible ropes are placed inside the body of each concrete block between flexible vertical bonds and extend along the entire length of the slope, damping layers of elastic porous material in the form of flexible webs are located under concrete blocks without overlapping filter elements and jumpers and are attached to the filter cloth, located on the surface of the protected slope.

Images