RU170657U1 - REVETMENT - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering and can be used to protect against wind waves and prevent erosion of the shores of lakes, rivers, reservoirs, slopes of soil dams and canals, as well as other hydraulic structures. The technical result of the utility model is to increase the reliability and efficiency of the coating slopes, as well as reducing the complexity and material consumption during its manufacture and installation on a protected slope. The specified technical result in the implementation of useful This is achieved by the fact that the known slope coating, including concrete blocks formed by forcing a self-compacting concrete mixture through slots into the space of permeable waterstones sewn together, having flexible ties in the form of strong woven tapes located between the upper and lower sheets, arranged through sewing with tapes of these paintings with narrow lintels located between concrete blocks having shortened flexible connections, internal reinforcing elements made in the form flexible ropes placed inside the body of each concrete block and a filtering bed made of water-transmitting material, placed under concrete blocks and lintels, is additionally equipped with reinforcing woven water-permeable strips and anchors, while woven reinforcing strips are sewn at one end to the filter cloth under each concrete block in one or more locations of internal flexible connections, and the other end is attached to anchors installed in the slope body. Reinforcing strips, crossing possible collapse curves of the protected soil slope and fixing concrete blocks, can increase the stability of the slope and reduce the thickness of the coating, reducing the complexity and material consumption in the manufacture of slope coverings.

Description

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

Known slope cover (Patent No. 1298292, Russian Federation, IPC E02B 3/12 Slope cover of a hydraulic structure / V. M. Lyatcher, A. T. Lee, I. N. Ivaschenko. Applicant and patent holder - Hydroproject named after S. Ya. Beetle - No. 3893166 / 29-15; application. 12.05.85; publ. 23.03.87). A known device includes blocks, cables, a filter element. 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 disadvantages of the known device are low technology, high complexity and cost, as well as the long term of its construction.

The low-tech nature of the known device is due to the need to perform many different technological operations and involve a significant amount of construction equipment when arranging various coating layers. So, when laying blocks, crane equipment is needed; when installing filter elements, you need: a dump truck, an excavator, a bulldozer and an ice rink. It is also 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 perform many different technological operations when they are installed, the complex work when fastening the blocks together, the need to use a large number of such expensive building materials as metal, concrete, and significant transport 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.

. Systeme zum Schutz hochbelasteter Hafensohlen / G. Hackmann, K.

. // HANSA. - 1996. - Nr. 8, S. 54, рис. 2, 3, 4) - аналог. Это устройство включает блоки, верхнее полотно, нижнее полотно, гибкие связи, перемычки и фильтрующие элементы. Нижнее и верхнее полотна изготавливаются из синтетического, водостойкого, тканого водопроницаемого материала. Блоки выполнены из бетона непосредственно на месте размещения защитного покрытия путем заполнения самоуплотняющейся бетонной смесью пространства между верхним и нижним полотнами. Размеры блоков не превышают 1,5 на 1,5 м. Гибкие связи из тканых лент шириной 5 мм размещены путем пришивания 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 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. Они представляют собой участки прямоугольной формы размером 50 на 50 мм, не заполненные бетоном, где верхнее и нижнее полотна сшиты между собой.Slope cover is also known (Hackmann G. Die COLCRETE-Matte und die verklammerte

. Systeme zum Schutz hochbelasteter Hafensohlen / G. Hackmann, K.

. // HANSA. - 1996. - Nr. 8, S. 54, fig. 2, 3, 4) - an analogue. This device includes blocks, upper canvas, lower canvas, flexible connections, jumpers and filter elements. The lower and upper cloths are made of synthetic, waterproof, woven 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. The dimensions of the blocks do not exceed 1.5 by 1.5 m. Flexible ties of woven tapes with a width of 5 mm are placed by sewing between the upper and lower webs and provide the desired shape of the block in the form of a “pillow” by preventing uncontrolled expansion when the concrete mix is fed into the block . Jumpers connect blocks to each other 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 rectangular sections measuring 50 by 50 mm, not filled with concrete, where the upper and lower webs are sewn together.

A disadvantage of the known device is low reliability and high complexity and material consumption.

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 particles of the slope soil and will cause the destruction of the entire coating.

The high complexity and material consumption of the known slope cover is due to the fact that in order to ensure the stability of the coating elements and the protected slope, under the influence of natural phenomena or transport loads, a significant mass of the coating and the planning of the slope before laying is necessary, which ensures the stability of not only the slope, but also the coating elements against shear along the plane of the slope, which leads to the need for a significant softening and, as a consequence, an increase in the volume of concrete and earthwork.

The closest technical solution is to cover the slopes (Patent No. 158735, Russian Federation, IPC E02B 3/12; E02B 3/14 Covering the slopes / M.I. Balzannikov, M.V. Rodionov, M.G. Litvinova. The applicant and the patent holder - Samara State University of Architecture and Civil Engineering, Samara - No. 2015119275/13; application. 05.21.2015; publ. 01.20.2016) - prototype. This known device includes blocks, a top sheet, a bottom sheet, flexible connections, jumpers and filter elements located in the jumpers, internal reinforcing elements and a filter bed, while the internal reinforcing elements are made in the form of flexible ropes that are placed inside the body of each block in the zone of the possible occurrence of tensile stresses between the upper and lower webs and between flexible bonds parallel to the slope, and connected at their opposite ends with jumpers; the filtering underlying fabric is made of a permeable material, placed under the lower fabric and jumpers, with its upper surface attached to the lower fabric and jumpers, and the lower surface facing the protected slope.

The disadvantage of this device is its high complexity and material consumption. The high complexity and material consumption of the known slope cover is due to the fact that to ensure the stability of the coating elements and the protected slope, under the influence of natural phenomena or transport loads, a significant mass of the coating and the planning of the slope to the laying, ensuring the stability of not only the slope, but also the coating elements against shear along the plane of the slope, which leads to the need for a significant softening and, as a consequence, an increase in the volume of concrete and earthwork.

The essence of the utility model is to create a unified coating design to protect the banks of water bodies and slopes of hydraulic structures from deformation, collapse and erosion under the influence of natural phenomena or traffic loads, which allows to increase the reliability of work, as well as the economic efficiency of covering slopes.

The technical result of the utility model is to increase the reliability and efficiency of the slope cover, as well as to reduce the material consumption during its manufacture and the complexity when installed on the protected slope.

The specified technical result in the implementation of the utility model is achieved by the fact that in the known slope cover, 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 bonds in the form of durable 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 p the gap of the canvases under the pressure of the injected concrete, with narrow bridges located between the concrete blocks, having shortened flexible connections, and filter elements located at the corners of the concrete blocks in the bridges, internal reinforcing elements and a filtering underlay attached to the bottom of the concrete blocks, while the internal reinforcing elements are made in the form of flexible ropes, placed inside the body of each block in the zone of the possible occurrence of tensile stresses between the upper blade and the lower and between flexible ties parallel to the surface of the slope, the peculiarity is that it is additionally equipped with water-permeable woven reinforcing strips and anchors, while the woven reinforcing strips, at one end, are sewn to the filter cloth under each concrete block in one or more locations of internal flexible ties, and the other end are attached to anchors installed in the slope body. The number of reinforcing strips and anchors, their sizes, strength and deformation characteristics, as well as the distance between them are assigned taking into account the stresses arising in the construction of the slope cover and the conditions for ensuring the stability of the protected slope. The installation of anchors is carried out, for example, manually or using small equipment, by hammering them into the body of the protected slope. The reinforcing strips are attached to the anchors manually, for example, by tying the reinforcing strip to the anchor. Reinforcing strips are made of flexible woven synthetic permeable material such as geotissue or geogrid, and metal rods with anti-corrosion coating are used as anchors. Reinforcing strips and anchors are installed as the protected slope is filled in. The number of reinforcing strips along the length of one concrete block, their length, strength and deformation characteristics, as well as the pitch and dimensions of the anchors are assigned taking into account the stresses arising in the structure from the conditions for ensuring the stability of the protected slope and concrete blocks within it.

Covering the slopes is made in the form of a single flexible device, which is twisted into a roll for transportation to the place of operation. After laying the coating on the protected slope as it is poured and laid in the working position of the reinforcing strips and installation of anchors, to form concrete blocks, through the slots located in the upper part of the coating, the space between the upper and lower webs is filled with a self-compacting concrete mixture.

The claimed utility model is aimed at solving the problem of improving the reliability of slope cover, increasing the stability of the protected slope and its cover due to the presence of structural elements: reinforcing strips, anchors, as well as due to the presence of communication between the elements and their relative position: reinforcing strips are sewn at one end to filtering the underlying fabric under each concrete block in one or more locations of the internal flexible connections, and the other end is attached to the anchors installed in the body slope. The presence of elements and their relationships provides increased stability of the slope and the entire structure of the slope cover due to the reinforcement of the protected soil slope and the anchoring of concrete coating blocks in the protected slope. All this will provide increased reliability of the slope cover.

The utility model is illustrated by drawings.

In FIG. 1 shows a covering of slopes, general view; in FIG. 2 is a sectional view of a concrete block of a slope covering, side view.

The figures indicate: 1 - the upper fabric, 2 - the lower fabric, 3 - flexible ties, 4 - concrete block, 5 - filter element, 6 - jumper, 7 - stitching of the reinforcing strips, filter cloth and flexible ties, 8 - internal reinforcing element, 9 - filter cloth, 10 - reinforcing strips, 11 - anchor, 12 - body of the protected slope.

The slope coating in its initial state is a single flexible device consisting of an upper web 1, a lower web 2, flexible ties 3, jumpers 6, internal reinforcing elements 8, made in the form of flexible ropes, filter elements 5, filter cloth 9 and reinforcing strips 10, which are sewn at one end to the filtering cloth 9, and the other end are attached to the anchor 11 located in the body of the protected slope 12.

The reinforcing strips 10 are made of a flexible woven synthetic permeable material such as geotissue or geogrid and are sewn at one end to the filter cloth 9 at one or more joints of the flexible connection 3, and the other are attached to the anchor 11. Anchor 11 is a metal rod with a corrosion-resistant coating.

The slope coating is made in the factory and twisted into a roll for easy transportation to the installation site.

After transportation to the place of operation, the cover of the slopes is untwisted and laid on the protected slope as it is filled and laid into the working position of the reinforcing strips 10 and anchors 11. Next, the cover of the slopes 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 filling the concrete mixture with the space between the upper sheet 1 and the lower sheet 2, concrete blocks are formed 4. The shape of the concrete blocks 4 is ensured by a given length of flexible ties 3. Reinforcing strips 10 sewn at one end to the filter sheet 9, and the other to the anchors 11 installed in the body of the protected slope 12, ensure the stability of not only each concrete block 4, but also the protected slope.

Covering slopes works as follows. Under the influence of external dynamic influences (wave, ice, floating bodies, transport loads on the top of the slope), as well as as a result of waterlogging, the soil of the body of the protected slope can begin to deform up to full or partial collapse, while the coating of the slopes protecting the slope from erosion also may collapse or shift from its original position. The presence of reinforcing strips 10 and anchors 11, by crossing the arising collapse curves and compensating for the deficit of holding forces, ensures the stability of the protected slope and concrete blocks 4 in the initial position, therefore, the reliable operation of the coating of the slopes.

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

For the stable location of the known slope cover - a prototype on the surface of the protected slope, a large amount of earthwork is required and a certain (increased) mass of concrete slope cover blocks is required, which implies an increased consumption of self-compacting concrete mixture. With an increase in the mass of concrete blocks, the mass of the entire slope coating increases, and there is a risk of the coating shifting from the installation site under its own weight. And the steeper the protected slope, the higher the likelihood of this risk. The presence of reinforcing strips and anchors with which the proposed slope coating is provided allows to securely fix and hold it on the surface of the protected slope even with a significantly lower mass of the slope coating, while reducing not only the consumption of self-compacting concrete, but also the amount of excavation work carried out when installing the coating to the place of operation. Reinforcing strips, crossing possible collapse curves of the protected slope and fixing concrete blocks, can increase the stability of the slope and reduce the thickness of the coating, reducing material consumption and laboriousness in the manufacture and installation of the coating of slopes on the protected slope.

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 of slope in the amount of 5.5 thousand rubles, then for a slope of 100 square meters. m economic effect will be about 85 thousand rubles.

Claims (6)

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 ties in the form of strong woven tapes no more than 5 mm wide, located between the upper and lower sheets, arranged by through sewing with tapes of these canvases, providing the required form to concrete blocks and preventing tearing of the canvases under the pressure of the injected concrete, with narrow feathers located between the concrete blocks with tags having shortened flexible connections, and filtering elements located at the corners of concrete blocks in the lintels, internal reinforcing elements and a filtering underlay attached on the underside of concrete blocks, while the internal reinforcing elements are made in the form of flexible ropes, placed inside the body of each block in the zone of the possible occurrence of tensile stresses between the upper blade and the lower blade and between flexible bonds parallel to the slope surface, characterized in that it supplement It provided no permeable woven reinforcing bars and anchor bolts, wherein the woven reinforcing bands at one end sewn to the filter web under each concrete block in one or more locations internal flexible links, and the other end attached to the anchors installed in the body of the slope. 2. The coating according to claim 1, characterized in that the number of reinforcing strips and anchors, their sizes, strength and deformation characteristics, as well as the distance between them are assigned taking into account the stresses arising in the construction of the slope cover and the conditions for ensuring the stability of the protected slope. 3. The coating according to claim 1, characterized in that the anchors are installed, for example, manually or using small equipment by driving them into the body of the protected slope. 4. The coating according to claim 1, characterized in that the reinforcing strips are attached to the anchors manually, for example by tying the reinforcing strips to the anchors. 5. The coating according to claim 1, characterized in that the reinforcing strips are made of flexible woven synthetic permeable material such as geo-fabric or geogrid. 6. The coating according to claim 1, characterized in that metal rods with an anti-corrosion coating are used as anchors.

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