RU2374385C2 - Protective hydraulic structure - Google Patents

Abstract

FIELD: construction, hydrotechnical engineering.

SUBSTANCE: invention is related to hydrotechnical construction of water barrier dams for protection of settlements, agricultural and industrial objects against flooding and underflooding in case of spring floods, and also temporary coffer dams in order to shut off of water in water channels or water-storage reservoirs in performance of construction, assembly and repair works. Protective hydraulic structure comprises two osculating flexible cylindrical closed shells filled with water, every of which is equipped with two elastic side ribs arranged along generatrices of shells. Neighboring internal ribs combine shells into figure of eight. Open flexible shell is rigidly fixed with its lower edge to one of external ribs of figure of eight, and floats are arranged along its upper edge. Floats are fixed with flexible joints to the second external rib with the possibility to control length of joints and are arranged in the form of single flexible cylindrical closed shell, which is filled with air through nozzle and made as a whole with open flexible shell. Closed shell is equipped with elastic side rib arranged along its generatrix, to which flexible joints are fixed, arranged with the possibility of stretching. Along the second external rib of figure of eight with its upper edge there is a antifiltration screen installed, arranged in the form of open flexible shell with the possibility of fixation along lower edge of cantledge screen.

EFFECT: invention makes it possible to increase reliability of structure and to improve its operational characteristics.

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Description

The invention relates to hydraulic engineering and can be used as water dam for the protection of settlements, agricultural and industrial facilities from flooding and flooding during floods, as well as to create temporary jumpers to cut off water in hydraulic channels or reservoirs during construction, installation and repair works.

The efficiency of using pre-fabricated hydraulic structures depends on low weight, transportability, and the possibility of multiple installation in various places with minimal cost.

Known fabric dams of open and closed types, respectively made from an open fabric panel with a waterproof coating or a flexible cylindrical closed shell, filled with water using pumps (Volosukhin V.A., Kuznetsov V.A. Fundamentals of the theory and methods of calculating fabric structures of land reclamation systems: Monograph. - Novocherkassk, Novosibirsk State Medical Academy, 2001 .-- P.14-18).

The disadvantages are the large weight and dimensions of the dams, which makes their installation and dismantling time-consuming, as well as complicates the transportation and storage of dams and affects the operational characteristics of structures.

A protective hydraulic structure is known, including two water-filled contacting flexible cylindrical closed shells, each of which is equipped with two elastic side ribs located along the forming shells, the adjacent inner edges of the shell are connected in the "eight", to one of the outer ribs of the "eight" is rigidly fixed by its the lower edge is an open flexible shell, on the upper edge of which there are floats fixed by flexible connections to the second outer rib, with the possibility of adjustable ation bond lengths (RF patent №2291931, IPC E02V 3/04, 7/02 E02V, 2007 Bulletin, №2).

The disadvantages are:

1. Large material consumption of the floats and their volumes occupied during transportation and storage, since the floats are made of light materials or made in the form of rigid containers.

2. The complexity of fastening and dismounting the floats to the upper edge of the open flexible shell, as well as flexible connections to the floats and the outer edge of the "eight" due to the large number of floats and ties, ensuring that there is no sagging of the upper edge of the open shell and there is no overlapping water through it during operation.

3. It is possible that water will overlap over the upper edge of an open flexible shell in case of incorrect determination of the length of the flexible connections with an unexpected increase in the predicted rise in flood water, since the connections are made of inextensible materials (belts, cables, fishing net), and during maintenance of the water, the length of the connections is adjusted sling devices not feasible.

4. Low reliability due to the likelihood of water filtration under cylindrical closed shells connected to the “eight” during poor-quality preparation of the coastal surface on which the hydraulic structure is placed, or with a complicated relief of the bottom of hydro-channels or reservoirs, on which a jumper is installed to cut off water during construction, installation and repair work.

The technical task of the invention is to increase reliability and improve the operational characteristics of the structure.

The technical result of improving the reliability and improving the operational characteristics of the structure is achieved by the fact that in a protective hydraulic structure, including two water-filled contacting flexible cylindrical closed shells, each of which is equipped with two elastic side ribs located along the forming shells, adjacent inner edges of the shell are connected in eight ”, to one of the outer ribs of the“ eight ”an open flexible shell is rigidly fixed with its lower edge, vertically on the edge of which floats are placed, fixed by flexible links to the second outer rib, with the possibility of adjusting the length of the links, the floats are made in the form of a single flexible cylindrical closed shell, filled with air through the nozzle and made as one unit with an open flexible shell, and the closed shell is provided located along its generatrix with an elastic lateral rib, to which flexible ties are fixed, made with the possibility of stretching, and along the second outer edge of the "eight" of its upper edge the anti-filter screen made in the form of an open flexible shell with the possibility of fixing weights along the lower edge of the screen is placed omkoy.

The drawing shows a fragment of a General view of the site of a protective hydraulic structures in operational condition in axonometric projection.

The protective hydraulic structure contains two contactable cylindrical closed shells 1 and 2 filled with water, shell 1 is equipped with two elastic side ribs 3 and 4, and shell 2 is equipped with two elastic side ribs 5 and 6, the ribs are located along the forming shells 1 and 2, adjacent inner ribs 4 and 5 of the shell 1 and 2 are connected in the "eight", to the outer edge 3 of the "eight" is rigidly fixed with its lower edge an open flexible shell 7, on the upper edge of which floats are made, made in the form of a single a flank of a cylindrical closed shell 8, filled with air through the nozzle 9 and made integrally with an open flexible shell 7, and the closed shell 8 is provided with an elastic lateral rib 10 located along its generatrix, flexible connections 11 are fixed to the rib 10 and the outer edge of the “eight” made with the possibility of stretching, in addition, flexible ties are equipped with a sling device 12 that allows you to adjust the length of the ties, along the outer edge 6 with its upper edge there is an anti-filter screen 13, filled in the form of an open flexible shell, with the possibility of fastening along the lower edge of the screen of the weights 14.

Flexible cylindrical closed shells 1 and 2 with elastic side ribs 3, 4, 5, 6, an open flexible shell 7, along the upper edge of which is placed and made with it as a single flexible closed shell 8 with an elastic side rib 10, as well as an anti-filter screen 13 are made by hot vulcanization, high-strength synthetic materials, impregnated with adhesive compounds and coated with special rubber mixtures, are used as strength elements of the shells, which ensures the flatness of the parts of the guide technical structure and allows you to store them wound on special individual drums (small occupied volumes) and transported by almost any means of transport, including aviation.

In the lateral elastic ribs 3, 4, 5, 6, 10 of the flexible cylindrical closed shells 1, 2, 8, the lower edge of the open flexible shell 7, the upper and lower edges of the anti-filter screen 13 are made with uniform pitch mounting holes (not shown), in which grommets are placed, designed to reduce the stress concentration in the holes and to protect the shell material from destruction.

Flexible ties 11 are made entirely of elastic material or with special inserts, which makes it possible to stretch the bonds.

Cargo 14 can be various materials with a large specific gravity, for example, metal ingots or sheets, concrete and reinforced concrete slabs, various containers with sand, pebbles, gravel, gabions (wire mesh boxes filled with stone, the dimensions of which should be larger than the mesh cells).

Protective hydraulic structure operates as follows.

In the place of the expected rise of water on the shore, a careful planning is carried out, leveling the surface, removing stabbing and cutting debris. At the planned site, they are unwound from individual drums and arranged in parallel along the length of part 1, 2, 7, 13 of the hydraulic structure. At the same time, they overlap and combine the fixing holes of the ribs 4 and 5 of the closed cylindrical shells 1 and 2 made with the same pitch. The shells 1 and 2 are connected by the inner adjacent ribs 4 and 5 into the "eight".

In the direction of the water flow velocity shown in the drawing, the mounting holes of the outer ridge 3 of the figure eight and the lower edge of the open shell 7 are sequentially combined with the closed shell 8 located along its upper edge and made integral with it, as well as the mounting holes of the second external rib 6 "eight" and the upper edge of the impervious screen 13. Rigidly secure the rib 3 with the lower edge of the shell 7 and the rib 6 with the upper edge of the screen 13.

The connection of the shells 1 and 2 with ribs 4 and 5 in the "eight", the fastening of the shell 7 to the rib 3 and the screen 13 to the rib 6 can be carried out in various ways, for example, metal or elastic plates with a threaded connection, metal clips, etc. The joints of the ribs 4 and 5, the shell 7 and the ribs 3, the screen 13 and the ribs 6 must be tight, water filtration between the contacting surfaces is not permissible.

Flexible connections 11, the number of which should be minimal, are fixed to the outer ridge of the G8 and the ridge 10 of the shell 8 in various ways, for example, a loop-hook, and are calculated according to the condition of holding strength of the shells 7 and 8 with a maximum maximum water backwater. A small number of ties significantly reduces the complexity of their fastening and dismantling. Depending on the height of the structure H, which is determined by the expected rise in flood water, using the sling device 12, the necessary connection lengths are adjusted 11. Through the nozzle 9, for example, a closed shell 8 is filled with air with a compressor, which ensures the formation of a float located on the upper edge of the open shell 7 and made with it as one.

, например, если высота h=1 м, то ширина d≥2 м (размеры d и h выбирают таким образом, чтобы вес закачанной воды препятствовал сдвигу и опрокидыванию конструкции внешними нагрузками). Тогда после заполнения водой гидротехническое сооружение не требует специального крепления на фундаментном основании, так как благодаря своему весу оно при воздействии внешних нагрузок сохраняет устойчивое положение. Кроме того, наличие ребер 3, 4, 5, 6, 10 с отверстиями образует пояс усиления, что позволяет дополнительно устанавливать при необходимости растяжки с анкерами для гарантированного фиксирования сооружения на месте его установки. Затем раскладывают и расправляют по береговой поверхности противофильтрационный экран 13, по нижней кромке которого закрепляют, например привязкой или обвязкой, пригрузы 14.During the connection of the parts of the protective hydraulic structures in tanks 1 and 2, forming the "eight", through flexible filling nozzles (not shown), pumps or motor pumps running in parallel pump water from a water source. Injection mechanisms are selected by flow rate so that the injection time is commensurate with the approach time of a natural disaster. Water can be supplied by switching the city highway to fill the shells, a combined option is possible to meet the allotted time. For a stable position of the structure, shells 1 and 2 are filled with no more than 75% of their maximum volume with water so that the following condition is maintained

for example, if the height is h = 1 m, then the width is d≥2 m (dimensions d and h are chosen so that the weight of the injected water prevents the structure from shifting and overturning by external loads). Then, after filling with water, the hydraulic structure does not require special fastening on a foundation foundation, since due to its weight it remains stable under the influence of external loads. In addition, the presence of ribs 3, 4, 5, 6, 10 with holes forms a reinforcing belt, which allows you to additionally install, if necessary, extensions with anchors to guarantee the fixation of the structure at the installation site. Then, an anti-filter screen 13 is laid out and straightened along the coastal surface, along the lower edge of which weights, for example, are fastened with a tie or strapping.

The assembled structure forms a section, the connection of which with neighboring ones can create protection of arbitrarily large length. To eliminate leaks between the joined sections, it is necessary to make the shells 7 and the anti-filter screens 13 so that they protrude 1-1.5 m from two sides in comparison with the lengths of the shells 1, 2, 8, forming overlaps, which are attached to the outer ribs 3 and 6 “eights” ensure the absence of water filtration between joints.

When water rises to a height h, protection occurs only with closed shells 1 and 2, connected to the "eight". In the case of a rise of more than h to the float 8, an Archimedean force begins to act, causing it to float together with the shell 7, which creates protection from combinations of shells 1, 2, 7, 8 to the expected lift height H, provided by the length of the ties 11 established by the sling device 12. The presence of flexible ties 11, made with the possibility of stretching, and a holistic uniformly uniform along the length of the float 8 allows you to use this protective structure with variable water levels even higher than H. Elastic ties 11 with increasing water rise, stretching , constantly increase the angle of inclination with the horizon to 70 ° -80 ° and begin to work at the maximum length without stretching, but there is no overlap of water through the float 8.

The weights 14 fixed to the anti-filter screen 13 do not allow it to float at any level of water rise and make it possible to copy the coastal surface with the screen, which excludes filtering under closed envelopes 1 and 2 of the G8.

Dismantling of the structure is carried out in the reverse order with its installation.

After the natural disaster, the elastic flexible connections 11 take the dimensions that they had in an unstressed state, they are unfastened from the ribs 6 and 10. Through the nozzle 9, “bleed” the air from the closed shell 8, through the outlets (not shown), the water leaves due to its own weight containers 1 and 2. The weights 14 are removed from the lower edge of the anti-filter screen 13, the upper and lower edges of the screen 13 and the open shell 7 are released from the ribs 6 and 3, the ribs 4 and 5 are disconnected, and the shells 1 and 2 are released from the “eight”. Each of the parts of the structure (except flexible connections 11 and weights 14) is rolled up on drums, the protective hydraulic structure is transported for installation in a new settlement site or for storage.

The creation of temporary jumpers for water cutoff in hydrochannels or reservoirs is carried out in this sequence.

Work begins with trawling the bottom of the hydro-channel or reservoir. Detected karches, tree trunks and other objects are cleaned by divers, they also carry out the layout of the bottom.

On the shore, the parts of the first section of the protective hydraulic structure are assembled and connected in the same sequence, but without water being pumped into tanks 1 and 2 and the weights 14 are not attached to the anti-filter screen 13. To reduce the resistance to movement of the assembled sections along the coastal surface, the first section is floating put into the water, leaving on the shore the end of 4-5 meters, to which the second section is attached, move the assembled structure to the water surface, to the end of the second section left on land and attaching the third section, etc. The length of the hydraulic structure is determined by the size of the coastal construction works. So when working on 100-150 m along the coastline, the structure is assembled with a length of 180-240 m (6-8 sections 30 m long). The head end of the first section of the structure is pulled 4-5 m ashore, the same distance of the last section is left on the bank of the canal or reservoir.

The structure is placed in such a way that the impervious screens 13 are on the outside of the water area, the jumper is placed in an arc as close to the shore as possible, but so as not to interfere with installation work. Floats made in the form of cylindrical closed shells 8, filled with air through the nozzle 9, and made as a whole with open shells 7, provide buoyancy of the structure and do not allow water to overlap between the floats and open shells.

In shells 1 and 2, water is pumped to sizes d and h. Since the flexible connections 11 are made with the possibility of stretching, this ensures repeatability by the shells 1 and 2 of the bottom topography. Divers carefully spread the anti-filtration screens 13 so that they mate with the bottom and fasten the weights 14. This prevents the water from being filtered under shells 1 and 2 when the structure is placed at depth H, without fixing the structure. If it is necessary to obtain additional stability, it is possible to anchor the structure. Pump out the volume of water cut off by the erected jumper with pumps. All dry repairs or construction work is carried out dry.

To move from one jumper to the second stage, divers remove weights 14 from the anti-filter screens 13, release water from tanks 1 and 2, using floating equipment, the hydraulic structure is moved to the desired location and a new jumper is erected.

After completion of work, a structure with tanks 1 and 2 freed from water and anti-filter screens 13 without weights 14 is pulled out section by section, each section is separated from the other and disassembled into separate parts, rolled up onto drums and transported to a new place for erection or storage.

Thus, the proposed design allows to achieve a technical result to improve reliability and improve the operational characteristics of the structure.

The originality of the design of the protective hydraulic engineering structure is that it is implemented as separate modules, representing a combination of two contacting cylindrical closed shells filled with water 1 and 2, each of which is equipped with two elastic side ribs 3, 4 and 5, 6, respectively, located along shells, adjacent inner ribs 4 and 5, shells 1 and 2 are connected in the "eight", an open flexible shell 7, rigidly fixed with its lower edge to the outer edge 3 "eight spar ", on the upper edge of the shell there is a float made in the form of a single flexible cylindrical closed shell 8, filled with air through the nozzle 9 and made as one unit with an open flexible shell 7, and the closed shell 8 is provided with an elastic side rib 10 located along its generatrix, to which, as well as to the outer edge 6 of the "eight" are fixed flexible connections 11, made with the possibility of stretching and regulation along the length using a sling device 12, and an anti-filter screen made in the form of an open flexible shell 13, placed its upper edge along the edge 6, with the possibility of fixing along the lower edge of the screen of the weights 14.

Claims (1)

Protective hydraulic structure, including two water-filled contacting flexible cylindrical closed shells, each of which is equipped with two elastic side ribs located along the forming shells, adjacent inner shell ribs are connected in the "eight", to one of the outer ribs of the "eight" is rigidly fixed to its lower the edge is an open flexible shell, on the upper edge of which there are floats fixed by flexible connections to the second external rib with the possibility of regulation for bond lines, characterized in that the floats are made in the form of a single flexible cylindrical closed shell, filled with air through the nozzle and made as one unit with an open flexible shell, and the closed shell is provided with an elastic side rib located along its generatrix, to which flexible ties are made with the possibility of stretching, and along the second outer edge of the "eight" with its upper edge there is an anti-filtration screen made in the form of an open flexible shell with the possibility of ü fastenings on the lower edge of the screen of weights.

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