RU2478750C2 - Protective flexible sectional dam - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: dam comprises contacting flexible cylindrical closed shells, every of which is equipped with two elastic ribs arranged along forming shells. With adjacent internal ribs the shells are combined into "eights". To one of external ribs of the "eight" there is a non-closed flexible shell fixed with its longitudinal edge, and flexible links are connected to another external rib. At the same time "eights" are formed into rows, which are arranged above each other to form a truncated pyramid, on the comb of which there are at least two shells, and in each subsequent lower row there is one shell more than the number of the upper row shells. All rows of "eights" are combined to each other by reinforcement belts in the form of flexible links fixed on all external ribs of closed shells making the pyramid. The non-closed flexible shell serves as an antiglare screen and is made of a fabric cloth arranged on a part of a pyramid protruding above the water surface level. The non-closed flexible shell is rigidly fixed with the second longitudinal edge to the external rib of one of underwater rows of "eights" at the side surface of the pyramid opposite to location of fixation of the first longitudinal edge. All closed shells and shell-to-shell space between them are filled with a hydraulic sand mixture.

EFFECT: higher reliability and improved operational characteristics of a structure.

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Description

The invention relates to hydraulic engineering construction and can be used to create temporary jumpers with the aim of cutting off water in hydro-channels or reservoirs during construction, installation and repair work, as well as water dam for protecting settlements, agricultural and industrial facilities from flooding and flooding during floods.

A well-known water filling dam, made in the form of a pyramid and made up of rows of flexible cylindrical closed shells located one above the other, decreasing in size to the top of the pyramid (Razumov G.A. Plotina: Popular Scientific Literature / Fig. R.A. Fidel. - M: Det. Lit., 1988. - P.31-32).

The disadvantages are low stability even with small floods and depths of blocked channels due to the light weight of the dam, because it is filled with water, and, in addition, each closed pyramid has one closed shell, which will lead to rolling of the shells over each other and the ground , that is, to the displacement of the entire dam when exposed to external wave loads; the technological complexity of manufacturing a dam in the form of a pyramid as an integral structure; the complexity of transportation, since the shell of the lower row of the pyramid in flat form has a large width; the impossibility of moving people and equipment along the dam, because in the upper row of the pyramid there is a closed flexible shell of small size; insecurity of the shell material from solar radiation and light exposure.

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 with flexible connections to the second outer rib with the possibility of regulation the length of bonds (patent of the Russian Federation No. 2291931, IPC ЕВВ 3/04, ЕВВ 7/02, bull. No. 2, 2007).

The disadvantages are:

1. Low stability under the influence of wave loads and tidal currents due to the light weight filled with water and located in one horizontal row of flexible cylindrical closed shells connected in the "eight".

2. Lack of reliability due to the likelihood of water filtration under cylindrical closed shells connected to the "eight" with a difficult topography of the channels or reservoirs, on which a jumper is installed to cut off water during construction, installation and repair work, or during poor-quality preparation of the coastal surface on which the hydraulic structure is placed.

3. Low performance associated with the loss of operability of the structure as a result of damage to open or at least one of the closed cylindrical shells.

4. The vulnerability of open and closed flexible cylindrical shells from solar radiation and light exposure, which leads to aging of the shell materials, a significant loss in the strength characteristics of the structure, especially when operating in the southern regions.

5. The complexity of moving people and equipment in the hydraulic structure associated with the absence of a dam crest.

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 flexible sectional dam, which includes adjacent flexible cylindrical closed shells, each of which is equipped with two elastic ribs located along the forming shells, the adjacent inner edges of the shell are connected in “eights”, an open flexible shell is rigidly fixed with its longitudinal edge to one of the outer ribs of the G8, gypsies are fixed to the other outer rib close connections, “eights” are combined in rows arranged one above the other with the formation of a truncated pyramid, in the crest of which at least two shells are located, and in each subsequent lower row one shell is larger than the number of shells of the upper row, while all rows of “eights” are interconnected by reinforcing belts in the form of flexible bonds, fixed on all outer edges of the closed shells that make up the pyramid, in addition, the open flexible shell serving as an anti-solar screen is made of a fabric panel placed on the projecting above the water surface of the pyramid, and is fixedly secured to the second longitudinal edge to the outer edge of one of the submerged series "eights" on the opposite arrangement securing a first longitudinal edge of the side surface of the pyramid, closed shell and mezhobolochnoe space therebetween filled gidropeschanoy mixture.

Figure 1 shows a fragment of a General view of the plot of the protective flexible sectional dam in operational condition in axonometric projection.

The protective flexible sectional dam contains adjoining flexible cylindrical closed shells 1, each of which is equipped with two elastic ribs located along the forming shells 1, adjacent inner ribs 2 and 3 of the shell are connected in “eights”, “eights” are combined in rows placed one above the other with the formation of a truncated pyramid, in the crest of which at least two shells 1 are located, and in each subsequent lower row one shell is larger than the number of shells of the upper row, while all rows of shells 1 are connected between them reinforcement belts in the form of flexible connections 4 and closed shells fixed on all external edges 5 and 6 that make up the pyramid, the open flexible shell 7, which serves as an anti-solar screen, is made of a fabric panel located on the part of the pyramid that protrudes above the water surface, and is rigidly fixed with its first longitudinal edge to one of the outer ribs 6 of the “eight”, and the second longitudinal edge is attached to the outer edge 5 of one of the rows of “eights” located under water on the opposite side To fix the first longitudinal edge of the side surface of the pyramid, all closed shells 1 and the inter-shell space 8 between them are filled with a hydro-sand mixture.

Flexible cylindrical closed shells 1 with elastic ribs 2, 3, 5, 6 are made by hot vulcanization, high strength synthetic materials impregnated with adhesives and coated with special rubber mixtures are used as strength elements of the shells.

The open flexible shell 7, which serves as an anti-solar screen, is made of a fabric panel, the materials of which can be an impregnated and non-rubberized fabric (in harsh conditions) or an impregnated and rubberized fabric with special additives against solar radiation and light aging, for example aluminum powder. Tissues are chosen low-strength, since the open flexible shell is not bearing and perceiving external wave loads.

Closed 1 and open 7 shells are flat-folding, which allows them to be stored wound on special individual drums (small occupied volumes) and transported by almost any means of transport, including aviation.

In the lateral elastic ribs 2, 3, 5, 6 of the flexible cylindrical closed shells 1 and the longitudinal edges of the flexible open shell 7, fixing holes (not shown) are made with a uniform pitch, in which eyelets are designed to reduce the stress concentration in the holes and protect the shell materials and ribs from destruction.

As flexible connections 4, cables, belts or a fishing net can be used.

Protective flexible sectional dam operates as follows.

The creation of temporary jumpers for water cutoff in the hydrochannels is carried out in the following sequence.

Work begins with trawling the bottom of the hydrochannel. Detected karches, tree trunks and other objects clean the divers, they also carry out the layout of the bottom. At the same time, on the bank of the canal, where they plan to assemble the dam, level the surface, remove stabbing and cutting debris.

On closed surface drums are unwound from separate drums, flexible closed shells 1 are arranged parallel to each other and perpendicular to the channel. Adjacent inner elastic ribs 2 and 3 of shells 1 are laid on top of each other and the mounting holes of the ribs made with the same pitch are combined. The contacting shells are connected into “eights”, which can be carried out in various ways, for example, metal or elastic plates with a threaded connection, clamps, etc. Thus, the connected "eights form" the bottom row or base of the dam.

Shell 1 is placed above the lower row and again connected by adjacent ribs 2 and 3 into “eights” with the formation of the upper row. The upper and lower rows are connected to each other by reinforcement belts in the form of flexible connections 4, which are fixed on the outer ribs 5 and 6 of both rows.

Above the second row are placed shell 1, forming the third row of "eights", and connect it to the bottom row with flexible connections 4 with their fastening on the outer ribs 5 and 6 of the second and third rows. So consistently reach the formation of the very top row.

In the last upper row - the ridge of the dam, have at least two shells 1, united in the "eight", connecting them with flexible connections 4 with the bottom row through the outer ribs 5 and 6. Each subsequent row from the dam ridge has one shell more than the number of shells of the top row.

After the dam was assembled, rows of "eights" were obtained, located one above the other and interconnected by flexible ties 4, fixed on all outer edges 5 and 6 of the closed shells 1, making up the rows of "eights" (similar to a "puff pie"),

Flexible connections 4 when connecting the rows of "eights" are not loaded (sag). Their length is chosen so that, in working condition, the communication dams are loaded, that is, they are flexible threads and work in tension. The number of flexible connections, the distance between them is determined by strength calculations.

Above the rows of “eights” arranged one above the other, interconnected by flexible connections 4, an open flexible shell 7 is placed, which serves as an anti-sun screen and made of a fabric panel, with its longitudinal edge, the shell 7 is rigidly fixed to the outer edge 6 of the lower row of “eights”. The second longitudinal edge of the shell 7 is also rigidly attached to the outer edge 5 of one of the rows of "eights", which will be under water even taking into account the tide mark during the operation of the dam. It is preferable to attach to the outer edge 5 of the upper row of the dam below the water level so that the material of the fabric panel does not overspend. The length of the panel should be equal to the length of the protective structure, and the width is chosen so that in the working state of the dam the flexible shell 7 was in an unstressed state, that is, it would not be stretched, but would not have folds. The large size of the fabric panel complicates the fastening, dismantling and transportation of the open flexible shell 7. Therefore, it is advisable to place the anti-sun screen over the rows of "eights" and form the fabric panel from separate strips with overlapping contacting parts. Figure 1 shows a portion of the anti-sun screen 7 with rows of eights protruding from beneath it, connected by flexible links 4, without imposing an adjacent strip of fabric material with a flexible open shell.

One end of interconnected flexible closed shells 1 and open shell 7 is pulled to the opposite side of the channel, while the assembled structure is positioned so that it copies the transverse profile of the channel. Divers carefully spread the bottom row of “eights” along the planned bottom. In order not to demolish the mounted dam by the channel, it is possible to anchor it with fastening for reinforcement belts 4.

Through flexible filling nozzles (not shown) with an earth pump of an dredging projectile, pumping the necessary concentration of hydro-sand mixture into closed flexible shells 1 begins. The shells can be filled one after another, in order or all at once, to the full volume determined by the diameter D. After filling the shells 1 continue pumping a hydro-sand mixture into the intershell space 8 between them. The flexible dam takes the form of a truncated pyramid, in the crest of which there are at least two closed shells 1 connected to the “eight”, and the longitudinal edges of the open shell 7 are fixed to the outer ribs 5 and 6 of the “eights” on opposite sides of the pyramid. In the working position, the dam consists of sections formed by flexible closed shells 1. In the cross section, the structure represents a honeycomb structure, the cells of which are shells 1 and the intershell space 8 between them.

From the part of the channel located on the side of the side surface of the dam with external ribs 6, pumps pump out the volume of water cut off by the erected bridge. All dry repairs or construction work is carried out dry.

The height of the dam N is chosen according to the average level of the surface of the water, taking into account the maximum elevation and the condition that water does not overlap through the structure during operation.

The width of the dam at the base "d" and along the crest "d ₁ ", as well as its length, is determined by the technical task. The length of the dam consists of the perimeter of the canal, the lengths of two sections of the structure located on both sides of the canal.

Based on the size "d ₁ " in the crest of the dam have at least two flexible closed shells 1 connected in the "eight". It is possible to pump the hydro-sand mixture into the intershell space under the open shell 7 between the top row shells and arrange a technological passage or transition above them with a deck or road surface (pavement) fixed to reinforcement belts 4.

The number of rows of “eights”, the total number of shells 1 in the pyramid, as well as their diameter D, are determined from the condition of the dam stability under the influence of external wave loads and tidal currents, as well as the cost of the structure.

The weight of the dam pumped into the shell 1 and the intershell space 8 of the hydro sand mixture should prevent the pyramid from shifting and tipping over under the influence of hydrostatic water pressure and hydrodynamic loads. Filling the shells 1 to the full volume, determined by the diameter D, significantly increases the weight of the structure. The connection of the shells 1 in the “eights” and the rows of “eights” with each other by flexible connections 4 eliminates the rolling and shifting of the shells with respect to each other.

The presence in each row of “eights” of several shells 1 filled with a hydro-sandy mixture excludes water filtration under the base with the width “d” of the pyramid and between adjacent rows. Damage to one or more enclosed shells 1 will not lead to loss of operability of the structure.

Temporary jumpers for water cutoff in reservoirs are collected in the same order. A “layered pie” assembled on the shore from the rows of “eights” of closed flexible shells 1 and open shell 7 is floated using a floating means, the jumper is placed in an arc as close to the shore as possible, but so as not to interfere with installation work. The ends of the structures 4-5 meters long are left on the shore. Then, pumping the hydro-sand mixture into the shells 1 and the intershell space 8, create a sectional dam.

The dismantling of the sectional dam is carried out in the reverse order with its installation.

Through water outlets (not shown), the inter-shell space 8 and shell 1 are freed by washing out the injected hydro-sand mixture and the flexible dam is pulled ashore.

Disconnect the sun screen 7 from the outer ribs 5 and 6, release the rows of eights from the flexible connections 4, and the eights themselves are fastened along the inner ribs 2 and 3 to separate flexible shells 1, each part of the structure is rolled up onto drums and transported for installation in a new location or storage.

The difference in the formation of water-damming dams for protection against flooding and flooding is that in the place of the expected rise of water on the planned section of the coast, flexible closed shells 1 are parallel to the reservoir, pumping the hydro-sand mixture into shells 1 and inter-shell space 8 is carried out on the shore without placing rows of eights " in water. There, by washing, the inter-shell space 8 and shells 1 are released from the hydro-sandy mixture.

The original design of the protective flexible sectional dam is that it is implemented in separate sections, representing a combination of contiguous flexible cylindrical closed shells 1, each of which is equipped with two elastic ribs located along the forming shells, adjacent inner ribs 2 and 3 of the shell are connected in eight ”, and an open flexible shell 7, rigidly fixed with its longitudinal edge to the outer edge 6 of the“ eight ”, to the other outer edge 5 are fixed flexible connections 4, measures ”are combined in rows placed one above the other with the formation of a truncated pyramid, in the crest of which at least two shells 1 are located, and in each subsequent lower row one shell is larger than the number of shells of the upper row, while all rows of“ eights ”are interconnected reinforcement belts in the form of flexible connections 4, fixed on all outer edges 5 and 6 of closed shells 1 that make up the pyramid, in addition, the open flexible shell 7, which serves as an anti-solar screen, is made of a fabric panel placed on the protrusion part of the pyramid falling above the level of the water surface, and is rigidly fixed by the second longitudinal edge to the outer edge 5 of one of the rows of “eights” under water on the opposite from the location of the fastening of the first longitudinal edge to the outer edge 6 of the side surface of the pyramid, all closed shells 1 and intershell space 8 between them are filled with a hydro sand mixture. This allows:

1. To increase the stability of the structure due to the formation of a truncated pyramid, consisting of flexible shells connected in rows of "eights", placing the rows one above the other, fixing them together with reinforcing belts in the form of flexible ties and pumping into closed shells, as well as into the intershell the space between them of a sandy mixture of the required concentration, which allows to ensure the weight of the dam, preventing its shear and capsizing under the influence of hydrostatic water pressure and hydrodynamic loads.

2. Improve reliability by eliminating water filtration under the base of the pyramid, since it contains a sufficient number of flexible closed shells connected to the “eight” to create a snug fit of the base area to the bottom or coastal surface on which the dam is located, even with their complex terrain or poor layout.

3. To improve operational characteristics by creating a protective sectional dam from interconnected flexible closed shells, while damage to one or more shells will not lead to a loss of operability of the structure.

4. Ensure that the dam is protected from solar radiation and light aging by placing an open flexible shell serving as an anti-solar screen and made of a fabric cloth on the part of the pyramid that projects above the water surface, which will reduce the aging of the shell material and preserve its strength characteristics even when the dam is operated in the south regions.

5. To create the possibility of moving people around the building, since at least two flexible closed shells connected to the “eight” are located in the crest of the dam.

Thus, the proposed design makes it possible to achieve a technical result to increase reliability and improve the operational characteristics of the structure.

Claims (1)

Protective flexible sectional dam, which includes adjacent flexible cylindrical closed shells, each of which is equipped with two elastic ribs located along the forming shells, adjacent inner shell ribs are connected in “eights”, an unclosed flexible rigidly fixed with its longitudinal edge to one of the “eight” ribs shell, flexible connections are fixed to the other outer rib, characterized in that the “eights” are combined in rows placed one above the other with the formation of truncated pyramids s, in the crest of which at least two shells are located, and in each subsequent lower row one shell is larger than the number of shells of the upper row, while all rows of “eights” are interconnected by reinforcing belts in the form of flexible ties fixed to all outer edges of closed shells constituting the pyramid, in addition, the open flexible shell serving as an anti-solar screen is made of a fabric panel placed on the part of the pyramid that projects above the water surface and is rigidly fixed to the second longitudinal omkoy to the outer edge of one of the series of submerged "eights" on the opposite arrangement securing a first longitudinal edge a side surface of the pyramid, all closed shell and mezhobolochnoe space therebetween filled with a mixture gidropeschanoy.

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