RU2291931C1 - Protective hydraulic structure - Google Patents

Abstract

FIELD: hydraulic structures adapted to protect shore object against natural disasters and to erect temporary barriers on water pool bottom.

SUBSTANCE: hydraulic structure comprises flexible cylindrical sealed shell to be filled with water. The shell is composed of two vessels touching each other. Each vessel is provided with two elastic side ribs extending along vessel generators. The vessels are connected with each other by adjacent inner ribs so that figure-of-eight structure is created. Opened flexible shell is fastened to one outer rib of figure-of-eight structure by lower edge thereof. Floats are arranged on upper edge of opened flexible shell. The floats are connected to outer rib by flexible tie members so that tie member length may be changed.

EFFECT: decreased time of structure installation and demounting due to reduced volume of water to be supplied in closed shell, reduced weight of structure components and increased hydraulic structure stability.

1 dwg

Description

The invention relates to hydraulic structures and can be used to protect objects located in the coastal zone from natural disasters associated with rising water or wave loads, for example, during floods on rivers or cataclysms in the sea, as well as to erect a temporary barrier at the bottom of a reservoir, for example, when cleaning from deposits of hydrochannels or during their repair, as well as for land reclamation during the construction of water-bearing dams.

Considering that natural disasters are fast-moving processes in time and reclamation systems are seasonally active, the urgent problem is the improvement of temporary hydraulic structures of relatively low cost, quick-erect, low mass, which differ in the possibility of multiple installation in various settlement sections at minimal cost. Buildings and structures made of waterproof fabrics in the form of open and closed shells often meet these requirements.

Known tissue dam of the open type, which is a cloth panel that receives water pressure, attached with its upper edge to the power belt of metal ropes that are attached to the coastal anchor supports. With its lower edge, the cloth is attached to a reinforced concrete or concrete tooth. The underground contour of a tissue dam of open type is performed in various versions (Volosukhin V.A., Kuznetsov V.A. Fundamentals of the theory and methods of calculating tissue structures of reclamation systems: Monograph. - Novocherkassk, NGMA, 2001. - S.14-15, 18) .

The disadvantage is the duration of installation and dismantling of the structure. So when erecting and dismantling the structure, it is necessary to carry out up to a hundred operations for installing and removing metal clamps, with the help of which the power belt is fastened to the supporting fabric sheet. In addition, the open dam panel with a span of 20-30 m and a working height of up to 5 m has a large area and, therefore, a large weight, which increases the duration of folding and unfolding of the dam, and also complicates its movement.

A hydraulic structure is known, including a flexible cylindrical closed shell, which is filled with water or air, in the case of filling with water using pumps, it is possible not to fix the shell on a foundation foundation, since due to its weight it maintains a stable position under the influence of external loads (V. Volosukhin. , VA Kuznetsov. Fundamentals of the theory and methods of calculating tissue structures of reclamation systems: Monograph. - Novocherkassk, NGMA, 2001. - P.16-18).

The disadvantage is the duration of the construction and dismantling of the structure, since when the shell is brought into operation, a large volume of water is pumped into it, which even takes a lot of time with production pumps. The process of releasing the injected volume of fluid from the shell during dismantling is also lengthy. In addition, a closed shell with a span of 20-30 m and an operational height of up to 5 m must have a large perimeter to ensure a stable position, and therefore has a large weight, which increases the duration of the dam rolling up and rolling out of the roll, as well as complicates its transportation.

The technical task of the invention is to reduce the duration of the construction and dismantling of the structure by reducing the volume of water pumped into a closed shell and reducing the weight of parts of the structure while increasing the stability of the structure.

The technical result of reducing the duration of the construction and dismantling of the structure is achieved by the fact that in a protective hydraulic structure, including a flexible cylindrical closed shell filled with water, the shell is made of two contacting containers, each of which is equipped with two elastic side ribs located along the generating tanks, and adjacent the inner ribs of the tank are connected to the "eight", and to one of the outer ribs of the "eight" is rigidly fixed with its lower edge n a closed flexible envelope on the upper edge of which has floats anchored to the second flexible ties outer edge, with an adjustable length links.

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

The protective hydraulic structure contains a flexible cylindrical closed shell filled with water, made of two adjacent tanks 1 and 2, the tank 1 is equipped with two elastic side ribs 3 and 4, and the tank 2 is equipped with two elastic side ribs 5 and 6, the ribs are located along the generating tanks 1 and 2, the adjacent inner ribs 4 and 5 of the tank 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 8 are placed, replicated by flexible ties 9 to the outer edge 6, the flexible ties are equipped with a sling device 10 that allows you to adjust the length of the ties.

Protective hydraulic structure operates as follows.

To erect a protective hydraulic structure on the shore at the site of the expected rise of water, closed cylindrical containers 1, 2 and an open shell 7 made of waterproof materials are unwound from the rolls. The shells are positioned alongside each other in length.

To facilitate the deployment, folding and transportation of the closed shell, it is composed of independent containers 1 and 2, and each container is equipped with two elastic ribs 3, 4 and 5, 6, respectively, located along the generatrix of the containers. Each of the containers is unwound from a separate roll, the decomposed containers are placed side by side and connected by adjacent inner ribs 4 and 5 to the “eight”. The connection can be made in various ways, for example, metal or elastic overlays with a threaded connection, metal clips, loops and hooks, etc.

A closed cylindrical shell can be made as a single unit in the form of a "figure eight" of tanks 1 and 2 and the outer side ribs 3 and 6 located along the generating tanks.

In tanks 1 and 2, which make up the G8, water is simultaneously pumped from a water source by pumps operating in parallel.

At the same time, the lower edge of the open shell 7. is fixed to one of the elastic outer ribs of the G8. When the speed of the expected water flow is shown in FIG. shell 7 to the rib can be implemented in various ways, for example, metal or elastic pads with threaded connections, metal clamps, etc. The junction of the ribs 3 and the open shell 7 must be airtight, water leakage between the tank 1 and the lower edge of the open shell 7 is not allowed.

Along the upper edge of the open shell 7, they are placed and fixed in various ways, for example, a hook loop, floats 8. The floats are made of light materials, such as corks, polystyrene, or are made in the form of rigid containers filled with air. The number of floats and the distance between them is chosen so that there is no sagging of the upper edge of the open shell 7 and there is no overlap of water through the upper edge during operation. The floats 8 are fixed with flexible ties 9 using a sling device 10 to the outer edge 6 of the tank 2. The slider device 10 allows you to adjust the length of the flexible connections 9 depending on the height of the structure N (up to 5 m or more), which is determined by the expected rise in water. The length of the flexible connections 9 also determines the shape of the open shell 7 in working condition. As flexible connections belts, cables or fishing net can be used. In order not to destroy the closed containers 1 and 2 and the open flexible shell 7 with piercing and cutting debris, which is abundant in flood water, the shells are made of especially durable materials. Flexible communication in the form of a fishing net can serve as additional protection against the destruction of the structure. When changing the direction of the water flow velocity to the opposite from that shown in the drawing, the lower edge of the open shell 7 is attached to the outer edge 6 of the tank 2, and the flexible connections 7 to the outer edge 3 of the tank 1.

While the parts of the protective hydraulic engineering structure are connecting, the tanks 1 and 2, forming the “eight”, are filled with water to the dimensions, for example, width d = 2 m, height h = 1 m, and h <H (sizes d and h are chosen in this way, so that the weight of the injected water interferes with the shear and tipping of the structure by external loads). This can significantly reduce the volume and, consequently, the time of pumping water into both containers in comparison with filling a single closed shell to a height of N.

At high external loads, in order to increase the stability of the structure, the same additional tanks can be connected to tanks 1 and 2 with side ribs, each of which forms an “eight” with an adjacent tank. The number of connected containers should be such that the weight of the water pumped into all shells prevents the displacement of the structure. With an increase in the number of connected containers, the sizes d and h can be significantly reduced, and therefore, the volume of water pumped into each tank can be reduced and the time required to fill and empty the tank can be reduced. Since each tank is filled with parallel running pumps, there will be a reduction in the duration of the construction and dismantling of the entire structure.

A closed shell in the form of a "eight", composed of non-communicating containers 1 and 2, open shell 7, floats 8 and flexible connections 9 with sling devices 10 form sections that can be connected to a protective hydraulic structure of arbitrarily long lengths (kilometers or more) .

When the water rises and wave loads reach h <or = 1 m, protection occurs only with a closed shell in the form of a “figure eight” composed by containers 1 and 2 filled with water. With an increase in h> 1 meter, the water rises above the tanks 1 and 2, and the lifting force begins to act on the floats, causing the floats 8 to float together with the open shell 7, making it possible to create protection from a combination of open and closed shells to a height H provided by flexible connections 9 necessary lengths.

Water on top of tanks 1 and 2 due to its weight additionally prevents the structure from shifting and overturning, which, in turn, allows to reduce the working dimensions d and h of tanks 1 and 2, the volumes of injected water in the tank, and, consequently, the time of filling and emptying . Combined protection of closed and open shells allows you to reduce the perimeter of the closed shell, composed in the form of "eight" with capacities 1 and 2, and the area of the open shell 7 (by reducing its width).

The dismantling and transportation of the structure is carried out as follows.

After the disaster subsided, the height H decreases from maximum to zero, tanks 1 and 2 are freed from the injected water under the influence of weight. At the same time, the protective hydraulic structure is dismantled in the reverse order into its component parts. Flexible connections 9 and the lower edge of the open shell 7 are freed from fastening on the ribs 3 and 6 of the tanks 1 and 2, the floats 8 are unfastened with the upper edge of the open shell 7, the flexible connections 9 are freed from the floats, disconnect the ribs 4 and 5, and the tanks 1 and 2 they are freed from the G8, each of the parts of the structure (except the floats) is rolled up, the protective hydraulic structure is transported for installation in a new settlement site or for storage.

When constructing a temporary barrier at the bottom of the reservoir, first, on the shore, the parts of the protective hydraulic structure are assembled and connected in the same sequence, but without water injection in tanks 1 and 2. When assembled, the structure is placed in the channel of the reservoir, after which water is pumped into tanks 1 and 2, the protective hydraulic structure takes on operational dimensions and is ready for operation, without fixing the structure in the channel of the watercourse.

After the construction is completed, containers 1 and 2 are freed from the injected water, the structure is pulled ashore, disassembled into separate parts, containers 1 and 2 and the open shell 7 are rolled up, the structure is transported to a new place for erection or storage.

Thus, the proposed design allows to achieve a technical result to reduce the duration of the construction and dismantling of the structure while increasing its stability.

The originality of the proposed design of the protective structure is that it is implemented as separate modules, representing a combination of a closed flexible cylindrical shell, filled with water and made of two adjacent tanks 1 and 2, each of which is equipped with elastic ribs 3, 4, and 5, respectively. 6, located along the generating capacities, adjacent inner ribs 4 and 5 of the tank 1 and 2 are connected in the "eight", and an open flexible shell 7, rigidly fixed with its lower edge to the outer edge 3 "eights", along the upper edge of the shell floats 8 are placed, fixed by flexible ties 9 to the edge 6 of the "eight", flexible ties can be adjusted in length using a sling device 10.

Claims (1)

Protective hydraulic structure, including a flexible cylindrical closed shell filled with water, characterized in that the shell is made of two adjacent tanks, each of which is equipped with two elastic side ribs located along the forming tanks, and the adjacent inner edges of the tank are connected in the "eight", and to one of the outer ribs of the G8, an open flexible shell is rigidly fixed with its lower edge, along the upper edge of which are floats fixed by flexible zi to the second outer edge with the ability to control the length of the bonds.