RU189520U1 - Multi-rider - Google Patents

Abstract

The utility model relates to hydraulic structures and is designed to protect waters, shores and engineering structures from the wave effects, namely, to quench the wave energy. The wave absorber is a three-dimensional pipe structure. The first part of the base-casing pipes is placed parallel to each other and made with a number of side through holes. The second part of the casing base pipes is placed crosswise and passes through the side through holes of the first part of the casing base pipes. The pipes of the comb are arranged vertically in the holes made along the axis in the lower part of the body of the first part of the pipes of the base-batten. Moreover, the base-casing pipes and the comb tubes are made of a composite material, and the comb tubes are fixed in the holes of the base-sheath pipes by pouring a polymer material into the base-sheath pipes, the density of which allows the base structure to remain permanently in the near-surface water layer.

Description

The utility model relates to hydraulic structures and is designed to protect waters, shores and engineering structures from the wave effects, namely, to quench the wave energy.

Known underwater wave absorbers (breakwaters), fixed at the bottom, for example, the breakwater under the patent for invention RU №2223359 (publ. 10.02.2004). The disadvantage of such wave absorbers is that they do not capture the upper part of the wave, especially during strong storms or at great depth near the coast, which reduces their protective effect.

Floating structures are used to dampen the upper part of the wave. Such wave absorbers are known, for example, from patent documents RU No. 2005838 (publ. 15.01.1994), RU No. 2564864 (publ. 10/10/2015), RU No. 2094565 (publ. 10.27.1997), RU No. 2434991 (publ. 27.11 .2011), RU # 2413817 (published on 10.03.2011), RU # 2572563 (published on 01/20/2016), US # 5961251 (published on 10/05/1999). The common disadvantages of these solutions are: the fragility of the structures due to corrosion vulnerability and the lack of durability of metal structures in seawater and the low mechanical strength of flexible structures made of polyethylene; complexity of structures, as to increase the efficiency of wave quenching in such structures, additional technical measures are organized (built-in auxiliary surge suppressors, voids, perforations, diversion channels, etc.); manufacturing complexity; high price. In addition, most of the known solutions are flat structures of various shapes and sizes, the main task of which is to quench the energy of the upper part of the waves, which does not fully protect the base of the coastal strip. Some more complex devices can dampen waves of greater height, but they are technologically difficult to perform, short-lived, because they are subject to corrosion and do not always have high strength, and their cost is even higher.

Closest to the proposed solution is a mobile floating surge suppressor in accordance with the patent RU No. 2572563 (published on 01/20/2016) containing steel pipes assembled into a three-dimensional structure as wave-extinguishing elements, with the pipes arranged in several rows and oriented perpendicular to the longitudinal axis surge suppressor. The wave absorber includes a single holding frame, in which pipes are laid, providing the necessary longitudinal and transverse rigidity of the wave suppressor, with anchor systems mounted on its upper part and it is equipped with a propulsion system. The height of the wave suppressor (frame) is 0.2-0.3 wave height.

The disadvantage of this solution is the high cost, costly installation, structural complexity, and fragility of the design, as well as limited coverage of only the upper part of the wave height only within the framework size. Thus, there is the problem of creating the design of a floating surge suppressor devoid of these drawbacks.

The proposed utility model solves the problem of creating a floating wave absorber design with increased wave absorbing ability with coverage of the entire wave height in almost any wave conditions, more durable when operating in seawater, reducing material consumption and cost, accelerating and cheapening its installation.

The technical result consists in creating a floating wave absorber design with a high wave extinguishing wave with coverage of the entire wave height in virtually any wave conditions due to more efficient destruction of the kinetic energy of the waves to their entire height due to the flexibility and elasticity of the wave absorber design, increased durability in seawater, material consumption and cost reduction , speeding up and cheaper installation.

To achieve the specified technical result in the wave suppressor, containing as wave-extinguishing elements of the pipe, assembled into a three-dimensional structure, the three-dimensional structure consists of base-casing pipes and comb pipes, while the first part of the base-casing pipes is placed parallel to each other and made with a number of side through holes, and the second part of the base-casing pipes is placed crosswise with the first part of the base-casing pipes and passes through their side through-holes, the comb tubes are directed downwards and placed vertically in holes made along the axis in the lower part of the body of the first part of the base-casing pipes, the base-casing pipes and the comb pipes are made of a composite material, and the comb pipes are fixed in the holes of the base-sheathing pipes by pouring the polymer material into the base-sheathing pipes, the density of which allows the base of the structure to remain permanently in the near-surface layer of water regardless of the height of the waves.

It is advisable to perform pipe combs with a height of up to 14 m.

Distinctive features of the proposed wave suppressor, from the closest one, mentioned above, is that the volumetric structure consists of base-tube pipes and comb tubes, while the first part of the base-tube lines is parallel to each other and made with a number of side through holes, and the second part base-sheathing pipes are placed crosswise with the first part of the base-sheathing pipes and passing through their side through holes, the comb tubes are directed downwards and placed vertically in the holes made along the axis in the lower As part of the body of the first part of the base-casing pipes, the base-casing pipes and the comb pipes are made of a composite material, and the comb pipes are fixed in the openings of the base-sheath pipes by pouring a polymer material into the base-sheath pipes, the density of which allows the base structure to remain permanently in the near-surface layer of water regardless of wave height. In the particular case of the implementation of the utility model pipe combs can reach a height of 14 m.

Due to the presence of these signs in the proposed design of a floating surge suppressor, the extinguishing ability increases with coverage of the entire wave height in virtually any conditions of excitement, the durability increases, the material consumption of the structure decreases, the installation is simplified, accelerated and cheapened.

The design of a floating surge suppressor has a given buoyancy, which allows it to remain constantly in the near-surface layer of water and break both the upper part of the wave and its body to a depth of 14 meters. At the same time, vertical pipes of a comb made of elastic composite material will create a damping effect and break up the laminar flow of water, turning it into a turbulent one, significantly reducing the kinetic shock energy of the wave. On a twelve-point Beaufort scale, the maximum wave height during a strong storm reaches 12.5 m, during a cruel, extremely rare, storm is 16 m. Thus, the proposed wave absorber provides a wave-quenching capability with coverage of the entire wave height in almost any sea state. The construction of a composite material in the marine environment will be more durable than almost any analogue. Composite pipes are easily processed, so that the device can be easily manufactured and assembled, the cost of construction is reduced. Due to the absence of a retaining frame, a decrease in the number of pipes in a three-dimensional structure, the material consumption is reduced in comparison with the closest analogue.

The proposed design is illustrated by drawings.

The figure 1 shows a general view of the wave suppressor in axonometric projection, figure 2 shows the front view of the wave absorber, figure 3 shows the side view of the wave absorber, figure 4 shows the top view of the wave absorber, where 1 is the base-sheathing pipes, 2 are the comb tubes, 3 lateral through holes in the pipes of the base-batten 1, 4 - openings in the lower part of the body of the pipes of the base-batten 1.

The wave absorber is a three-dimensional structure assembled from the base-sheathing pipes 1 and the comb-2 tubes. The first part of the base-sheathing pipes 1 is arranged parallel to each other, with a series of lateral through holes 3 in each of the first part, and the second part of the base-sheathing pipes 1 is placed crosswise the first part of the base-pipe 1 pipes and passes through a series of side through holes 3 of the first part of the base-1 pipe 1 pipes. The base-1 pipes of the first part are several parallel rows of main large-diameter pipes connected s between a second portion of the transverse pipe base-batten 1 of smaller diameter and forming together a lattice, the cross pipe of smaller diameter pass through the body main pipe of larger diameter. The lattice formed by the base-casing pipes is the base of the structure and is located in the near-surface layer of water. Pipes of the comb 2 are placed vertically in the holes 4, made along the axis in the lower part of the body of the first part of the pipes of the base-sheathing 1 and directed vertically down into the water column. The pipes of the comb 2 are small diameter pipes that are installed with a certain distance in the first part of the base-casing pipes 1. The height (up to 14 meters), the installation density and possible gradation of the pipes of the comb 2 are determined by the specific location of the wave absorber to solve the problem of the most effective destruction kinetic energy of waves throughout their height.

The wave absorber consisting of base-casing pipes and comb pipes is made of a composite material, for example, fiberglass, glass basalt-plastic, basalt-plastic pipes. Base crates, filled with polymeric materials, have a given buoyancy and are constantly in the near-surface layer of water. To hold the structure in a given place, anchors are used attached to the base-sheathing pipes. The width of the wave front closed by the construction is up to 10-12 meters, the number of rows of pipes in the base-crate can vary. As the first part of the base-casing pipes (main), pipes with a diameter of 0.3-1.2 m are used, as the second part of the pipes (transverse) - pipes with a diameter of 0.2-0.5 m, as the comb pipes - pipes with a diameter 0.1-0.5 m. Taking into account the specific local conditions, pipes of other diameters may be used. The frequency of installation of the pipes of the comb and their length is also determined by local conditions. The design of the wave suppressor is a national team, it is assembled on the shore or on a ship from which it is launched, and mobile (it can be installed anywhere and move to other areas). The pipes of the comb after installation in the holes of the pipes of the base-batten are fixed in them by pouring the polymer material into the pipes of the base-batten. After this, the structure becomes permanent, it can move to other parts of the water area or ashore as a whole.

The proposed design of the floating surge suppressor is implemented in the design of the “Plow” surge suppressor.

Claims (2)

1. A wave absorber, containing as pipe extinguishing elements, assembled into a three-dimensional structure, characterized in that the three-dimensional structure consists of base-sheath pipes and comb tubes, while the first part of the base-sheath pipes is arranged parallel to each other and made with a number of side-through holes, and the second part of the base-casing pipes is placed crosswise with the first part of the base-casing pipes and passes through their side through-holes, the comb tubes are directed downwards and placed vertically in the holes made along the length of the axes in the lower part of the body of the first part of the base-sheathing pipes, the base-sheathing pipes and the comb pipes are made of a composite material, and the comb pipes are fixed in the holes of the base-sheath pipes by pouring the polymer material into the base-sheath pipes, the density of which allows the base structures remain permanently in the near-surface layer of water regardless of wave height. 2. Wave absorber according to claim 1, characterized in that the tubes of the comb are made up to 14 m high.

Images