RU2565271C1 - Floating wave absorber - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: wave absorber contains the breakwater implemented in the form of two hollow volume elements arranged, at least, in one row, at least, one of which, is partially filled with the material providing its immersion. The housing of each hollow volume element has, at least, four eyes and, at least, one hole for filling with the named material providing immersion, and, at least, one anchor fixture connected with the breakwater. Each housing of the hollow volume element is made of plastic. The breakwater is fitted with the fasteners, each installed in the respective eye, for mutual fastening of plastic hollow volume elements and simplicity of variation of amount of the latter as a part of the breakwater.

EFFECT: expansion of operational possibilities due to simplicity of assembly of the breakwater and simplicity of possibility of adjustment of the breakwater to the supposed size of wave due to simplicity of change of its sizes, changing of immersion of the floating wave absorber and its configuration without the need in detachment of the anchor fixture.

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Description

The invention relates to construction, namely to hydraulic structures, in particular to devices and structures for protecting river and sea shores or port structures from waves, in particular to structures of floating wave suppressors.

Closest to the technical nature of the present invention is selected as a prototype floating waveguard containing a wave breaker, made in the form located at least one row of at least two hollow volumetric elements, at least one of which, according to at least partially filled with material to ensure its immersion, while the body of each hollow volumetric element has at least four eyes and at least one opening for filling with the aforementioned material, bespechivaet dive and associated breakwater at least one anchoring device (US patent №5879105, publ. 1999).

The disadvantages of the prototype are the low operational capabilities of the wave suppressor due to the complexity of the assembly and disassembly of the structure of the wave breaker and the need to disconnect the anchor device when changing the configuration of the wave breaker to adjust its setting to the estimated wavelength.

The technical result achieved by the present invention is to expand the operational capabilities due to the simplicity of assembly of the wave breaker and the simplicity of providing the ability to control the configuration of the wave breaker to the expected wavelength by simplicity of changing its size, changing the immersion of the floating waveguard and its configuration without the need to disconnect the anchor device.

The technical result is achieved by the fact that in a floating waveguard containing a wave breaker, made in the form located at least in one row, at least two hollow volumetric elements, at least one of which is at least partially filled the material ensuring its immersion, while the body of each hollow volumetric element has at least four eyes and at least one opening for filling with the aforementioned material providing immersion, and associated with the breakwater, at least one anchor device, each body of the hollow volumetric element is made of plastic, and the breakwater is equipped with fasteners installed, each in the corresponding eye, for fastening plastic hollow volume elements together and ease of changing the number of the latter in the breakwater.

In FIG. 1 shows a floating waveguard, a general view in isometry,

in FIG. 2 - same, top view,

in FIG. 3 - hollow volumetric element with four eyes, a general view in isometric view,

in FIG. 4 - hollow volumetric element with six eyes, a general view in isometry.

The floating wave suppressor contains a breakwater 1 and at least one anchor device 2 (associated with it, two anchor devices 2) associated with it, consisting, for example, of an anchor (not shown in the figures), anchor cable 3 and attachment unit 4 . The wave breaker 1 is made in the form of fastened together by means of fastening elements 5 and located at least in one row 6 (in Fig. 1 and 2 two rows 6 are shown) of at least two hollow volume elements 7 (in Fig. 1 depicted eighteen hollow volumetric elements 7), at least one of which is at least partially filled with material that immerses it (for example, water or sand), while the housing 8 of each hollow volumetric element 7 is made of plastic and has, at least four eyes 9 (see FIG. 3, in FIG. 1, 2 and 4, a plastic hollow volume element 7 with six eyes 9 each) is shown for installing the corresponding fastening elements 5, only fastening the plastic hollow volume elements 7 together and thereby ensuring ease of changing the number of the latter in the structure of the breakwater 1, and at least at least one opening 10 for filling with the aforementioned immersion material. In addition, rows 6 of plastic hollow volumetric elements 7 can be stacked in at least one layer 11 (in FIG. 1, two rows 6 are stacked in three layers 11). The hole or holes 10 can be closed, for example, with plugs 12, while partially filling the plastic hollow volumetric elements 7 or not filling some plastic hollow volumetric elements 7 is only possible with closed holes 10. In cases with open holes 10 (which can be performed, for example , drilled, anywhere in the housing 8, for example in the upper face 13 of the plastic hollow volumetric element 7, see Fig. 3) when filling all the plastic hollow volumetric elements 7, for example, with water, adjusting their immersion and the setting for damping certain waves occurs by changing the number of plastic hollow volumetric elements 7 in rows 6, the number of rows 6 themselves and the number of layers 11 (by simply fastening the corresponding eyelets 9 with fasteners 5 or disconnecting the fasteners 5).

A floating waveguard operates as follows.

The floating waveguard is assembled into a single structure of plastic hollow volumetric elements 7 by fastening the eyes 9 of the buildings 8 with fasteners 5. An anchor, by means of an anchor cable 3, fixed by a fastening unit 4 to the wave-breaker 1, holds the latter in place. The cavity of the plastic hollow volumetric elements 7 through the holes 10 is filled, for example, with water.

This technical solution due to the simplicity of the assembly of the wave breaker with fasteners 5 and the simplicity of providing the ability to adjust the configuration of the wave breaker 1 to the estimated wavelength by the ease of changing its size and configuration without the need to disconnect the anchor device 2 extends the operational capabilities of the floating waveguard.

Claims (1)

A floating waveguard containing a wavebreaker, made in the form of at least one row of at least two hollow volumetric elements, at least one of which is at least partially filled with material to ensure its immersion, while the body of each hollow volumetric element has at least four eyes and at least one opening for filling with the aforementioned material, providing immersion, and at least one anchor device associated with the breakwater, characterized the fact that each body of the hollow volumetric element is made of plastic, and the breakwater is equipped with fasteners installed, each in the corresponding eye, for fastening the plastic hollow volume elements together and the ease of changing the number of the latter in the breakwater.

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