KR100699274B1 - Installation Structure of Floating Breakwater - Google Patents

Abstract

A structure for installing a floating breakwater is provided to cut down maintenance costs by constructing a couple of breakwaters in a soft ground regardless of the depth of water, and to prevent water pollution by freely circulating a current below the breakwater. A floating breakwater installation structure comprises a base block(10) placed in a soft ground, a couple of breakwaters(20,20a) axially installed at both sides of the base block and floated on the water, and a rectangular caisson(30) restricting a collision of the breakwaters. The gap between upper finishing blocks(27) is increased with buoyancy of floating rods(23) and floating boxes(25) in the breakwaters at low tide. A shock absorbing rubber is fixed to an upper part of the innermost breakwater plate of the base block to prevent breakage of the breakwater plate by absorbing shock. The distance between the upper finishing blocks decreases by turning the breakwater around an assembling steel rod in an assembling hole of an assembling projection when the tide is on the flow.

Description

Installation Structure of Floating Breakwater

Figure 1 is a side cross-sectional view showing the operation state when the water level is low to show the construction state of the floating breakwater installation structure according to an embodiment of the present invention,

Figure 2 is an exploded perspective view showing the fastening of the floating breakwater installation structure according to the embodiment of the present invention,

Figure 3 is a side cross-sectional view showing the operation state when the water level is high to show the construction state of the floating breakwater installation structure according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: basic block 11: seating groove

12: breakwater fastening part 13: fastening hole

14: fastening steel bar 15: sofa functional plate

16: couch ball 17: shock absorbing rubber

18: fastening protrusion 19: fastening recess

20,20a: Breakwater 21: Fastener

22: seawater flow hall 23: buoyancy rod

24: fastening steel bar 25: buoyancy box

26: seawater flow hole 27: upper closing block

28: fastening rod 30: square caisson

31: couch ball 32: the seat

The present invention relates to a floating breakwater installation structure, and more particularly, even if the soft ground or deep water is easy to install, not only reduce the construction cost, but also shorten the construction period to improve the economics, a pair of left and right It is composed of breakwaters, but even if one side does not function as a breakwater, the remaining one can perform the function instead, reducing maintenance costs and freeing the algae to flow freely under the breakwater, preventing seawater contamination of the inner port. It relates to an environment-friendly floating breakwater installation structure.

In general, the breakwater is an essential structure of the port that blocks the ingress of blue waves from the open sea to maintain the calmness of the sea level in the port and keep the various facilities and ships anchored safely. At the time of construction, it is necessary to construct a breakwater that is legal in the port considering the maximum wave size, ground conditions, and construction method of the construction location.

Conventional breakwater has been constructed in the form of a diaphragm concrete structure or rocks (stones), etc. in the ocean to build a levee from the seabed.

Although the conventional fixed breakwater has an advantage of effectively preventing the wave incident from the open sea, it is not only difficult to construct when the soft ground or the water depth is deep, but also it is uneconomical such as increase in construction cost and excessive construction period. In addition, the seawater circulation between the inner port and the outer port is blocked, resulting in deterioration of the water quality of the inner port, causing marine pollution, unstable visibility of ships sailing due to the breakwater structure, and blocking the view of the port.

The present invention is to solve the above problems, even if the soft ground or deep water is easy to construction, not only reduce the construction cost, but also shorten the construction period to improve the economics, and consists of a pair of left and right breakwater Even if one side does not function as a breakwater, the other remaining breakwater can perform that function instead, reducing maintenance costs and allowing the algae to flow freely under the breakwater to prevent seawater pollution in the inner port. The purpose is to provide a type of breakwater installation structure.

In order to achieve the above object, the present invention is a plate body to be seated on the soft ground, the seating groove is formed on the upper surface of the center, the breakaway fastening portion having a fastening hole protruding upward to the top of the seating groove is axially coupled From the upper left side to the center of the left, a number of sofa function plates penetrated by a plurality of sofa balls are sequentially fixed up high, and among them, shock absorbing rubber is fixed to the top of the highest sofa function plate adjacent to the breakwater fastening part. A fastening protrusion formed at a front side and a fastening recess at which a fastening protrusion is inserted at a rear side thereof, and a basic block configured to be symmetrical with the left side of the right side of the seating groove;

The fastening hole to be fastened through the fastening steel bar is formed in the fastening hole of the breakwater fastening portion of the foundation block, a seawater flow hole is formed at the bottom, and a plurality of buoyancy rods are inserted into and fixed at the top of the fastening steel bar. The bottom of the buoyancy box having a seawater flow hole by the side is axially coupled, the bottom of the upper closing block is fixedly coupled by a fastening rod to the top of the buoyancy box, and adjusts its length and left and right rotation displacement according to the water level of the ocean A pair of left and right breakwaters;

It is characterized by having a rectangular caisson which is filled with a dead stone inside the rectangular cylinder having an upper portion having a plurality of sofa balls on the left and right sides, and fixed to the seating groove of the foundation block.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a side cross-sectional view showing the operation state when the water level is low to show the construction state of the floating breakwater installation structure according to the embodiment of the present invention, Figure 2 is an exploded perspective view showing the fastening of the floating breakwater installation structure according to the embodiment of the present invention 3 is a side cross-sectional view showing the operation state when the water level is high as showing the construction state of the floating breakwater installation structure according to the embodiment of the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof is omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator.

Therefore, the definition should be made based on the contents throughout the specification.

Floating breakwater installation structure of the present invention, in particular, is installed on the soft ground spaced a certain distance from the existing fixed breakwater, and is axially coupled to the left and right sides of the base block 10 and the base block 10 respectively seated on the soft ground It consists of a pair of breakwater (20, 20a) that rises according to the water level, and a square caisson 30 to prevent the pair of breakwater (20, 20a) from colliding with each other.

The base block 10 is a plate seated on the soft ground, the seating groove 11 is formed on the upper surface of the center, the mounting groove 11 is protruded to the upper end of the fastening hole (14) is fastened to the coupling steel bar 14 ( A breakwater fastening part 12 having a 13) is formed, and a plurality of sofa function plates 15 having a plurality of sofa holes 16 penetrated from the upper left side to the center of the left are sequentially fixed to a plurality of upright, among which the breakwater fastening is performed. The shock absorbing rubber 17 is fixed to the upper end of the highest sofa function plate 15 adjacent to the protrusion 12, and a fastening protrusion 18 is formed in the front and a fastening protrusion 18 is inserted in the rear. A fastening recess 19 to be fastened is formed, and is configured to be symmetrical to the left side of the right side of the seating recess 11.

The breakwater (20, 20a) has a length at the time of vertical standing is usable at the maximum water level of the ocean, a pair of left and right plates having a rotational displacement of about 30 degrees to 45 degrees in the left and right directions relative to the vertical standing In a sieve, a fastening hole 21 fastened through a fastening steel bar 14 is formed in a fastening hole 13 of the breakwater fastening portion 12 of the foundation block 10, and a seawater flow hole 22 is formed in a lower portion thereof. Is formed, and a plurality of buoyancy rods 23 are inserted and fixed therein, and the lower end of the buoyancy box 25 having the seawater flow hole 26 on the side by the fastening steel bar 24 is axially coupled, The upper end of the buoyancy box 25 is fixed to the lower end of the upper closing block 27 by a fastening rod (28). In this case, in order to further widen the movable displacement of the breakwater 20, 20a, the height of the adjacent sofa function plate 15 and the shock absorbing rubber 17 may be further lowered. In addition, when the water level of the ocean exceeds the length of the breakwater (20, 20a) of the movement to the upper and lower sides because it is difficult to investigate the high and low of the water level in advance of course to obtain the appropriate length.

The square caisson 30 is a rectangular cylinder having an upper portion having a plurality of sofa holes 31 on the left and right sides, the inside of which is filled with a seating stone 32, the seating groove 11 of the foundation block 10 It is secured to the seat to prevent the pair of breakwater (20, 20a) from colliding with each other at the center side.

The present invention may be installed on the front side of the breakwater adjacent to the general breakwater, but irrespective of the place or location of the breakwater, as shown in FIG. 1, when the water level of the sea is low at low tide, the breakwater 20, 20a The distance between the upper closing block 27 in the state lying on the left and right by buoyancy of the buoyancy bar 23 and buoyancy box 25 is formed far from each other.

At this time, the shock absorbing rubber 17 is fixed to the upper end of the innermost sofa functional plate 15 of the foundation block 10 to cushion and absorb the shock when the breakwater (20, 20a) is in contact with the sofa functional plate (15) ) Will prevent damage.

As shown in FIG. 3, when the water level of the ocean is high, such as when the tide is high, the breakwaters 20 and 20a are pivoted upright by the fastening steel bars 14 in the fastening holes 13 of the breakwater fastening protrusions 12 and breakwater 20 , The distance between the 20a is closer, the distance between the upper closing block 27 is also closer.

At this time, the square caisson 30 is formed in the center seating groove 11 of the foundation block 10 in order to maintain a minimum distance in order to prevent the upper closing block 27 of the top of the breakwater (20, 20a) to collide with each other. It is settled.

The breakwaters 20 and 20a of the present invention operated as described above are greatly reduced in maintenance costs because one side performs a function as a breakwater even if one side fails.

As described above, the present invention is easy to construct even in deep ground or water depth, not only to reduce the construction cost, but also to improve the economics by shortening the construction period, one side is composed of a pair of breakwater, one side performs the function of the breakwater If not, the remaining one breakwater can perform its function instead, reducing maintenance costs and freeing the algae to flow freely under the breakwater, thus preventing the seawater pollution of the inner port.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (1)

The plate is seated on the soft ground, and a seating groove is formed on the upper surface of the center, and a breakwater fastening portion having a fastening hole is formed at the tip of the seating groove, the fastening hole of which the fastening steel bar is axially coupled. A number of upholstered sofa function plates are fixed in high order, and among them, shock absorbing rubber is fixed at the top of the highest sofa function plate adjacent to the breakwater fastening part, and fastening protrusions are formed at the front and rearward. A base block having a fastening recess to which the fastening protrusion is inserted and fastened, and configured to be symmetrical with the left side of the seating groove; The fastening hole to be fastened through the fastening steel bar is formed in the fastening hole of the breakwater fastening portion of the foundation block, a seawater flow hole is formed at the bottom, and a plurality of buoyancy rods are inserted into and fixed at the top of the fastening steel bar. The bottom of the buoyancy box having a seawater flow hole by the side is axially coupled, the bottom of the upper closing block is fixedly coupled by a fastening rod to the top of the buoyancy box, and adjusts its length and left and right rotation displacement according to the water level of the ocean A pair of left and right breakwaters; Floating breakwater mounting structure having a rectangular caisson which is filled with a dead stone inside the rectangular cylinder having a plurality of sofa holes on the left and right sides and is fixed to the seating groove of the base block.

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