KR20170065018A - Tetrapod and mold for manufacturing tetrapod - Google Patents

Abstract

The present invention provides various slip prevention means in various forms or structures, thereby positively protecting against safety hazards such as sliding and falling due to an increase in frictional surfaces based on the groove shape, , It is protected from secondary safety accidents and it is easy to construct and secure close connectivity with each other, and also provides habitat such as fishes and seafoods. Therefore, it is possible to produce multifunctional tetrapods and tetrapods And a conical block (10) divided into four parts for guiding a blue sofa, wherein the conical block (10) is provided with a slip prevention means which is recessed along the circumference of the circular block, And can be climbed on their own. And it characterized in that.

Description

TETRAPOD AND MOLD FOR MANUFACTURING TETRAPOD < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a concrete type block used in place of a clay stone for wave cushioning. More specifically, the present invention provides a predetermined slip prevention means in various forms or structures, , It is protected from the safety accident such as fall, and is protected from the secondary safety accident by the advantage that it can be utilized as the gripping means without the help of the other person in case of misplacing such as the offense. In addition, The present invention also relates to a mold for producing tetrapod and tetrapod which contributes to a more environmentally friendly structure by providing a habitat for fish and shellfish.

In general, TETRAPOD is a concrete structure that forms four horns. In order to protect the inside of the harbor from bar waves used to extinguish or reduce the strength of the strong waves, It is assembled at an angle and has a shape of a dam.

These tetrapods are a means for stably constructing breakwaters, and as the waves progress to the beaches, they weaken the coastal coasts and cause side effects such as accumulation of sand. . Therefore, it is a common practice to install a breakwater on the outskirts of the harbor and to deposit tetrapods on the outskirts of the breakwater, which is a very important issue.

On the other hand, the area near the breakwater where the tetrapods are piled is in the spotlight for the tourists as well as for the anglers, so frequent traffic is frequent and safety accidents are frequent. That is, the original purpose of tetrapod is to protect the pier and the ship from the waves, so there is no safety facility such as a rope or a handle, so that a disorder or a collision between the layers of the tetrapods is randomly generated , And the scale of human injury caused by this is considerably large, thus necessitating improvement.

In order to solve the above problems, there has been proposed a tetrapod equipped with safety equipment or a tetrapod provided with a safety jaw so as to safely walk on the foot. However, in the above prior art documents and conventional technical documents, There is a lack of substantial improvement measures, and the solution is very limited.

Above all, if it falls due to slip or slip, it can not prepare for the phenomenon that it is not easy to climb due to the surrounding water moss, which leads to a serious problem that can not cope with secondary safety accidents such as hypothermia.

Patent No. 10-1385506 Registered Patent No. 10-1052759 Patent No. 10-1201685

It is an object of the present invention to provide a tetrapod which is created in order to positively solve the above problems and is constituted so as to contribute to prevention of a safety accident while being stably maintained in a strong wave.

In the present invention, a predetermined slip prevention means is provided to prevent safety accidents such as slipping and falling, and it is possible to exhibit optimal efficiency by adopting various forms and structures of the slip prevention means. The other challenge is to provide it to be secured.

In addition, it is another object of the present invention to provide a mold for forming a tetrapod to which the slip prevention means is applied.

According to an aspect of the present invention, there is provided a cone block (10) divided into four parts to induce a wave of a wave, the cone block (10) having a concave The slip prevention means includes a plurality of desiccation grooves 131 formed in the outer surface of the conical block 10, the plurality of desiccant grooves 131 being recessed from the outer surface of the conical block 10, And a plurality of grooves (13) are arranged in the direction of the center of the tetrapod from the end of the conical block (10).

In the preferred embodiment of the present invention, the fresh water forming recessed grooves 13 are grooves having a height lower than that of the surface of the conical block 10; A groove end wall surface 132 as a wall surface of the fence demand groove 131, which is a wall surface in the direction of the end of the cone block 10; A groove central wall surface 133 as a wall surface of the fence demand groove 131, which is a wall surface of the tetrapod center direction; And a groove circumferential wall surface (134), which is a circumferential side wall of the conical block (10) as a wall surface of the fence demand groove (131).

In the preferred embodiment of the present invention, the fresh water dwelling grooved portion 13 is formed by arranging a plurality of sandwiching grooves 131 in a circumferential direction of the conical block 10 so as to surround one grooved transverse line array 141 ); And a plurality of fence demand grooves 131 are arranged in the center direction of the tetrapods in the direction of the end of the conical block 10 to form one fulcrum string array 142. The individual fence demand grooves 131 are formed in a row A plurality of concave transverse bar arrangements 141, and a plurality of concave transverse bar arrangements 141, which are arranged in a longitudinal direction of the conical block 10, Line 143; And a plurality of longitudinal groove barrier ribs (144) extending in the longitudinal direction between the plurality of heavy demand grooves (131) arranged in the longitudinal groove array (142).

In the preferred embodiment of the present invention, the fresh water dwelling grooves 13 are formed in a plurality of grooves 131 in the lateral direction of the conical block 10 at the end of the conical block 10, An end freshwater forming concave line 151 constituting a transverse line arrangement 141; Two rows of trenches 141 are formed in the transverse direction of the conical block 10 by arranging the plurality of trenches 131 in the transverse direction of the cone block 10 at the next arrangement position in the direction of the center of the tetrapod Freshwater forming hull line 152; A plurality of porthole grooves 131 are formed at the next arrangement position in the direction of the center of the tetrapod in the two arranged fresh water forming concave lines 152, An array freshwater forming hull line 153; A plurality of pit demand grooves 131 are formed at the next array position in the direction of the center of the tetrapod in the three arranged fresh water forming concave lines 153, An array freshwater forming hull line 154; A plurality of pit demand grooves 131 are formed at the next arranging position in the tetrapod center direction in the four arranged fresh water forming concave lines 154, An array freshwater forming hull line 155; And a plurality of pit demand grooves 131 are arranged in the lateral direction of the conical block 10 at the next arrangement position of the five arranged fresh water forming concave lines 155 and at the arrangement position of the first end in the tetrapod center direction And a centrally arranged freshwater forming habit line (156) forming an array of concave transverse lines (141).

In the preferred embodiment of the present invention, the width of the pit demand groove of the end fresh water forming concave line 151 is narrower than the width of the pit demand grooves of the other groove lines, The width of the fence demand groove is wider than the width of the fence demand groove of the end fresh water creation groove line 151 and is narrower than the width of the fence demand groove of the three-row fresh water formation groove line 153, The width of the fence demand groove of the four-row fresh water forming groove 153 is formed to be wider than the width of the fence demand groove of the two-rowed fresh water forming groove line 152 and narrower than the width of the fence demand groove of the four- The width of the fence demand groove of the array fresh water forming groove line 154 is larger than the width of the fence demand groove of the three arranged fresh water forming gravel line 153 and narrower than the width of the fence demand groove of the five- And the width of the pit demand groove of the five arranged fresh water forming concave line (155) is set to be larger than the width of the pit demand And the width of the ditch demand groove of the center aligned freshwater ditch articulated line 156 is formed to be smaller than the width of the ditch demand groove 155 of the center aligned freshwater ditch articulated line 156 And the width of the groove is greater than the width of the groove of the other groove including the groove.

In a preferred embodiment of the present invention, in a mold for producing tetrapod comprising a conical block 10 divided into four portions for inducing a wave of wave, Four support molds 51 which are divided to form a concrete structure in an intended shape and dimensions; A hollow portion 52 provided in a hemispherical shape on the inner surface of the support mold and divided into three portions for each support mold so as to correspond to the cone block and providing a conical inner space by mutual engagement of neighboring support molds; And an anti-slip foam (53) bonded to induce a reduction in slip or wave energy in each hollow portion on the inner surface of the support mold.

In the preferred embodiment of the present invention, the slip prevention foam 53 has a spiral contour shape or a shape in which grooves are alternately arranged in the allowable space of the hollow portion 52, Or a stepped shape continuous in the longitudinal direction.

According to the present invention configured as described above, a predetermined slip prevention means and a mold for producing tetrapod provided with the slip prevention means are provided in addition to the function of being stably maintained even in a strong wave, so that it can be positively prevented from a safety accident such as slipping or falling effective.

To this end, according to the present invention, by adopting various forms and structures of the slip prevention means, it is possible to exert the optimum efficiency, and the slip prevention device is positively protected from safety incidents such as slip and slip due to increase of the friction surface based on the groove shape Of course, can be utilized as a gripping means without the help of others in case of a failure such as a fault, thereby protecting the accidents themselves from secondary safety accidents, and facilitating cooperation and mutual close connectivity in construction.

Moreover, since the habitat of fishes, fishes and shellfishes can be sufficiently provided by the slip prevention means without a separate device, the advantage of contributing to an environmentally friendly structure is also expected.

1 is a perspective view of a tetrapod according to the present invention.
2 is a perspective view of an embodiment in which a multi-end portion is formed as a tetrapod according to another embodiment of the present invention.
FIG. 3 shows a tetrapod according to an embodiment of the present invention. FIG. 3 (a) shows an embodiment in which a plurality of barrier rib lines and concave lines are formed.
4 to 6 show an inner shape of a mold for producing tetrapod proposed in the present invention. FIG. 4 shows an inner shape of a mold in which molds are separated, and FIG. 5 shows an example in which a slip prevention foam is provided on the inner surface of a mold for producing tetrapod And FIG. 6 is an exemplary view showing an assembling process of molds for producing tetrapods.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. And, throughout the specification, like reference numerals refer to like elements.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention is directed to tetrapod (100) which is used in breakwaters, shores, and the like to weaken the wave energy.

That is, the term " tetrapod " refers to a concrete different type block used in place of a clay stone for wave cushioning. In the present invention, in particular, when a predetermined slip prevention means is added in various shapes or structures, Protects from slip, fall, and other safety accidents. It also provides ease of construction and tight connection with each other, and provides a habitat for fishes and fisheries. Therefore, it can be used in a multifunctional tetrapod and tetrapod Note the relevance. Further, the present invention relates to a technical idea that can be protected from secondary safety accidents such as hypothermia by providing the means for climbing the person himself / herself by using the slip prevention means.

As shown in FIGS. 1 to 3, the tetrapod 100 proposed by the present invention includes a conical block 10 divided into four sections to induce a blue sofa.

The conical block 10 is a main part for determining the structure of the tetrapod, and has an excellent advantage in stability due to its low center of gravity as well as the construction of stable inclined surfaces by interlocking with other neighboring tetrapods.

To this end, the shape of the cone block 10 is provided as a conical structure of the vertically downward light centering on the corresponding end, and the four cone blocks are assembled together to form one tetrahedron. Due to the shape of the conical block, special attention is not required when constructing the tetrapod, and the inclined surface provided by the individual conical blocks reduces the wave pressure, the rise of the wave and the reflected wave, .

Particularly, in the conical block 10 of the present invention, a predetermined slip preventing means is further formed to provide a more aggressive means for protecting against a safety accident in addition to the function of a blue sofa.

In detail, the conical block 10 is constructed such that the slip prevention means, which are formed along the circumference of the circular shape, are arranged end-to-end at equal intervals with respect to a path extending from the upper side to the lower side, And a reduction in the wave energy due to the decrease in the rise.

Such a slip prevention means is proposed to improve the conventional technical idea and can not actively prevent the slip or fall, so that it is insufficient as a practical improvement measure and its solution method is extremely limited, so as to solve other problems do. And it is provided to solve the problem of causing secondary safety accidents such as hypothermia even in case of being not injured or mild due to environmental factors that can not be climbed in a simple fall.

The slip prevention means may have various structures or shapes. The slip prevention means may be formed as a recessed groove (11) formed annularly recessed from the outer surface of the conical block (10), the recessed portion (11) (Not shown) or to make the arrangement of the concave portions separately as shown in Fig. 1 so as to be multilayered.

Here, the depths of the recessed grooves 11 may all be the same, and more various tetrapods may be realized by varying the degree of depth or varying the width of the recessed portion in any one direction. The diversity of such a structure is advantageous not only in terms of establishing favorable aspects when stitching, but also capable of maintaining intimate interference with each other during the coarse construction and construction of tetrapods.

Meanwhile, the slip prevention means is formed as a recessed groove 11 formed annularly recessed from the outer surface of the conical block 10. The recessed block 11 is divided into a plurality of layers from the upper side of the conical block to the lower side, And a plurality of interlayer recessed regions corresponding to the plurality of interlayer recessed regions are formed in a lattice-like arrangement structure.

As shown in Fig. 3, the slip prevention means of the present invention is arranged in a lattice-like shape and is formed as a separate portion divided and knitted with respect to each of the four sides.

The lattice-like fresh water ditch grooves 13 may be formed in the same depth in determining the depth or may have different depths in any one direction. In addition, diversity can be imparted by varying the width of the recessed portion, and it is possible to maximize the tightness of the tetrapod or the tightness during the construction.

As shown in FIG. 3 (FIG. 3A, FIG. 3B, and the like), the cone block 10 formed at four places to induce a wave of waves And to provide tetrapods containing the same.

The conical block 10 is arranged at equal intervals with respect to the path extending downward from the upper side, and the slip preventing means includes a plurality of slip preventing means formed by recessing at the outer surface of the conical block 10 And a fresh water ditch yaw groove 13 including a water supply groove 131.

The fresh water forming recessed grooves 13 are arranged in a large number from the end of the conical block 10 toward the center of the tetrapod.

That is, the fresh water forming recessed groove part 13 includes a plurality of pit demand grooves 131 as grooves having a height lower than that of the surface of the conical block 10.

A groove end wall face 132 which is a wall face in the direction of the end of the conical block 10 and a groove center wall face 133 which is a wall face of the fence demand groove 131, And a groove circumferential wall surface 134, which is a circumferential side wall of the conical block 10, is formed by the wall surface of the fence demand groove 131.

The plurality of flood demand grooves 131 are provided in a predetermined arrangement so that the plurality of flood demand grooves 131 are lined up in the circumferential direction of the conical block 10 So as to form one concave cross-cord array 141.

In addition, a plurality of pit demand grooves 131 are arranged in the direction of the center of the tetrapod in the direction of the end of the cone block 10 to form one tortuous string array 142.

In the example of FIG. 3, a plurality of grooved transverse arrays 141 and a plurality of grooved string arrays 142 are formed to form a plurality of grooved string grooves 131, .

In addition, the individual fence grooves 131 are formed as a conical block 10 having a round cross-section, which is formed by a groove row arrangement and a groove row arrangement.

And a plurality of grooves 143 are formed in the transverse direction between the plurality of grooves 131 arranged in the grooved transverse line array 141 to form the grooved transverse line barrier ribs 143.

And a plurality of longitudinal grooved barrier ribs 144 extending in the longitudinal direction and forming partition walls between the plurality of longitudinal grooved grooves 131 arranged in the grooved longitudinal array 142.

The plurality of light-demanding grooves 131 are arranged in a lattice-like arrangement structure by the grooved horizontal line partition wall line 143, the concave lined-line partition wall line 144, and the like.

Next, the fresh water forming recessed grooves 13 are arranged in a transverse direction extending from the end portion of the conical block 10 to the central portion of the tetrahedron to form a total of six grooved transverse string arrangements 141.

That is, a plurality of flood-demanding grooves 131 are formed at the end of the conical block 10 to form a plurality of grooved transverse arrays 141 arranged laterally in the conical block 10, .

Thus, the width of the pit demand groove of the end fresh water forming concave line 151 is narrower than the width of the pit demand grooves of the other groove lines.

A plurality of pit demand grooves 131 are formed at the next array position in the direction of the center of the tetrapod in the end fresh water forming concave line 151, An arrayed fresh water forming concave line 152 is provided.

Thus, the width of the pit demand groove of the two-rowed fresh water forming concave line 152 is larger than the width of the pit demand groove of the end freshwater pit 150, Is narrower than the width.

Next, a plurality of sandwiching grooves 131 are arranged in the transverse direction of the conical block 10 at the next arranging position in the direction of the center of the tetrapod in the two-arrayed fresh water forming concave line 152, Thereby forming a three-array freshwater forming hull line 153.

Thus, the width of the pit demand groove of the three-arrayed fresh water forming concave line 153 is larger than the width of the pit demand groove of the two-rowed fresh water forming concave line 152, As shown in FIG.

A plurality of portholes 131 are arranged in the transverse direction of the cone block 10 at the next array position in the direction of the center of the tetrapod in the three-arrayed fresh water forming concave line 153, 4 arrayed fresh water forming concave lines 154 are provided.

The width of the flood demand groove of the four arranged fresh water forming grooved lines 154 is larger than the width of the flood demand grooves of the three arranged fresh water formed grooved lines 153, As shown in FIG.

Next, a plurality of sandwiching grooves 131 are arranged at the next arranging position in the direction of the center of the tetrapod in the four arranged fresh water forming grooved lines 154, and a plurality of grooved transverse string arrangements 141 arranged in the lateral direction of the conical blocks 10 Thereby forming a five-array freshwater forming hull line 155.

Thus, the width of the pit demand groove of the five arranged fresh water forming grooved lines 155 is larger than the width of the pit demand grooves of the four arranged fresh water forming grooved lines 154, As shown in FIG.

Furthermore, a plurality of pit demand grooves 131 are arranged in the lateral direction of the conical block 10 at the next arrangement position of the five arranged fresh water forming concave line 155 and at the arrangement position of the first end portion in the tetrapod center direction A center aligned freshwater forming concave line 156 constituting the concave transverse line arrangement 141 is provided.

Thus, the width of the pit demand groove of the center aligned freshwater forming groove line 156 is formed to be wider than the width of the pit demand grooves of the other groove lines including the five arranged fresh water forming groove line 155.

On the other hand, the slip preventing means is formed by a multi-stepped portion 12 having a stepped depression structure with respect to a path extending downward from the upper side of the conical block 10, And further includes one or more segments formed.

As shown in FIG. 2, the slip prevention means proposed in the present invention is structured by depressing in a step-like manner to form a more favorable environment. Further, the stepped multi- Make them more protected from accidents.

The stepped multi-stepped portions 12 may have the same depth or different depths depending on the direction of one of the steps, which is the same concept as that of the above-described recessed portion 11.

In the present invention, both the recessed portion 11 and the multi-end portion 12 can function as vegetation spaces such as fishes and fishermen living in the water when they are located at the seabed. A new format environment can be provided.

The present invention proposes a certain improved mold for producing the tetrapod 100 described so far. Hereinafter, the structure of the mold for producing tetrapod including the conical block 10 divided into four portions is as follows.

The tetrapod-forming molds are provided with four support molds 51, which are formed in a wedge shape having the same internal angle with each other and which are divided and formed to construct the concrete structure in an intended shape and dimensions, A hollow portion 52 which is divided into three portions for each support mold so as to correspond to the blocks and which provides a conical internal space by mutual engagement of neighboring support molds, And an anti-slip foam 53 attached to induce a reduction in energy.

As shown in FIGS. 4 to 6, the support mold 51 has a shape extending in three directions to form a predetermined hollow area, thereby being utilized as a curing space for a concrete structure.

The support mold 51 has the same or similar concept as that of a conventional mold. In the present invention, the support mold 51 has a shape as shown in the drawing and is divided into four parts in total, and four support molds are mutually connected, A tetrapod shape can be implemented.

The hollow portion 52 is recessed in a round shape for the implementation of a tetrapod shape with respect to an area corresponding to the inner surface of the support mold 51. At this time, these hollow portions are provided in three types of uniformly divided types on one support mold, and the shape of the hollow portion divided into the respective portions allows the implementation of the tetrapod conical block 10.

The anti-slip foam 53 may be provided in a fixed type in the region of the hollow portion 52, or may be provided in a detachable type for use in use, as another essential component of the present invention. For example, in the case of a detachable type, it is possible to induce or maintain a strong binding force by fastening a common coupling member (not shown), and the coupling member is a concept including all known means such as screws.

In particular, the anti-slip foam 53 proposed by the present invention is characterized in that the shape of a spiral continuous groove or grooves alternately arranged in the allowance space of the hollow portion 52, And a stepped shape continuing in the direction of the arrow.

The slip prevention foam 53 is a recess corresponding to the above-mentioned slip prevention means of the tetrapod. In order to provide the slip prevention means in a single tetrapod, The anti-slip foam 53 is further tightened.

The detailed shape of the anti-slip foam 53 is shown in FIG. 4, but it should be clarified that the detailed shape is not limited to the simple example. For example, spiral-shaped recesses, recessed recesses separated in an independent form, lattice-shaped recesses divided into four portions by recesses, and a slip-resistant foam 53). ≪ / RTI >

According to the present invention configured as described above, a predetermined slip prevention means and a mold for producing tetrapod provided with the slip prevention means are provided in addition to the function of being stably maintained even in a strong wave, so that it can be positively prevented from a safety accident such as slipping or falling effective.

To this end, according to the present invention, by adopting various forms and structures of the slip prevention means, it is possible to exert the optimum efficiency, and the slip prevention device is positively protected from safety incidents such as slip and slip due to increase of the friction surface based on the groove shape Of course, it is protected from secondary safety accident by advantage that it can be utilized as a gripping means without the help of others in case of misplaced situation, and the ease of construction and mutual close connectivity are secured in construction. Moreover, since the habitat of fishes, fishes and shellfishes can be sufficiently provided by the slip prevention means without a separate device, the advantage of contributing to an environmentally friendly structure is also expected.

10: conical block 11: recessed groove
12: multi-end portion 51: support mold
52: hollow part 53: slip resistant foam
100: tetrapod

Claims (7)

And a conical block (10) divided into four parts for guiding a wave of a blue wave, wherein the conical block (10) has a slip prevention means which is recessed along the circumference of the circular block, In the tetrapods arranged at regular intervals with respect to each other,
The slip prevention means is composed of a fresh water forming recessed groove portion 13 including a plurality of pit demand grooves 131 recessed from the outer surface of the conical block 10,
Characterized in that the fresh water forming recessed grooves (13) are arranged in a plurality of sections from the end of the conical block (10) to the direction of the center of the tetrapod.
The method according to claim 1,
The fresh water forming recessed groove (13)
A plurality of pit demand grooves (131) with grooves having a height lower than the surface of the conical block (10);
A groove end wall surface 132 as a wall surface of the fence demand groove 131, which is a wall surface in the direction of the end of the cone block 10;
A groove central wall surface 133 as a wall surface of the fence demand groove 131, which is a wall surface of the tetrapod center direction; And
And a groove circumferential wall surface (134) which is a wall surface of the fence demand groove (131) and which is a circumferential side wall of the conical block (10).
3. The method of claim 2,
The fresh water forming recessed groove (13)
A plurality of grooves 131 are arranged in a circumferential direction of the conical block 10 so as to surround the grooved transverse string 141; And
A plurality of pile grooves 131 are arranged in the direction of the center of the tetrapod in the direction of the end of the cone block 10 to form one trough string 142,
The individual fence demand grooves 131 are formed by surrounding the conical block 10, which is a conical shape of a round cross section, formed of a concave line arrangement and a concave line arrangement,
A plurality of grooved transverse row diaphragm lines 143 extending transversely between the plurality of transverse row grooves 131 arranged in the grooved transverse row arrangement 141 to form partitions; And
And a plurality of longitudinal grooved barrier ribs (144) extending longitudinally between the plurality of longitudinal grooves (131) arranged in the grooved longitudinal array (142).
The method of claim 3,
The fresh water forming recessed groove (13)
An end fresh water forming concave line 151 constituting a plurality of concave transverse line arrays 141 arranged in a plurality of transverse directions at the end portion of the conical block 10;
Two rows of trenches 141 are formed in the transverse direction of the conical block 10 by arranging the plurality of trenches 131 in the transverse direction of the cone block 10 at the next arrangement position in the direction of the center of the tetrapod Freshwater forming hull line 152;
A plurality of porthole grooves 131 are formed at the next arrangement position in the direction of the center of the tetrapod in the two arranged fresh water forming concave lines 152, An array freshwater forming hull line 153;
A plurality of pit demand grooves 131 are formed at the next array position in the direction of the center of the tetrapod in the three arranged fresh water forming concave lines 153, An array freshwater forming hull line 154;
A plurality of pit demand grooves 131 are formed at the next arranging position in the tetrapod center direction in the four arranged fresh water forming concave lines 154, An array freshwater forming hull line 155; And
A plurality of pit demanding grooves 131 are arranged in a plurality of rows in the lateral direction of the conical block 10 at the arrangement position of the rear end in the center direction of the tetrapod, Characterized in that it comprises a centrally arranged freshwater forming habit line (156) forming a transverse line arrangement (141).
5. The method of claim 4,
The width of the pit demand groove of the end fresh water forming concave line 151 is formed to be narrower than the width of the pit demand grooves of the other groove lines,
The width of the pit demand groove of the two arranged fresh water forming concave lines 152 is larger than the width of the pit demand grooves of the end freshwater pit concave line 151 and is larger than the width of the pit demand grooves of the three- Lt; / RTI >
The width of the pit demand groove of the three-arrayed fresh water forming concave line 153 is larger than the width of the pit demand groove of the two-arrayed fresh water forming concave line 152 and the width of the pit demand groove 154 of the four- Respectively,
The width of the flood demand groove of the four-array fresh water forming grooved line 154 is larger than the width of the flood demand groove of the three-array freshwater form grooving line 153, Respectively,
The width of the flood demand groove of the five arranged fresh water forming grooved lines 155 is larger than the width of the flood demand grooves of the four arranged fresh water forming grooved lines 154, Respectively,
Wherein the width of the deep groove of the center aligned freshwater forming groove line (156) is formed to be wider than the width of the deep groove groove of another groove line including the five arranged fresh water forming groove line (155).
1. A mold for producing tetrapod comprising a conical block (10) divided into four parts for inducing a blue wave,
Four support molds 51, which are divided into two to form a concrete structure in a shape and dimensions that are the same as each other and have the same internal angle,
A hollow portion 52 provided in a hemispherical shape on the inner surface of the support mold and divided into three portions for each support mold so as to correspond to the cone block and providing a conical inner space by mutual engagement of neighboring support molds; And
And an anti-slip foam (53) bonded to each of the hollows on the inner surface of the support mold to induce slip or wave energy degradation.
The method according to claim 6,
The slip prevention foam 53 may be formed in a spiral shape or a shape in which recesses are alternately arranged in the space of the hollow portion 52 or in a lattice shape in which the recesses are divided into upper, ≪ RTI ID = 0.0 > 1, < / RTI >

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