KR102153322B1 - Compound block and construction method thereof - Google Patents

Abstract

The present invention relates to a compound block and a construction method thereof and, more specifically, to a compound block and a construction method thereof, wherein the compound block implementing coating and wave dissipating effects at the same time can implement the coating and wave dissipating effects in a breakwater, a revetment and a quay at the same to effectively dissipate wave power, effectively decrease wave uprushes or wave overtopping to secure stability of a dam body (the breakwater, the revetment and the quay), and improve constructability and economic feasibility. The compound block of the present invention comprises a first compound block (1) having a tetrapod type body part (10-1) having four cylindrical leg parts (100-1) radially formed from the center and a rectangular coating block part (11) formed on a lower side of the three leg parts (100-1) facing a lower portion of the body part (10-1), wherein one leg part (100-1) among the three leg parts (100-1) facing the lower portion of the body part (10-1) is formed to face a front surface part or a back surface part of the coating block part (11) and the two leg parts (100-1) are formed to face left and right side surface parts of the coating block part (11), respectively.

Description

Compound block and construction method thereof

The present invention relates to a compound block and its construction method, and in more detail, it effectively attenuates the wave power by simultaneously exerting a covering effect and a sofa effect in a breakwater, revetment, quay wall, etc., and effectively reducing the rising or overwhelming of waves. , Revetment, quay wall, etc.), and a compound block capable of simultaneously exhibiting a covering effect and a sofa effect that can improve workability and economy, and its construction method.

In breakwaters, revetments, and quay walls, cladding materials (covering stones, covering blocks) and sofa blocks are mainly installed on the embankment to reduce wave power and reduce wave rise or overwhelming.

In general, breakwater, revetment, and quay walls are composed of sandstone, cladding, and sofa block. First, a sandstone structure having a slope with sandstone on the seabed is formed.

Since the sofa block alone cannot protect the sandstone from the waves, it is necessary to immediately install the covering material on the slope of the sandstone body so that the sandstone body is not lost due to high waves after the formation of the sandstone body.

In addition, since the installed cladding material can be lost in high blue, even after installing the cladding material, a sofa block of required weight that can withstand high blue must be placed on the cladding material immediately to complete the fabrication of breakwater, revetment, and quay walls.

Up to now, inclined breakwaters have been installed with an inclined covering material (covering stone or covering block) on the inclined sandstone surface of the body, and then Tetrapod, or Sealock, Dolos, Podlock, which is a modified tetrapod. , Tetraneo (Tetraneo), Dimple (Dimple) and other sofa blocks were stacked to complete the cross section. In particular, since the structure of the covering block and the sofa block are very different so far, it is very difficult to connect and integrate the covering block and the sofa block, which is an individual, and even now, when the construction of a breakwater, revetment quay wall, etc. It is very difficult to perform construction in the order of dropping and selecting sandstone -> dropping and selecting covering material -> mounting the sofa block on the first floor -> mounting the sofa block on the second floor.

Covering material is mainly used as covering stone and covering block, but recently it is very difficult to secure large covering stone, and because covering stone or covering block is installed on the slope of the sandstone after dropping the sandstone to the construction site such as breakwater and selecting the sandstone, sandstone and covering material Due to the lack of bonding force, the covering material on the stony slopes slipped, causing separation or displacement, resulting in damage to the body.

In addition, before the sofa block is installed, that is, before the finished section that can withstand the design wave height is constructed, if a typhoon invades, this covering material is lost due to high blue waves and the previously constructed body is destroyed. have.

As a sofa block, tetrapods in the shape and function of four cone-shaped legs have been used the most because of their excellent shape and function, and recently, some modified tetrapods such as Sealock, Dolos, Podlock, Tetraneo, and Dimple are also used. have.

The above sofa block is manufactured as an individual and installed on the inclined covering material of the body, and the leg posts are alternated to resist high waves, attenuating the wave power, and reducing the rise of waves and overwhelming waves.

The sofa block must have a covering material installed before the sofa block is mounted in order to prevent loss of rubble,

In particular, when the sofa block is mounted on the smooth and inclined covering material, the sofa block of the body is slipped on the covering material due to subsidence of the foundation ground, high blue, etc., so that the body is destroyed during the action of wave force.

In recent years, it is urgently needed to manufacture very heavy and extra-large sofa blocks (100-200 ton class) that withstand very strong wave power generated during large typhoon invasion and have excellent sofa capacity, but tetrapods, or Searock, Dolos, Fordrak, which are modified tetrapods, When sofa blocks such as tetraneo and dimples are enlarged, it is very difficult to manufacture an extra-large sofa block because the leg post or body is cut due to its own weight, high blue invasion, and impact during installation.

In addition, in order to mount a huge sofa block in a geometric shape so that it can become a local attraction without harming the surrounding landscape, each time a huge sofa block is mounted, not only the center position of the sofa block but also the angle of the leg post is precisely mounted. It has to be done, so constructability is very difficult, and enormous construction costs are required.

Since the porosity of the current Tetrapod is about 50%, the construction cost is somewhat expensive, so the porosity is raised to about 60% to 70%, so that it is possible to develop a compound block with excellent structures such as excellent anti-wave stability, easy construction, low construction cost, and short construction period. It is an urgent need.

(Patent Document 0001) Korean Patent Publication No. 10-1697171 (2017.01.11.)

(Patent Document 0002) Korean Patent Publication No. 10-1668735 (2016.10.18.)

(Patent Document 0003) Korean Patent Publication No. 10-1560257 (2015.10.07.)

(Patent Document 0004) Korean Patent Publication No. 10-1560255 (2015.10.07.)

(Patent Document 0005) Korean Patent Publication No. 10-1448460 (2014.10.01.)

The present invention was devised to solve the above-described problems, and the covering block portion is firmly coupled to the body of various shapes, and the covering block portions are easily integrated between the covering block portions by combining them using corresponding grooves and protrusions. The combination is possible and the beam part, the balance block part, and the sofa plate part are integrally formed in the leg part, so that the porosity can be increased and the resistance to wave force can be greatly increased, and the required weight of the compound block that resists wave force can be reduced. It aims to provide a compound block and its construction method that can exhibit excellent effects such as excellent anti-break stability, easy construction, low construction cost, and shortening construction period.

In addition, an object of the present invention is to provide a compound block and a construction method thereof, which can be mounted by various construction methods by making a compound block into variously modified structures, and to be combined with an existing tetrapod.

The compound block of the present invention includes a tetrapod-shaped body portion 10-1 in which four cylindrical leg portions 100-1 are formed radially from the center, and three leg portions facing the lower portion of the body portion 10-1. (100-1) It is composed of a first compound block (1) having a rectangular covering block portion (11) formed downward,

One of the three leg portions 100-1 facing the lower portion of the body portion 10-1 is one leg portion 100-1 facing the front or rear portion of the covering block portion 11 and two leg portions ( 100-1) is characterized in that it is formed toward the left and right side portions of the covering block portion 11, respectively.

According to the present invention, since a new function of locking step is added to the bottom surface in contact with the sandstone of the covering block part, the sandstone of the inclined surface is caught by the locking step, so that the compound block has excellent resistance to slipping on the inclined sandstone or the upper surface of the covering stone. have.

In addition, according to the present invention, grooves and protrusions corresponding to each other on the side of the covering block part are formed to increase the binding force between the covering block parts to provide a solid fixing force that integrates a plurality of compound blocks as a whole, so that the compound block can sufficiently resist high waves. There is an effect of maintaining a very stable construction state of the breakwater, revetment, quay wall, etc. than the conventional one.

In addition, according to the present invention, even if the compound block is mounted on the inclined surface of the sandstone by forming the covering block portion under the body portion, the center of gravity is very low, and the groove portion and the protruding portion of the covering block portion are connected to each other to be integrated, and the leg part protruding from the covering block portion Because it overlaps with the adjacent covering block, the resistance against wave power is excellent enough to be incomparable with the conventional covering material or sofa block, and the compound block has the effect of maintaining a very stable construction condition as a whole.

In addition, according to the present invention, since a new function of fixing the covering block part and the body part with a connection part and installing the beam part in the leg part of the body part is added, the rigidity of each leg part can be increased and the length of the leg part can be easily extended. It is possible to reduce the construction cost inexpensively by increasing it.In the past, it was very difficult due to shear breakage (broken leg) of the leg when manufacturing, transporting, and mounting an extra-large sofa block.However, it is possible to easily and economically manufacture an extra-large compound block. Therefore, even if a very strong high blue wave above the design wave height invades during the invasion of a very large typhoon, the breakwater, revetment, and quay walls, etc., have the effect of being able to affordably resist.

In addition, according to the present invention, in the prior art, the body was completed by dropping and selecting the sandstone of the body, dropping and selecting the covering material, mounting the first floor sofa block, and installing the second floor sofa block. However, the present invention provides the first floor after dropping and selecting the sandstone of the body. The cross section of the body is completed just by mounting the compound block, so it has excellent anti-wave stability, easy construction, low construction cost, and shortened construction period.

In addition, according to the present invention, since the super-sized compound block can be easily and precisely mounted, it is arranged in a geometric shape, so that it is not ugly and does not harm the surrounding landscape, so it can be a sight to see. Conventional Tetrapod, Sealock, Dolos, Podlock, Tetraneo, Dimple, etc., each time a huge sofa block is mounted, not only the center of the sofa block but also the angle of the leg. Construction was very difficult, such as having to be mounted precisely, but the compound block according to the present invention can be easily mounted in a geometric shape because it is possible to simply connect the covering block part to the protrusion part on the slope where the sandstone is even. The compound blocks are placed in an orderly manner, which has the effect of providing attractions in the area where the compound blocks are placed.

In addition, according to the present invention, it is possible to provide various construction methods since it is possible to selectively and easily use various types of compound blocks according to the type of wave power and the type of the compound block.

1A is a perspective view of a first compound block according to a first embodiment of the present invention
FIG. 1B is a diagram illustrating a combined state of the first compound block shown in FIG. 1
1C is a perspective view of a first compound block in which a component is further added to the first embodiment of the present invention.
2A is a perspective view of a second compound block according to a second embodiment of the present invention
2B is a perspective view of a second compound block in which a component is further added to the second embodiment of the present invention.
3A is a perspective view of a third compound block according to a third embodiment of the present invention
3B is a perspective view of a third compound block in which a component is further added to the third embodiment of the present invention.
3C and 3D are detailed views of a placement between a first compound block according to a first embodiment of the present invention and a third compound block according to a third embodiment of the present invention.
4A is a perspective view of a fourth compound block according to a fourth embodiment of the present invention
4B is a perspective view of a fourth compound block in which a component is further added to the fourth embodiment of the present invention.
Figure 5 is a plan view of the mounting state of the compound block according to the present invention
Figure 6 is a detailed view of the sofa plate of the compound block according to the present invention
Figure 7 is a construction state diagram of the first compound block according to the first embodiment of the present invention
8 is a construction state diagram of a second compound block according to a second embodiment of the present invention

The compound block according to the first embodiment of the present invention comprises a tetrapod-shaped body portion 10-1 in which four cylindrical leg portions 100-1 are formed radially from the center, and a lower portion of the body portion 10-1. It consists of a first compound block (1) having a rectangular covering block (11) formed below the three leg (100-1) facing,

One of the three leg portions 100-1 facing the lower portion of the body portion 10-1 is one leg portion 100-1 facing the front or rear portion of the covering block portion 11 and two leg portions ( 100-1) is characterized in that it is formed toward the left and right side portions of the covering block portion 11, respectively.

The compound block according to the second embodiment of the present invention includes a tetrapod-shaped body portion 10-2 in which four cylindrical leg portions 100-2 are formed radially from the center, and a lower portion of the body portion 10-2. It is composed of a second compound block (2) having a square covering block (11) formed at the lower end of one leg (100-2) facing toward,

The body portion (10-2) is one of the three leg portions (100-2) facing the upper portion (100-2) is facing the front or rear portion of the covering block portion 11, and two leg portions ( 100-2) is characterized in that it is formed toward the left and right side portions of the covering block portion 11, respectively.

The compound block according to the third embodiment of the present invention includes a tetrapod-shaped body portion 10-3 in which four cylindrical legs 100-3 are formed radially from the center,

Beams 12 formed at regular intervals along the circumference of each leg portion 100-3 of the body portion 10-3 and protruding in a strip shape,

A square or circular shape that is formed wider than the leg portion 100-3 at the end of one leg portion 100-3 or a plurality of leg portions 100-3 facing the upper portion of the body portion 10-3 It is characterized in that it is composed of a third compound block (3) having an elliptical balance block portion (13).

The compound block according to the fourth embodiment of the present invention includes a tetrapod-shaped lower body portion 10-4a in which four cylindrical leg portions 100-4a are formed radially from the center, and a lower body portion 10-4a. One leg portion (100-4a) facing the top of the upper body portion (10-4b) and the lower body portion (10-4a) is the same shape as the lower body portion (10-4a) and formed in a symmetrical structure. ) Consisting of a fourth compound block (4) having a rectangular covering block (11) formed below the three leg portions (100-4a),

The lower body portion (10-4a) is one of the three legs facing the lower portion (100-4a) is facing the front or rear portion of the covering block portion 11, and the two leg portions (100-4a) are It is characterized in that it is formed to face each of the left and right side surfaces of the covering block (11).

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in Figure 1a, the first compound block 1 according to the first embodiment is a tetrapod in which four cylindrical legs 100-1 extending radially from the center and maintaining a certain angle therebetween are formed. It is composed of a body portion (10-1) of the type and a rectangular covering block portion (11) at the bottom of the three leg portions (100-1) facing downward from the body portion (10-1).

The three leg portions 100-1 facing the lower portion of the body portion 10-1 are formed integrally with the covering block portion 11 on the upper surface of the covering block portion 11 so that the covering block portion 11 Between the and each leg portion (100-1), a connection portion (S) in which a reinforcing bar is buried therein is formed, so that the body portion (10-1) and the covering block portion (11) form a sturdy integrated structure, forming a stable structure. Even in blue, the body portion 10-1 is not separated from the covering block portion 11, and at the same time, the porosity between the leg portion 100-1 and the covering block portion 11 can be increased.

The connection portion (S) is preferably formed to have a different width depending on the weight of the body portion (10-1), and when the body portion (10-1) is lightweight, the width and length of the connection portion (S) are narrowed and shortened. , When the body portion 10-1 is heavy, it is formed to be wider and longer than the width and length of the connection portion S formed on the lightweight body portion 10-1.

The three leg portions 100-1 located on the upper surface of the covering block portion 11 have one leg portion 100-1 facing the front or rear portion of the covering block 11, and two The leg portion 100-1 is disposed facing the left and right side portions of the covering block portion 11, and the end of each leg portion 100-1 is the same as the end of the covering block portion 11 or the covering block It is formed to protrude from the end of the part 11 or shorter than the end of the covering block part 11.

In addition, as shown in FIG. 1B, each leg portion 100-1 has an end portion formed at the same height as the upper surface of the covering block portion 11 or higher than the upper surface of the covering block portion 11, and the In the case of each leg portion 100-1 protruding outward from the covering block portion 11, the first compound block 1 overlaps the covering block portion 11 of the first compound block 1 installed adjacently. ) Can maintain a fixed and stable mounting state, thereby increasing the breakdown stability.

On the other hand, when the end of each leg portion (100-1) is formed higher than the upper surface of the covering block portion 11, the space between the end of the leg portion (100-1) and the covering block portion 11 This may cause damage to the end of the leg 100-1. After the compound block 1 is constructed, the lower surface of the end of the leg 100-1 may be damaged. A support plate made of steel, stone, concrete, plastic, etc. may be further installed between the upper surface of the and the covering block part 11.

The covering block 11 has a horizontal length (Bo) and a vertical length (B) in the plane according to the horizontal center spacing (To) and the vertical center spacing (T) of the plurality of body parts 10-1. 1 As the porosity between the compound blocks 1 is changed, the horizontal length Bo of the covering block 11 in the plane is shorter than the horizontal center spacing To between the body parts 10-1. When the porosity between one compound block (1) is lowered and the vertical length (B) in a plane is shorter than the vertical center distance (T) between the body parts (10-1), the porosity between the first compound blocks (1) is also reduced. Becomes lower. Therefore, to increase the porosity, the horizontal length (Bo) and the vertical length (B) of the covering block 11 are equal to or equal to the horizontal center spacing (To) and the vertical center spacing (T) of the body parts 10-1. Or, if it is long adjusted, the porosity can be very easily increased (see Fig. 5).

A plurality of water passing holes 110 are formed at regular intervals in the covering block part 11, so that the wave force passes through the water passing hole 110 even if a strong wave force is applied, thereby attenuating the wave force and reducing the buoyancy to the covering block part 11 Avoid working.

Corresponding grooves 112 and protrusions 113 are formed on the front, rear and left and right sides of the covering block part 11 and to increase the bonding and bonding force between the covering block parts 11, respectively, and the lower surface The serrated locking protrusions 114 having an inclination are formed, so that the plurality of covering block portions 11 are coupled with the groove 112 and the protrusions 113 between the adjacent covering block portions 11 to form a solid binding structure. And the construction can be carried out quickly, and the locking jaws 114 on the lower surface are caught on the sandstone of the body, and the covering block 11 does not slip and maintains the mounting state, so that the action of high blue and the subsidence of the foundation ground, etc. Even if this occurs, the first compound block 1 is not separated or the mounting state is not deformed, so that the body can be maintained very stably.

When the covering block part 11 is large, reinforcing reinforcing bars is performed, and in small cases, reinforcing reinforcing bars is not performed.

Conventional sofa blocks have a problem that is very difficult to construct, such as having to precisely match the angle of each leg as well as the center position, but the covering block 11 can be precisely connected between the groove 112 and the protrusion 113. It makes it possible to provide easy workability of compound block.

The covering block part 11 is integrated with the body part 10-1 and the weight is added to each other. As a result, the weight of the first compound block 1 is automatically increased, and as a result, the sofa block resisting strong wave force Since the required weight can be reduced, the construction cost of the breakwater can be reduced.

As shown in FIG. 1C, a plurality of beam portions 12 formed at regular intervals along the circumference of the leg portion 100-1 of the body portion 10-1 are formed to protrude in a strip shape having a length. .

The beam portion 12 may be formed shorter than the length of each leg portion 100-1 in the leg portion 100-1 or may be formed to have the same length, but is preferably formed from the end portion of the leg portion 100-1. It is preferable to be formed to be elongated in a form surrounding one end of the leg portion 100-1 while protruding a certain length, and the beam portion 12 is a reinforcing bar (beam portion 12) to increase the length and thickness of the leg portion 100-1. If) is small, the length and thickness of the leg portion 100-1 can be easily extended by placing concrete and placing reinforcing bars). In addition, even when the length of the beam part 12 is protruded longer than the length of the leg part 100-1, the overall length of the leg part 100-1 may be increased by the beam part 12 It provides an effect that allows the length of the leg portion (100-1) to be easily adjusted.

In addition, the beam portion 12 is formed around the leg portion 100-1, increasing the strength of the leg portion 100-1, reinforcing shear fracture (broken leg column portion), and at the same time reinforcing the outer side of the leg portion 100-1. Since it is protruded, the porosity can be increased and the breaking effect can be increased, and the overall surface area of the first compound block 1 is increased to provide a very advantageous environment for marine organisms to inhabit.

The beam part 12 may be formed on only one leg part 100-1 facing upward, or may be formed in all four leg parts 100-1, if necessary.

At the end of the leg portion 100-1 facing the upper portion of the body portion 10-1, a square or circular or elliptical balance block portion 13 is formed that is wider than the leg portion 100-1, , The balance block part 13 is formed with a plurality of water passing holes 130 to attenuate the wave power.

The balance block part 13 is formed at the end of the leg part 100-1 facing the top to provide an effect of increasing porosity and a sofa role. When constructing a breakwater, the first compound block 1 is mounted on the first floor, and 2 In the case of mounting a conventional tetrapod or a third compound block 3 to be described later on the layer, the leg portion of the conventional tetrapod or the third compound block 3 is reclined to one side of the adjacent balance block 13 while being mounted. It plays a role of supporting (100-1) and improves stability due to the stable mounting of the general tetrapod or the third compound block (3) mounted on the second floor, and increases the locking effect of the leg, thereby increasing the resistance against high blue waves. Separation and displacement of the second-layer tetrapod or the third compound block 3 are prevented, and the mounting is very easy and stable. When the balance block part 13 is large, reinforced reinforcing bars, and when small, reinforcing reinforcing bars is not performed.

In addition, the balance block unit 13 acts as a footrest so that when a person steps on the balance block unit 13 and moves, it is possible to prevent a fall accident with a stable movement.

In the leg portion 100-1 facing the upper portion of the body portion 10-1, a sofa plate portion 14 extending in a circular, square, or elliptical shape on the outer peripheral surface of the intermediate height position is separated by one or a predetermined height. A plurality of water passing holes 140 are formed in the sofa plate 14 at regular intervals to more stably attenuate the wave force.

The sofa plate part 14 has a remarkable function of attenuating wave power when the porosity is excessively high due to construction errors, etc. when mounting the sofa blocks or by increasing the porosity in order to increase the economic efficiency of the conventional tetrapod or sofa blocks modified from the tetrapod. Although there is a problem that it is weakened, the sofa plate part 14 expands a partial area of the leg part 100-1 and automatically adds weight, so it is possible to reduce the required weight of the sofa block to resist wave force, so that the construction of the body At the same time, it is possible to reduce the cost, and at the same time, it acts as a crossbeam while surrounding the beam portions 12 formed as the outer circumferential surface of the leg portion 100-1, and thus moments (torsion) and external forces that may be applied to the beam portion 12 It is possible to increase the resistance to the resulting structural stability and rigidity of the leg portion (100-1).

The sofa plate part 14 is formed to have a size smaller than the entire width of the body part 10-1, and at this time, the compound block 1 is in close contact with the sofa plate parts 14 of the adjacent first compound block 1 In order to prevent the liver from being pushed, a plurality of contact protrusions 141 protruding along the periphery of the outer circumferential surface are formed, as shown in FIG. 6, and the sofa plate 14 is horizontal or blue with the covering block part 11 It is formed to be inclined according to the direction so that it can correspond to the direction of the wave.

When the sofa plate part 14 is large, reinforcement is reinforced, and when it is small, the reinforcement is not reinforced.

The body portion (10-1), the covering block portion (11), the beam portion (12), the balance block portion (13), the sofa plate portion (14) can be adjusted in size, so that the weight can be easily adjusted and compared to the conventional sofa block. Porosity can be remarkably increased, and the overall structure is integrated, so that the anti-breaking stability can be improved with excellent sofa effect and structural strength, and the installation work of covering materials (covering stones, covering blocks) and the second floor sofa block, which was usually carried out during the construction of breakwaters, etc. Since the cross section of the body (breakwater, revetment, quay wall, etc.) can be completed with only the first compound block (1), the construction process is very simple and the construction speed is very fast. It can bring about the effect of shortening and reducing construction cost.

On the other hand, the body portion (10-1), the covering block portion (11), the beam portion (12), the balance block portion (13), the sofa plate portion (14) is chamfered to improve the mounting stability, manufacturing, transport, When mounting, it is possible to prevent damage to each corner.

In addition, in order to disperse the stress concentration occurring in the junction of each cross-section of the body part 10-1, the covering block part 11, the beam part 12, the balance block part 13, and the sofa plate part 14, ) Can also be installed.

As shown in FIG. 2A, the second compound block 2 according to the second embodiment has a structure in which an upper portion of the body portion 10-1 of the first compound block 1 is turned over in a downward direction, A tetrapod-shaped body portion (10-2) in which four cylindrical leg portions (100-2) are formed radially from the center, and one leg portion (100-2) facing the lower portion of the body portion (10-2) A rectangular covering block 11 is formed at the lower end.

The three leg portions 100-2 facing the upper portion of the body portion 10-2 have one leg portion 100-2 facing the front or rear portion of the covering block 11, and two legs The portion 100-2 is disposed facing the left and right sides of the covering block 11 so that the leg portions 100-2 between the plurality of compound blocks 2 can be alternately disposed.

The covering block 11 has a horizontal length (Bo) and a vertical length (B) in the plane according to the horizontal center spacing (To) and the vertical center spacing (T) of the plurality of body parts 10-2. 2 As the porosity between the compound blocks 2 is different, the horizontal length (Bo) and the vertical length (B) of the covering block 11 are the horizontal center spacing (To) and the vertical center portion of the body parts 10-2. If it is shorter than the interval T, the porosity between the second compound blocks 2 is lowered, and the horizontal length (Bo) and the vertical length (B) of the covering block portion 12 are the horizontal center intervals of the body portions 10-2 ( If it is equal to or longer than To) and the vertical center spacing (T), the porosity between the second compound blocks (2) increases, so that the horizontal length (Bo) in the plane of the covering block part 11 is between the body parts 10-2. It is formed equal to or longer than the horizontal center spacing (To), and the vertical length (B) in a plane is to be formed equal to or longer than the vertical center spacing (T) between the body parts 10-2 (see FIG. 5).

A plurality of water passing holes 110 are formed at regular intervals in the covering block part 11, so that the wave force passes through the water passing hole 110 even if a strong wave force is applied, thereby attenuating the wave force and reducing the buoyancy to the covering block part 11 Avoid working.

Corresponding grooves 112 and protrusions 113 are formed on the front and rear surfaces of the covering block 11 and on the left and right sides of the covering block 11 to increase easy coupling and bonding between the covering blocks 11, respectively, and on the lower surface The serrated locking protrusions 114 having an inclination are formed, so that the plurality of covering block parts 11 are coupled with the groove 112 and the protrusion 113 between the adjacent covering block parts 11 to form a solid binding structure. And the construction can be carried out quickly, and the locking protrusions 114 on the lower surface are caught on the sandstone of the body, and the covering block 11 does not slide and maintains the installation state, so that the action of high blue and the subsidence of the foundation ground are prevented. Even if it occurs, the second compound block 2 is not separated or the installation state is not deformed, so that the body can be maintained very stably.

When the covering block part 11 is large, reinforcing reinforcing bars is performed, and in small cases, reinforcing reinforcing bars is not performed.

The covering block part 11 is integrated with the body part 10-2 and the weight is added to each other, and as a result, the weight of the second compound block 2 is automatically increased, and as a result, the sofa block resists strong wave force. Since the required weight can be reduced, it is possible to reduce the construction cost of the body (breakwater, revetment, quay, etc.).

As shown in FIG. 2B, a plurality of beam portions 12 formed at regular intervals along the circumference of the leg portion 100-2 of the body portion 10-2 are formed to protrude in a strip shape having a length. .

The beam portion 12 may be formed to have a length shorter than or equal to the length of the leg portion 100-2 in the leg portion 100-2, but is preferably a predetermined length than the end of the leg portion 100-2 While protruding, it is preferable to be formed to be elongated in a form surrounding one end of the leg portion 100-2, and the beam portion 12 is reinforced (beam portion 12) when increasing the length and thickness of the leg portion 100-2 In the case of a small size, reinforcing bars are not provided) and concrete is poured, so that the length and thickness of the leg portion 100-2 can be easily extended. In addition, even when the length of the beam part 12 protrudes longer than the length of the leg part 100-2 and is formed longer, the overall length of the leg part 100-2 may be increased by the beam part 12. It provides an effect that allows the length of the leg portion (100-2) to be easily adjusted.

In addition, the beam portion 12 is formed around the leg portion 100-2 to increase the strength of the leg portion 100-2 to reinforce shear fracture (broken leg column portion), while at the same time reinforcing the outer side of the leg portion 100-2. Since it is protruded, the porosity can be increased and the breaking effect can be increased, and the overall surface area of the second compound block 2 is increased to provide a very advantageous environment for marine organisms to inhabit.

In the leg portion 100-2 facing the lower portion of the body portion 10-2, a sofa plate portion 14 extending in a circular, square, or elliptical shape on an outer circumferential surface at an intermediate height position is separated by one or a predetermined height. A plurality of water passing holes 140 are formed in the sofa plate 14 at regular intervals to more stably attenuate the wave force.

The sofa plate part 14 has a remarkable function of attenuating the wave power when the porosity of the sofa blocks that have been modified from the conventional tetrapods or the tetrapods is too high due to construction errors, etc. Although there is a problem of weakening, the sofa plate part 14 expands a partial area of the leg part 100-2 and automatically adds weight, so it is possible to reduce the required weight of the sofa block that resists wave force, so that the construction of the body At the same time, it is possible to reduce the cost, and at the same time, it acts as a crossbeam while surrounding the beam portions 12 formed as the outer circumferential surface of the leg portion 100-2, and thus moments (torsion) and external forces that may be applied to the beam portion 12 It is possible to increase the resistance to the resulting structural stability and rigidity of the leg portion (100-2).

The sofa plate portion 14 is formed to have a size smaller than the entire width of the body portion 10-2, and at this time, the second compound block 2 is in close contact with each other between the sofa plate portions 14 of the adjacent compound block 2 In order to prevent the liver from being pushed, as shown in FIG. 6, a plurality of contact protrusions 141 protruding along the circumference of the outer circumferential surface are formed, and the sofa plate part 14 is horizontal or blue with the covering block part 11 It is formed to be inclined according to the direction of so that it can correspond to the direction of the wave.

When the sofa plate part 14 is large, reinforcement is reinforced, and when it is small, the reinforcement is not reinforced.

The body portion (10-2), the covering block portion (11), the beam portion (12), the sofa plate portion (14) can be adjusted in size, so that the weight can be easily adjusted, and the porosity can be significantly increased compared to the conventional sofa block. The overall integrated structure can improve the anti-wave stability with excellent sofa effect and structural strength, and the installation work of covering materials (covering stones, covering blocks) and sofa blocks on the second floor, which were normally carried out during construction of the body (breakwater, revetment, quay, etc.) Since the cross section of the body (breakwater, revetment, quay wall, etc.) can be completed with only the second compound block (2), the construction process is very simple and the construction speed is very fast. It can bring about the effect of shortening and reducing construction cost.

On the other hand, the body portion (10-2), the covering block portion (11), the beam portion (12), and the sofa plate portion (14) are chamfered to improve mounting stability and prevent damage to each corner portion during manufacturing, transportation, and mounting. To be able to prevent it.

In addition, a haunch may be installed in order to distribute the stress concentration occurring in the joint section of the body portion 10-2, the covering block portion 11, the beam portion 12, and the sofa plate portion 14.

As shown in FIG. 3A, the third compound block 3 according to the third embodiment has a tetrapod-shaped body portion 10-3 in which four cylindrical legs 100-3 are formed radially from the center. In the circumference of the leg portion (100-3), a plurality of beam portions (12) are formed to protrude in a strip shape having a length at regular intervals, and one leg portion (100) facing the upper portion of the body portion (10-3) -3) A square, circular, or elliptical balance block 13 is formed at an end or at the end of the plurality of leg portions 100-3, which is wider than the leg portion 100-3.

The beam portion 12 may be formed shorter than the length of each leg portion 100-3 in the leg portion 100-3, or may be formed to have the same length, but is preferably formed from the end portion of the leg portion 100-3. It is preferable to be formed integrally with the balance block part 13 while protruding a certain length, and the beam part 12 is a reinforcing bar (beam part 12 is small) when it is desired to increase the length and thickness of the leg part 100-3. In this case, the length and thickness of the leg portion 100-3 can be easily extended by placing concrete and placing reinforcement (not reinforcing bars). In addition, even when the length of the beam part 12 is formed longer than the length of the leg part 100-3, the overall length of the leg part 100-3 may be increased by the beam part 12 It provides an effect that allows the length adjustment of the leg portion 100-3 to be made very easily.

In addition, the beam portion 12 is formed around the leg portion 100-3 to increase the strength of the leg portion 100-3 to reinforce shear fracture (broken leg column portion) and at the same time reinforce the outer side of the leg portion 100-3. Since it is protruded, the porosity can be increased and the breaking effect can be increased, and the overall surface area of the third compound block 3 is increased to provide a very advantageous environment for marine life.

The beam portion 12 may be formed only on the leg portion 100-3 facing upward, or may be formed on all four leg portions 100-3, if necessary.

The balance block part 13 is formed at the ends of each of the four leg parts 100-3 to provide a porosity increase effect and a sofa role, and the first, second, and fourth compounds in which the covering block part 11 is formed at the bottom. In the case of construction with (1, 2, 4), the balance block part 13 faces downward so that the center of gravity of the third compound block 3 faces downward. The first, second, and fourth compounds (1, 2, 4) are in a stable mounting state by the load of the third compound block (3) because (13) presses the upper surface of the assembled covering block parts adjacent to each other. The balance block 13 is formed on the first compound block 1, the leg of the third compound block 3 is lower than the balance block 13 As the (100-3) is positioned, the third compound block (3) as a whole is fixed or confined between the first compound blocks (1), so that the porosity is increased and the third compound block (3) is Make it possible to prevent churn.

In addition, the balance block 13 is not only for the first floor construction on the body, but also for the construction of the first floor (the first compound block 1, the second compound block 2, the fourth compound block 3), and a conventional sofa. Blocks, etc.) may be installed on the upper side, and in this case, the first compound block 1, the second compound block 2, the fourth compound block 3, which is installed on the first floor of the balance block 13, is usually The first compound block (1), the second compound block (2), the fourth compound block (3), the ordinary sofa block, etc. on the first floor are pressed by the load by seating it on the upper part of the leg of the sofa block, etc. It makes it possible to increase the construction fixing power of the floor (see Fig. 3d).
When the balance block part 13 is large, reinforcing reinforcement is performed, and when it is small, it is not reinforced.

delete

In addition, when the balance block portions 13 of the third compound block 3 are alternately stacked so as to face the top and bottom, the balance block portions 13 of the third compound block 3 are interlocked, so that the construction fixing power is more excellent.

In the leg portion 100-3 facing the upper portion of the body portion 10-3, a sofa plate portion 14 extended in a circular, square, or elliptical shape on the outer peripheral surface of the intermediate height position is separated by one or a predetermined height. A plurality is formed.

The sofa plate part 14 has a remarkable function of attenuating the wave power when the porosity of the sofa blocks that have been modified from the conventional tetrapods or the tetrapods is too high due to construction errors, etc. Although there is a problem of weakening, the sofa plate part 14 expands a partial area of the leg part 100-3 and automatically adds weight, so it is possible to reduce the required weight of the sofa block resisting wave force, and thus the construction of the body At the same time, it is possible to reduce the cost and at the same time surround the beam portions 12 formed as the outer circumferential surface of the leg portion 100-3 and act as a crossbeam, so the moment (torsion) and external force that can act on the beam portion 12 By increasing resistance to the back, it is possible to increase structural stability and rigidity of the leg portion 100-3.

The sofa plate portion 14 is formed to have a size smaller than the entire width of the body portion 10-3, and at this time, the third compound block is in close contact with each other between the sofa plate portions 14 of the adjacent third compound block 3 3) As shown in FIG. 6 in order to prevent pushing between, a plurality of contact protrusions 141 protruding along the circumference of the outer circumferential surface are formed, and the sofa plate part 14 is horizontal with the balance block part 13 Or is formed to be inclined according to the direction of the wave so that it can correspond to the direction of the wave.

When the sofa plate part 14 is large, reinforcement is reinforced, and when it is small, the reinforcement is not reinforced.

The balance block part 13 and the sofa plate part 14 are formed with a plurality of water through holes 130 and 140 to attenuate the wave force, and the first body part 10-3, the beam part 12, and the balance block part ( 13), the sofa plate portion 14 is each corner is chamfered to improve the mounting stability and to prevent damage to the corner.

In addition, a haunch may be installed in order to distribute the stress concentration occurring in the junction of each end face of the body part 10-3, the beam part 12, the balance block part 13, and the sofa plate part 14.

The first body portion 10-3, the beam portion 12, the balance block portion 13, and the sofa plate portion 14 are adjustable in size, so that the weight can be easily adjusted, and the porosity is significantly increased compared to the conventional sofa block. It is possible to improve the anti-wave stability with excellent sofa effect and structural strength due to the overall integrated structure. When used with the first, second, and fourth compound blocks (1, 2, 4) and the conventional sofa block, the first, second, It is possible to provide an effect of increasing the construction fixing power of 4 compound blocks (1, 2, 4), conventional sofa blocks, and the like.

As shown in Figure 4a, the fourth compound block 4 according to the fourth embodiment is a tetrapod-shaped lower body portion 10-4a in which four cylindrical leg portions 100-3 are formed radially from the center. ), the upper body portion 10-4b having the same structure as the lower body portion 10-4a is formed to be symmetrical to each other, and three leg portions 100- facing the lower portion of the lower body portion 10-4a 4a) On the lower side, a rectangular covering block 11 is formed.

The three leg portions 100-4a facing the lower portion of the lower body portion 10-4a are formed integrally with the covering block portion 11 on the upper surface of the covering block portion 11. ) And each leg portion (100-4a), a connection portion (S) in which a reinforcing bar is embedded therein is formed, so that the lower body portion (10-4a) and the covering block portion (11) form a sturdy integrated structure, while forming a stable structure. This makes it possible to prevent the lower body portion (10-4a) from being separated from the covering block portion (11) even in high blue, and to increase the porosity between each leg portion (100-4a) and the covering block portion (11).

The connection portion (S) is preferably formed to have a different width and length according to the weight of the lower body portion (10-4a), when the lower body portion (10-4a) is light weight, the width and length of the connection portion (S) To be narrow and short, and when the body portion (10-4a) is heavy, it is formed to be wider and longer than the width and length of the connection portion (S) formed in the lightweight body portion (10-4a).

The three leg portions 100-4a located on the upper surface of the covering block portion 11 have one leg portion 100-4a facing the front or rear portion of the covering block 11, and two The leg portions 100-4a are disposed facing the left and right sides of the covering block portion 11, respectively, and the end of each leg portion 100-4a is the same as the end of the covering block 11 or the covering block It is formed to protrude from the end of the part 11 or shorter than the end of the covering block part 11.

In addition, each leg portion 100-4a has a lower portion formed at the same height or higher than the upper surface of the covering block portion 11 so that each leg portion 100 protrudes outward from the covering block portion 11. In the case of -4a), it is overlapped with the covering block 11 of the fourth compound block 4 installed adjacent to each other, so that the fourth compound block 4 can maintain a fixed and stable installation state, thereby increasing the anti-wave stability. .

On the other hand, when the end of each leg portion (100-4a) is formed higher than the upper surface of the covering block portion 11, a space between the end of the leg portion (100-4a) and the covering block portion 11 This may cause damage to the end of the leg part 100-4a. After the compound block 4 is installed, the lower surface of the end side of the leg part 100-4a is installed to prevent damage to the leg part 100-4a. A support plate made of steel, stone, concrete, plastic, etc. may be further installed between the upper surface of the and the covering block part 11.

The covering block 11 has a horizontal length (Bo) and a vertical length (B) in the plane according to the horizontal center spacing (To) and the vertical center spacing (T) of the plurality of body parts 10-4a. 4 As the porosity between the compound blocks 4 is different, the horizontal length (Bo) and the vertical length (B) of the covering block part 11 are the horizontal center spacing (To) and the vertical center part of the body parts 10-4a. If it is shorter than the interval T, the porosity between the fourth compound blocks 4 is lowered, and the horizontal length (Bo) and the vertical length (B) of the covering block portion 11 are the horizontal center intervals of the body portions 10-4a ( If it is equal to or longer than To) and the vertical center spacing (T), the porosity between the fourth compound blocks (4) increases, so the horizontal length (Bo) in the plane of the covering block part (11) is the width between the body parts (10-4). It is formed equal to or longer than the center spacing (To) and the vertical length (B) in a plane is to be formed equal to or longer than the vertical center spacing (T) between the body parts 10-4. (See FIG. 5)

A plurality of water passing holes 110 are formed at regular intervals in the covering block part 11, so that the wave force passes through the water passing hole 110 even if a strong wave force is applied, thereby attenuating the wave force and reducing the buoyancy to the covering block part 11 Avoid working.

Corresponding grooves 112 and protrusions 113 are formed on the front and rear surfaces of the covering block 11 and on the left and right sides of the covering block 11 to increase easy coupling and bonding between the covering blocks 11, respectively, and on the lower surface The serrated locking protrusions 114 having an inclination are formed, so that the plurality of covering block parts 11 are coupled with the groove 112 and the protrusion 113 between the adjacent covering block parts 11 to form a solid binding structure. And the construction can be carried out quickly, and the locking protrusions 114 on the lower surface are caught on the sandstone of the body, and the covering block 11 does not slide and maintains the installation state, so that the action of high blue and the subsidence of the foundation ground are prevented. Even if it occurs, the fourth compound block 4 is not separated or the installation state is not deformed, so that the body can be maintained very stably.

When the covering block part 11 is large, reinforcing reinforcing bars is performed, and in small cases, reinforcing reinforcing bars is not performed.

The covering block 11 is integrated with the lower body 10-4a and the weight is added to each other, and as a result, the weight of the fourth compound block 4 is automatically increased, and as a result, a sofa block that resists strong wave power. Since it is possible to reduce the required weight of the body, it is possible to reduce the construction cost of the body.

As shown in FIG. 4B, a plurality of beams formed at regular intervals along the circumference of the lower body portion 10-4a and the leg portions 100-4a, 100-4b of the upper body portion 10-4b (12) is formed to protrude in the form of a strip having a length.

The beam portion 12 may be formed shorter than the length of the leg portions 100-4a, 100-4b in the leg portions 100-4a, 100-4b, or may be formed to have the same length, but the leg portion 100-4a ,100-4b) protruding a certain length from the end of the leg portion (100-4a, 100-4b) is preferably formed to be elongated in a form surrounding one end, and the beam portion 12 is the leg portion (100-4a, 100- When trying to increase the length and thickness of 4b), reinforcement (if the beam part 12 is small, not reinforced) and pour concrete, the length and thickness of the leg parts 100-4a, 100-4b Can be easily extended. In addition, even when the length of the beam portion 12 is formed to protrude longer than the length of the leg portions 100-4a, 100-4b, the total length of the leg portions 100-4a, 100-4b by the beam portion 12 As a result, the length of the leg portions 100-4a and 100-4b can be easily adjusted, thereby providing an effect of increasing the effect.

In addition, the beam portion 12 is formed around the leg portions 100-4a, 100-4b, increasing the strength of the leg portions 100-4a, 100-4b to reinforce shear fracture (broken leg column) and at the same time Since it protrudes to the outside of the parts (100-4a, 100-4b), it is possible to increase the porosity and increase the breaking effect, and the overall surface area of the fourth compound block (4) is increased to provide a very advantageous environment for marine life to live. Make it possible.

In the lower body portion 10-4a and the upper body portion 10-4b, the leg portions 100-4a, 100-4b are connected toward the upper or lower portion, and the leg portions 100-4a, 100- 4b) On the outer circumferential surface of the middle height position, a plurality of sofa plates 14 extended in a circular, square, or oval shape are formed by spaced apart from one or a certain height, and the sofa plate 14 is more stably attenuated For this purpose, a plurality of water passing holes 140 are formed at regular intervals.

The sofa plate part 14 has a remarkable function of attenuating the wave power when the porosity of the sofa blocks that have been modified from the conventional tetrapods or the tetrapods is too high due to construction errors, etc. Although there is a problem of weakening, the sofa plate part 14 expands a partial area of the leg part and automatically adds weight, so it is possible to reduce the required weight of the sofa block to resist wave force, thereby reducing the construction cost of the body. At the same time, it acts as a crossbeam while surrounding the beams 12 formed on the outer circumferential surfaces of the leg portions 100-4a, 100-4b, so that it is resistant to moments (torsion) and external forces that may act on the beams 12. As a result, structural stability and rigidity of the leg portions 100-4a and 100-4b can be increased.

The sofa plate part 14 is formed to have a size smaller than the total width of the upper and lower body parts, and at this time, the sofa plate part 14 of the adjacent compound block 4 is in close contact with each other to prevent the pushing between the fourth compound blocks 4 In order to prevent, a plurality of contact protrusions 141 protruding along the circumference of the outer circumferential surface are formed, and the sofa plate part 14 is horizontal with the covering block part 11 or is formed to be inclined in the direction of the blue. Make it possible to respond.

When the sofa plate part 14 is large, reinforcement is reinforced, and when it is small, the reinforcement is not reinforced.

The lower body portion (10-4a) and the upper body portion (10-4b), the covering block portion (11), the beam portion (12), the sofa plate portion (14) can be adjusted in size, so that the weight can be easily adjusted and the conventional The porosity can be significantly increased compared to the sofa block, and the body part is formed up and down to form an integrated structure, which improves the anti-wave stability with excellent sofa effect and structural strength.Covering materials (covering stone, covering block ) Since the installation work and the mounting work of the second floor block can also be omitted, the cross section of the body (breakwater, revetment, quay, etc.) can be completed only with the fourth compound block (4). Is very fast, thereby shortening the construction period and reducing construction cost.

On the other hand, the lower body portion (10-4a) and the upper body portion (10-4b), the covering block portion (11), the beam portion (12) and the sofa plate portion (14) are chamfered to improve the mounting stability and manufacture It is possible to prevent damage to each corner during transportation, mounting.

In addition, in order to distribute the stress concentration occurring in the junction of each cross-section of the lower body portion (10-4a) and the upper body portion (10-4b), the covering block portion (11), the beam portion (12), and the sofa plate portion (14) Haunch can be installed.

In the present invention, in addition to the compound blocks 1, 2, 3, and 4 described above, a new compound block combined with a balance block part, a beam part, a sofa plate part, etc. can be constructed by connecting two leg parts with a covering block part.

Hereinafter, a first compound block (1) of Example 1, a second compound block (2) of Example 2, a third compound block (3) of Example 3 by the same method as in FIGS. 7 and 8, Example A preferred construction method of the fourth compound block 4 of 4 will be described.

[Construction method 1]

The lower leg part 100 of the body part 10-1 of the first compound block 1 on the construction site of the body such as breakwater, revetment, quay wall, etc. -1) A plurality of first compound blocks (1) are alternately arranged with the lower leg (100-1) of the adjacent body (10-1) and the covering block (11) is seated on the construction site. At this time, each covering block part 11 is constructed by combining the groove part 112 and the protrusion part 113 of the adjacent covering block part 11 to bind the plurality of first compound blocks 1 to each other. .

[Construction method 2]

The lower leg of the body part 10-1 of the first compound block 1 on the construction site of the breakwater, revetment, quay wall, etc. (ground, rock, sandstone drop and even surface, the top of the existing block, etc.) A plurality of first compound blocks (1) are arranged alternately with the lower leg (100-1) of the body part (10-1) adjacent to 100-1) and the covering block part (11) is seated on the construction site In this case, each of the covering block portions 11 is mounted by combining the grooves 112 and the protrusions 113 of the adjacent covering block portions 11 to bind the plurality of first compound blocks 1 to each other. do.

Thereafter, the balance block part 13 of the third compound block 3 faces the bottom between the first compound blocks 1 and the third compound block 3 is mounted therein, wherein the third compound block The balance block part 13 of (3) is seated above the lower leg part 100-1 of the adjacent first compound block 1 and faces the upper part of the third compound block 3. 3) Any one or a plurality of leg portions 100-3 includes a plurality of third compound blocks 3 to be mounted on one side of the upper leg portion 100-1 of the adjacent first compound block 1 Construct.

[Construction method 3]

The lower leg of the body part 10-1 of the first compound block 1 on the construction site of the breakwater, revetment, quay wall, etc. (ground, rock, sandstone drop and even surface, the top of the existing block, etc.) A plurality of first compound blocks (1) are arranged alternately with the lower leg (100-1) of the body part (10-1) adjacent to 100-1) and the covering block part (11) is seated on the construction site In this case, each of the covering block portions 11 is mounted by combining the grooves 112 and the protrusions 113 of the adjacent covering block portions 11 to bind the plurality of first compound blocks 1 to each other. do.

Thereafter, the balance block portion 13 of the third compound block 3 faces the lower side between the first compound blocks 1 and the third compound block 3 is mounted thereon, wherein the third compound block ( The balance block part 13 of 3) is mounted on the upper surface of the covering block part 11 between the first compound blocks 1, and any one of the three leg parts or a plurality of leg parts 100-3 A plurality of third compound blocks 3 are installed between each of the first compound blocks 1 so as to be located under the balance block part 13 of the compound block 1.

[Construction method 4]

The balance block part (13) of the third compound block (3) on the construction site of the breakwater, revetment, quay wall, etc. (ground, bedrock, sandstone drop and even surface, cover stone drop and even surface, top of existing block, etc.) A plurality of third compound blocks (3) are mounted on the construction site so as to be alternately disposed between the legs (100-2) of the other third compound blocks (3) adjacent to the upper side, and a plurality of third compound blocks (3) ) Is constructed.

[Construction method 5]

The balance block part (13) of the third compound block (3) on the construction site of the breakwater, revetment, quay wall, etc. (ground, bedrock, sandstone drop and even surface, cover stone drop and even surface, top of existing block, etc.) A plurality of third compound blocks (3) are installed in the construction site so as to be alternately arranged between the legs (100-2) of the other third compound blocks (3) adjacent to the upper side, and a plurality of third compound blocks (3) ) Is installed.

Thereafter, the third compound block 3 is mounted in two layers so that the balance block part 13 faces downward between the third compound blocks 3, and at this time, the balance of the third compound block 3 on the upper side The block portion 13 is one of the leg portions that are seated above the lower leg portion 100-3 adjacent between the lower third compound blocks 3 and face the upper portion of the third compound block 3 Alternatively, a plurality of third compound blocks 3 are stacked to be mounted on one side of the balance block 13 of the adjacent lower third compound block 3.

[Construction method 6]

A material in which the upper leg part 100-2 of the second compound block 2 is adjacent to the construction site of the breakwater, revetment, quay wall, etc. (ground, rock, sandstone drop and even surface, the top of the existing block, etc.) 2 It is disposed alternately with the upper leg portion 100-2 of the compound block 2, and a plurality of second compound blocks 2 are mounted so that the covering block portion 11 is seated on the construction site. The part 11 is constructed by combining the groove part 112 and the protrusion part 113 of the adjacent covering block part 11 to bind the plurality of second compound blocks 2 to each other.

[Construction method 7]

The lower leg (100-4a) and upper leg (100-4a) and upper leg of the fourth compound block (4) on the construction site of the breakwater, revetment, quay wall, etc. 100-4b) is disposed alternately with the lower leg portion 100-4a and the upper leg portion 100-4b of the fourth compound block 4 adjacent to each other, and a plurality of covering block portions 11 are mounted on the construction site. The fourth compound block 4 is installed, wherein each of the covering block parts 11 combines the grooves 112 and the protrusions 113 of the adjacent covering block parts 11 to form a plurality of fourth compound blocks ( It is constructed by bonding 4) with each other.

[Construction method 8]

A second compound block is mounted on the construction site of the block-type breakwater or the block-type quay wall, and the upper leg portion 100-2 of the second compound block 2 is adjacent to the upper side of the concrete block ( The second compound blocks (2) are placed alternately with the upper leg (100-2) of 2) and the covering block (11) is in close contact with the block-type breakwater or the block-type quay wall. The block part 11 is constructed by combining the groove part 112 and the protrusion part 113 of the adjacent covering block part 11 to bind the plurality of second compound blocks 2 to each other.

As described above, the first compound block 1 of the first embodiment of the present invention, the second compound block 2 of the second embodiment, the third compound block 3 of the third embodiment, and the fourth compound block of the fourth embodiment ( The construction method of 4) was described by the above construction methods 1 to 8, but the construction method of the first, 2, 3, and 4 compound blocks (1, 2, 3, 4) is not limited to the construction methods 1 to 8 Depending on the wave power and type of body, it can be constructed with conventional sofa blocks (Tetrapod, Tetraneo, Sealock, Dimple, Dolos, etc.), and each compound block can be used in various combinations to further diversify the construction method. .

As described above, in the present specification and drawings, preferred embodiments of the present invention have been posted, and although specific terms are used, these are merely used in a general meaning to easily explain the technical content of the present invention and to aid understanding of the invention. , It is not intended to limit the scope of the present invention. It is obvious to those of ordinary skill in the art that other modifications based on the technical idea of the present invention can be implemented in addition to the embodiments posted here.

1: 1st compound block
10-1: body
2: 2nd compound block
10-2: body
3: 3rd compound block
10-3: body part
4: 4th compound block
10-4a: lower body part 10-4b: upper body part
11: Cover block part
12: beam part
13: balance block part
14: sofa plate

Claims (22)

The lower side of the tetrapod-shaped body portion (10-1) in which four cylindrical leg portions (100-1) are formed radially from the center, and the three leg portions (100-1) facing the lower portion of the body portion (10-1) It consists of a first compound block (1) having a rectangular covering block portion (11) formed of,
One of the three leg portions 100-1 facing the lower portion of the body portion 10-1 is one leg portion 100-1 facing the front or rear portion of the covering block portion 11 and two leg portions ( 100-1) is formed to face the left and right side portions of the covering block 11, respectively,
A plurality of water-through holes 110 are formed in the covering block part 11, and grooves 112 and protrusions 113 corresponding to each other on the front and rear surfaces, and the left and right surfaces are formed, respectively, and a slope is formed on the lower surface. Has serrated locking jaws 114 are formed,
A connection part (S) in which reinforcing reinforcing bars are embedded is formed between the upper side of the covering block part 11 and each leg part 100-1,
A plurality of band-shaped beam portions 12 protrude along the periphery of the leg portion 100-1 of the body portion 10-1 and are formed,
The beam part 12 is formed to protrude a certain length from the end of the leg part 100-1 and surround one end of the leg part 100-1,
At the end of the leg portion 100-1 facing the upper portion of the body portion 10-1, a square, circular, or elliptical balance block portion 13 formed wider than the leg portion 100-1 is formed,
The compound block, characterized in that a plurality of water-through holes (130) are formed in the balance block (13). A tetrapod-shaped body portion (10-2) in which four cylindrical leg portions (100-2) are formed radially from the center, and one leg portion (100-2) facing the lower portion of the body portion (10-2) It consists of a second compound block (2) having a rectangular covering block (11) formed at the lower end,
The body portion (10-2) is one of the three leg portions (100-2) facing the upper portion (100-2) is facing the front or rear portion of the covering block portion 11, and two leg portions ( 100-2) is formed to face the left and right sides of the covering block 11, respectively,
A plurality of water-through holes 110 are formed in the covering block 11, a groove 112 and a protrusion 113 corresponding to each other on the front and rear surfaces, and the left and right surfaces, respectively, and the lower surface has a slope. Has serrated locking jaws 114 are formed,
The leg portion 100-2 of the body portion 10-2 is formed by protruding a plurality of band-shaped beam portions 12 along the circumference,
The beam part 12 is formed to protrude a certain length from the end of the leg part 100-2 and surround one end of the leg part 100-2,
A plurality of circular or rectangular or elliptical sofa plate portions 14 are formed in a single or spaced apart position in the middle of one leg portion 100-2 facing the lower portion of the body portion 10-2, and the sofa plate portion 14 A compound block, characterized in that a plurality of water-through holes 140 are formed. delete A tetrapod-shaped lower body portion 10-4a in which four cylindrical leg portions 100-4a are formed radially from the center, and one leg portion 100- facing the upper portion of the lower body portion 10-4a. 4a) The upper body portion 10-4b having the same shape as the lower body portion 10-4a and formed in a symmetrical structure, and three leg portions 100 facing the lower portion of the lower body portion 10-4a. -4a) It is composed of a fourth compound block (4) having a rectangular covering block portion (11) formed downward,
The lower body portion (10-4a) is one of the three legs facing the lower portion (100-4a) is facing the front or rear portion of the covering block portion 11, and the two leg portions (100-4a) are It is formed to face each of the left and right sides of the covering block portion 11,
A plurality of water-through holes 110 are formed in the covering block 11, a groove 112 and a protrusion 113 corresponding to each other on the front and rear surfaces, and the left and right surfaces, respectively, and the lower surface has a slope. Has serrated locking jaws 114 are formed,
A connection part (S) in which reinforcing reinforcing bars are embedded is formed between the upper side of the covering block part 11 and each leg part 100-4a,
Each leg portion (100-4a, 100-4b) of the lower body portion (10-4a) and the upper body portion (10-4b) is formed by protruding a plurality of band-shaped beam portions 12 along the circumference,
The beam part 12 is formed to protrude a certain length from the end of the leg part 100-4a, 100-4b and surround one end of the leg part 100-4a, 100-4b,
A circular or rectangular or elliptical sofa plate portion 14 at an intermediate position where the leg portion 100-4a of the lower body portion 10-4a and the leg portion 100-4b of the upper body portion 10-4b are connected A compound block, characterized in that a single or a plurality of spaces are formed, and a plurality of water-through holes 140 are formed in the sofa plate portion 14. The method according to any one of claims 1, 2, 4,
The horizontal length (Bo) in the plane of the covering block portion 11 is formed longer than the horizontal center spacing (To) between the body parts, and the vertical length (B) in the plane is longer than the vertical center spacing (T) between the body parts Compound block, characterized in that formed. delete delete The method according to claim 1 or 4,
The end of each leg toward the lower portion of the body portion 10-1 or the lower body portion 10-4a is the same as the end portion of the covering block portion 11 or protrudes from the end portion of the covering block portion 11 or It is formed to a length shorter than the end of the covering block portion 11,
The compound block, characterized in that the lower end of each leg is formed at the same height or higher than the upper surface of the covering block (11). delete delete delete delete delete The method according to claim 1,
A plurality of circular or rectangular or elliptical sofa plate portions 14 are formed in a single or spaced apart position in the middle of one leg portion facing the upper portion of the first compound block 1, and a plurality of through holes are formed in the sofa plate portion 14. A compound block, characterized in that (140) is formed. The method according to claim 2 or 4,
A compound block, characterized in that a plurality of contact protrusions 141 are formed along the circumference so as to be in close contact with the sofa plate 14 of an adjacent compound block on the outer circumferential surface of the sofa plate 14. In the construction method of the compound block of claim 1,
The lower leg portion 100-1 of the body portion 10-1 to which the lower leg portion 100-1 of the body portion 10-1 of the first compound block 1 is adjacent to the construction site of the body A construction method of a compound block, characterized in that the plurality of first compound blocks (1) are alternately arranged and the covering block portion (11) is mounted on the construction site. In the construction method of the compound block of claim 2,
The upper leg portion 100-2 of the second compound block 2 is alternately arranged with the upper leg portion 100-2 of the second compound block 2 adjacent to the construction site of the body, and a covering block on the ground A construction method of a compound block, characterized in that a plurality of second compound blocks (2) are mounted so that the part (11) is seated. delete In the compound block construction method of claim 4,
The lower leg portion 100-4a and the upper portion of the fourth compound block 4 adjacent to the lower leg portion 100-4a and the upper leg portion 100-4b of the fourth compound block 4 on the construction site of the body A construction method of a compound block, characterized in that a plurality of fourth compound blocks (4) are disposed alternately with the leg parts (100-4b) and the covering block part (11) is seated on the construction site. In the construction method of the compound block of claim 2,
A second compound block (2) in which an ordinary concrete block is mounted on the construction site of the block-type breakwater or the block-type quay wall, and the upper leg portion (100-2) of the second compound block (2) is adjacent to the top of the concrete block. ) And the upper leg portion (100-2) of the second compound block (2) and the covering block portion (11) of the second compound block (2) in close contact with the block-type breakwater or block-type quay wall. A construction method of a compound block, characterized in that the second compound block (2) is mounted. delete delete

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