KR102325897B1 - Prefabricated Covering Block - Google Patents

Abstract

The present invention provides a prefabricated interlocking block for covering a rubble-mound foundation in order to prevent the same from being lost, wherein unit blocks including a small end block, a slope block, and a top block are assembled in a horizontal direction into one block body to cover a bottom portion, a slope portion, and a top portion of the rubble-mound foundation. The prefabricated interlocking block of the present invention is safer than conventional facility and is simple and convenient to construct, thereby shortening a period of construction and providing stability to a gravity-type dam body. According to the present invention, mobility preventing protrusions are formed on a top surface of the small end block and the slope block to prevent a tetrapod installed on a top surface from being moved downward due to the mobility preventing protrusions and keep the same in a stable position, thereby enhancing work efficiency in installing the tetrapod. Therefore, costs for installation can be saved. In addition, uplift pressure reducing holes are formed on the small end block and the slope block to discharge the pressure generated from the slope through the uplift pressure reducing holes, thereby avoiding an accident such as a collapse when the location of the prefabricated interlocking block is changed by uplift pressure generated from the slope after construction.

Description

Prefabricated Interlocking Block {Prefabricated Covering Block}

The present invention relates to a prefabricated interlocking block, and more specifically, an interlocking block for cladding that is coated to prevent the loss of foundation stones. By forming a block body, the lower, inclined, and upper parts of the stone are assembled in the horizontal direction, so construction is safer and easier than existing facilities, so the construction period is shortened and the gravity-type interlocking block gives stability to the body. is about

Reservoir or breakwater installed on the coast of Korea is a structure that prevents the loss of debris by constructing the lower part of the body with rubble stones, and installing it with covering stones on the outside of the rocks loaded for stability. It is divided into an inclined breakwater having a structure as shown in 1 and an upright breakwater having a structure as shown in FIG. 2 .

The conventional breakwater structure as described above is a structure that requires a large amount of natural resources, such as sandstone (1) and covered stone (2). , the natural landscape is destroyed, and the construction cost increases due to the long-term construction period along with mining labor costs, equipment operation and transportation costs. There is a problem in that durability is shortened.

Accordingly, various types of breakwater structures and coating methods have been developed as a way to solve the above problems. Patent Document 1 relates to 'a method of covering a breakwater using a reinforced concrete unit block'. As shown in FIG. 3, the unit block 1 on one side and the other side is formed on the side wall part 12 with the convex part 16 and the main part ( 15) and assembling the vertical reinforcing bar 17 protruding to the upper part of the unit block 1 by assembling the lower unit block 1 and the upper unit block 1 is known, but the The block 1 has a large scale, a complex structure, and a cumbersome construction method such as having to use a vertical reinforcing bar 17 for assembling the unit block 1 on one side and the unit block 1 on the other side.

And Patent Document 2 relates to a 'block for covering the slope on the outer sea side of the breakwater'. 4) In (4'), the female key block 5 and the male key block 7 are spaced apart from each other by a predetermined distance on the left and right for a covering block. Since the size of the covering block is small, it takes a lot of time to assemble Rather, as shown in the drawing, if the tetrapod is not installed on the outside of the covering block, there is a fear that the assembled covering block may be separated by waves.

On the other hand, the present applicant also improved the structure of the conventional breakwater and, as shown in FIG. 5, is composed of an integrated unit block without a joint from the sea surface to the land, so that it is an eco-friendly reef type that can minimize the prevention of overturning or separation by waves or currents. A cladding block has been developed and a patent has been registered as known in Patent Document 3, and a usable concrete block having a structure as shown in FIG. As known in Patent Document 4, a patent registration has been obtained by developing a structure for fastening the holding ring.

Patent Document 1: Korean Patent Publication No. 10-2012-0022532 (published on March 12, 2012) Coating method of breakwater using reinforced concrete unit block Patent Document 2: Domestic Utility Model Publication No. 20-0342292 (Registered on February 06, 2004) Block for covering the slope of the seawall of the breakwater Patent Document 3: Domestic Registered Patent Publication No. 10-1997178 (registered on July 01, 2019) Eco-friendly reef type covering block Patent Document 4: Domestic Registered Patent Publication No. 10-1832748 (Registered on February 21, 2018) Concrete block holding structure that can be diverted

Therefore, the present invention has been proposed to improve such conventional problems, and it is an interlocking block for cladding that is coated to prevent the loss of foundation stones, and is assembled by assembling unit blocks divided into small blocks, slope blocks, and upper blocks. By forming a block body, the lower part, inclined part, and upper part of the rock are assembled in the horizontal direction, so it is safer and easier to construct than existing facilities. It is a task to be solved to provide an interlocking block.

And in the present invention, by forming a flow preventing protrusion on the upper surface of the small block and the slope block, the tetrapod installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion. , it is a task to solve the problem to provide a new type of prefabricated interlocking block that can reduce the cost of installation accordingly.

In addition, positive pressure reduction holes are formed in small blocks and slope blocks so that the pressure generated from the slope is discharged to the outside through the positive pressure reduction hole after construction. It is a task to be solved to provide a new type of prefabricated interlocking block that can prevent accidents.

And the present invention is a new type of prefabricated interlocking block, which is easy to construct and maintain, by using the unit block divided into small blocks, slope blocks, and upper blocks, and by using the fastening means of the unit blocks during assembly construction. Make what you provide the task you want to solve.

In addition, the present invention is by assembling unit blocks divided into small blocks, slope blocks, and upper blocks to adjust the angle, width, length, etc. of the shoulder part of the rock by changing the structure of the connection part according to the shape of the shore or breakwater. It is a task to be solved to provide a prefabricated interlocking block in a new form possible.

And the present invention is a new form in which the breakwater structure is stabilized by preventing the loss of foundation stones by the weight of the cladding block and the large ground area, and there is almost no gap compared to the existing clad stone because the unit block has a larger ground area than the conventional clad stone. It is a task to be solved to provide a prefabricated interlocking block of

According to the features of the present invention for achieving the above object, in the prefabricated interlocking block formed in the longitudinal direction of the sandstone 100, a plurality of small end blocks 21 formed horizontally on both ends of the sandstone 100. a small block body 20 formed by being connected in the longitudinal direction; a slope block body 30 having a lower side connected to the small block body 20, an upper side formed to be inclined, and a plurality of slope blocks 31 connected in the longitudinal direction; It is connected to the upper side of the slope block body 30, is formed to cover the upper part of the sandstone 100, and includes an upper block body 40 formed by connecting a plurality of upper blocks 41 in the longitudinal direction. characterized.

In the prefabricated interlocking block according to the present invention, the small end block 21 of the small end block body 20 has a body 221 made of a rectangular flat plate shape, and the inclined block body 30 in the body 221 ) and a lower body portion 22 having a bent portion 222 formed in the direction; It is made of a rectangular flat plate shape smaller than that of the body 221 of the lower body 22, and comprises an upper body 23 that protrudes from the upper surface of the body 221 to one side and is coupled thereto. do.

And in the prefabricated interlocking block according to the present invention, the slope block 31 of the slope block body 30 includes a lower slope block 32 connected to the small end block 21 of the small block body 20; an upper inclined block 33 connected to the upper block 41 of the upper block body 40; It is characterized in that it comprises an intermediate slope block (34) disposed between the lower slope block (32) and the upper slope block (33).

In addition, in the prefabricated interlocking block according to the present invention, the lower inclined block 32 has a body 322 made of a rectangular flat plate shape, and a bent portion formed in the body 322 in the direction of the small end block 21 . an upper body portion 321 having a (323); It is made in the shape of a rectangular flat plate corresponding to the upper body 321, and includes a lower body 324 that protrudes from the lower surface of the body 323 to the other side and the intermediate slope block 35 and is coupled thereto. characterized in that

In the prefabricated interlocking block according to the present invention, the intermediate slope block 34 includes an upper body 341 formed in a rectangular flat plate shape; The upper body part 341 and the lower body part 342 made of a rectangular flat plate shape corresponding to the lower body part 341 is protruded from the lower surface of the upper body part 341 to the other side and the upper slope block 33. characterized by including.

And in the prefabricated interlocking block according to the present invention, the upper inclined block 33 has a body 332 having a rectangular flat plate shape, and a bent portion formed in the body 332 in the direction of the upper block body 40 a lower body portion 331 having a (333); The lower body portion 331 and the upper body portion 334 is made of a rectangular flat plate shape corresponding to the upper surface of the lower body portion 331, the other side and the intermediate slope block 34 protruding from the upper body (334) characterized by including.

In addition, in the prefabricated interlocking block according to the present invention, the upper block 41 of the upper block body 40 has a body 421 made of a rectangular flat plate shape, and the inclined block body 30 in the body 421 ) and an upper body portion 42 having a bent portion 422 formed in the direction; It is made of a rectangular flat plate shape smaller than the body 421 of the upper body 42, and comprises a lower body 43 that protrudes from the lower surface of the body 42 to the other side and is coupled. do.

In the prefabricated interlocking block according to the present invention, the small end block 21 of the small stage block body 20 and the slope block 31 of the slope block body 30 prevent the flow of the tetrapod on the upper part of the interlocking block according to the present invention. It is characterized in that the projections (24, 35) are formed.

And in the prefabricated interlocking block according to the present invention, the small end block 21 of the small stage block body 30 and the slope block 31 of the slope block body 30 have a plurality of positive pressure reducing holes 25 for reducing positive pressure. , 36) is characterized in that it is formed.

In addition, in the prefabricated interlocking block according to the present invention, the small end block 21 of the small end block body 20, the slope block 31 of the slope block body 30, the upper block of the upper block body 40 ( 41) is characterized in that the ends of both sides are positioned in a zigzag with each other.

As described above, according to the prefabricated interlocking block according to the present invention, it is an interlocking block for cladding that is coated to prevent the loss of foundation stones, and unit blocks divided into small blocks, slope blocks, and upper blocks are assembled into one block. By forming, the lower, inclined, and upper parts of the sandstone are assembled in the horizontal direction, so it is safer and easier to construct than existing facilities, so the construction period is shortened, and there is an effect of imparting stability to the gravity type body.

And in the present invention, by forming a flow preventing protrusion on the upper surface of the small block and the slope block, the tetrapod installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion. , thereby reducing the cost of installation.

In addition, positive pressure reduction holes are formed in small blocks and slope blocks so that the pressure generated from the slope is discharged to the outside through the positive pressure reduction hole after construction. It has the effect of preventing accidents from occurring.

And the present invention has the effect of easy construction and maintenance by using the unit block divided into small block, slope block, and upper block by using the fastening means of the unit block during assembly construction.

In addition, the present invention is by assembling unit blocks divided into small blocks, slope blocks, and upper blocks to adjust the angle, width, length, etc. of the shoulder part of the rock by changing the structure of the connection part according to the shape of the shore or breakwater. This has a possible effect.

And the present invention has the effect of stabilizing the breakwater structure by preventing the loss of foundation stones by the weight of the cladding block and the large ground area, because the unit block has a larger grounding area than the conventional clad stone. have.

1 is a view showing a conventional slope-type breakwater (sandstone slope),
Figure 2 is a view showing a typical caisson breakwater,
3 to 5 are views for explaining the conventional breakwater structure,
Figure 6 is a view showing the structure of a conventional concrete block holding ring,
7 is a perspective view of a prefabricated interlocking block according to a preferred embodiment of the present invention;
8 is a view showing a small end block in a prefabricated interlocking block according to a preferred embodiment of the present invention;
9 is a view showing a lower slope block in a prefabricated interlocking block according to a preferred embodiment of the present invention;
10 is a view showing an intermediate slope block in a prefabricated interlocking block according to a preferred embodiment of the present invention;
11 is a view showing an upper slope block in a prefabricated interlocking block according to a preferred embodiment of the present invention;
12 is a view showing an upper block in a prefabricated interlocking block according to a preferred embodiment of the present invention;
13 is a view showing a holding ring fastening hole in a prefabricated interlocking block according to a preferred embodiment of the present invention;
14 is a view showing an installation process of a prefabricated interlocking block according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in FIGS. 7 to 14, the same reference numerals are given to components performing the same functions. On the other hand, in the drawings and detailed descriptions, detailed descriptions and illustrations of specific technical configurations and actions of elements not directly related to the technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly illustrated or explained. In the present invention, one side and the other side refer to the longitudinal direction (horizontal direction) in which each of the small block body 20, the slope block body 30, and the upper block body 40 are coupled.

7 to 14, in the prefabricated interlocking block 10 according to a preferred embodiment of the present invention, a plurality of small end blocks 21 formed horizontally at both ends of the sandstone 100 are connected in the longitudinal direction. The small block body 20 is formed, the lower side is connected to the small block body 20, the upper side is formed to be inclined, and the slope block body 30 is formed by connecting a plurality of slope blocks 31 in the longitudinal direction. And, it is connected to the upper side of the slope block body 30, is formed to cover the upper part of the sandstone 100, and includes an upper block body 40 formed by connecting a plurality of upper blocks 41 in the longitudinal direction. is done

The small stage block body 20 is formed by connecting a plurality of small stage blocks 21 horizontally formed at both ends of the sandstone 100 in the longitudinal direction (horizontal direction).

The small end block 21 includes a lower body part 22 and an upper body part 23 as shown in FIG. 8, and the lower body part 22 has a body 221 made of a rectangular flat plate shape. , has a bent portion 222 formed in the direction of the oblique block body 30 from the body 221, and the upper body portion 23 is in the shape of a small square flat plate compared to the body 221 of the lower body portion 22. It is made, and protrudes from the upper surface of the body 221 to one side and is coupled. At this time, a flow preventing protrusion 24 for preventing the flow of the tetrapod is formed on the upper surface of the upper body 23 in the longitudinal direction.

On the other hand, the small end block 21 has a plurality of positive pressure reducing holes 25 on both sides of the flow prevention protrusion 24 for reducing the positive pressure generated from the rocks through the upper body part 23 and the lower body part 22 . is formed by In addition, the holding ring fastening hole 26 is formed on both sides of the positive pressure reduction hole 25 in the longitudinal direction to facilitate the lifting by using the holding ring.

The holding ring fastening hole 26 communicates with the first fastening hole 261 passing through the upper body 23 and the first fastening hole 261 of the upper body 23 as shown in FIG. 13, and the lower It consists of a second fastening hole 262 penetrating the body portion (22). At this time, the first fastening hole 261 is extended to the lower body part 22 so that the first fastening hole 261 and the second fastening hole 262 are communicated on the lower body part 22, and the first fastening hole ( 261 ) and the second fastening hole 262 communicate with each other to form a stepped 263 .

On the other hand, the first fastening hole 261 is formed in a rectangular shape, and the second fastening hole 262 is formed in a square shape, so that the holding ring is inserted into the first fastening hole 261 of the upper body part 23 and the second fastening hole 262 is inserted into the second fastening hole 261. It is rotated on the hole 262 and caught on the step 263 so that the small step block 21 can be lifted.

The small end block 21 having such a configuration is placed on the upper surface of the body 221 of the lower body portion 22, the portion protruding from one side of the upper body portion 23 in combination with the adjacent small end block 21 become joined

The slope block body 40 has a lower side connected to the small block body 20, an upper side is formed to be inclined, and a plurality of slope blocks 31 are connected in the longitudinal direction.

The slope block 41 is a lower slope block 32 connected to the small end block 21 of the small end block 20, and an upper slope block 33 connected to the upper block 41 of the upper block body 40 and an intermediate slope block 34 disposed between the lower slope block 32 and the upper slope block 33 .

The lower slope block 32 is composed of an upper body part 321 and a lower body part 324 as shown in FIG. 9, and the upper body part 321 has a body 322 made of a rectangular flat plate shape, Has a bent portion 323 formed in the direction of the small end block 21 from the body 322, the lower body portion 324 is made of a rectangular flat plate shape corresponding to the upper body portion 321, body 323 The other side and the intermediate slope block 35 protrude from the lower surface and are coupled.

The combination of the lower inclined block 32 and the adjacent lower inclined block 32 is placed on the upper surface of the body 323 of the lower body 324 and the portion protruding from one side of the upper body 321 is placed on the upper surface of the lower body 324. are joined And, the lower bevel block 32 and the lower end block 21 and the coupling is the upper body of the lower inclined block 32 on the upper surface of the bent portion 222 formed in the lower body portion 22 of the lower end block 21. The lower surface of the bent portion 323 formed in the 321 is seated and coupled.

As shown in FIG. 10, the intermediate slope block 34 has an upper body 341 having a rectangular flat plate shape, and a rectangular flat plate shape corresponding to the upper body 341, the upper body 341. It is made to include a lower body portion 342 that is coupled to the other side and the upper slope block 33 from the lower surface of the projecting.

To make the lower body 342 of the above-described intermediate slope block 34 protrude from the lower surface of the upper body 341 to the other side and the upper slope block 33 is a combination of the adjacent intermediate slope block and 34 It is for stable and easy coupling with the lower slope block 32.

The combination of the intermediate slope block 34 and the adjacent intermediate slope block 34 is coupled to the portion protruding from one side of the upper body 341 by being seated on the upper surface of the lower body 342 . At this time, the lower portion of the lower body portion 342 protruding to the upper slope block 33 is in contact with the upper portion of the lower body portion 324 of the lower slope block 32 and the upper body portion 341 of the intermediate slope block 34 . ) of the lower surface is coupled to the upper surface of the lower body portion 324 of the lower slope block (32).

On the other hand, the intermediate slope block 34 may be installed in several layers according to the length of the slope of the sandstone 100, as shown in FIG. 14(c).

The upper inclined block 33 has a body 332 having a rectangular flat plate shape as shown in FIG. 11 , and a lower body having a bent portion 333 formed in the upper block body 40 direction from the body 332 . The upper body part (331) and the lower body part (331), which is made of a rectangular flat plate shape corresponding to the upper body part (331), protrudes from the upper surface of the lower body part 331 to the other side and the intermediate slope block (34). 334) is included.

To make the upper body 334 of the above-described upper slope block 33 protrude from the upper surface of the lower body 331 to the other side and the intermediate slope block 34 is a combination of the adjacent upper slope block and 33 It is for stable and easy coupling with the lower slope block 32 and the upper block 41.

The combination of the upper inclined block 33 and the adjacent upper inclined block 33 is coupled to a portion protruding from one side of the upper body portion 334 by being seated on the upper surface of the lower body portion 331 . At this time, the lower portion of the upper body portion 334 protruding to the intermediate slope block 33 is in contact with the upper portion of the lower body portion 342 protruding from the intermediate slope block 33 and the lower body portion of the upper slope block 33 . The upper surface of the bent portion 333 of 334 is coupled to the lower surface of the upper block 41 .

On the other hand, the slope block 41, that is, the lower slope block 32, the upper slope block 33, and the intermediate slope block 34 have a flow preventing protrusion 35 on the upper surface to prevent the flow of the tetrapod in the longitudinal direction. is formed with

In addition, the slope block 41 has a plurality of positive pressure reducing holes 36 formed on both sides of the flow preventing protrusion 35 to reduce the positive pressure generated from the rocks. In addition, the holding ring fastening hole 37 is formed on both sides of the positive pressure reduction hole 36 in the longitudinal direction to facilitate the lifting using the holding ring. Here, since the holding ring fastening hole 37 is formed in the same configuration as the holding ring fastening hole 26 formed in the small end block 21 described above, a detailed description thereof will be omitted.

The upper block body 40 is connected to the upper side of the slope block body 30 and is formed to cover the upper part of the sandstone 100, and is formed by connecting a plurality of upper blocks 41 in the longitudinal direction, the upper block (41) has a body 421 made of a rectangular flat plate shape as shown in Fig. 12, the upper body portion 42 having a bent portion 422 formed in the direction of the oblique block body 30 from the body 421 ), and is made of a rectangular flat plate shape smaller than the body 421 of the upper body 42, and includes a lower body 43 that protrudes from the lower surface of the body 42 to the other side and is coupled thereto.

In the coupling of the upper block 41 adjacent to the upper block 41 described above, the upper surface of the lower body part 43 protruding to the other side is coupled to the lower surface of the upper body part 42 . At this time, the lower surface of the bent part 422 of the upper body part 42 bent by the upper inclined block 34 is on the upper surface of the bent part 333 formed in the lower body part 331 of the upper inclined block 33 . are joined

The upper block 41 passes through the upper body part 42 and the lower body part 43 and has a holding ring fastening hole 44 so that it can be easily lifted using a holding ring. Here, since the holding ring fastening hole 44 is formed in the same configuration as the holding ring fastening hole 26 formed in the small end block 21 described above, a detailed description thereof will be omitted.

On the other hand, in the prefabricated interlocking block 10 according to a preferred embodiment of the present invention, the small end block 21 of the small block body 20, the slope block 31 of the slope block body 30, and the upper block body 40 of the upper block 41, the ends of both sides are positioned in a zigzag with each other and are coupled. If the small end block 21, the slope block 31, and the ends of both sides of the upper block 41 are on the same line, they may collapse in the vertical direction.

As described above, according to the prefabricated interlocking block according to the present invention, it is an interlocking block for covered stone that is coated to prevent the loss of foundation stones, and unit blocks divided into small blocks, slope blocks, and upper blocks are assembled to form one block body. By doing so, the lower end, inclined portion, and upper end of the sandstone are assembled in the horizontal direction, so it is safer and easier to construct than existing facilities, so the construction period is shortened, and there is an effect of imparting stability to the gravity type body (堤体).

And in the present invention, by forming a flow preventing protrusion on the upper surface of the small block and the slope block, the tetrapod installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion. , thereby reducing the cost of installation.

In addition, positive pressure reduction holes are formed in small blocks and slope blocks so that the pressure generated from the slope is discharged to the outside through the positive pressure reduction hole after construction. It has the effect of preventing accidents from occurring.

And the present invention has the effect of easy construction and maintenance by using the unit block divided into small block, slope block, and upper block by using the fastening means of the unit block during assembly construction.

In addition, the present invention is by assembling unit blocks divided into small blocks, slope blocks, and upper blocks to adjust the angle, width, length, etc. of the shoulder part of the rock by changing the structure of the connection part according to the shape of the shore or breakwater. This has a possible effect.

And the present invention has the effect of stabilizing the breakwater structure by preventing the loss of foundation stones by the weight of the cladding block and the large ground area, because the unit block has a larger grounding area than the conventional clad stone. have.

14 is a view showing an installation process of a prefabricated interlocking block according to a preferred embodiment of the present invention.

Referring to FIG. 14, looking at the installation process of the prefabricated interlocking block according to the preferred embodiment of the present invention, as shown in (a), a plurality of small end blocks 21 are formed at both ends of the sandstone 100 in the longitudinal direction. are joined Then, as shown in (b), the lower slope block 32 is coupled in plurality in the longitudinal direction at the upper portion of the small end block 21, and the intermediate slope block 34 is adjacent to each other in the longitudinal direction as shown in (c). combined into a plurality of At this time, the intermediate slope block 34 is formed in several layers according to the length of the slope of the sandstone 100 . And, when the intermediate slope block 34 is combined, as shown in (d), the upper slope block 33 is adjacent to the upper portion of the intermediate slope block 34 in the longitudinal direction and coupled in plurality, and the upper end of the sandstone 100 That is, as shown in (e) on the upper part of the upper slope block 33, the upper block 41 is coupled in plurality.

As described above, although the prefabricated interlocking block according to the preferred embodiment of the present invention has been shown according to the above description and drawings, this is merely an example and various changes and changes within the scope not departing from the technical spirit of the present invention It will be appreciated by those skilled in the art that modifications are possible.

10 : prefabricated interlocking block
20: small block body
21: small block 22: lower body
221: body 222: bent part
23: upper body 24: flow prevention projection
25: positive pressure reduction hole
30: four-sided block body
31: slope block 32: lower slope block
321: upper body 322: body
323: bent part 324: lower body part
33: upper slope block 331: lower body part
332: body 333: bent part
334: upper body part 34: intermediate slope block
341: upper body 342: lower body
35: flow prevention projection 36: positive pressure reduction hole
40: upper block body
41: upper block 42: upper body
421: body 422: bent part
43: lower body part
100: stone

Claims (10)

In the prefabricated interlocking block formed in the longitudinal direction of the sandstone 100,
A lower body portion 22 having a body 221 in the shape of a rectangular flat plate, and a bent portion 222 formed in the direction of the oblique block body 30 from the body 221, and the lower body portion 22 ) is made in the shape of a small square flat plate compared to the body 221, and includes an upper body part 23 that protrudes from the upper surface of the body 221 to one side and is coupled to both ends of the sandstone 100. A small block body 20 formed by connecting a plurality of small block blocks 21 formed of a lengthwise direction;
The lower side is connected to the small block body 20, the upper side is formed to be inclined, and the flow preventing protrusion 35 for preventing the flow of the tetrapod is formed on the upper side, and the flow preventing protrusion 35 is formed on both sides of the stone. a slope block body 30 in which a plurality of positive pressure reduction holes 36 are formed to reduce positive pressure generated from the slope block 31 and are formed by connecting a plurality of slope blocks 31 in the longitudinal direction;
It is connected to the upper side of the slope block body 30, is formed to cover the upper portion of the sandstone 100, and includes an upper block body 40 formed by connecting a plurality of upper blocks 41 in the longitudinal direction;
The small stage block 21 of the small stage block 20 is formed with a flow preventing protrusion 24 for preventing the flow of the tetrapod on the upper side, and on both sides of the flow preventing protrusion 24 To reduce the positive pressure generated from the rocks A plurality of positive pressure reduction holes 25 are formed for 26 is in communication with the first fastening hole 261 having a rectangular shape penetrating the upper body 23 and the first fastening hole 261 of the upper body 23, and the lower body part ( 22) through the second fastening hole 262 having a square shape, the first fastening hole 261 is extended to the lower body 22 and the first fastening hole is formed on the lower body 22 (261) and the second fastening hole 262 are communicated, the portion where the first fastening hole 261 and the second fastening hole 262 are communicated is a prefabricated interlocking block, characterized in that the step 263 is formed. .
delete The method of claim 1,
The slope block 31 of the slope block body 30 includes a lower slope block 32 connected to the small end block 21 of the small end block body 20;
an upper inclined block 33 connected to the upper block 41 of the upper block body 40;
Prefabricated interlocking block comprising an intermediate slope block (34) disposed between the lower slope block (32) and the upper slope block (33).
4. The method of claim 3,
The lower inclined block 32 has a body 322 formed in a rectangular flat plate shape, and an upper body portion 321 having a bent portion 323 formed in the direction of the small end block 21 from the body 322 ) Wow;
It is made of a rectangular flat plate shape corresponding to the upper body portion 321, and includes a lower body portion 324 that protrudes from the lower surface of the body 322 to the other side and the intermediate slope block 34 and is coupled thereto. Prefabricated interlocking block, characterized in that.
5. The method of claim 4,
The intermediate slope block 34 includes an upper body 341 having a rectangular flat plate shape;
The upper body part 341 and the lower body part 342 made of a rectangular flat plate shape corresponding to the lower body part 341 is protruded from the lower surface of the upper body part 341 to the other side and the upper slope block 33. Prefabricated interlocking block, characterized in that it comprises.
6. The method of claim 5,
The upper oblique block 33 has a body 332 having a rectangular flat plate shape, and a lower body portion 331 having a bent portion 333 formed in the body 332 in the direction of the upper block body 40 . )Wow;
The lower body portion 331 and the upper body portion 334 is made of a rectangular flat plate shape corresponding to the upper surface of the lower body portion 331, the other side and the intermediate slope block 34 protruding from the upper body (334) Prefabricated interlocking block, characterized in that it comprises.
7. The method of claim 6,
The upper block 41 of the upper block body 40 has a body 421 made of a rectangular flat plate shape, and a bent portion 422 formed in the direction of the inclined block body 30 from the body 421 is formed. an upper body portion 42 having;
It is made of a rectangular flat plate shape smaller than the body 421 of the upper body 42, and comprises a lower body 43 that protrudes from the lower surface of the body 421 to the other side and is coupled. prefabricated interlocking blocks.
delete delete The method of claim 1,
The small end block 21 of the small block body 20, the slope block 31 of the slope block body 30, and the top block 41 of the top block body 40 are located at the ends of both sides in a zigzag manner. Prefabricated interlocking block, characterized in that.

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