KR101136661B1 - Structure of fish way blocks and the method for constructing the fish way - Google Patents

Abstract

PURPOSE: A fish-way block assembling structure and a construction method thereof are provided to facilitate an ascending of fishes within about 700 mm depth of water and let fishes to move to all directions by installing an undermining. CONSTITUTION: A fish-way block assembling structure(100) is composed of a plurality of first overflow blocks(110) and second overflow blocks(210). The plurality of first and second overflow blocks are adjoined to each other one by one toward a horizontal direction, thereby being arranged in a several rows. The height of the first overflow blocks is higher than the second overflow blocks so that fishes move through the water stream above the plurality of second overflow blocks in the upstream. The fishes move to left and right directions through the water stream above a first connecting bar(132) of the first overflow blocks and a second connecting bar(232) of the second overflow blocks.

Description

Adobe Block Assembly Structure and Construction Method {STRUCTURE OF FISH WAY BLOCKS AND THE METHOD FOR CONSTRUCTING THE FISH WAY}

The present invention relates to an adobe block assembly structure in which various fish and aquatic creatures can move, and a construction method thereof. It replaces the existing drop hole and has excellent natural purification effect due to fish habitat and aeration, and ensures high stability even at a high flow rate. The present invention relates to an adobe block assembly which can be installed in an ice harbor type with a slope of 1/20 so as to be suitable for cheers and the like, and a construction method thereof.

In general, the types and types of fish are pool type ice harbor type, vertical slot type, and submerged type, and the waterway type includes conductive wall type, artificial underpass type, and flat channel type, and the operation type is elevator type, lock type, There is a lift type.

The above-mentioned fishes are installed in a structure that blocks the stream as described above, so that the migratory fish can grow and spawn while freeing rivers, rivers, etc. to prevent the extinction of the ecosystem while preventing the extinction of fish species. To prevent this structure.

However, due to the lack of legislation, detailed design guidelines, and standards for these fishes, they are not installed in accordance with river conditions. Since it is impossible to install, the establishment of detailed guidelines on fish facilities is urgently needed.

In addition, many different types of fish have been installed until now, but the fish have to be installed through the proper method of construction and the type of fish suitable for the river by grasping the flow conditions, ie, the flow conditions of domestic rivers. do.

On the other hand, the existing ice-harbor type is made with the optimum conditions for the movement of pyramids, hotfish and mountain trouts, which are 'fish's fishes' that flow up and down the rivers and seas, and 'local fishes' fish that travel up and down the rivers. It is evaluated.

However, the conventional ice harbor type fishery has a steep inclination of the fishery, the flow rate is high, and it is difficult to catch the fish. If the depth of leap is not secured, the depth of the inlet and outlet is not secured. Many do not appease or function as fish.

As a result, only a few fishes function properly, and in the case of determining the type of fish that is suitable for the river, it is due to factors such as excessive fish cost, difficulty in maintenance after construction, and insolvency due to on-site concrete casting. There has been a problem that it is very difficult to install the fish economically and effectively.

An object of the present invention is to solve the conventional problems as described above, more specifically, the depth of the fish to 700mm in depth and easy to small fish, the installation of the air block can be moved up and down, left and right of the fish and construction thereof In providing a method.

In addition, another object of the present invention is to replace the existing drop hole, excellent natural purification effect by the habitat and aeration of the fish, to ensure a high stability even at a high flow rate, even if the swimming and jumping strength of the regressive fish is not great The present invention provides an adobe block assembly structure which can be installed in an ice harbor type with a slope of 1/20 so as to be suitable for fish species and various kinds of fish that cannot be used.

In order to achieve the above object, the present invention, in the various block and the aquatic organisms moveable block assembly structure,

A plurality of first overflow blocks which are connected in series with each other by a first connection bar in a front-rear direction and are inclined upwardly toward a rear side; And

And a plurality of second overflow blocks arranged side by side adjacent to the first overflow block and connected to each other by a second connecting bar in a front and rear direction, and arranged to be inclined upward toward a rear side.

The plurality of first overflow blocks and the plurality of second overflow blocks are sequentially arranged in a row in a lateral direction, and the height of the first overflow block is higher than the height of the second overflow block so that the plurality of second overflow blocks The upstream movement of the fish is made through the water flow on the block, and the left and right movements of the fish are made through the water flow on the first connecting bar of the first overflow block and the second connecting bar of the second overflow block. It provides a constructed block assembly assembly.

Preferably, the first body portion of the first overflow block has a height higher than that of the second body portion of the second overflow block, the width thereof is the same, and the first connection bar of the first overflow block. Is smaller than the cross-sectional size of the first body portion of the first overflow block and the second body portion of the second overflow block is formed in the same size as the cross-section with respect to the second connecting bar of the second overflow block. When the plurality of first overflow blocks and the second overflow blocks are arranged side by side in a row, the first body portion of the first overflow block and the second body portions of the second overflow block are aligned adjacent to each other, The first connecting bar of the first overflow block and the second connecting bars of the second overflow block are also arranged adjacent to each other while maintaining a predetermined distance therebetween, and the upstream side of the fish through the water flow on the second body portion of the second overflow block. A movement is made and the first Provided is an adobe block assembly structure configured to allow the left and right movement of the fish through the water flow on the first connecting bar of the overflow block and the second connecting bar of the second overflow block.

In another aspect, the present invention preferably has a plurality of first overflow blocks each having a first fitting hole concave in the center of the front lower edge of the first body portion, and extending from the center of the lower edge to the rear side toward the rear of the first body portion. A first connecting bar protrudes, the cross-sectional size of the first body portion is formed to a size larger than the cross-sectional size of the first connecting bar, the first connecting bar located on the front side of the first body portion located on the rear side It is inserted into the insertion hole provides an adobe block assembly connected in a line along the front and rear directions.

And the present invention preferably the first body portion is formed in the inclined surface of the front surface of the lower edge is wide and the upper edge side to form a narrow cross-section, both side edges of the rear to form a reinforcing wall, respectively, the first connecting bar Each of the lower edges to form a trapezoidal cross section of the upper edge is narrow and the upper edge side, to provide an adobe block structure consisting of a size that the first fitting hole of the first body portion coincides.

In another aspect, the present invention preferably has a plurality of second overflow blocks each having a height lower than that of the first body portion of the first overflow block, and a second fitting hole in the center of the front lower edge of the second body portion. It is formed concave, the second connecting bar extending from the center of the lower edge to the rear side of the rear of the second protruding portion is formed, the cross-sectional size of the second body portion is formed to a size larger than the cross-sectional size of the second connecting bar On the other hand, the second connecting bar located on the front side is inserted into the second fitting hole of the second body portion located on the rear side to provide an adobe block assembly structure is connected in a line along the front and rear direction.

And the present invention preferably the second body portion has a front surface is formed in the inclined surface, the lower edge is wide and the upper edge side to form a narrow cross-section, the second fitting hole both sides of the second body portion of the front, Fish through holes are formed to pass through the lower rear corner, respectively, the second connecting bar has a lower edge is wider and the upper edge side has a narrow trapezoidal cross section, respectively, the second fitting hole of the second body portion Provide block assemblies.

In addition, the present invention preferably the plurality of first overflow blocks and the plurality of second overflow blocks are ground on the ground, filled with rubble, and then installed on the base concrete surface installed on the upper, on the foundation concrete Provided is an adobe block assembly that is secured by filled concrete and constructed to have a slope gradient of 1/20 in the fore and aft direction.

And the present invention preferably the foundation concrete is formed on the left and right sides of the wing wall to the height of the first body portion of the first overflow block, respectively, the rear edge formed a water barrier wall to the height of the second body portion of the second overflow block In addition, the front edge portion is provided with an Adobe block assembly formed a drip space.

In another aspect, the present invention preferably has the first overflow block forming a first horizontal hole in the transverse direction on the first body portion, and the second overflow block also has a second horizontal hole in the transverse direction on the second body portion, respectively. And the first horizontal hole of the first body part and the second horizontal hole of the second body part are aligned with each other, and are integrally connected by the penetrating horizontal bars so that the first overflow block and the second overflow block are in a lateral direction. Provided is an Adobe block assembly structure that is integrally connected to each other to build a stable assembly structure.

In order to achieve the above object, the present invention, in the construction method of the adobe block assembly structure that various fish and aquatic organisms are movable,

Breaking ground;

Filling rubble into the excavated ground, and installing a foundation concrete on the top;

On the foundation concrete, the plurality of first overflow blocks and the plurality of second overflow blocks are disposed to be inclined upwardly toward the rear side, wherein the plurality of first overflow blocks are connected to each other in a line by a first connecting part. The plurality of second overflow blocks each have a second body portion connected in series with each other by a second connecting bar, and the plurality of first overflow blocks and the plurality of second overflow blocks are sequentially adjacent to each other in a lateral direction. Arranging the plurality of columns; And

And constructing a filling concrete on the lower surfaces of the plurality of first overflow blocks and the plurality of second overflow blocks and fixing them on the foundation concrete, wherein the height of the first overflow block is greater than the height of the second overflow block. Upstream of the fish is made through the water flow on the plurality of second upstream blocks, and through the water flow on the first connecting bar of the first overflow block and the second connecting bar of the second overflow block. Provides a construction method of the adobe block assembly structure to be constructed so as to move left and right.

In addition, the present invention preferably is the step of arranging the first overflow blocks and the second overflow blocks are connected to the plurality of first overflow blocks integrally in the front-rear direction, the first connecting bar of the front side of the first flow block At the rear end, repeating the method of connecting the first fitting hole formed concave in the center of the front lower edge of the first body portion of the rear side first flow block to form a plurality of first overflow block rows having a desired length. A second fitting of the second overflow blocks integrally in the front-rear direction, the second fitting formed at the rear end of the second connecting bar of the front side second flow block, and concave at the center of the front lower edge of the second body portion of the rear second flow block. By repeating the connection method by inserting the ball to form a plurality of rows of the second overflow block of a desired length, and the plurality of first overflow block and the plurality of second overflow blocks are sequentially adjacent to each other in the transverse direction. Of heat provides a construction method of the block assembly structure even to place.

Preferably, the disposing the first overflow blocks and the second overflow blocks may have a height higher than that of the second body portion of the second overflow block. The width is the same as each other, the first connecting bar of the first overflow block is formed with the same size as the cross-section and the length of the second connection bar of the second overflow block and the first body portion of the first overflow block When the plurality of first overflow blocks and the second overflow blocks are arranged side by side in a row by being smaller than the cross-sectional size of the second body portion of the second overflow block, the first body portion of the first overflow block And the second body parts of the second overflow block are arranged adjacent to each other, and the first connection bar of the first overflow block and the second connection bars of the second overflow block are also arranged to be adjacent to each other while maintaining a predetermined distance from each other. Second body of overflow block The upstream movement of the fish is made through the above water flow, and the left and right movements of the fish are arranged through the water flow on the first connecting bar of the first overflow block and the second connecting bar of the second overflow block. It provides a construction method of the adobe block assembly structure.

Also preferably, the disposing of the first overflow blocks and the second overflow blocks may include a first overflow block having a first horizontal hole formed in a transverse direction on the first body portion, and the second body portion. The first horizontal hole of the first body portion and the second horizontal hole of the second body portion are aligned to coincide with each other by using a second overflow block having a second horizontal hole formed in the lateral direction in the first horizontal hole and the second horizontal hole. The first and second overflow blocks are integrally connected to each other in the horizontal direction by inserting horizontal bars to integrally insert the horizontal bars to penetrate the horizontal holes, thereby providing a construction method of the Adobe block assembly structure.

And the present invention preferably further comprises the step of constructing the wing wall, the water barrier wall and the drip space on the base concrete, the wing wall is the first body of the first overflow block in the front and rear direction on both left and right corners of the base concrete The block wall is formed at a sub-height, the wall is formed at the height of the second body portion of the second overflow block on the rear edge of the foundation concrete, the drip space is formed in the adobe block structure formed in the front edge of the foundation concrete Provide construction method of

According to the adobe block assembly according to the present invention, a plurality of first overflow blocks and a plurality of second overflow blocks are arranged in a plurality of rows by sequentially adjoining each other in a transverse direction, and through the water flow on the plurality of second overflow blocks. By configuring the fish to be upstream, the depth of the fish is easily about 700 mm in depth, and a lock is installed between each of the first and second overflow blocks to facilitate the up, down, left, and right movement of the fish.

In addition, according to the adobe block assembly structure according to the present invention, since the plurality of first overflow blocks and the plurality of second overflow blocks are inclined in a gradient of 1/20 upward toward the rear side to replace the existing drop hole of the fish Excellent natural purification effect by habitat and aeration.

In addition, it is possible to move up, down, left, and right of the fish by installing a submergence between each of the first and second overflow blocks, thereby ensuring high stability even at a high flow rate, and 'flowing fish' that moves up and down rivers and seas. Not only are phosphorus, eel, salmon, flatfish and pyramids, colopods and mountain trouts that travel up and down the rivers, but they are also suitable for the movement of fishes and various kinds of fry that are not able to use the fish due to their great strength and leap. The effect can be obtained.

According to the construction method of the adobe block assembly structure according to the present invention, a plurality of first overflow blocks and a plurality of second overflow blocks are formed in advance as concrete, transported to a work site, and then arranged on a foundation concrete. It is made of simple construction method to fix through filled concrete, which can greatly reduce the cost of excessive fish construction, easy maintenance after construction, and can obtain excellent effect to prevent the factors such as insolvency caused by concrete casting in advance. Will be.

1 is an external perspective view illustrating a first overflow block provided in an Adobe block assembly structure according to the present invention.
FIG. 2A is a plan view of the first overflow block shown in FIG. 1. FIG.
FIG. 2B is a front view of the first overflow block shown in FIG. 1.
FIG. 2C is a side view of the first overflow block shown in FIG. 1. FIG.
3 is an external perspective view illustrating a second overflow block provided in the Adobe block assembly structure according to the present invention.
4A is a plan view of the second overflow block shown in FIG. 3.
4B is a front view of the second overflow block shown in FIG. 3.
4C is a side view of the second overflow block shown in FIG. 3.
5 is a plan view showing an adobe block assembly according to the present invention.
6A illustrates first cross-flow blocks aligned with each other in an Adobe block assembly according to the present invention. FIG.
6B is a side cross-sectional view taken along line BB ′ of FIG. 5, illustrating second overflow blocks aligned with each other in an Adobe block assembly according to the present disclosure.
FIG. 7 illustrates first and second overflow blocks aligned with each other in an Adobe block assembly according to the present invention, and is a front view along the line CC ′ of FIG. 5.
8A to 8E are explanatory views showing the construction method of the adobe block assembly structure according to the present invention step by step.
FIG. 9 is an explanatory diagram illustrating a process of arranging first and second overflow blocks in the construction method of an Adobe block assembly structure according to the present invention.
10 is an explanatory diagram illustrating a state in which water flow is blocked through the first overflow block in the adobe block assembly according to the present invention and water flow is allowed through the second overflow block.
11 illustrates a method of constructing an adobe block assembly according to a modified embodiment of the present invention. The first horizontal hole of the first overflow block and the second horizontal hole of the second overflow block are arranged and integrated through a horizontal bar. It is explanatory drawing which shows the process of connecting to a.

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

The adobe block assembly structure 100 according to the present invention includes a plurality of first overflow blocks 110 shown in FIGS. 1, 2A, 2B, and 2C, and FIGS. 3, 4A, 4B, and 4C. As shown in FIG. 5, the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 are formed through a combined construction of the plurality of second overflow blocks 210 shown in FIG. 5. They are arranged in a row in a row adjacent to each other in the transverse direction.

First, the plurality of first overflow blocks 110 are formed in a structure in which the first body portion 122 is connected in series with each other by the first connection bar 132 in the front and rear sides, and is inclined upward toward the rear side. .

As shown in FIG. 1 and FIG. 2A, each of the plurality of first overflow blocks 110 has a first fitting hole 124 formed in the center of the lower front corner of the first body portion 122, The first connection bar 132 extending from the center of the lower edge to the rear side of the first body portion 122 is formed to protrude.

The cross-sectional size of the first body portion 122 is formed to be larger than the cross-sectional size of the first connection bar 132, the first body portion 122, as shown in Figure 2c, By forming the inclined surface 126, the lower edge is wide and the upper edge side is formed a narrow cross-section, both sides of the rear side of the reinforcing wall (142a, 142b) to form a structural reinforcement.

In addition, as shown in FIG. 2B, the first connection bar 132 has a wide trapezoidal cross section at a lower edge and a wider upper edge, and is formed in the first fitting hole 124 of the first body 122. It is of a consistent size.

As illustrated in FIGS. 5 and 6A, the plurality of first overflow blocks 110 may include the first body portion 122 of the first body part 122 having the first connecting bar 132 located at the front side. One insertion hole 124 is inserted in a line along the front and rear direction, and arranged to have an inclined gradient of 1/20 upward toward the rear side.

In addition, the plurality of second overflow blocks 210 are arranged side by side adjacent to the first overflow block 110, and the second body part 222 is moved forward and backward to each other by the second connection bar 232. It is connected in a line, and is arranged inclined upward toward the rear side.

As shown in FIG. 3 and FIG. 4A, the plurality of second overflow blocks 210 have a second fitting hole 224 formed in the center of the lower front corner of the second body portion 222, respectively. The second connection bar 232 extending from the center of the lower edge to the rear side of the second body portion 222 is protruded.

The cross-sectional size of the second body portion 222 is formed to be larger than the cross-sectional size of the second connection bar 232, the second body portion 222, as shown in Figure 4c, The inclined surface 226 is formed to form a cross section where the lower edge is wider and the upper edge is narrower.

In addition, both sides of the second fitting hole 224 of the second body portion 222, as shown in Figure 2b, the fish passing hole 242a to pass through the front, rear lower edge of the second body portion 222 242b, and each of the second connection bars 232 has a lower edge having a wider upper edge and a narrower trapezoidal cross section, and the second fitting hole 224 of the second body portion 222 is coincident with each other. It is made up of size.

Such fish passing holes 242a and 242b are preferable because fishes of small size, such as pyramids, and fry can go upstream through them.

5 and 6b, the plurality of second overflow blocks 210 of the second body part 222 having the second connecting bar 232 located at the front side are located at the rear side. Inserted into the second fitting hole 224 is connected in a line along the front and rear direction, and arranged to have an inclined gradient of 1/20 upward toward the rear side.

As shown in FIG. 5, when the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 are arranged in a row, as shown in FIG. 5, the first overflow block 110 The height h1 is made higher than the height h2 of the second overflow block 210 so that the upstream movement of the fish is performed through the water flow on the plurality of second overflow blocks 210.

That is, as shown in FIG. 7, the first body portion 122 of each of the first overflow blocks 110 may have a height () of each second body portion 222 of the second overflow block 210. It has a height (h1) higher than h2) to maintain the height difference, the water flows over the second body portion 222 of the second overflow block 210, the water flow of the first overflow block 110 The first body portion 122 blocks the water flow.

In addition, the adobe block assembly structure 100 according to the present invention, as shown in FIG. 5, the first body portion 122 of the first overflow block 110 is the second body portion (2) of the second overflow block 210 ( Compared to 222, the widths W are equal to each other, and the first connection bar 132 of the first overflow block 110 is connected to the second connection bar 232 of the second overflow block 210. The cross section and the length are formed in the same size.

In addition, the first connection bar 132 of the first overflow block 110 and the second connection bars 232 of the second overflow block 210 may have a first body portion 122 of the first overflow block 110. ) And a size smaller than the cross-sectional size of the second body portion 222 of the second overflow block 210, as shown in FIGS. 6A and 6B, the first of the first overflow block 110. On the upper side of the connection bar 132 and the second connection bar 232 of the second upstream block 210, a space S is formed to allow water flow in the left and right directions.

As described above, the adobe block assembly structure 100 according to the present invention is arranged when the plurality of first overflow blocks 110 and the second overflow blocks 210 are arranged side by side, such that the first overflow block 110 is formed. The second body portions 222 of the first body portion 122 and the second overflow block 210 are aligned adjacent to each other, and the first connecting bar 132 and the second overflow block of the first overflow block 110 are arranged. The second connecting bars 232 of 210 are also arranged adjacent to each other while maintaining a predetermined distance from each other.

Therefore, the upstream movement of the fish is made through the water flow on the second body portion 222 of the second overflow block 210, and the first connecting bar 132 and the first overflow block 110 of the Through the water flow through the space (S) on the second connecting bar 232 of the second overflow block 210 it is possible to move the fish left and right.

In addition, the adobe block assembly structure 100 according to the present invention is provided with the plurality of first overflow blocks 110 and the second overflow blocks 210 on the foundation concrete 300, such as the foundation concrete 300 As shown in FIG. 7, the trench G is formed through the ground G, the rubble 320 is filled up, and the top of the first and second wing walls 330a and 330b are respectively formed on the left and right edges thereof. It is formed to the height of the first body portion 122 of the overflow block 110, the water barrier wall 340 to the height of the second body portion 222 of the second overflow block 210 in Figure 6a and 6b in the rear corner. Is formed, the front edge portion is formed with a drip space (350).

In addition, the plurality of first overflow blocks 110 and the second overflow blocks 210 are fixed by the filling concrete 360 on the foundation concrete 300 and have a gradient of 1/20 in the front-rear direction.

Meanwhile, the adobe block assembly 100 according to the present invention is a modified embodiment thereof, as shown in FIG. 11, wherein the first overflow block 110 is transversely formed on the first body portion 122, respectively. The first horizontal hole 122a may be formed, and the second overflow block 210 may also have a structure in which the second horizontal hole 222a is formed on the second body portion 222 in the lateral direction.

The adobe block assembly structure 100 according to the modified embodiment of the present invention has a first horizontal hole 122a of the first body portion 122 and a second horizontal hole 222a of the second body portion 222. ) Are aligned with each other, and then horizontal bars 228 are inserted and connected integrally with each other to penetrate them.

The horizontal bar 228 may be formed of, for example, a steel bar member such as reinforcing bars or pipes, and may include a first horizontal hole 122a of the first body part 122 and a second body part 222. It is fitted into the second horizontal holes 222a to be fixed.

As such, when the first overflow block 110 and the second overflow block 210 are integrally connected to each other in the lateral direction by the horizontal bar 228, a more stable assembly structure can be constructed.

For example, when excessive water flows due to a flood or the like, since the first overflow block 110 and the second overflow block 210 adjacent to each other are integrally connected to each other laterally by the horizontal bar 228, Even when hydraulic pressure is applied, the assembly structure is not deformed.

In addition, since the first overflow block 110 and the second overflow block 210 disposed on the front and rear sides of the horizontal bar 228 may be bent at an angle in the horizontal bar 228 portion, It can be in close contact with the bottom surface which is not flat, and its assembling structure is firm, resulting in excellent workability.

Hereinafter, the construction method 400 of the Adobe block assembly structure according to the present invention will be described in more detail.

In the construction method 400 of the adobe block assembly structure according to the present invention, as shown in FIG. 8A, a step P1 is performed in which the ground G to be installed is first disposed 310.

The operation of the trench 310 of the ground G is preferably performed using equipment such as a normal fork lane, and forms an inclined gradient of 1/20 from the front side to the rear side.

Next, as shown in FIG. 8B, a step (P2) of filling the rubble 320 into the ground G of the trench 310 and placing the foundation concrete 300 on the upper portion thereof is performed.

After the foundation concrete pouring operation, after curing is performed, as shown in FIG. 8C, the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 are reared on the foundation concrete 300. Step (P3) is arranged to be inclined upward toward the side.

As described above, in the disposing of the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210, as illustrated in FIG. 9, the plurality of first overflow blocks 110 may include: Each of the first body part 122 is connected in series with each other by the first connection bar 132, and each of the plurality of second overflow blocks 210 has a second body part 222 having a second connection bar ( The plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 are sequentially adjacent to each other in the transverse direction and arranged in a plurality of rows as illustrated in FIG. 5.

During the arrangement step P3, the plurality of first overflow blocks 110 are disposed at the rear end of the first connection bar 132 of the front first overflow block 110 and the rear first flow block 110. The first body portion 122 of the front of the bottom corners of the concave first insertion hole 124 is formed by connecting by repeating the manner of forming a plurality of rows of the first overflow block 110 of the desired length.

In addition, the plurality of second overflow blocks 210 may be disposed at the rear end of the second connection bar 232 of the front side second flow block 210 and at the front of the second body part 222 of the rear side second flow block 210. Repeatedly connecting the second fitting hole 224 formed concave in the center of the lower corner to form a plurality of rows of the second overflow block 210 of a desired length, and the plurality of first overflow block 110 and The plurality of second overflow blocks 210 are arranged in a plurality of rows by sequentially adjoining each other in the transverse direction.

Meanwhile, when the first overflow block 110 and the second overflow block 210 are sequentially arranged as shown in FIG. 5, the first connection bar 132 of the first overflow block 110 may be formed. The cross-section and the length of the second connecting bar 232 of the second overflow block 210 are formed to have the same size, so that the first body part 122 and the second overflow block of the first overflow block 110 ( The second body parts 222 of the 210 are aligned adjacent to each other, and the first connection bar 132 of the first overflow block 110 and the second connection bars 232 of the second overflow block 210 are also arranged. They are arranged adjacent to each other while maintaining a constant distance from each other.

In addition, as shown in FIG. 7, the height h1 of the first body portion 122 of the first overflow block 110 is the height h2 of the second body portion 222 of the second overflow block 210. It is higher than, and the widths W are the same.

On the other hand, the construction method 400 of the adobe block assembly according to the present invention, as shown in Figure 11, it is possible to construct the first wall block 110 and the second wall block 210 of the modified embodiment.

In this case, the step P3 of disposing the first overflow blocks 110 and the second overflow blocks 210 may include forming the first horizontal hole 122a in the lateral direction on the first body portion 122. The first body part (using the first overflow block 110 and the second overflow block 210 having a second horizontal hole 222a formed in the horizontal direction on the second body portion 222) The first horizontal hole 122a of the 110 and the second horizontal hole 222a of the second body portion 210 are aligned with each other.

In addition, the first overflow block 110 and the second overflow block 210 may be integrally connected by inserting the horizontal bar 228 to penetrate the first horizontal hole 122a and the second horizontal hole 222a. Integral to each other in the transverse direction to build a stable assembly structure.

Next, as shown in FIG. 8D, the filling concrete 360 is constructed on the lower surfaces of the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 on the base concrete 300. The fixing step (P4) is made.

After fixing the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 in this manner, as illustrated in FIG. 8E, wing walls 330a and 330b may be formed on the base concrete 300. And constructing the water barrier wall 340 and the drip tray space 350 (P5).

The wing walls 330a and 330b installed as described above are formed at the height h1 of the first body part 122 of the first overflow block 110 in the front-rear direction on both left and right edges of the foundation concrete 300. The wall 340 is formed at the height h2 of the second body portion 222 of the second overflow block 210 on the rear edge of the foundation concrete 300, and the drip space 350 is the foundation concrete 300. It is formed concave in the front edge of the.

The adobe block assembly structure 100 according to the present invention installed by the construction method 400 as described above, as shown in FIG. 10, the first body portion 122 of the first overflow block 110 blocks water flow. And, the upstream movement of the fish is made through the water flow on the second body portion 222 of the second overflow block 210.

In addition, water flows in the left and right directions through a space S formed on the first connection bar 132 of the first overflow block 110 and the second connection bar 232 of the second overflow block 210. It is made, through which the left and right movement of the fish is possible.

As described above, the adobe block assembly structure 100 according to the present invention arranges the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 in a row by sequentially adjoining each other in a transverse direction and a plurality of rows. The upstream movement of the fish is made through the water flow on the second upstream block 210.

Therefore, the adobe block assembly structure 100 according to the present invention has a water depth of about 700 mm and is easy to burn the fish, and installs the air gap between each of the first overflow block 110 and the second overflow block 210. The fish can be easily moved up, down, left and right.

In addition, the adobe block assembly structure 100 according to the present invention is disposed because the plurality of first overflow blocks 110 and the plurality of second overflow blocks 210 are inclined with a gradient of 1/20 upward toward the rear side. It replaces the drop hole of the fish and has excellent natural purification effect due to fish habitat and aeration.

In addition, in the case of constructing the adobe block assembly structure 100 according to the modified embodiment of the present invention, even when a large hydraulic pressure is applied, the assembly structure of the first overflow block 110 and the second overflow block 210 is not deformed. It can also be in close contact with the uneven surface, the assembly workability is excellent.

In addition, the adobe block assembly structure 100 according to the present invention is installed between each of the first overflow block 110 and the second overflow block 210, the air flow up and down easy to move up and down and left and right It is able to secure high stability, and it is not only the 'fish', 'eel', 'eel', 'eel', 'fish' and 'fish', which is the 'fish' and 'fish,' Because of its lack of swimming and leap, it is also very suitable for the movement of species and various kinds of fish that cannot use the fish.

And the construction method (400) of the adobe block assembly structure according to the present invention is manufactured by forming a plurality of first overflow block 110 and a plurality of second overflow block 210 as concrete in advance, and transported to a work site Next, arranged on the foundation concrete 300, made of a simple construction method to be fixed through the filling concrete (360).

Therefore, it is very excellent because it can greatly reduce the construction cost of excessive fish, it is easy to maintain after construction, and prevent the insolation due to the concrete pouring in the field in advance.

Although the present invention has been described in detail with reference to specific embodiments thereof with reference to the accompanying drawings, the present invention is not limited to such specific structures. Those skilled in the art may variously modify or change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Nevertheless, all such simple design modifications or variations are intended to be clearly understood as falling within the scope of the present invention.

100: adobe block assembly structure 110: first overflow block
122: first body portion 122a: first horizontal hole
124: first fitting hole 126: inclined surface
132: first connecting bar 142a, 142b: reinforcing wall
210: second overflow block 222: second body portion
222a: second horizontal hole 224: second fitting hole
226: slope 228: horizontal bar
232: second connecting bar 242a, 242b: fish passing hole
300: foundation concrete 310: trench
320: rubble 330a, 330b: wing wall
340: water barrier 350: drip space
400: Construction method of the adobe block assembly structure G: Ground
h1: height of the first overflow block h2: height of the second overflow block
P1: Breaking Soil
P2: filling rubble in the ground and placing the foundation concrete
P3: disposing a plurality of first overflow blocks and a plurality of second overflow blocks
P4: Constructing Filled Concrete and Fixing it on the Foundation Concrete
P5: Constructing wing walls, barrier walls, and drip spaces
S: Space W: Width

Claims (14)

In the adobe block assembly that various kinds of fish and aquatic creatures can move,
A plurality of first overflow blocks which are connected in series with each other by a first connection bar in a front-rear direction and are inclined upwardly toward a rear side; And
And a plurality of second overflow blocks arranged side by side adjacent to the first overflow block and connected to each other by a second connecting bar in a front and rear direction, and arranged to be inclined upward toward a rear side.
The plurality of first overflow blocks and the plurality of second overflow blocks are sequentially arranged in a row in a lateral direction, and the height of the first overflow block is higher than the height of the second overflow block so that the plurality of second overflow blocks The upstream movement of the fish is made through the water flow on the block, and the left and right movements of the fish are made through the water flow on the first connecting bar of the first overflow block and the second connecting bar of the second overflow block. Composed,
The first body portion of the first overflow block has a height higher than that of the second body portion of the second overflow block, the width thereof is the same, and the first connecting bar of the first overflow block is the second overflow block The second connecting bar is formed in the same size as the cross-section and the length of the first body portion of the first overflow block and the second body portion of the second body block is formed in a smaller size than the cross-sectional size When the first overflow blocks and the second overflow blocks are arranged side by side, the first body portion of the first overflow block and the second body portions of the second overflow block are aligned adjacent to each other, The first connecting bar and the second connecting bars of the second overflow block are also arranged to be adjacent to each other while maintaining a predetermined interval, and the upstream movement of the fish through the water flow on the second body portion of the second overflow block, First connecting bar of the first overflow block A second overflow block of the second connection bar left and right movement of the fish through the water flow above and configured to occur,
Each of the plurality of first overflow blocks has a first fitting hole formed at the center of the front lower edge of the first body portion, and a first connection bar extending from the center of the lower edge to the rear side is formed at the rear of the first body portion. The cross-sectional size of the first body portion is formed to be larger than the cross-sectional size of the first connecting bar, and the first connecting bar positioned at the front side is inserted into the first fitting hole of the first body portion located at the rear side, thereby adjusting the front and rear direction. Adobe block assembly, characterized in that connected in line. delete delete The method of claim 1, wherein the first body portion is formed in the inclined surface of the front surface of the lower edge is wide and the upper edge side to form a narrow cross-section, both side edges of the rear side each form a reinforcing wall, the first connecting bar is Each of the lower edges is wide and the upper edge side is formed of a trapezoidal cross section, the adobe block assembly, characterized in that the first fitting hole of the first body portion is made of a matching size. According to claim 1, wherein the plurality of second overflow blocks each of the second body portion has a height lower than the height of the first body portion of the first overflow block, the second fitting hole in the center of the lower front corner of the second body portion And a second connection bar extending from the center of the lower edge to the rear side of the rear surface of the second body portion and protruding from each other, and the cross-sectional size of the second body portion is larger than that of the second connection bar. Adobe block assembly, characterized in that the second connecting bar located in the front side is inserted into the second fitting hole of the second body portion located in the rear side is connected in a line along the front and rear direction. According to claim 5, The second body portion has a front surface is formed in the inclined surface, the lower edge is wide and the upper edge side to form a narrow cross-section, the second fitting hole on both sides of the front and rear of the second body portion Each through-hole is formed to pass through the lower edge, the second connecting bar has a lower edge is wider and each of the upper edge side has a narrow trapezoidal cross-section, the second fitting hole of the second body portion is characterized in that the size Adobe block assembly structure. The method according to claim 1, wherein the plurality of first overflow blocks and the plurality of second overflow blocks are formed on a foundation concrete surface which is formed on top of the ground by digging up the soil, filling the rubble, and filling the foundation concrete. The adobe block assembly structure, which is fixed by concrete and constructed to have a slope gradient of 1/20 in the front-rear direction. According to claim 6, The base concrete is formed on the left and right edges of the wing wall to the height of the first body portion of the first overflow block, respectively, the rear edge to form a water barrier wall to the height of the second body portion of the second overflow block Adobe block assembly, characterized in that the front edge portion formed a drip space. 9. The method of claim 1, wherein the first overflow blocks each form a first horizontal hole in a transverse direction on the first body portion, and each of the second overflow blocks also includes a second one. A second horizontal hole is formed on the body part in a lateral direction, and the first horizontal hole of the first body part and the second horizontal hole of the second body part are aligned with each other, and are integrally connected by the penetrating horizontal bars. The overflow block and the second overflow block is integrally connected to each other in the transverse direction to build a stable assembly structure, adobe block assembly. In the construction method of the adobe block assembly structure that various fish and aquatic creatures can move,
Breaking ground;
Filling rubble into the excavated ground, and installing a foundation concrete on the top;
On the foundation concrete, the plurality of first overflow blocks and the plurality of second overflow blocks are disposed to be inclined upwardly toward the rear side, wherein the plurality of first overflow blocks are connected to each other in a line by a first connecting part. The plurality of second overflow blocks each have a second body portion connected in series with each other by a second connecting bar, and the plurality of first overflow blocks and the plurality of second overflow blocks are sequentially adjacent to each other in a lateral direction. Arranging the plurality of columns; And
And constructing a filling concrete on the lower surfaces of the plurality of first overflow blocks and the plurality of second overflow blocks and fixing them on the foundation concrete, wherein the height of the first overflow block is greater than the height of the second overflow block. Upstream of the fish is made through the water flow on the plurality of second upstream blocks, and through the water flow on the first connecting bar of the first overflow block and the second connecting bar of the second overflow block. Construction to move left and right of,
The disposing of the first overflow blocks and the second overflow blocks may be integrally connected to the plurality of first overflow blocks in the front-rear direction, and at the rear end of the first connection bar of the front first flow block, and the rear first. Repeatedly connecting the first fitting hole formed in the center of the lower front edge of the first body portion of the overflow block to form a plurality of rows of the first overflow block of a desired length, and the front and rear of the plurality of second overflow blocks Direction, but connecting the second fitting bar formed by concave in the center of the lower front corner of the second body portion of the rear second side flow block, the second connecting bar rear side of the second side flow block. It is repeated to form a plurality of second overflow block rows of a desired length, and the plurality of first overflow blocks and the plurality of second overflow blocks are arranged in a plurality of rows by sequentially adjacent to each other in the transverse direction. Construction method of the block assembly of the structure even. delete The method of claim 10, wherein the disposing of the first overflow blocks and the second overflow blocks has a height higher than that of the second body portion of the second overflow block. The width is the same as each other, the first connecting bar of the first overflow block is formed with the same cross-section and length with respect to the second connection bar of the second overflow block, the first body portion and the first When the plurality of first overflow blocks and the second overflow blocks are arranged side by side in a row by being formed in a size smaller than the cross-sectional size of the second body portion of the second overflow block, the first body portion of the first overflow block and The second body parts of the second overflow block are aligned adjacent to each other, and the first connection bar of the first overflow block and the second connection bars of the second overflow block are also aligned to be adjacent to each other while maintaining a predetermined distance from each other. Water flow over the second body of the block The upstream movement of the fish is made through, and the horizontal movement of the fish through the water flow on the first connecting bar and the second connecting bar of the second overflow block, characterized in that arranged to be made Construction method of adobe block assembly structure. The method of claim 10 or 12, wherein the disposing of the first overflow blocks and the second overflow blocks comprises: a first overflow block forming a first horizontal hole in a transverse direction on the first body portion; 2 the first horizontal hole of the first body portion and the second horizontal hole of the second body portion are aligned to coincide with each other by using a second overflow block having a second horizontal hole formed transversely on the body portion; The first and second overflow blocks are integrally connected to each other in the transverse direction to form a stable assembly structure by inserting and connecting the horizontal bars to penetrate the ball and the second horizontal holes. Construction method. 11. The method of claim 10, further comprising the step of constructing the wing wall, the water barrier wall and the drip space on the base concrete, the wing wall is the first body portion of the first overflow block in the front and rear directions on both left and right corners of the base concrete The height of the water barrier wall is formed at the height of the second body portion of the second overflow block on the rear edge of the foundation concrete, the drip tray space is characterized in that it is formed concave in the front edge of the foundation concrete Construction method of block assembly structure.

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