KR100737109B1 - Interlinkage erosion shield system of block which has space and the mobile passage of fish - Google Patents

Abstract

A fishway block having a fishway space and a fish moving passage with a corrosion-resistant device for a linkage is provided to prevent the disarrangement and separation of fishway blocks and to prevent water pollution by preventing a linkage of a fishway block from getting rusty by river water or seawater. The invention relates to a fishway block(1) including fish moving holes(3) penetrated in a perpendicular direction to branches(2) spread in four directions to have a cross shape and a linkage(4) of a deformed bar(4a) for connecting with adjacent fishway blocks buried under the end of each branch composed of an upper oblique plane(8a) and a lower oblique plane(8b), wherein the linkage is formed by installing a stainless steel pipe(5) covering the deformed bar on a part exposed to the concrete of the revetment block and fastened with a binder and bending the stainless steel pipe and the deformed bar simultaneously. In addition, a corrugated pipe is used as the stainless steel pipe to have excellent adhesive strength and to disperse cracks minutely and attached with a moisture cutoff sealing(11) made of silicon or rubber on the outer circumferential surface to prevent the permeation of seawater or river water through a gap between the concrete and the outer circumferential surface of the stainless steel pipe, thereby to prevent the deformed bar from getting rusty.

Description

Interlinkage erosion shield system of block which has space and the mobile passage of fish}

1 is a perspective view and a partially enlarged side cross-sectional view of the Associate blocks to which the present invention is applied.

Figure 2 is a partial cutaway side cross-sectional view of the Associate block to which another embodiment of the present invention is applied.

Figure 3 is a perspective view showing a state in which the construction is filled with stones after interconnecting the eoeo blocks according to the present invention using the binding sphere.

4 is a perspective view and a partially enlarged side cross-sectional view of a conventional associate block.

Explanation of symbols on the main parts of the drawings

1: Associate Block 2: Eggplant

3: fish moving ball 4: hook

4a: deformed steel bar 5: stainless steel pipe

6, 6a: Associate space 7: The gap

8a: upper comb 8b: lower comb

9: binding sphere 10: coarse stone

11: Sealing for blocking moisture inflow

The present invention relates to an associative block having a linkage corrosion preventing device and a moving passage of a fish family, and more specifically, to constructing a concrete block useful for constructing a scour prevention hole and a riverbed stabilization at a local scour point. Prior to bending the linkage of the linkage block, which is suitable for securing a space, providing a safe movement path for the fish to move safely and comfortably, and laying a spawn and a safe habitat for the habitat, the linkage of the linkage block Install and bend stainless steel pipes (tubular or corrugated pipes) to a part embedded into the concrete, including the whole exposed to the outside of the concrete, and bend the ends of the stainless steel pipes embedded into the concrete with silicon or rubber material. Through the installation of additional moisture ingress sealing Even though the link between the block and the linkage of the erection block, which is installed in the form of being immersed in the river or river water while maintaining sufficient bonding strength between the ox block and the link ring, is prevented from being rusted and corroded by the river or river water even after a long time Of course, the invention was invented to prevent water pollution due to rust of rebar.

In general, rivers and rivers rapidly reduce the inflow of soil due to the construction of dams in the upper and upper streams, complete facilities, and the creation of forest lands in the mountains, and the rapid destruction of stream ecosystems due to the collection of aggregates and the maintenance of rivers. As a result, the habitats of fish become worse and worse, even extinct.

Large and small stones scattered over the rivers provide an excellent sanctuary for the inhabitants of the rivers, making them an essential river component that is well worth preserving.

However, large and small stones in rivers are collected and used according to the construction of levees and the construction of lake gabions, and the removal of these stones leads to the deterioration of the habitat for fish, if not intentional.

In addition, local scours inevitably occur in and around river structures such as bridge underwater beams and freefalls, and the fact that they are constructed from concrete or concrete blocks does not take into account the good habitat environment related to the river ecosystem and fish survival. Can be.

With this in mind, there is a proposed associate block. That is, Patent Nos. 224526 and 253849 are just such classes of associate blocks.

The eoso blocks provided in these prior arts are focused on the scour prevention function, and only the safety of the structure of the local scour point is considered, and the spawning and habitat environment related to the survival of the fish from the ecological level of the river are considered. It is not put on.

In the case of the Han River alone, during the spawning season, a large number of crucian carp and carp flooded into the Jungnangcheon, the most advanced stage in the Han River, causing a temporary shortage of dissolved oxygen. As we can see from the case of a disturbance, such as the use of helicopters to carry out an emergency rescue operation, the river vegetation is essential for fish.

Even in a well-developed stream, the watersides of both sides are covered with concrete, and many of these areas are blocked, and contaminated sediments in the river are inadequate for plants to grow, and thus lack of fishery space. It is an underwater environment.

Therefore, in recent years, as a solution for solving the above problems, an "association block having a fishery space and a moving passage for fishes" has been developed and presented as a Korean Patent No. 429846, which is shown in FIG. 4 in four directions. The fish moving hole 3 penetrating in the orthogonal direction with respect to the direction which extended each perforated branch 2 is drilled, and the edge part adjoins to the end of the said branch 2 processed by the upper comb surface 8a and the lower comb surface 8b. The connecting ring (4) of the deformed reinforcing bar used for the connection with the associated fishery block (1) is buried, and the fishery space (6) formed between the branches (2) is attached to vegetation sacs for waterside plants such as submerged plants and purified plants. It is configured to form a few seconds.

Such associative blocks (1) are arranged in a row in all directions, and the linkages (4) of the branches (2) which are opposed to each other in the adjacent associate blocks (1) are tied together by a binding wire such as a wire or 'U' bolt, lattice type It will be used by construction.

Therefore, when constructing the scour prevention hole at the local scour point and the concrete block for the construction of the riverbed stabilization, it is easy to secure the locator space, and it is also provided with the moving passage for the fish to move safely and comfortably. In addition, it is possible to create an underwater aquatic area, which is a great help, as well as to create a suitable underwater environment for fish spawning in a fish block construction platform with a fishery space and a fish passage.

On the contrary, the connecting ring of the Associate block having such a configuration simply has a good adhesion strength (large adhesion stress), and a large bond strength with concrete can reduce the anchoring length and the joint length. It has good adhesion, saves the amount of reinforcing bar when compared to circular reinforcing bars, and in general, it does not require hooks, and it is not only formed of deformed reinforcing bars with the advantage of finely dispersing cracks compared to circular reinforcing bars. However, the connection part of the reinforcing bar is exposed to the outside.

By the way, by connecting the constituent blocks of the above configuration in the form of a mat on the plane is applied when constructing a concrete block useful for the construction of scour prevention hole and river bed stabilization of local scour point, always have the form exposed to the outside as described above If the reinforcing bar is in constant contact with rivers or rivers, and after a long period of time, the reinforcing bar is continuously corroded by rivers or rivers, resulting in poor connection or cutting of the joints. Due to this, not only the association blocks may be separated from each other and thus may not maintain the shape of the blocks, but also may lead to environmental pollution such as water pollution in which rivers and rivers are contaminated due to rust of reinforcing bars.

The present invention has been made in order to solve such a conventional problem, the safety of securing the fishery space and the safety of the fish can move safely and securely when constructing a concrete block useful for construction of scour prevention hole and river bed stabilization of local scour When bending the connecting ring of the associate block that is installed to provide the moving passage and scattering and to create a safe habitat for the secure space, including the entire connection portion exposed to the outside of the branch end of the associate block To install a stainless steel pipe having a tubular or corrugated pipe shape to a part embedded into the concrete, and then bend it. On the outer peripheral surface of the end portion of the stainless steel pipe embedded in the concrete, a seal for preventing moisture inflow made of silicon or rubber Connect with Associates by installing Even though the linkage of the associate block, which is installed in the form of being immersed in river or river water while maintaining the bonding force between the ribs and the strength of the associate block sufficiently, can be prevented from being rusted and corroded by the river or river water, Corrosion prevention device that prevents water blocks from being scattered from each other due to poor connection status or cutting of connection parts due to corrosion, and also prevents water pollution due to rust generated from deformed steel bars. It is an object of the present invention to provide a locating block having a locating space and a moving passage of a fish family.

In order to achieve the above object, the present invention is a fish movement hole penetrating in the orthogonal direction with respect to the direction extending for each branch formed in four directions, the end of the branch is connected to the reinforcing bar used for connection with the adjacent fishery block In the Associate block, the ring is embedded

When the connecting ring is embedded in the concrete of the associate block, bent together with the deformed reinforcing bar by installing a stainless steel pipe to cover the deformed reinforcement to a part which is embedded into the concrete, including the entire connecting portion exposed to the outside of the associate block. It is characterized in that.

At this time, the stainless steel pipe is characterized in that it comprises a common tube and corrugated pipe.

In addition, a part of the length of the stainless steel pipe embedded in the concrete of the eoso block is characterized in that at least 8 cm or more within 10 cm from the concrete surface.

In addition, on the outer peripheral surface of the end portion of the stainless steel pipe embedded in the concrete, it is characterized in that the additional moisture inlet seals made of silicone or rubber.

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

Figure 1 shows a perspective view and a partially enlarged side cross-sectional view of the eoeo blocks to which one embodiment of the present invention is applied, Figure 2 shows a partial cross-sectional side view of the eoeo block to which another embodiment of the present invention is applied, Figure 3 Figure shows a perspective view showing a state in which the construction is filled with stones after interconnecting the eoso blocks using the binding sphere.

According to the present invention, the fish movement hole 3 penetrating in the orthogonal direction with respect to the direction extended for each branch 2 formed in four directions is punctured, and the end of the branch 2 has the adjacent fishery block 1 and In the erection block (1) in which the connecting ring (4) of the reinforcing bar used to connect the

When the connecting ring 4 is embedded in the concrete of the associate block 1, the stainless steel to surround the deformed reinforcing bars 4a up to a part embedded in the concrete, including the entire connecting portion exposed to the outside of the associate block. The pipe 5 is installed and bent together with the deformed reinforcing bar 4a.

At this time, the stainless steel pipe (5) is characterized in that it comprises a general tube and corrugated pipe.

In addition, the length (l) of the stainless steel pipe 5 embedded in the concrete of the Associate Block 1 is characterized in that at least 8 cm or more within 10 cm from the concrete surface.

In addition, on the outer peripheral surface of the end portion of the stainless steel pipe 5 embedded in the concrete, it is characterized in that the additional moisture inlet seal 11 made of silicon or rubber.

Referring to the effect of the present invention the soso block having such a configuration as follows.

First, as shown in FIG. 1, the present invention drills through the fish moving hole 3 in a direction perpendicular to the direction in which the branches 2 are formed in four directions so as to have a "+" shape on a plane. At the end of the branch (2) treated by the upper comb face (8a) and the lower comb surface (8b), a known link block (e.g. In 1), when bending the deformed reinforcing bar having a predetermined diameter to form a predetermined shape to form the connecting ring (4) is exposed to the outside of the concrete of the eoso block (1) stainless steel to the part to which the binding hole (9) is fastened After the steel pipe 5 is installed, the stainless steel pipe 5 is bent together with the deformed steel bars 4a as main technical components.

In other words, prior to forming the concrete formwork block 1 using a mold having a predetermined shape, the formwork is formed when the connecting ring 4 to be embedded in the concrete formwork block 1 is formed by using the release reinforcing bars 4a. The stainless steel pipe 5 is installed to surround the deformed reinforcing bar 4a up to a part of the block 1, which is exposed to the outside of the concrete, and includes a whole connection part to which the binding hole 9 is fastened, and is embedded into the concrete. After the stainless steel pipe (5) and the release reinforcing bars (4a) at the same time to form a connecting ring (4) itself.

In this case, the stainless steel pipe 5 may be a stainless steel pipe 5 having a smooth inner and outer tubular shape as shown in FIG. 1, or a stainless steel pipe 5 having a corrugated pipe shape as shown in FIG. 2. It may be.

However, in the former case, since the external shape is smooth, adhesion strength between the stainless steel pipe 5 partially embedded in the concrete and the concrete is not good, and there is a fear that the cracks may not be dispersed finely. As the outer circumferential surface is corrugated like a reinforcing bar like steel, it has good adhesive strength and has the advantage of finely dispersing cracks compared to the general tubular shape. Therefore, it is more preferable to use the corrugated stainless steel pipe 5 as the latter. Do.

On the other hand, the inner diameter of the stainless steel pipe (5) is preferably used to have a range of about 1-2 mm than the outer diameter of the deformed reinforcing bar, which is the connection portion exposed to the concrete outside of the Associate block 1 as described above Including a stainless steel pipe (5) to surround the deformed reinforcing bars (4a) to a portion to be embedded into the concrete, including bending the stainless steel pipe (5) and the deformed reinforcing bars (4a) at the same time (4) This is because, when forming itself, when the inner diameter of the stainless steel pipe 5 is very large, the stainless steel pipe 5 is bent in a crushed shape without maintaining a circular shape such as a reinforcing bar.

In other words, the gap created between the outer circumferential surface of the deformed reinforcement and the inner circumferential surface of the stainless steel pipe 5 should be 1-2 mm while being easily inserted so that it is not too tight when the stainless steel pipe 5 is fitted to the outside of the deformed rebar. When the stainless steel pipe 5 and the deformed reinforcing bar 4a are bent at the same time, so that the shape of the stainless steel pipe 5 is not greatly distorted (that is, in a relatively circular state), the deformed rebar It is desirable to bend smoothly with.

Of course, it is also advantageous to use the corrugated stainless steel pipe 5 as compared to the stainless steel pipe 5 in the tubular shape.

This is because in the case of the stainless steel pipe 5 having a tubular shape, when it is bent together with the reinforcing bar, the outer side must be forcibly tensioned, so the arc shape is broken and broken or widened, the inner side is forcibly folded, and the wrinkles are formed to form the whole. In the case of the stainless steel pipe (5) having a corrugated pipe shape while the cross section does not maintain a circular shape, the outer corrugated portion is unfolded and the inner corrugated portion is further folded when folded with the deformed reinforcing bar. This is because the cross-sectional shape of the stainless steel pipe 5 itself remains almost circular since it is smoothly bent.

Of course, if the radius of curvature is increased when bending the connecting portion in the state in which the stainless steel pipe 5 is inserted to the outside of the reinforcing bar, the cross section of the bent portion is kept circular regardless of the shape of the stainless steel pipe 5. Therefore, if necessary, when bending the connecting portion it is also preferable to form a larger radius of curvature.

On the other hand, the stainless steel pipe (5) is relatively expensive compared to the deformed reinforcing bar, and compared to the deformed reinforcing bar having a bar shape, the bending shape of the stainless steel pipe (5) is weak, so that the entire connecting ring (4) is stainless Rather than forming into a steel pipe 5, as described above, the stainless steel pipe is wrapped around the deformed reinforcing bar 4a up to a part embedded into the concrete, including a connection portion exposed to the outside of the concrete of the associate block 1. The installation of (5) becomes more advantageous in terms of 휭 strength, including production costs.

At this time, when the stainless steel pipe (5) is installed only on the connection portion exposed to the concrete outside of the eoso block (1), the steel between the gap formed between the outer peripheral surface of the reinforcing bar (4a) and the inner peripheral surface of the stainless steel pipe (5) Since the reinforcing steel can be corroded by the inflow of rivers, the stainless steel pipe 5 is installed to cover the portion of the concrete block embedded in the concrete including the connection portion exposed to the outside of the concrete block 1. In the above, some lengths (l) of the stainless steel pipes 5 embedded in the concrete of the eoso block 1 were set to a length that can be inserted at least 8 cm to 10 cm from the concrete surface.

As described above, since the length of the stainless steel pipe 5 inserted into the concrete in the state surrounding the outer circumferential surface of the deformed reinforcing bar has a sufficient length of at least 8 cm or more and 10 cm or less, as described above, the Associate block 1 may Even if it has a state of being locked in rivers, etc., the contact between the outer circumferential surface of the stainless steel pipe 5 and the concrete does not penetrate to the side of the deformed reinforcing bar, so that part of the deformed bar embedded in the concrete can be prevented from being corroded.

At this time, even if the stainless steel pipe (5) has a tubular shape, as described above, by lengthening the length of the stainless steel pipe (5) inserted into the concrete within at least 8 cm or more within 10 cm and their contact portion Through this, it is possible to prevent the river water or the river water from penetrating into the deformed rebar side. In particular, when the stainless steel pipe 5 has a corrugated pipe shape, the contact area between the stainless steel pipe 5 and the concrete It becomes wider than the tubular shape and can effectively prevent the river or river from seeping into the side of the deformed reinforcing bar through these contact portions.

On the other hand, the stainless steel pipe 5 itself has a very smooth outer circumferential surface than the deformed reinforcing bar 4a due to the characteristics of the material, so that the end of the stainless steel pipe 5 is about 8-10 cm inside the concrete as described above. Even though it is buried there is a gap between the contact portion between the concrete and the outer circumferential surface of the stainless steel pipe (5) due to the adhesive member there is a risk that the reinforcing steel is corroded by the sea water or river water soaked through this gap.

Therefore, in the present invention, the concrete and the stainless steel pipe may be installed on the outer peripheral surface of the end portion of the stainless steel pipe 5 embedded in the concrete, if necessary, by adding a seal 11 for preventing moisture inflow made of silicon or rubber. A gap is generated between the contact portions between the outer circumferential surfaces of (5) due to the adhesive member, so that the moisture inflow blocking seal 11 made of silicon or rubber blocks the seawater or the river water even if seeps through the gap. At the same time, it is possible to disperse the water soaked in the concrete around the moisture inflow blocking seal 9 through a gap that can be generated as a contact force member between the contact surface between the stainless steel pipe 5 and the concrete. Inflow of seawater or river water can prevent the deformed steel from rusting completely. have.

In the above, it was suggested that the moisture inflow blocking seal 11 was formed of silicone or rubber material, but in reality, the elastic force and the sealing force should be maintained without being continuously cured in the state of being embedded in the concrete for a long time. Rather than installing the rubber inlet blocking seal 11 formed of rubber material, even if the temperature change occurs severely for a long period of time, the hardening does not occur much and the moisture inlet blocking molded with silicone has the property of maintaining elasticity. It is preferable to use the sealing 11.

At this time, the moisture inlet blocking seal 11 made of silicon or rubber material is illustrated only one installation in the drawings, but is not limited to this, if necessary, install two or three at regular intervals Through double or triple gaps that may occur between the concrete and the outer circumferential surface of the stainless steel pipe (5) may be more completely prevented sea water or river water seeps into the side of the deformed rebar.

On the other hand, the method of forming in the desired place after forming the eoso block 1 having the above configuration in the form of a mat by using the binding sphere (9) is the same as in the prior art.

FIG. 3 is a perspective view showing the construction of the Associate Block 1 in a waterfront or a low water depth or a lower part, where each Associate Block 1 has its branches 2 in contact with each other. In the connecting spaces 4 arranged in a shape, and adjacent to or overlapping each other in an associative space 6 formed between the ends of the branches 2 which are in contact with each other, a binding device 9 such as a wire or a 'U' bolt is placed. Tighten and install the grid.

At this time, the four-sealing sealed fishery space 6a is formed by the fishery space 6 between the branches 2, and a vegetation bag is attached to the space 6a to form a myelin sheath and at the same time a wide gap exists. Filled with coarse stone (10) is used as a hiding place for plants or vegetation spaces, fry and small fish to grow plants or submerged plants, water purification plants.

And the connecting ring 4 is left at a predetermined gap 7 between the adjacent associate blocks 1 at least as long as the protruding length, and is drilled for each of the gaps 7 and the associate spaces 6, 6a and the branches 2. The fish moving hole 3 also serves as an excellent mobile passage for allowing river fish to hide freely in the fish block group while inhabiting them with peace of mind.

In this way, by attaching a vegetation sac, such as plants or water willows, to the planting space formed by constructing the fishery block 1 as described above, Since it can be used as a space to form an invitation or grow wild, the waterside greening of the rivers and the roots of the plants and exposed vegetation that grow there can provide excellent fish spawning and habitats.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

As described above, according to the present invention, when constructing a concrete block useful for constructing scour prevention holes and riverbed stabilization at local scour points, securing a fishery space and providing a safe moving passage and scattering of fish can be moved safely and When bending the connecting ring of the associate block is installed to be suitable for creating a safe habitat for the habitat, including the entire connection portion exposed to the outside of the branch end of the associate block is embedded into the concrete After installation, bend the stainless steel pipe having a tubular or corrugated pipe shape to a part, and bend it. If necessary, a seal for preventing moisture inflow made of silicone or rubber is additionally installed on the outer peripheral surface of the end of the stainless steel pipe embedded into the concrete. So that the link between the associate block and the link Even though the linkage of the associate block, which is installed in the form of being immersed in river or river water while maintaining the strength of the force and the associate block sufficiently, can be prevented from being rusted and corroded by the river or river water, Due to the poor connection state or cutting of the connection portion due to the separation of the eoeo blocks apart from each other, as well as to prevent water pollution due to rust generated from the deformed reinforcing bar is very useful invention.

Claims (5)

In the assodic block in which the fish movement hole is drilled in a direction orthogonal to the direction extending for each branch formed in four directions, and the end ring of the branch is embedded with a connection ring of a reinforcing bar used to connect to an adjacent oxal block. Bending together with the deformed reinforcement by installing a stainless steel pipe in the form of a general tube or a corrugated pipe to cover the deformed reinforcement to a part embedded into the concrete including the entire connection part of the connecting ring exposed to the outside of the eoso block. Let's say An associate block having a linkage corrosion preventing device and a moving passage of a fish family, characterized in that a sealing for preventing moisture inflow is installed on the outer peripheral surface of the end portion of the stainless steel pipe embedded in the concrete. delete The method according to claim 1, The length of the stainless steel pipe to be embedded in the concrete of the eoeo block is at least 8 cm to 10 cm from the concrete surface characterized in that the eoeo block having a linkage corrosion protection device and a passage of the fish family characterized in that the within. delete The method according to claim 1, The moisture inlet blocking seal is an associate block having a linkage space and a passage of passage of the fish family, characterized in that formed of silicon or rubber material.

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