KR20120005503U - Scour Protection Block - Google Patents

Abstract

The present invention discloses a scour prevention block.
The scour prevention block of the present invention is installed around the bridge piers or blowholes to prevent loss of the soil layer, so that the stone filling holes are formed to fill the sandstone from the upper side, and the outer surface is formed of concrete with a plurality of binding rings. In the scour prevention block comprising a body, the body is formed in an elliptical shape is formed of an oval shaped safing hole penetrating perpendicular to the center, the upper side is provided with a plurality of protrusions each having a columnar shape The upper step and the lower step having different heights are formed, and the lower side has a configuration in which an induction path is formed so as to intersect the seat filling hole.
The anti-washing block according to the present invention has the advantage of not only securing construction applicability to various rivers by enabling multi-stage stacking construction but also improving construction quality by using standardized blocks. In addition, even when the environment around the river changes after construction, there is an advantage that the degree of freedom for adjustment of the installation area and timely construction is high.

Description

Scour Protection Block

The present invention relates to a scour prevention block for preventing scour phenomenon in which the soil layer is gradually lost in water having a rapid flow rate. More specifically, it is economical and easy to maintain a gentle flow rate while forming a sloped channel. The present invention relates to a scour prevention block that can protect the natural environment by enabling fishery function and aquatic plant growth along with constructability.

As industrialization accelerates, land use in river basins is increased, and large-scale civil works are carried out for the purpose of securing water, water, and development, and the smooth movement of soils is blocked. It is shrinking, causing damage that seriously damages the river environment. In other words, when the dredged riverbed changes the river erosion reference plane, the foundation of the banks, bridges, and beams is scoured during flooding, which paralyzes the function or causes the safety of the structure. Due to the slowing of action, adherent algae were fixed, and the habitat environment of fish, aquatic plants and benthic organisms was changed, causing deterioration of river water quality and decline of ecosystem function.

Particularly, in the vicinity of structures such as water intakes and piers in rivers, scour phenomena in which the ground of the front end of the structure is eroded when the removal amount is larger than the amount of sediment flowing into the foundation due to the occurrence of a drop or bottleneck occurs. In addition to damage to the structure, friction between the subsoil and the piers is reduced, causing bridge collapse.

The conventional method of protecting the piers or foundations from such scour is typical. The method of laying sandstones, cable blocks or concrete blocks to increase the resistance of the bed material to scour, and permanent protection such as sheet piles around the piers. It is roughly classified as a method of installing a structure.

In the conventional scour construction method, the construction efficiency is low and the result cannot be confirmed as it is made by the sand stone construction method and the gabion construction method underwater and there is no interconnection. It has the disadvantage of causing local scour and short lifespan. On the other hand, the sheet pile construction method can increase the stability of the substructure by filling concrete between the foundation and the sheet pile after hitting the pile pile, and semi-permanently prevents scour, but requires a temporary film and improves the construction efficiency. It is low and has a disadvantage of low economic efficiency due to high construction cost, and in addition, there is a disadvantage that scour occurs outside the pile. Finally, the concrete block construction method is connected to the mat mating the block construction is high construction efficiency, there is little risk of conduction loss during flooding, semi-permanent, it is possible to adjust the installation area and timely construction when the surrounding environment changes.

Therefore, in recent years, the scour prevention construction method using the concrete block which shape-molded concrete in the formwork is performed widely.

The concrete block applied to the scour prevention according to the prior art has a main body having a substantially rectangular shape through the Republic of Korea Registration Room No. 20-0395326, protruding and forming a guide wall rounded in multiple stages on the upper surface of the main body 'Euro scouring prevention block' formed with a hole for fastening and fastening the binding line has been proposed, the Republic of Korea Patent No. 10-0743550 has a polygonal surface is formed with a large number of amber stone protrusions and the filling member in the center A scrubbing block has been proposed, which has a body composed of a circular groove that can accommodate the gap.

However, the scour prevention block according to the prior art has a disadvantage in that it is difficult to construct a multi-stage construction, and it is impossible to diversify the construction method. In particular, the flow phenomenon occurs during rapid flow, and it is difficult to induce a gentle flow flow. There was a need for maintenance and repair.

The present invention is devised to solve the problems of the prior art as described above, the object of the present invention is to enable the multi-layer lamination to increase the construction applicability to a variety of rivers and at the same time to prevent scouring the river floor In addition, it aims to provide a scour prevention block that enables the recovery of ecological self-cleaning ability.

Anti-washing block according to a preferred embodiment of the present invention for achieving the above object is installed around the bridge piers or blown beams to prevent the loss of the soil layer is formed by filling the sandstone filling hole to fill the stone from the upper side In the scour prevention block comprising a body formed of a concrete formed with a plurality of binding rings on the side, the body is formed in an elliptical shape is formed of an oval seat filling hole penetrating perpendicular to the center, the upper side It is characterized in that the upper step and the lower step is provided with a plurality of protrusions each having a different height having a columnar shape protruding, the induction path is formed to cross the seat filling hole in the lower side.

As a preferable feature of the present invention, the upper protrusion and the lower protrusion is formed to protrude from each of the upper step and the lower step has a conical shape that is reduced in diameter as it protrudes upward, the protruding height of the lower protrusion is formed not to be higher than the upper step Is in.

As another preferable feature of the present invention, the body has an elliptical shape and an induction path is formed in the longitudinal width direction, and a stepped induction path is formed at one side with a distance from the induction path.

Another desirable feature of the present invention, when the body is stacked vertically, the upper projection protruding in the upper step is formed in a position to be inserted into the guideway of the other body disposed on the upper side.

As another preferable feature of the present invention, the protruding height of the upper step is to be molded to be inserted into the induction furnace.

The anti-washing block according to the present invention has the advantage of not only securing construction applicability to various rivers by enabling multi-stage stacking construction but also improving construction quality by using standardized blocks. In addition, even when the environment around the river changes after construction, there is an advantage that the degree of freedom for adjustment of the installation area and timely construction is high.

In particular, the side wall is formed with a curved surface with a gentle curvature, which minimizes the resistance to flow velocity, thereby minimizing the risk of conduction or loss during flooding or rapid rapid flow, and the upper surface is stepped to induce vortex generation. It is expected that the flow rate through the flow can be lowered to increase the efficiency of scour prevention.

In addition, the upper stepped surface has the effect of preserving the river ecological environment by acting as a habitat or hiding place of fish or insects in the space between the protrusions while reducing the flow rate of flow through the protrusions formed with a plurality of protrusions at intervals. It is expected.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in this specification and claims are not to be interpreted in a conventional, dictionary sense, and the inventors may appropriately define the concepts of terms in order to best describe their own designs. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention on the basis of the principle of the present invention.

1 and 2 are a perspective view showing a scour prevention block according to the present invention,
3 is an exemplary view of constructing a scour prevention block according to the present invention in a piers,
4 is an exemplary view of the construction of the scour prevention block according to the present invention downstream of the blow-in beam,
5 is a view illustrating a multi-stage stacking construction of the anti-wash block according to the present invention.

Hereinafter, with reference to the accompanying drawings illustrating a scour prevention block according to the present invention. First, it should be noted that like elements or parts in the drawings are denoted by the same reference numerals as much as possible. In describing the present invention, a detailed description of related known functions or configurations will be omitted so as not to obscure the subject matter of the present invention.

1 and 2 is a perspective view showing a scour prevention block according to the present invention, Figure 3 is an exemplary view of the construction of a scour prevention block according to the present invention in the piers.

And, Figure 4 is an exemplary view of the construction of the scour prevention block according to the present invention downstream of the injection beam, Figure 5 is a view illustrating a multi-stage laminated construction of the scour prevention block according to the present invention.

As shown therein, the anti-washing block 1 according to the present invention has a body 1 'formed by curing concrete in a formwork, and the center of the body 1' is a space for filling a sandstone. A seat filling hole 3 is formed, and a plurality of binding rings 5 are provided on the outer surface at intervals.

The anti-wash block of this configuration is similar to the known configuration. However, the scour prevention block (1) of the present invention is to reduce the resistance to the flow velocity of the side acting on the body (1 ') while the water flowing upwards to induce the vortex to have a gentle flow rate flow It is in doing it.

To this end, the present invention has an elliptical shape having a curved surface as a whole when the body 1 'of the scour prevention block 1 is viewed from above to improve the shape coefficient of the body 1' in case of flooding or rapid flow. It is formed so that it can be easily suppressed from being conducted or lost.

In addition, the seat filling hole 3 formed to penetrate perpendicularly to the center of the body 1 'is also provided in an elliptical shape. Such a stone filling hole 3 may be filled with gravel or stone of various sizes, or a plant may be planted, thereby increasing the overall weight of the body 1 'with a natural environment, thereby flooding or rapidly flowing a flow rate. It also inhibits the conduction or flow and loss of

In addition, the present invention has an upper side has a step so that the upper step 10 and the lower step 20 is formed, the upper step 10 and the lower step 20, each of the plurality of upper and lower having a columnar shape Protrusions 11 and 21 are formed to protrude. That is, the upper surface of the body 1 'is divided into an upper step 10 and a lower step 20 having a height difference from each other, as shown in the figure, the upper step 10 is spaced on the upper surface A plurality of upper protrusions 11 are formed to protrude, and the lower step 20 also has a plurality of lower protrusions 21 protruded at intervals on the upper surface.

Here, the upper protrusions 11 and the lower protrusions 21 are provided to have a columnar shape, and in the present invention, it is preferable that the upper protrusions 11 and the lower protrusions 21 are formed in a conical shape in which the diameter decreases. The heights of the upper protrusions 11 and the lower protrusions 21 are provided at the same height, and the protrusion height of the lower protrusions 21 is not higher than the upper step 10.

On the other hand, the arrangement position of the upper step 10 and the lower step 20 is preferably such that the upper step 10 is located upstream, the lower step 20 is located downstream.

The upper step 10 and the lower step 20 forming the upper side of the body (1 ') of this configuration has a different height so that water flowing from the upper step 10 to the lower step 20 side As a result of the vortex in the stepped portion, scour occurs as a result of the slowing down of the flow velocity.

In addition, the present invention has a guideway (7) is formed to cross the seat filling hole (3) to the lower side of the body (1 '), wherein the guideway (7) is a fish of the river Provides habitat and hiding place for insects. That is, the body 1 'having an elliptical shape with reference to the drawing has an oval shaped filling hole 3 formed at the center thereof, and the body 1 in a width direction which is a short side with respect to the long side of the body 1'. An induction furnace 7 is formed on the lower side of 1 ').

On the other hand, the body (1 ') is one side of the guideway (7) may be formed with a stepway guideway (8) parallel to the guideway (7), the stepway guideway (8) is also the Similar to the taxiway (7), it is to provide the role of habitats and hiding places of fish and insects in rivers.

On the other hand, when the body (1 ') is stacked vertically and vertically arranged, the upper projection (11) protruding in the upper step 10 of the lower body (1') located on the other side of the other body disposed It is formed to be located in the induction furnace. Through this configuration, it is possible to increase the binding force between the plurality of scour prevention block (1) arranged up and down by lamination construction.

Reference numeral (m) refers to a geotextile mat for forming the construction bottom surface is to be carried out by a known technique.

The operation of the scour prevention block according to the present invention configured as described above will be described.

The final construction plan is established by reviewing the construction conditions of the scour prevention block 1 for the construction site, and the scour prevention block 1 is disposed on the installation target surface according to the established construction plan. That is, the portion of the upper step 10 forming the upper surface of the body 1 ′ of the scour prevention block 1 is positioned upstream and the lower step 20 is disposed adjacent to the downstream side. The binding ring formed at the side of the body (1 ′) of the scour prevention block is connected to each other by a steel wire or a binding line to complete the block group.

When the construction is completed, the scour prevention block (1) prevents the flow of water directly on the surface when applied near the pier or blowhole of a fast-flowing river, thereby suppressing the loss of soil or soil and at the same time due to scour phenomenon. Protect underfloor structures such as piers and blowholes.

On the other hand, the scour prevention block (1) of the present invention as the upper surface is formed in multiple stages as the water flowing along the upper surface generates a vortex in the stepped portion to induce a gentle flow by reducing the flow of water . In addition, since the side of the body (1 ') is formed in an elliptical shape having a curved surface as a whole, the resistance to flow velocity is minimized, thereby preventing flow, conduction, and loss during flooding or rapid generation.

On the other hand, the present invention is not limited to the embodiments described, it is possible to use by changing the application site, and various modifications and variations can be made without departing from the spirit and scope of the present invention is common in the art It is self-evident to those who have knowledge. Therefore, such modifications or variations will have to belong to the utility model registration claims of the present invention.

1: Scour prevention block 3: Sandstone filling hole
5: binding ring 7: induction furnace
10: upper step 11: upper projection
20: lower step 21: lower projection
a: pier b: blower
s: dead stone m: geotextile mat

Claims (5)

It is installed around the bridge piers or blowholes of the river to prevent the loss of the soil layer, so that the stone-filled holes 3 are formed to fill the stone from the upper side, and the outer surface is formed of concrete with a plurality of binding rings 5. In the anti-wash block comprising a body (1 '),
The body 1 'is formed in an elliptical shape and is formed with an oval shape-filled hole 3 penetrating perpendicularly to the center portion, and a plurality of protrusions having a columnar shape are protruded from each other to have different heights. An upper step (10) having a lower step and the lower step (20) is formed, the lower side of the scrubbing block, characterized in that the induction path (7) is formed so as to cross the seat filling hole (3).
According to claim 1, wherein the upper step (10) and the lower step (20) protruding from each of the upper projection 11 and the lower projection (21) has a conical shape that is reduced in diameter while projecting upward, the lower projection Protruding height of the 21 is not scrubbing block, characterized in that formed not to be higher than the upper step (10).
According to claim 1, wherein the body (1 ') has an elliptical shape, the induction path (7) is formed in the longitudinal width direction, the stepped induction path (8) on one side spaced apart from the induction path (7) Scour prevention block, characterized in that formed.
The method of claim 1, wherein when the body (1 ') is stacked vertically, the upper projection (11) protruding in the upper step 10 is formed at a position to be inserted into the guideway of the other body disposed on the upper side Scour prevention block, characterized in that.
The anti-wash block according to claim 4, wherein the protruding height of the upper step (10) is molded to be inserted into the induction furnace (7).

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