JP2011516756A - Anti-scouring equipment for pier foundations - Google Patents

Abstract

The scour prevention device for a pier foundation according to the present invention is a scour prevention device for a pier foundation that supports a load of a bridge, and surrounds the pier foundation and includes a plurality of holes. A first flow guide plate having one surface connected to one surface of the sealing plate, spaced a predetermined distance from the pier foundation structure, and having a plurality of first flow holes, and one surface other than the sealing plate. A second flow guide plate that is connected to the surface, is separated from the pier foundation by a predetermined distance, and has a plurality of second flow holes, and the first flow guide plate and the second flow guide plate; The first flow guide plate and the second flow guide plate are symmetrical with each other with respect to the pier foundation structure.
[Selection] Figure 4

Description

The present invention relates to a scouring prevention device for a pier foundation structure.

In general, a bridge is an elevated structure that is provided in a river, a lake, or the like and used when vehicles or people pass the river, the lake, or the like. The bridge is roughly divided into upper and lower parts. The upper part of the bridge is a part that directly supports the load of a vehicle or a person, and is composed of a bottom frame of an upper plate and a mold. The lower part of the bridge is a part that transmits the load applied from the upper part to the ground, and is composed of an abutment, a pier, and a foundation (pile foundation, peer foundation, etc.).
At this time, in the bridge, scouring occurs at the foundation or pier site due to the flowing fluid. Scouring is a phenomenon in which the bottom of a river or a river bank is cut by a fluid, and occurs when the amount of sediment removed is larger than the amount of sediment deposited around the foundation, which is the lower part of the bridge. As shown in FIGS. 1 to 3, the river flow that rubs against the foundation structure of the pier can be roughly divided into two types. FIG. 1 to FIG. 3 show an exemplary embodiment showing a state in which erosion and scouring of a pier foundation structure occurs.
The flow of the river is first divided into a direct flow a that directly rubs against the foundation 20 and an indirect flow b that flows outside the foundation 20. The direct flow a first rubs against the outer peripheral surface of the foundation portion 20 and is divided into two parts, and then flows symmetrically along the outer peripheral surface of the pier foundation structure. The two flows are rubbed and mixed on the outer peripheral surface of the vortex to generate a vortex c. At this time, a small stone on the ground floats by the eddy current c and strikes the foundation 20. The eddy current c generated in this way causes scouring, and erosion occurs on the ground of the river. Due to such a phenomenon, the strength of the foundation 20 is weakened, which causes the bridge to collapse.

In order to solve the above problems, an embodiment according to the present invention combines a direct flow of a river that is provided on the ground of a pier foundation structure and directly rubs against the pier and an indirect flow that flows close to the pier. The purpose is to prevent friction between the outer peripheral surface of the pier and the flow of the river by collecting the water and forming a flow of the river with the flow velocity stopped in the lower part of the pier foundation structure.
Another embodiment of the present invention aims to prevent the erosion of the ground of the pier foundation structure by converting the flow of the river to a flow velocity stopped state by the scouring prevention device installed on the ground of the pier. To do.
Another object of the present invention is to minimize an overload that occurs inside a scour prevention device that maintains a flow velocity stop state.
Furthermore, according to another embodiment of the present invention, the flow of the river leaking from the upper surface of the flow hole and the blocking plate for preventing pressure overload of the scouring prevention device is directed toward the rear of the pier foundation structure. The purpose is to make it flow quickly.

A scour prevention device for a pier foundation according to an embodiment of the present invention is a scour prevention device for a pier foundation that supports a load of a bridge, and surrounds the pier foundation and includes a plurality of holes. A first flow guide plate in which one surface is connected to one surface of the sealing plate, a predetermined distance away from the pier foundation structure, and a plurality of first flow holes are formed; One surface is connected to the other surface of the sealing plate, is separated by a predetermined distance from the pier foundation structure, a second flow guide plate in which a plurality of second flow holes are formed, the first flow guide plate, and the above A blocking plate that connects the second flow guide plate and prevents a fluid flow, and the first flow guide plate and the second flow guide plate may be symmetrical with respect to the pier foundation structure. .
The sealing plate may include a first plate member and a second plate member, and the first plate member and the second plate member may be detachable.
Further, the base may further include a bottom plate that surrounds the pier foundation structure, one surface is placed on the ground, and the other surface is connected to the flow guide plate and the blocking plate.
The bottom plate may include a third plate member and a fourth plate member, and the third plate member and the fourth plate member may be detachable.
In addition, it is possible to further include a diving beam in which one side is in contact with the blocking plate and the thickness on one side is larger than the thickness on the other side.
In addition, it may further include a plurality of branching protrusions that are separated from the other side of the diving beam by a predetermined distance.
In addition, the one surface of the blocking plate against which the fluid abuts may be a curved surface.
The pier foundation structure may further include a classification band that is in contact with the outer circumferential surface of the pier foundation structure and prevents direct friction of the fluid in the pier foundation structure by symmetrical round classification surfaces.
A rubber layer may be formed on the surface of the flow guide plate.

The scouring prevention device for a pier foundation according to the present invention collects a direct flow of a river that is provided on the ground of the pier foundation and directly rubs against the pier and an indirect flow that flows close to the pier into one. By forming a river flow with the flow rate stopped at the bottom of the pier foundation structure, friction between the outer peripheral surface of the pier and the river flow can be prevented, thereby preventing erosion of the pier foundation structure. There is.
Moreover, the scouring prevention device for a pier foundation structure according to the present invention has an effect of preventing erosion of the ground of the pier foundation structure by providing a scouring prevention device on the ground of the pier.
Further, by minimizing the overload of the internal pressure of the scour preventive device due to the flow rate stop state of the pier foundation according to the present invention, there is an effect that the installation strength of the scour preventive device can be improved.
Furthermore, the scour preventive device for the pier foundation according to the present invention is a river flow leaked from the upper surfaces of the first and second flow holes and the blocking plate for preventing overload of the scour preventer against water pressure. By making it flow quickly toward the rear of the pier foundation structure, there is an effect that the river flow does not reverse by the scouring prevention device.

It is a perspective view which shows the state in which erosion and scouring of the pier foundation structure based on a prior art generate | occur | produce. It is a top view which shows the state in which scouring of the pier foundation structure which concerns on a prior art generate | occur | produces. It is a front view which shows the state in which scouring of the pier foundation structure which concerns on a prior art generate | occur | produces. It is a perspective view which shows the state which installed the scouring prevention apparatus which concerns on one Example of this invention in the pier foundation structure. It is a front view which shows the state which installed the scouring prevention apparatus which concerns on one Example of this invention in the pier foundation structure. It is an enlarged front view which shows the state which installed the scour prevention apparatus which concerns on one Example of this invention in the pier foundation structure. It is a perspective view which shows the state which installed the scouring prevention apparatus and classification zone which concern on the other Example of this invention in the pier foundation structure. It is a plane sectional view which shows the state which installed the scour prevention apparatus and classification zone which concern on the other Example of this invention in the pier foundation structure. It is a perspective view which shows the state which installed the scouring prevention apparatus which concerns on the other Example of this invention in the pier foundation structure. It is a front sectional view which shows the state which installed the scouring prevention apparatus which concerns on the other Example of this invention in the pier foundation structure.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.
First, in the drawings, the same components or parts are denoted by the same reference numerals. In describing the present invention, when it is determined that a specific description of such a known function or configuration is unclear due to the gist of the present invention, a detailed description thereof will be omitted.
FIG. 4 is a perspective view showing a state in which the scour preventing device according to one embodiment of the present invention is installed on the pier foundation structure. FIG. 5 is a front view showing a state in which the scour preventing apparatus according to one embodiment of the present invention is installed on the pier foundation structure, and FIG. 6 shows the scour preventing apparatus according to one embodiment of the present invention. It is an enlarged front view which shows the state installed in the foundation structure. FIG. 9 is a perspective view showing a state in which a scour preventing device according to another embodiment of the present invention is installed in a pier foundation structure, and FIG. 10 is a scour according to another embodiment of the present invention. It is front sectional drawing which shows the state which installed the prevention apparatus in the pier foundation structure.
As shown in FIGS. 4 to 6 and FIGS. 9 and 10, the scour preventing apparatus 100 according to an embodiment serves to protect the pier foundation structure 10 by surrounding the pier foundation structure 10.
The components of one embodiment include a sealing plate 160, a first flow guide plate 110, a second flow guide plate 110 ′, and a blocking plate 120. Further, a bottom plate 140, a diving beam 130, and a branching protrusion 132 are further included.
First, the sealing plate 160 surrounds the pier foundation structure 10. At this time, the sealing plate 160 includes detachable plate members 160a and 160b. The plate members 160a and 160b can be coupled by various methods such as engagement using protrusions and insertion portions formed on the plate members 160a and 160b, or coupling by welding.
This is for simplifying the work surrounding the pier foundation structure 10. The sealing plate 160 is formed with a plurality of holes 163.161 penetrating the sealing plate 160.
One surface of each of the first flow guide plate 110 and the second flow guide plate 110 ′ is connected to one surface of the sealing plate 160, and is symmetrically separated from the pier foundation structure 10 by a predetermined distance. At this time, a first flow hole 111 and a second flow hole 111 ′ are formed in the first flow guide plate 110 and the second flow guide plate 110 ′, respectively.
Further, a rubber layer 112 is coated on the surfaces of the first flow guide plate 110 and the second flow guide plate 110 ′. The rubber layer 112 is for protecting the scouring prevention apparatus 100 of one embodiment from earth and sand or earth and stone flowing by a fluid.
The blocking plate 120 is connected to the first flow guide plate 110 and the second flow guide plate 110 ′. At this time, one surface of the blocking plate 120 is a curved surface.
The bottom plate 140 surrounds the pier foundation structure 10, one surface of which is placed on the ground, and the other surface is connected to the first flow guide plate 110, the second flow guide plate 110 ′, and the blocking plate 120. The bottom plate 140 includes detachable plate members 140a and 140b. This is also for simplifying the work surrounding the pier foundation structure 10. The bottom plate 140 may be omitted.
As described above, the scour preventing apparatus 100 according to the embodiment includes the first flow guide plate 110 and the first flow guide plate 110 in the fluid flow direction on both sides of the bottom plate 140 after the bottom plate 140 is disposed on the ground of the pier foundation structure 10. Two flow guide plates 110 ′ are arranged vertically. Behind the bottom plate 140, the blocking plate 120 is vertically arranged. The sealing plate 160 is connected to the upper surfaces of the first flow guide plate 110, the second flow guide plate 110 ′, and the blocking plate 120. In the scouring prevention apparatus 100 according to the embodiment in which the respective components are connected in this manner, the internal space 162 is formed by connecting the respective components. In addition, the front portion of the bottom plate 140 is in an open state, and the fluid flows into the internal space 162 through the front portion of the bottom plate 140.
When fluid flows into the internal space 162, the fluid remains in the internal space 162 with the flow rate stopped by the blocking plate 120. At this time, since the flow velocity of the fluid flowing into the internal space 162 stops, the direct flow a and the indirect flow b of the river do not occur in the internal space 162. Therefore, it is possible to prevent scouring due to friction of the fluid repeatedly generated behind the outer peripheral surface of the foundation structure 10 of the pier.
In addition, in order to prevent the water pressure in the internal space 162 from increasing due to the fluid that continues to flow into the internal space 162, the first flow hole 111 and the second flow in the first flow guide plate 110 and the second flow guide plate 110 ′, respectively. A plurality of holes 163 are formed in the hole 111 ′ and the sealing plate 160. The fluid in the internal space 162 flows out to the outside through the first flow hole 111, the second flow hole 111 ′, and the hole 163, thereby preventing the water pressure from increasing in the internal space 162.
Further, by forming one surface of the blocking plate 120 against which the fluid abuts into a curved surface, the fluid flowing into the internal space 162 rotates along the curved surface. Thereby, the eddy current c is generated in the fluid in the internal space 162, and the water pressure in the internal space 162 can be lowered.
In addition, the embodiment further includes a diving beam 130 having an inclined surface 131 connected to the rear of the blocking plate 120. The inclined surface 131 is formed such that the thickness on one side contacting one side of the blocking plate 120 is larger than the thickness on the other side.
In the diving beam 130, the fluid that slightly flows out through the first flow hole 111, the second flow hole 111 ′, and the hole 163 and the fluid that flows along the upper surface of the sealing plate 160 are inclined surfaces 131 of the diving beam 130. It flows so that it may flow quickly toward the back of the pier foundation structure 10 along. This is to prevent the overload of water pressure concentrated on the scouring prevention device 100 by reversing the flow direction of the fluid or slowing the flow velocity by the scouring prevention device 100.
In addition, the embodiment further includes a plurality of branching protrusions 132 that are separated from the other side of the diving beam 130 by a predetermined distance. The plurality of protrusions 132 are sequentially projected so as to form a plurality of rows. The branching protrusion 132 serves to disperse the flow of fluid flowing along the inclined surface 131 of the diving beam 130. The branching protrusion 132 disperses the flow of the fluid, thereby preventing erosion of the ground located behind the diving beam 130.
As described above, by installing the scouring prevention device 100 on the pier foundation structure 10 provided on the ground of the river, the outer peripheral surface of the pier foundation structure 10 is prevented from collapsing and the surrounding ground is prevented from being eroded. can do. Thereby, even if a river overflows, there exists an advantage that the intensity | strength and proof structure of the pier foundation structure 10 can be maintained.
Further, in the scour prevention apparatus 100, the flow velocity is stopped by reducing the height of the inlet portion of the internal space 162 to which the fluid is supplied and increasing the height so as to incline in the opposite direction. It is possible to prevent an overload from occurring in the fluid pressure.
FIG. 7 is a perspective view showing a state in which the scour preventing device and the classification zone according to another embodiment of the present invention are installed on the pier foundation structure, and FIG. 8 is a diagram illustrating another embodiment of the present invention. It is a plane sectional view which shows the state which installed the scour prevention apparatus and classification zone which concern on the pier foundation structure. The components of another embodiment of the present invention are substantially the same as those of the embodiment already described with reference to FIGS. 4 to 6 and FIGS. 9 and 10. Omitted.
As shown in FIG. 7 and FIG. 8, a classification band having round classification surfaces 151 symmetrical to each other so as to divide the river flow on the outer peripheral surface of the pier foundation structure 10 receiving the upstream flow of the river. By standing 150, the flow on the upstream side of the river is prevented from directly rubbing against the pier foundation structure.
As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Pier foundation 20 Base part 100 Scour prevention apparatus 110 1st flow guide plate 110 '2nd flow guide plate 111 1st flow hole 111' 2nd flow hole 112 Rubber layer 120 Blocking plate 121 Eddy current formation protrusion 130 Submersible beam 131 Inclined surface 132 Branch protrusion 140 Bottom plate 140a First plate member 140b Second plate member 150 Classification band 151 Classification surface 160 Sealing plate 160a Third plate member 160b Fourth plate member 162 Internal space a Direct flow b Indirect flow c Eddy current

Claims (9)

A scouring prevention device for a pier foundation supporting a load of a bridge,
A sealing plate surrounding the pier foundation structure and having a plurality of holes formed therein;
A first flow guide plate having one surface connected to one surface of the sealing plate, a predetermined distance away from the pier foundation structure, and a plurality of first flow holes formed;
A second flow guide plate having one surface connected to the other surface of the sealing plate, separated from the pier foundation by a predetermined distance, and formed with a plurality of second flow holes;
A blocking plate that connects the first flow guide plate and the second flow guide plate to prevent fluid flow;
Including
The scour prevention apparatus for a pier foundation, wherein the first flow guide plate and the second flow guide plate are symmetrical to each other with respect to the pier foundation structure. The said sealing board contains the 1st board member and the 2nd board member, and the said 1st board member and the said 2nd board member are detachable, The washing of the pier foundation structure of Claim 1 characterized by the above-mentioned. Anti-digging device. The pier foundation structure according to claim 1, further comprising a bottom plate surrounding the pier foundation structure, wherein one surface is placed on the ground and the other surface is connected to the flow guide plate and the blocking plate. Anti-scouring equipment. The scouring of a pier foundation according to claim 3, wherein the bottom plate includes a third plate member and a fourth plate member, and the third plate member and the fourth plate member are detachable. Prevention device. 2. The scour prevention apparatus for a pier foundation according to claim 1, further comprising a diving beam having one side in contact with the shielding plate and having a thickness on one side larger than that on the other side. The pier scour prevention apparatus according to claim 5, further comprising a plurality of branching protrusions separated from the other side of the diving beam by a predetermined distance. The scouring prevention device for a pier foundation structure according to claim 1, wherein one surface of the blocking plate against which the fluid abuts is a curved surface. 2. The classification according to claim 1, further comprising a classification band contacting the outer peripheral surface of the pier foundation structure and preventing direct friction of fluid on the pier foundation structure by a round classification plane symmetrical to each other. Anti-scouring device for pier foundation structures. The apparatus for preventing scouring a pier foundation according to claim 1, wherein a rubber layer is formed on a surface of the flow guide plate.