KR200415207Y1 - Apparatus for preventing an oblong body from being caught on a bridge and/or doing harm to the bridge - Google Patents

Abstract

The present invention is to provide a device for preventing the scour phenomenon that damages the foundation of the well, as well as to prevent the foreign body is caught in the bridge pier of the bridge in a simple manner, the bridge 200 A first stop rod 21 installed upstream of the rod; A second stop rod 22 disposed downstream of the first stop rod at a predetermined angle; And a third stop bar 23 disposed downstream of the first stop bar while forming a predetermined angle with the first stop bar. Characterized in that consists of.

Bridges, foreign objects, scour

Description

Apparatus for preventing an oblong body from being caught on a bridge and / or doing harm to the bridge}

1 is a state diagram showing the problem of the foundation of the existing bridge.

Figure 2 is a schematic view showing the installation structure of the scour prevention bar of the conventional bridge well basin foundation.

3 is a view showing a structure in which a scour prevention block is installed in a conventional screw-type rotation fixing frame.

Figure 4 is a schematic perspective view of the bridge foreign matter trapping and scour prevention device according to the present invention.

5 is a plan view and operation state of the bridge foreign matter trapping and scour prevention device according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: bridge 2: rectangular foreign matter

21, ..., 24: stop bar

100: peer part 200, 200 ': well basin base

The present invention relates to a device for preventing a phenomenon in which a foreign body is caught in a bridge piers and a scour phenomenon of the well basal foundation due to the foreign material.

In general, when installing a bridge that crosses the river, as shown in Figure 1, it is constructed by submerging and fixing the well base 200 in the bottom portion of the river, and by constructing the pier part 100 in the center thereof.

As shown in FIG. 1, the lower part of the well basin base 200 constructed as described above is hit by a velocity of the flowing river or an underwater object moving upstream from the upstream side as time elapses so that deformation (washing phenomenon) occurs. Done.

However, if the deformation is severe, the peer portion 100 is damaged, and if the peer portion 100 is damaged, problems such as collapse of the bridge are caused.

Conventionally, in order to solve this problem, the method of dropping the bag concrete in the water is used, but such a method is dropped by using a crane or an excavator equipment. There was a problem such as a huge cost for the reconstruction cost, such as the explosion of the concrete sacks to prevent.

On the other hand, to solve the above problems, in order to be able to effectively prevent the scour of the foundation of the well of the bridge at a low construction cost, as shown in Figures 2 to 3 of "Korean Patent Publication No. 2005-23378" Bucket scourer has been developed.

The prior art relates to a scour bar on the foundation of a bridge well, and in particular, to install the screw-type rotary fixing frame immediately after installing the well of the peer, and the scour prevention block naturally by gravity on the rotating fixing frame. It can be installed to the bottom to prevent the scour phenomenon of the bridge piers due to the flow rate.

The prior art relates to the scour prevention structure of the pier foundation part, and more particularly, when installing the pier supporting the bridge, by installing a scour prevention bar on the outer peripheral surface of the lower portion of the well base The present invention relates to a scour prevention structure of a pier foundation to prevent scour phenomenon.

FIG. 2 is an installation structure diagram schematically showing a structure of a scour bar of a conventional bridge well basin, and FIG. 3 is a view illustrating a structure in which a scour prevention block is installed in a conventional screw-type rotation fixing frame.

That is, in the prior art, in the well-base scour prevention bar for preventing scour of the well base installed in the lower end of the bridge portion, the rotating wheel is installed on the lower side and the outer side is formed flat or the inner side is streamlined Scour prevention block; A hollow part is formed inside, and a screw-shaped anti-buckling block installation groove is formed from the upper side to the lower side, while the scour-preventing block installation groove is formed with a rail portion through which the scour prevention block can be rolled. It is formed to extend in and provides a scrub prevention base of the well bucket base, characterized in that it comprises a screw-type rotary fixing frame provided with a guide portion to prevent the separation of the scour prevention block.

2 to 3 described above, the prior art, as shown in Figure 2, the threaded rotary fixing frame 12 of the well base 200 is installed on the bottom of the peer portion 100 of the bridge The structure of the main structure and the scrubbing prevention block 11 is mainly coupled to the assembly 20.

As detailed in the above, as shown in FIG. 3, which shows the structure of the screw-type rotary fixing frame, the inside of the screw-type rotary fixing frame 12 has a hollow portion 121 formed therein, and a screw-shaped scour prevention block is installed on its outer circumferential surface. The groove 122 is formed from the top to the bottom.

In addition, the scour prevention block installation groove 122 is formed in the rail portion that the scour prevention block 11 can be rolled, formed to extend in the rail portion and the guide portion for preventing the separation of the scour prevention block 11 ( 124 is provided.

The scour prevention block 11 is provided with a rotary wheel 111 at the bottom and the outer portion is formed in a flat shape or the inner portion in a streamlined shape.

That is, by making the inner shape of the scour prevention block 11 into a streamlined shape, the scour prevention block mounting groove 122 formed in the outer circumferential surface of the screw-type rotation fixing frame 12 is brought into close contact with and installed due to the separation. It is possible to effectively prevent the flow or escape of the scour prevention block (11).

The scour bar 10 of the prior art as described above is largely composed of the scour prevention block 11 and the screw-type rotary fixing frame 12 is a structure that can effectively prevent the scour phenomenon.

However, the scour bar of the prior art has a problem in that the configuration is complicated and the thickness of the well base 200 becomes thick, and long barges or logs, etc., which were upstream due to flooding, are sandwiched between the piers and the adjacent piers. If this happens, the flow of water in the rivers may be disturbed, causing further damage.

The present invention has been devised to solve the problems of the prior art as described above, as well as to prevent the phenomenon of foreign substances caught in the bridge piers in a simple manner, as well as scrubbing the base of the well by damaging these foreign bodies hit the bridge piers It is to provide a device for preventing the phenomenon.

Further objects or effects of the present invention will become more apparent from the following detailed description of the invention described with reference to the accompanying drawings.

In order to achieve the above object, the bridge foreign matter trapping and scour prevention device according to the present invention, the first stop rod 21 is installed upstream of the bridge (200); A second stop rod 22 disposed downstream of the first stop rod at a predetermined angle; And a third stop bar 23 disposed downstream of the first stop bar while forming a predetermined angle with the first stop bar. Characterized in that consists of.

Preferably, it further comprises a fourth stop rod installed between the first stop rod 21 and the pier 200,

More preferably, the angle θ is characterized in that 20 to 60 °.

Best Mode for Carrying Out the Invention An exemplary embodiment of the present invention will be described in detail with reference to FIGS. 4 and 5 of the accompanying drawings.

Figure 4 is a schematic perspective view of the bridge foreign matter trapping and scour prevention device according to the present invention, Figure 5 is a plan view and operation state diagram of the bridge foreign matter trapping and scour prevention device according to the present invention.

First, in the first embodiment of the bridge foreign matter trapping and scour prevention device of the present invention, as shown in Figure 4, the first stop rod 21 is installed upstream of the bridge (100, 200) of the bridge (1), The second and third stop rods 22 and 23 are provided on the left and right sides of the first stop rod, respectively.

At this time, the protruding height of each stop bar is preferably about 1m, but can be different in height depending on the depth of the river, and more particularly, if the height can be adjusted in preparation for flooding.

On the other hand, in addition to the first embodiment, in the second embodiment, it is better to provide the fourth stop bar 24 between the first stop bar 21 and the pier.

Referring now to the operation of the present invention with reference to Figure 5, a rectangular foreign matter 2 (e.g. logs or barges) that is longer than the distance between adjacent piers 200, 200 'flows between adjacent piers. If it floats in an unfolded state in a direction perpendicular to the direction (i.e., parallel to the bridge), if it is a conventional case, it is spread between the bridges (see the dashed line in FIG. 5), and of course, the bridges are not broken. During flooding, twigs and other debris get caught in the oblong debris (2), disrupting the flow of running water and, in severe cases, causing the bridge to collapse.

However, according to the present invention, the rectangular foreign matter 2 is first rotated by the first stop rod 21 (see dotted line in FIG. 5), and also by the second stop rod 22. To further rotate in the second order (see dashed line in FIG. 5), and then drift between the piers in a state parallel to the flow direction (see solid line in FIG. 5), thus piercing or damaging the bridge It will float between the piers without giving it a try.

Meanwhile, even when the second and third stop rods 22 and 23 are not present, the rectangular foreign matter 2 is rotatable, but since only a slight rotation is allowed to float, the rotation may be insufficient. Even if it rotates sufficiently, there is a possibility that the rotated foreign matter will hit the pier 200. Therefore, even if the foreign matter is caught between the pier, the phenomenon of damaging the pier cannot be avoided. 3 stop rods 22 and 23 should be installed at a predetermined distance from the first stop rod 21.

In addition, in the first embodiment, the first stop rod 21 is inevitably spaced apart from the pier 200 by a considerable distance. Therefore, when the flow of water changes, such as during flooding or when vortices occur, the distance between the first stop rod 21 and the second stop rod becomes relatively close, and the rectangular foreign matter 2 is rotated so large that the pier ( 200) may occur, or the gap between the first stop rod 21 and the second stop rod is too far apart, so that a hard foreign matter may pass through it and damage the piers. In the example, it is more preferable to provide a means for protecting the pier once again by providing the fourth stop rod 24 between the first stop rod 21 and the pier 200.

On the other hand, the second and third stop rod (22, 23), the extension line formed with the first stop rod 21 forms an angle (θ) of approximately 20 to 60 degrees with the flow direction, the left downstream of the first stop rod And it is preferable to be installed on the downstream side, too, if the angle is too large, the rectangular foreign matter 2 between the stop rod is not preferred, and if the angle is too small also second and third stop The function of the rod cannot be fully exhibited.

In addition, the distance between the second and third stop rods 22 and 23 and the first stop rod 21 does not exceed the distance of the piers. Therefore, when the distance between the adjacent pier is generally 12m, the distance between the first stop rod 21 and the second stop rod 22 is preferably within 12m. On the other hand, if the distance between the first and second stop rods is too short, the rectangular foreign material 2 rotated by the first stop rod 21 may hit the bridge 200 to have a sufficient distance.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, the present invention is not limited thereto, and various modifications may be made within a range easily understood by those skilled in the art. Therefore, the limitation of the present invention should be limited only by the following utility model registration claims.

As described above, according to the bridge debris jamming and scour prevention device according to the present invention, it is possible to prevent the damage of the pier by an extremely simple device, and also to prevent the flow of water by catching foreign matter between the bridges. It has various advantages, such as preventing the risk of flooding or breakage of the bridge.

Claims (3)

A first stop rod 21 installed upstream of the pier 200; A second stop rod 22 disposed downstream of the first stop rod at a predetermined angle; And A third stop bar 23 disposed at a lower right side at a predetermined angle with the first stop bar; Bridge foreign matter trapping and scour prevention device, characterized in that consisting of. The method of claim 1, Bridge foreign matter trapping and scour prevention device, characterized in that it further has a fourth stop rod installed between the first stop rod (21) and the bridge (200). The method according to claim 1 or 2, The angle (θ) is a bridge foreign matter trapping and scour prevention device, characterized in that 20 to 60 °.

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