The present invention relates generally to a method for constructing a check dam or a fire prevention dam, and more particularly to a method for constructing a check dam using a gear-type block capable of storing soil and stones and discharging water through a space between blocks to prevent a flood disaster due to rising of a river route and a water level caused by incoming and accumulation of the soil and stones from a branch river to a main river, and a method for constructing a fire prevention dam using a gear-type block capable of providing an artificial water containing facility at a remote place to supply fire prevention water for early prompt suppression of a forest fire when it occurs, and also capable of providing a spawning and inhabitation ground for animals and plants at the waterside to contribute to the preservation of an ecosystem.
Generally, a river sill is a concrete beam with a gravity section. Such a sill is mainly constructed with underwater concrete by a field placing method. In the course of the field placing of the concrete, however, water pollution grows worse, and inhabitation environment for river fishes is destroyed. In addition, erosion occurs severely at the lower end of the sill after the construction of the sill has been completed. Especially, the sill may be damaged due to a flood, which requires repair or reconstruction of the sill.
In order to overcome the aforesaid drawbacks in carrying out such an uniformed concrete placing method, there has been an attempt to propose a method for constructing a bank protecting wall using a bank protecting block, which has the advantage of natural purification, such as water improvement, to some extent. Nevertheless, consideration regarding the provision of a spawning and inhabitation ground for river fishes and vegetation environment for plants at the waterside is insufficient, which does not endow the river with vital force. Consequently, it is required to construct a bank protection facility capable of protecting the environment with the self-purification of the river and the preservation of an ecosystem.
Furthermore, if hydraulic properties of the river structural part, such as a sill, a check dam, or the like, and the ground connection part is not considered in case of the bank protection facility, soil and sand become washed away from the ground connection part by a flood, which leads to collapse of the banks. This is because sand or pebbles at the riverbed adjacent to the fixed concrete structure have a very low degree of a water current tolerance, resulting in that the sand or pebbles are washed away or eroded. Consequently, it is also required to provide a method for protecting a bank in consideration of bending resistance of a boundary between the protection bank and the river bed and reinforcement of the connection parts.
The present invention is disclosed in order to overcome the drawbacks caused in the bank protection works as mentioned above.
It is an object of the present invention to provide a method for constructing a check dam using a gear-type block capable of storing soil and stones and discharging water through a space between blocks since the check dam is constructed using the gear-type block of a prominence and depression structure to prevent a flood disaster due to rising of a river route and a water level caused by incoming and accumulation of the soil and stones from a branch river to a main river.
It is still another object of the present invention to provide a method for constructing a fire prevention dam using a gear-type block capable of providing an artificial water containing facility at a remote place to supply fire prevention water for early prompt suppression of a forest fire when it occurs, and also capable of providing a spawning and inhabitation ground for animals and plants at the waterside normal times to contribute to the preservation of an ecosystem.
In order to accomplish the aforesaid object of the present invention, there is provided a method for constructing a check dam using a gear-type block, comprising the steps of:
In a preferred embodiment of the present invention, said adjacent blocks are connected together by fixing U-shaped bolts to said rings formed at the lateral parts of each block when said gear-type blocks are piled up in the form of a pyramid at the step (b).
Furthermore, said dam structure is constructed in the form of a pyramid such that a middle part of the structure is arranged at the level lower than either side part of the structure adjacent to either bank of the valley, which prevents any collapse due to pressure of enormous amount of water by letting a portion of the water out over the lower middle part if the volume of water kept in store is increased suddenly due to a localized torrential downpour.
In order to accomplish the aforesaid object of the present invention, there is also provided a method for constructing a fire prevention dam using a gear-type block, comprising the steps of:
In a preferred embodiment of the present invention, said second vertical pileup of the gear-type blocks is provided in the step (d) such that a pileup surface at the lower stream of the structure is inclined at a predetermined angle.
These and other objects and advantages of the present invention will become apparent from the following description of preferred embodiments with reference to the accompanying drawings in which:
Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.
A gear-type block or a native rock-type block employed in a method for constructing a check dam or a fire prevention dam will be described prior to the detailed description of the preferred embodiments of the present invention.
Referring to
As shown in
A method for constructing a check dam or a fire prevention dam using a gear-type block or a native rock-type block according to the present invention will be now described.
Referring to
After the deposition of the bottom mat 500 has been completed, the gear-type blocks 100, which includes an upper part and an lower part having projections 101 and a groove 102 thereon respectively and being provided for engaging one of the piled blocks with another block when the piling step is performed, a middle part having a through hole 103 of a predetermined dimension formed therein, and four lateral parts each having a ring 104 for connecting adjacent blocks formed thereon, as shown in
At this time, the adjacent blocks are connected together by fixing the rings 104 formed at the lateral parts of each block using U-shaped bolts 110, preferably as in
Moreover, the dam structure is constructed in the form of a pyramid such that a middle part of the structure is arranged at the level lower than either side part of the structure adjacent to either bank of the valley, as shown in
After the formation of the dam structure has been completed as mentioned above, on the bottom mat 500 at upper and lower streams of the lower end of the dam structure are deposited native rock-type blocks 300, which includes irregular projections 301 formed diagonally thereon, gaps 302 defined by the projections in which soil is to be filled, and rings 303 provided diagonally at the corners for connecting adjacent blocks, as shown in
With the check dam constructed as described above, soil and stones are blocked by the dam structure, and water is discharged through a space between the gear-type blocks 100. Consequently, it is possible to prevent any flood disaster due to reduction of the cross section through which the water passes and rising of a water level caused by incoming and accumulation of the soil and stones into mid-stream or downstream of the river. Furthermore, the soil filled in the gaps 302 formed on the native rock-type blocks 300 is connected to the ground of the river bed to provide an environment in which a water plant is vegetated.
Referring to
After the deposition of the mat 600 for containing water has been completed, a plurality of gear-type blocks 100 as shown in
After the deposition of the mat 600′ for containing water has been completed, a plurality of gear-type blocks 100 same as the aforesaid gear-type blocks are piled up at the outer surface of the containing water of the first pileup structure where the mat 600′ for containing water is deposited. At this time, the second vertical pileup of the gear-type blocks is provided such that a pileup surface at the lower stream of the structure is inclined at a predetermined angle, which is for the sake of the structural stability of the piled dam structure.
After the first and second vertical pileup of the structure have been accomplished, the gear-type blocks 100 are arranged in the form of a block mattress, as shown in
In the fire prevention dam constructed as described above, local erosion occurs at the front end of the upper stream of the fire prevention dam as the amount and speed of the flow increase. However, since each of the gear-type blocks 100 in the block mattress structure is connected with each other by the steel ring 104, the block mattress structure has vendibility due to self weight when the ground of the river bed is eroded locally. Consequently, some of the blocks 100 are inclined to a stable angle along to the slope of the eroded area, as shown in
Meanwhile, the aforesaid fire prevention dam provides an artificial water containing facility at a remote place to shorten the distance and time for delivering water by a helicopter and thus supply fire prevention water for early prompt suppression of a forest fire when it occurs. As a result, the damage due to a forest fire is minimized. In addition, the fire prevention dam is used as a source for drinking water normal times, and provides a spawning and inhabitation ground for animals and plants at the waterside to contribute to the preservation of an ecosystem and protect wild animals.
With a method for constructing a check dam or a fire prevention dam using a gear-type block according to the present invention, it is possible to store soil and stones and discharging water through a space between blocks since the check dam is constructed using the gear-type block of a prominence and depression structure, thereby preventing a flood disaster due to rising of a river route and a water level caused by incoming and accumulation of the soil and stones from a branch river to a main river. Furthermore, it is possible to provide an artificial water containing facility at a remote place, thereby supplying fire prevention water for early prompt suppression of a forest fire when it occurs, and to provide a spawning and inhabitation ground for animals and plants at the waterside normal times to contribute to the preservation of an ecosystem.
Filing Document | Filing Date | Country | Kind |
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PCT/KR02/00723 | 4/19/2002 | WO |