KR101529176B1 - Ring type micro block debris barrier - Google Patents

Abstract

The present invention relates to a round microblock type four-way dam, which comprises a water channel part formed between the banks, wherein the four-way dam is formed by assembling a plurality of gobion blocks, each of which is filled with a filler material of natural stone or crushed stone, And a part of the gobion blocks constituting the lower portion of the dam body portion is formed by a fixed key portion buried in the channel portion of the bank.

Description

[0001] The present invention relates to a circular micro block debris barrier,

The present invention relates to a four-way dam, and more particularly, to a four-way dam having a circular shape by opening a gap, thereby allowing water to flow smoothly and securing structural stability for effectively filtering floating substances and contaminants such as wood chips and debris The present invention relates to a round microblock type square dam.

In general, a dam is a dam installed to store soil or gravel that has flowed out from deserted mountain areas or valleys.

These dams have dams for controlling and regulating the amount of runoffs accumulated in drainage valleys in mountain valleys and controlling the amount of runoffs drained to downstream rivers, There is a dam to prevent erosion of the dam.

In the valleys with large valleys, torrents strike the riverbed and slope both sides of the mountain to cause landslides. This is to prevent landslides and to deposit gravel upstream to stabilize the valleys with gentle sips.

Since the dam is not a reservoir, drain the water behind the dam and install a proper number of drains to reduce the pressure on the dam. This creates a layer of solid soil on the back of the dam, and a new mooring floor with low water content is created thereon. Therefore, when a dam is arranged in a valley in a stepwise manner, the valley gradually becomes higher and the valley becomes stable.

In the case of the concrete dam type, the flow of water can be stagnated in the case of the concrete dam type, and even in the case where the flow rate is low, in the case of the ordinary dam, There is a problem that the accumulation of the earth and sand is frequently occurred and the effect as the four-way dam is weakened by the accumulated soil, and there is a problem that the construction cost due to the large-scale structure is excessively consumed. In the case of the buttless dam type, It is possible to filter out floats which are large in size, such as wood pulp and pumpkin, but there is a limit in filtering the floats which are small in size, such as small wood chips and gravel, and the natural landscape of the river valley is undermined.

As a solution to solve such a problem, "Four-way dam structure using steel material" is disclosed in Utility Model No. 175112 (published on Mar. 15, 2000) of the Korean Registered Utility Model.

As shown in FIG. 1, the prior art is constructed by block-building a four-way dam 1 using a steel material 60, and inserting an inner filler 2 such as a crushed stone into the steel material 60.

Therefore, water flows naturally through the steel material 60 and the inner filler material 2, and rocks and driftwood are prevented.

However, even if the steel members 60 are firmly joined together, they are not free from the structure of being constructed in a block form, and the problem that the steel members 60 are easily collapsed due to the pressure of water,

Korean Registered Utility Model No. 20-0175112

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a small-sized dam having a light weight through a structurally stable circular dam body, It is an object of the present invention to provide a circular microblock type square dam capable of preventing the dam from collapsing due to additional driftwood and rock,

The above-mentioned object is achieved by a four-way dam including a waterway portion formed between the banks, wherein the water dam is constructed by assembling a plurality of gravel-type blocks filled with a natural stone or a filling material of a crushed stone into a steel net, , And a part of the gobion blocks constituting the lower part of the dam body is achieved by a round microblock type four-way dam formed by a fixed key part embedded in the channel part of the bank.

It is preferable that the fixed key portion is embedded deeper than the front portion of the dam body portion in the channel portion of the bank.

The dam body portion is provided with a high tension cable for supporting the dam body to prevent breakage of the dam body and to reduce the risk of the loss of the dam body.

In addition, the water channel portion may be formed by stacking a plurality of gobion blocks in a plane on the surface of which a filling material of natural stone or crushed stone is filled.

According to the round microblock type four-way dam of the present invention, a circular dam body portion is formed by open-circuiting while the lower portion of the dam body is embedded in the water channel portion and the dam body portion is additionally supported by the high tension cable. It will be possible to build a dam.

In addition, according to the present invention, since the circular dam body is formed at a narrow temperature, not only the water permeation effect is excellent but also the effluent of the earth stone, the rock, the floating substance and the like can be effectively filtered and the load acting on the dam body portion can be reduced The weight of the dam body can be reduced.

Further, according to the present invention, the space in the circular dam body can reduce the flow velocity and play a role of natural scour prevention, thereby securing economical efficiency that does not require an additional scour prevention technique.

In addition, according to the present invention, there is an advantage of being environmentally friendly and economical by using a natural stone or the like, which is a risk element of a valley part, as a fill material of a garbage that constitutes a dam body part.

1 is a view showing a conventional four-way dam.
2 is a configuration diagram of a four-way dam according to the present invention.
3 is a view showing a unit block constituting a four-way dam according to the present invention.
4 is a plan view of the four-way dam according to the present invention.
5 is a side view of the four-way dam according to the present invention.

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

2 to 5 are views showing a round microblock type four-way dam according to the present invention.

2, the circular microblock-type four-way dam 100 according to the present invention is composed of a channel portion 120 and a dam body portion 130 which are inclined between the two banks 110.

The water channel portion 120 of the four-way dam 100 may be a natural valley or may include a plurality of gobion blocks filled with valleys of natural stone or crushed stone fillets in a steel mesh net as in the dam body portion 130 It may be possible to form a floor surface of a flat channel by stacking in a plane like a mattress to enable smooth drainage of the river water. In the case of forming the channel section 120 as in the latter case, the material cost can be reduced by simultaneously performing the roughing of the valleys and securing the natural stones.

The dam body portion 130 of the four-way dam 100 has a circular dam body portion 130 by stacking a plurality of open block blocks 131 filled with a filler material 131b of natural stone or crushed stone in a circular form in the steel mesh net 131a The steel wire net 131a of the open-close block 131 is fixedly coupled to the steel wire net 131a of the adjacent open-close block 131 through field welding, bolts or locknuts, So that they can be fixed to each other through field welding, bolts, lock nuts or the like, thereby achieving structural stability.

As shown in FIG. 3, the dam body portion 130 is formed in a hexagonal shape, and is filled with a natural stone or a stone in a valley in an iron net 131a of the gobion block 131, In order to secure the structural stability of the dam body 130, it is preferable to stack the gyp-on blocks 131 stacked and stacked.

Meanwhile, the dam body 130 constructed as a circular shape as described above is formed to block the channel portion 120 between the both banks 110, as shown in FIG. 4, the front portion of the upper portion is referred to as a front dam 130a and the rear portion of the lower portion thereof is referred to as a rear dam 130b when the center of the dam body portion 130 is cut in the X-axis direction with reference to FIG. Therefore, the front dam 130a, which is in direct contact with the river water to filter suspended matter and contaminants such as rocks, wood chips, and wood chips, is constructed in an arcuate shape, so that the floating substances and contaminants filtered by the front dam 130a, The rear dam 130b is constructed in a semicircular arcuate shape corresponding to the front dam 130a so as to prevent the front dam 130a from being damaged by the front dam 130a, The structural stability of the dam body 130 can be secured.

5, a portion of the open-close block 131 constituting the lower portion of the dam body 130 constructed as above is embedded in the channel portion 120 of the bank 110 to form the dam body 130 And a fixed key portion 140 for supporting the fixed key portion 140. 5, the depth of the fixed key portion 140 embedded in the channel portion 120 is gradually increased from the front dam 130a to the rear dam 130b, as shown in FIG. 5. As shown in FIG. 5, When the dam body portion 130 constituting the four-way dam 100 of the present invention is constructed by the five-stage glow-in block 131, only the one-stage glow block 131 at the lower end of the front dam 130a is connected to the water channel portion 120 And the rear dam body 130b is embedded in the channel section 120 from the lower end to the three-stage narrow width block 131 to form the fixed key section 140. [ Since the rear dam 130b is embedded in the water channel 120 more deeply than the front dam 130a, the four-way dam 100 having the fixed key 140 embedded therein can withstand a greater load, It is possible to secure the structural stability that can withstand the load of the maximum outflow amount that can be generated in the river water of the valley at that time.

In addition to the fixed key unit 140, a plurality of high tension cables 150 for supporting the dam body 130 are further provided on the dam body unit 130. The high-tension cable 150 is preferably installed on the rear surface of the rear dam 130b. As described above, a plurality of high tension cables 150 are installed on the rear surface of the rear dam body 130b in the vertical direction, and both ends thereof are fixedly installed through the fixing block 111 installed on the bank 110 do.

A plurality of fixing blocks 111 are fixedly mounted on the bank 110. The plurality of fixing blocks 111 are inserted into the high tension cables 150 sequentially And can be fixed through. Accordingly, when the load (pressure) is applied to the front dam 130a of the dam body portion 130, the double-fixed high tension cable 150 is pulled to the tensile force of the high tension cable 150 in the plurality of fixing blocks 111 So that the high tension cable 150 disperses the tensile force.

A pipe (not shown) made of a pipe penetrating the front dam 130a and the rear dam 130b is provided at one side of the dam body 130 of the four-way dam 100 constructed as described above, It is possible to enable the small phase and the movement of the light source.

Meanwhile, the circular dam body 130 as described above reduces the flow rate of the circular space inside the dam body 130, and thereby naturally acts as a scour prevention. Therefore, the economical efficiency that does not require an additional scour prevention method .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification or improvement is possible.

It is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: Foreshore dam 110: Embankment
111: fixed block 120:
130: dam body part 130a: front dam
130b: rear dam body 131:
131a: Iron plate net 131b: Filler
140: fixed key part 150: high tension cable

Claims (4)

A four-way dam including a water channel portion formed between the banks,
In the four-way dam, a plurality of gobion blocks filled with natural stones or fillers of crushed stones are assembled in a circular shape to construct a circular dam body portion, and a part of the gobion blocks constituting the lower portion of the dam body portion is connected to the water channel portion And is formed with a fixed key portion embedded therein,
Wherein the dam body includes a semicircular front dam and a semicircular rear dam corresponding to the front dam,
The fixed key portion is embedded deeper into the channel portion of the bank than the front portion of the dam body portion,
Wherein the dam body portion is provided with a plurality of high tension cables for supporting the rear dam which is the rear surface of the dam body portion. delete delete The method according to claim 1,
And both ends of the high tension cable are installed to be supported by a fixed block provided on a bank.

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