KR100791141B1 - Precipitate prevention equipment - Google Patents

Abstract

A soil sedimentation prevention device is provided to prevent soil and impurities contained in water from settling to the bottom by increasing the velocity of water. A soil sedimentation prevention device(10) for preventing the sedimentation of soil and impurities includes a column(11) installed to a sediment area of a river or a channel, and a velocity accelerator such as a wing(20) installed to a joint(14) of the column to make the upstream end of the column higher than the downstream end relatively to accelerate the velocity of river water to move soil or impurities contained in river water together with river water not to be settled to the bottom.

Description

Precipitation Prevention Equipment

Figure 1 is a perspective view showing the installation state of the soil sedimentation prevention device according to the present invention,

Figure 2 is an exploded perspective view of the sedimentation prevention device of Figure 1,

Figure 3 is a sectional view of the installation of the sedimentation prevention device of Figure 1;

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

10; Sedimentation prevention device 11; Pillar 20; wing

The present invention relates to a sedimentation prevention device, and more particularly, to a sedimentation prevention device for preventing the sediment, including earth and sand in the river or waterway to settle on the floor.

Water flowing through streams or waterways often flows downstream with the soil or debris coming in from the upstream piggybacked. Water passing through the stream or channel causes sediment and various foreign substances that have been carried on the stream to settle on the bottom of the river or channel in the process of moving downstream. Particularly, the width of the stream or channel is relatively wider than the upper stream, so that the flow velocity becomes slow Sedimentation of soil and foreign matter starts from this point.

However, in the case where the pump facility and other underwater machinery are installed to supply various water, soil or foreign matter may flow into the machinery and cause a failure. Therefore, it is necessary to prevent the sedimentation of the soil and various foreign matters to maintain the unsettled soil and foreign matters in places such as the basin where the machinery is installed.

The present invention for solving the above problems is simple to install and structure, it is an object of the present invention to provide a soil sedimentation prevention device to prevent the sediment and foreign matter contained in the water to increase the flow rate of water to settle on the floor.

The sedimentation prevention device according to the present invention for achieving the above object is installed on the sedimentation site of the river or waterway, and installed on one side of the column to increase the flow rate of water passing through the column on the bottom surface of the river around the column It is provided with a flow rate increasing means for preventing the foreign matter from settling.

The flow rate increasing means has a wing which is installed on one side of the pillar in the direction in which water flows, wherein the wing is preferably formed upstream from the bottom side of the upstream end relative to the pillar. .

Hereinafter, with reference to the accompanying drawings, it will be described in detail with respect to the soil sedimentation prevention apparatus according to the present invention.

Referring to Figure 1, the sedimentation sedimentation prevention device 10 according to the present invention is a region or pump facility (2) to prevent sedimentation sediment in the sedimentation area of the river (1) where the sediment of the soil and sediment due to the slow flow rate It can be installed around the area where the river water inlet pipe of the machinery installed in the river basin is used to draw in the river water.

The sedimentation of the soil may change the flow path of the river (1) in the long term, and if the foreign matter is precipitated, the water quality of the river (1) may be contaminated, causing odor. In addition, the soil and foreign matter accumulated around the inflow pipe inflowing the river water is introduced into the inflow pipe, which may cause a failure of the machinery using the river water, so as to prevent the sedimentation of the soil and foreign matter in these areas as shown Precipitation prevention device 10 can be installed.

Referring to FIG. 2, the sedimentation sedimentation prevention apparatus 10 according to the present invention includes a pillar 11 installed at a sedimentation site of a river or a water channel, and a flow rate increasing means installed at one side of the pillar 11.

The pillar 11 is formed in the cylindrical body 12, the lower portion of the main body 12, and is provided at the top of the peak 13 and the main body 12 to be inserted into the bottom of the river or waterway. It has a coupling portion 14 of smaller diameter than the body 12. Due to the difference in diameter between the coupling part 14 and the main body 12, a fixing jaw 15 is formed at the interface between the coupling part 14 and the main body 12 and a threaded thread is formed at one side of the coupling part 14. 16) is provided.

In this embodiment, the pillar 11 is provided with a pointed portion 13 at the bottom so that the pillar 11 can be inserted into the bottom of the river, and the pillar 11 is illustrated as having a generally cylindrical shape, but the pillar 11 is It is not limited, and may be fixedly installed on the bottom surface of the river or the water channel through a separate coupling means, the shape of the column 11 may also be formed to have a cross-section of various forms, unlike the present embodiment.

Flow rate increase means is installed in the column 11 to accelerate the flow rate of the river water passing through the column 11 in the present embodiment was applied to the wing 20 as a flow rate increase means. The wing 20 has a cylindrical member 21 fitted to the engaging portion 14 of the pillar 11 and a wing surface 23 surrounding the cylindrical member 21.

The cylindrical member 21 has an inner diameter corresponding to the diameter of the coupling portion 14 to be fitted to the coupling portion 14 and the through hole 16 of the coupling portion 14 on one side of the cylindrical member 21. Coupling holes 22 corresponding to are formed. When the wing 20 is installed on the pillar 11, the cylindrical member 21 is fitted into the coupling portion 14, and then the coupling hole 22 and the coupling portion 14 of the cylindrical member 21 pass through. Match the holes 16 and screw the bolting member 17 to fix the wing 20 to the pillar (11). The cylindrical member 21 is fixed without going downward by the fixing jaw 15, and the coupling portion 14 by the bolting member 17 is screwed through the coupling hole 22 and the through hole 16. Movement along the outer circumferential surface of is prevented.

The wing surface 23 wraps around the cylindrical member 21 and is formed to be inclined downward as it progresses from one side to the other side. When the wing 20 is coupled to the pillar 11, one side of the wing surface 23 is a pillar. Based on (11), it is to be located upstream of the river.

In this embodiment, the wing 20 is applied as a means for increasing the flow rate, but the means for increasing the flow rate is not limited thereto, and various means for increasing the flow rate of the river water to allow the soil or foreign substances contained in the river water to move together with the river water without sedimentation. This can be applied. In addition, the wing 20 is also shown in the present embodiment as having a one-piece and inclined rectangular wing surface 23, otherwise it is coupled to the column 11 can be faster the flow rate of the river water passing through the column (11) Various shapes of wing surfaces 23 may be applied, and a method of coupling with the pillars 11 may also be applied to various methods different from the present embodiment.

Referring to Figure 3, the operation of the soil sedimentation prevention device 10 according to the present invention will be described.

As shown, the pillar 11 is inserted into the bottom of the stream, and the wing 20 is formed so that the upstream end of the pillar 11 is formed higher from the bottom than the downstream end of the pillar 11. It is coupled to the coupling portion 14. Since the wing 20 does not move along the outer circumferential surface of the engaging portion 14 by the bolting member 17, the position of the wing surface 23 is fixed in this way.

Soils and debris start to settle on the bottom of the river because the river water containing soil and debris loses the transport force of the soil and debris at the point where the flow velocity is slowed. When the river water passes the area where the soil sedimentation prevention device 10 is installed, the river water is moved downward along the wing surface 23 by the wing 20, the end of the wing surface 23 is the bottom surface When the upstream side formed higher from the inlet portion A and the downstream side where the edge of the wing surface 23 is formed relatively lower from the bottom surface are called the discharge portion B, the inlet portion A is the discharge portion as shown. It has a larger area than (B).

Since the flow rate of the river water is the same, but the size of each passage is different, the flow rate of the river water passing through the discharge portion (B) is faster than that of the inlet portion (A), and as the flow rate of the river water increases, the transport force of the soil and the foreign matter increases. So the soil and foreign matter does not settle on the bottom of the river, but moves downstream with the river water.

The soil sedimentation prevention device according to the present invention having the above configuration is to increase the flow rate of the river water in the area to prevent the sediment and the sediment of foreign matters so that the soil and foreign substances contained in the river water is moved without settling on the bottom.

Although the present invention has been described with reference to the illustrated embodiments, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (2)

delete Pillars installed in sediments of rivers or waterways; It is installed on the column to increase the flow rate of the water of the side adjacent to the river bottom to increase the flow rate means for preventing foreign matter from settling on the river bottom; The flow rate increasing means has a wing which is installed on one side of the pillar in the direction of the water, The vane sedimentation prevention device, characterized in that installed inclined so that the upstream end with respect to the pillar is located higher than the bottom side relative to the downstream end.

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