KR100627870B1 - A gravity dam with an upper cavity - Google Patents

Abstract

The present invention relates to an upper common gravity dam, wherein a plurality of water spout openings (2) provided on an upstream surface of the dam body (1), and in the longitudinal direction of the dam in the water spout opening (2) and the upper part of the dam body (1) The side channel joint part 3 connected, the vertical drop drain cavity part 4 formed in the dam main body 1 in the center part of this channel part 3, and the bottom of this vertical drop drain cavity part 4 of a dam. With a waterproof passage 5 connected to the downstream, it is possible to exclude or control the amount of flooding, and to be hydraulically and structurally stable without being affected by the topographical conditions, as well as easy to analyze in design, easy to construct and maintain, and to increase the amount of concrete. Can be reduced. In addition, by accumulating the soil excavated in the base and the submerged district of the dam on the back soil 6 of the dam body (1), it is possible to further reduce the amount of concrete required for the dam, increase the low capacity, Dam body (1) is not exposed can be an environmentally friendly dam.

Description

A gravity dam with an upper cavity             

1 is a schematic cross-sectional view of an upper common gravity dam according to a first embodiment of the present invention.

FIG. 2 is an upstream front view of the dam body shown in FIG. 1.

3 is a partial plan view showing the dam body and the waterproof path shown in FIG.

4 and 5 are cross-sectional views schematically showing a modified example of the upper common gravity dam according to the first embodiment of the present invention when the amount of back soil of the dam main body is small.

6 is a schematic cross-sectional view of the upper common gravity dam according to the second embodiment of the present invention.

FIG. 7 is an upstream front view of the dam body shown in FIG. 6.

FIG. 8 is a plan view illustrating a part of the dam main body and the waterproof path shown in FIG. 6.

9 is a schematic plan view of the upper common gravity dam according to the third embodiment of the present invention, showing that the width of the side channel cavity may be gradually expanded.

The present invention relates to an upper cavity gravity dam, and in particular, the Yeosu channel is formed in the dam body, so that it is easy to design, construct, and maintain, and that the back surface of the Yeosu channel, the intake facility, and the dam main body is not exposed to the environment. To the upper common gravity dam of

In general, a dam is a structure made for storage of water, intake, sedimentation prevention, and stream flow control across a valley or stream, and in recent years, the size of the dam is gradually increasing to increase the use of water resources due to the rapid increase in demand for water resources. to be.

If the dam is divided according to the flood discharge method, it can be divided into an artificial exclusion method that installs a floodgate to exclude or control the flood amount, and a natural exclusion method in which the flood amount is overrun by the increase in the water level.

In addition, depending on the construction material of the dam, it is classified into a concrete dam and a peel dam, and there are again a soil dam and a rockfill dam, and the concrete dam includes a gravity dam, a joint gravity dam, an arch dam, etc., depending on the structure.

Here, the concrete gravity dam is a form that withstands all external forces acting on the dam body by the weight of the dam itself. For the sake of safety design, the shape of the dam cross section forms a triangle so that it does not turn over, and the upstream surface is almost vertical. While steeply inclined, the downstream surface is about 1: 0.7 inclined.

However, in such a concrete dam, it is divided into a overflow part (water gate) and a non-overflow part that excludes the flood amount, and there is a problem that a maintainer for opening and closing the water gate must be present at the site at all times.

In addition, when the dam is constructed, the type and type of dam are selected according to the topography, the deposit amount of the building material, and the distribution distance thereof. In the small and medium-sized concrete dams to be built in the mountainous region, the absence of the Sato treatment plant, There was a problem such as the need for an excessive amount of concrete.

Accordingly, the present invention has been made to solve the above problems, which is a plurality of water spout openings installed on the upper side of the dam body, and the water channel openings connected in the longitudinal direction of the dam in the top of the water spout opening and the dam body In addition, the floodwater is eliminated by the vertical freeway drainage cavity formed in the dam body at the center of the channel and the waterway connected to the downstream side of the dam at the bottom of the vertical freeway drainage cavity, so that it is not affected by the terrain conditions and is structurally and structurally The purpose is to provide a dam that is secured by the

In addition, another object of the present invention is that since the outer shape is interlaced over the entire region, the dam width can be used as a road such as a bridge, while the flood displacement is naturally excluded from the dam body. The main purpose is to provide a dam that can save time, money and manpower in maintenance by eliminating the need for maintenance personnel to operate and manage the floodgate.

Still another object of the present invention is to install a cavity for flood elimination on the main body of the dam, and to deposit the soil to be treated in the ground during the foundation work of the dam, thereby increasing the amount of water stored in the dam and securing the soil treatment plant. Since the earth pressure is generated on the downstream surface corresponding to the upstream water pressure, the amount of concrete in the dam body can be significantly reduced, while at least one row of drain oil pipes for reducing the positive pressure at the base of the dam is provided. It is to provide a dam that can increase the stability to conduction.

In addition, the present invention is the purpose of providing an environmentally friendly multi-purpose dam by laying the earth and sand treated in the soil on the back of the dam main body, so that the waterway, the intake facility, the dam main body and the like is not exposed to the outside.

The present invention will now be described in detail with reference to the accompanying drawings.

1 to 3 are related to the first embodiment of the present invention, Figure 1 is a schematic cross-sectional view of the upper joint gravity dam according to the first embodiment of the present invention, Figure 2 is an upstream of the dam body shown in FIG. 3 is a partial plan view showing the dam body and the waterproof path shown in FIG. 1.

First, the dam main body 1 is made of concrete with a cross section of an isosceles triangle, similar to a conventional concrete dam.

In addition, as shown in these drawings, the dam according to the present invention is a dam made of concrete, and a plurality of water spout openings 2 installed on an upper side of the dam body 1, these water spout openings 2 and the dam main body. (1) a side channel cavity (3) connected in the longitudinal direction of the dam at the upper part of the upper part, a vertical drop drain cavity (4) formed in the dam main body (1) at the center of the side channel cavity (3), and the vertical Next to the free fall drain cavity (4) is characterized by a side-wall Yeosu waterway that has a waterproof passage (5) extending downstream of the dam. Here, the waterproof passage 5 is illustrated as having a circular cross section, but is not limited thereto and may have, for example, a cross-sectional shape such as a box shape or a horseshoe shape.

Thus, the dam according to the present invention, the horizontal channel of the side channel joint (3), the vertical drop drain cavity (4) that extends vertically, and the waterway (5) connected to the downstream again the inner channel of the dam By installing in the building, it is possible to build a dam without being affected by the topography.

In addition, a side channel formed in the interior of the dam main body 1 is formed in the upper portion of the dam main body 1 is arranged in the horizontal direction of the dam main body 1 in the horizontal direction of the dam main body 1 Through the cavity (3), water filled up to a predetermined height flows through the trough opening (2) and into the side channel cavity (3), and then along the vertical free fall drain cavity (4) and the waterproof passage (5). It goes downstream. Thus, due to the structure that the water flows to the Yeosu channel through the water overflow opening without overflowing the dam main body 1, the dam width can be used as a road such as a bridge without having to provide a separate facility.

1 to 3, at least one intake port 13 may be formed in the lower portion of the upstream surface of the dam main body 1. Alternatively, at least one water intake may be formed in the stepped portion by integrally forming the stepped portion (not shown) protruding upstream. Thus, by forming the water intake port 13 in the dam main body 1, it is not necessary to provide a water intake tower separately in a reservoir. In addition, optionally, as shown in Figures 1 and 3, at the bottom of the dam body (1) is installed in the drain hole pipe 14 having a plurality of holes downstream of the cutout grouting portion in at least one row, This is done by filling gravel and the like around the perforated tube and coating it with concrete. The drain oil pipe 14 can reduce the positive pressure acting on the bottom surface of the dam main body 1, and by reducing the positive pressure in this way, the conduction force of the dam is reduced, so that the weight of the dam can be reduced.

On the other hand, the soil which has been dug to construct the dam and the dredged soil to increase the storage of the reservoir can be piled up on the backing soil 6 on the downstream side of the dam main body 1, so that the dam can be treated. By using the downstream surface of the dam as a soil treatment plant, the earth pressure is generated on the downstream surface of the dam to correspond to the water pressure upstream of the dam, so that the dam itself is more hydraulically and structurally stabilized, as well as the amount of concrete required for the dam body (1). It will be able to significantly reduce, the back of the dam body (1), the waterway, intake facilities, etc. are not exposed so that the environment can be environmentally friendly. In addition, the land may be used as land for leisure facilities.

4 and 5 are cross-sectional views schematically showing modifications of the upper common gravity dam according to the first embodiment of the present invention. In these figures, the amount or composition of the earth and sand treated in the downstream surface of the dam main body 1 is shown. The example which carried out the soil treatment with the slope adjusted according to this is shown. In detail, for example, if the inclination in Fig. 1 is 1: 3, it is an example in which the inclination is stacked about 1: 2.5 according to the amount of soil (less in Fig. 1) in Fig. 4, and in Fig. 5, the inclination is 1: 1.5. After laying the soil, an example of stacking stones with a slope of 1: 2.0 is shown.

6 to 8 are related to the second embodiment of the present invention. FIG. 6 is a schematic cross-sectional view of the upper common gravity dam according to the second embodiment of the present invention. FIG. 7 is an upstream of the dam body shown in FIG. 8 is a plan view showing a part of the dam main body and the waterproof path shown in FIG. 6.

As shown in these figures, the second embodiment is similar to the first embodiment described above, that is, the cross-sectional shape of the dam main body 1 is also substantially isosceles triangular, which is also a concrete gravity dam, and the dam main body 1 A plurality of water spout openings (2) installed in the upper portion of the upstream surface, and the water channel openings (3), which are connected in the longitudinal direction of the dam at the top in the water body openings (2) and the dam body (1) A vertical free fall drain cavity 4 formed in the dam main body 1 in the center of (3) and a waterproof passage 5 connected to the downstream of the dam at the bottom of the vertical free fall drain cavity 4, thereby providing a natural amount of flooding. It can be excluded or controlled by flows and additionally installed gates.

The waterproof passage 5 may have a cross-sectional shape such as a circular shape, a box shape, a horseshoe shape, etc., and the scale thereof is set to a size that can sufficiently exclude flooding amount.

In addition, the upper side of the dam body (1) is formed on the upper side of the dam body (1) in the horizontal direction of the plurality of water outlet openings 2 are formed in alignment and formed in the interior of the dam body (1) Through the waterway cavity (3), water filled up to a predetermined height flows through the water overflow opening (2) and into the waterway cavity (3), and then the vertical freeway drainage cavity (4) and the waterproof passage (5). Along the downstream.

Here, the dam width can be used as a road such as a bridge. Since the size of the dam width becomes larger in cross section of the side channel cavity 3 in the dam main body 1 according to the flood amount, the dam width can be increased according to the flood amount, and the slab of the dam well is cantilevered. The slab structure may be extended further up and down the dam.

In addition, at least one water gate 11 may be installed on the upstream surface of the dam main body 1 as shown in FIGS. The opening and closing position of the water gate 11 is preferably set to be in communication with the side channel cavity 3 under the water overflow opening 2 or in communication with the vertical free fall drain cavity 4. . 6 to 8 schematically illustrate a sluice gate type sluice, but various types of sluices used in the art may be applied. Reference numeral 12 denotes a radiation door.

On the other hand, it is possible to pile up the sediment excavated for the construction of the dam and the dredged soil to increase the storage amount of the reservoir, piled up on the backing soil (6) on the downstream side of the dam main body (1), the dam in Figure 6 An example is shown in which the soil is horizontally disposed in the middle portion of the dam main body 1 without being soiled from the top and then sloped near the water purification site. Such a soil treatment plant can be used as a facility such as a sports ground or a parking lot.

FIG. 9 is a schematic plan view of an upper common gravity dam according to a third embodiment of the present invention, which is provided at both ends of a central portion of the dam main body 1 for structural safety in the first and second embodiments. It can be seen that it can be built thicker than the part, and also it can be seen that the width of the waterway cavity (3) can also form a wider central portion corresponding to the width of the dam body (1).

On the other hand, if the deepest core portion of the river is biased to one side, unlike the above-described embodiments, the waterproof passage 5 may be arranged to be biased to one side rather than the center portion. In addition, depending on the amount of flooding can be formed inclined toward the vertical fall drain cavity (4) the side channel cavity (3).

As described above, according to the present invention, by improving the existing concrete gravity dam, it is hydraulically and structurally stable without being affected by the terrain conditions, as well as easy to theoretical analysis in design, easy construction and maintenance, while reducing the amount of concrete This will provide dams that can significantly reduce time, cost and manpower from design to maintenance.

In addition, by digging and dredging the soil in the downstream side of the dam, it is possible to increase the amount of water stored in the dam, secure the soil treatment site, and further reduce the amount of concrete in the dam body due to the earth pressure generated at the downstream side of the dam. In addition, the construction cost can be reduced, while the dam body, Yeosu channel, and intake facilities are not exposed to the outside, providing eco-friendly dams that can be used as roads such as bridges.

Claims (6)

In the concrete gravity dam, A plurality of water spout openings 2 installed on the upper side of the dam body 1, and the water channel openings 3 connected to the water spout opening 2 and the dam body 1 in the longitudinal direction of the dam in the upper part of the dam body 1; And having a vertical free fall drain cavity 4 formed in the dam main body 1 at the side channel cavity 3 and a waterproof passage 5 connected downstream from the dam at the bottom of the vertical free fall drain cavity 4. Upper joint gravity dam characterized in that. The upper common gravity dam according to claim 1, further comprising at least one water gate (11) on an upstream surface of the dam main body (1). The upper common gravity dam according to claim 1, further comprising at least one intake port (13) on an upstream surface of the dam main body (1). 2. The upper joint gravity dam according to claim 1, further comprising at least one row drain drain pipe (14) downstream from the curtain grouting portion on the bottom surface of the dam main body (1). 2. The upper co-gravity dam according to claim 1, characterized in that the sediment of the excavated soil and the dredged soil for the construction of the dam is subjected to the soil treatment on the backed soil portion (6) downstream of the dam main body (1). The method of claim 1, wherein the center portion of the dam body 1 is thicker than both ends, and the width of the center portion of the channelway cavity 3 is wider than both ends. Upper joint gravity dam characterized in that.

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