KR101979992B1 - Buoyancy dam - Google Patents

Abstract

The present invention relates to a buoyancy dam, and the lifting beam is opened from the bottom according to the water level of the river so that the river maintains a constant level and the flow of the river is made, and the earth and sand flowing into the upstream side of the lifting beam through the sedimentation index The purpose is to prevent the malfunction of the main buoyancy linkage caused by the sedimentation of sediment by discharged through the settling buoyancy linkage.
That is, in the dam, the present invention includes a main buoyancy linkage that is opened from the bottom by buoyancy according to the water level of the river, and the sedimentary exponential index continuous in the width direction of the river on the upstream side of the river upstream of the main buoyancy linkage. It characterized in that it is provided with a buoyancy buoyancy linkage to discharge the river water flowed into the sedimentation index connected to the sedimentation index by the buoyancy according to the water level of the sedimentation index on at least one side of both sides of the main buoyancy linkage It is.
Therefore, according to the present invention, the lifting beam is opened from the riverbed according to the water level of the river, the river maintains a constant water level, and the stream flow consists of the riverbed flow, and the sediment is prevented by the riverbed flow and the ecology of the river is prevented by the riverbed flow. It has the effect of preventing the operation failure of the main buoyancy linkage due to the sedimentary soil discharged by the discharged to the sedimentation buoyancy linkage through the sedimentation index to the sediment flow introduced into the upstream side of the lifting beam.

Description

Buoyancy dam

The present invention relates to a buoyancy dam, and more particularly, to a dam, which has a main buoyancy linkage which is opened from a riverbed by buoyancy according to the water level of the river, and has a river width upstream of the river upstream of the main buoyancy linkage. A sedimentary exponent forming a continuous sedimentation exponent in a direction, and the sedimentary branch discharged into the sedimentary exponent connected to the sedimentary exponent of the sedimentation index by buoyancy according to the level of the sedimentation index on one or more sides of the main buoyancy linkage The buoyancy linkage is provided, and the lifting beam is opened from the riverbed according to the water level of the river so that the river maintains the constant water level and the riverbed flow is made. The failure of main buoyancy linkage caused by the sediment of sediment discharged through the beam It will also allow for the purpose can stop.

In general, a dam is to maintain the water level on the upstream side of the river at a constant level to secure the water level so that the water can be collected.

In addition, the dam is to control the water flow during the flood to prevent damage to the downstream area due to the flood.

In addition, rivers with a certain level of water secured by dams are also used for the operation of cruise ships for the development of tourism resources.

However, the conventional dam has a problem in that the movement of fish is blocked and the ecological ring is disconnected.

In addition, the conventional dam has a problem that river flow does not flow due to the flow of the dam beyond the gate of the dam, causing sediment such as sediment, and not simply the natural river that is naturally formed by the river flow. This is just a stored vessel.

In addition, the conventional dam has a problem that its management is not easy, such as the need for the opening and closing device that is operated by a separate external power source for opening the beam and the management personnel thereof.

Patent Registration 10-0789936

Thus, the present invention is a problem that the conventional dam dams the movement of fish and the ecological environment is disconnected and the stream flows to flow over the water gate of the dam does not cause river bed flow, causing problems such as sediment, river bed It is not a natural river that is naturally formed according to the flow, it is simply a vessel in which water is stored, and the dam is required to open and open by a separate external power source for opening the beam, and to require the management personnel. The problem is that the management is not easy.

That is, in the dam, the present invention includes a main buoyancy linkage that is opened from the bottom by buoyancy according to the water level of the river, and the sedimentary exponential index continuous in the width direction of the river on the upstream side of the river upstream of the main buoyancy linkage. It characterized in that it is provided with a buoyancy buoyancy linkage to discharge the river water flowed into the sedimentary sedimentation index connected from the bottom of the sedimentation index by buoyancy according to the level of the sedimentation index on either side of the main buoyancy linkage It is.

The present invention is the buoyancy beam and the buoyancy linkage to guide the lifting of the beam from both sides of the buoyancy linkage main and buoyancy buoyancy linkage buoyancy beam is buoyant lifting according to the level of the river, the buoyancy beam is provided as a lower side of the buoyancy beam Characterized in that it comprises one or more lifting beams being pulled up and down by the pulling force according to the buoyancy lifting and the lifting hole to pull up and down the lifting beam by the buoyancy lifting force of the buoyancy beam.

The present invention is a rack gear provided to protrude upward so as not to be submerged in the upper end of the buoyancy beam and the elevating rack gear and non-immersion between the two guide frame, the pinion gear is rotated, the pinion gear and the electric It is characterized in that it is composed of a boulder wheel that is bound and rotated and a bore opening rope wound on the boulder wheel to tow the boulder.

The present invention is characterized by consisting of two lifting beams and the lifting height ratio of the first and second lifting beams according to the lifting of the buoyancy beams 1: 2: 4.

The present invention is characterized in that the buoyancy beam and the lifting beam is provided with a guide roller for smooth lifting.

Therefore, the present invention has a buoyancy link consisting of buoyancy beams, lifting beams and lifting holes to be opened from the riverbed by buoyancy according to the water level of the river, the lifting beam is opened from the riverbed according to the water level of the river to maintain a constant level of the river The effect of the stream and the flow of the river flows into the riverbed sediment is prevented and by the flow of the river has the effect of preventing the ecological environment of the stream.

In addition, the present invention forms a sedimentary sedimentation index on the upstream side of the main buoyancy linkage and provided a sedimentation buoyancy linkage to discharge the river water flowed into the sedimentation index to the sedimentary index into the sedimentation index Through the discharge of the sedimentation buoyancy linkage through it has the effect of preventing the malfunction of the main buoyancy linkage due to the settled soil.

1 is an exemplary view showing an embodiment of the present invention.
Figure 2 is a side cross-sectional view showing an embodiment of the present invention
Figure 3 is a schematic cross-sectional view showing an embodiment of the present invention
4 and 5 is a detailed illustration according to an embodiment of the present invention.

Hereinafter, described in detail by the accompanying drawings as follows.

According to the present invention, the elevation beam is opened from the riverbed according to the river level so that the river maintains a constant level and flows in the riverbed. The sediment flowing into the upstream side of the elevator beam is discharged through the sedimentation buoyancy linkage through the sedimentary sedimentation index. The term or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings to prevent the malfunction of the main buoyancy linkage due to the settled soil. In order to explain the invention in the best way, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the concept of terms can be properly defined.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, which can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

That is, in the dam, the present invention comprises a main buoyancy linkage (1), a sedimentation index (3), and a settled buoyancy linkage (2), and the main buoyancy linkage (1) and the settle buoyancy linkage ( 2) is composed of a buoyancy beam (10), lifting beams and lifting holes.

Here, the main buoyancy linkage (1) is composed of a beam frame, buoyancy beam (10), lifting beams and lifting holes are provided in the central portion of the river is opened from the riverbed by the buoyancy according to the level of the river.

In addition, the earth sedimentation exponential index (3) is formed in a channel of a lower height than the river bed continuously in the stream width direction on the stream upstream side of the river upstream of the main buoyancy linkage (1).

In addition, the sedimentation buoyancy linkage (2) is to the sedimentation index path (3) connected from the bottom of the sedimentation index by buoyancy according to the level of the sedimentation index on any one or more sides of both sides of the main buoyancy linkage (1) It is to discharge the introduced river water.

In addition, the buoyancy linkage constituting the main buoyancy linkage (1) and the sedimentation buoyancy linkage (2) is composed of a beam frame, buoyancy beam (10), lifting beams and boulder ball.

The beam frame is provided on both sides of the river or waterway, and a guide groove for guiding the lifting of the buoyancy beam 10 and the lifting beam is formed on the inner surface, and the pinion gear 42 shaft and the lifting wheel shaft supporting the lifting hole on the upper side are formed. It is provided.

The buoyancy beam 10 is installed on the water surface of the river is composed of a buoyancy box body made of a box shape to be elevated by buoyancy.

The lifting beam is provided with two or more to be sequentially overlapped to the lower portion of the buoyancy beam 10 is to be formed to overlap with the buoyancy beam 10 when opening buoyancy.

The lobe binding portion for binding the open opening rope 43 is formed on the lifting beam.

The lifting device is to pull open the lifting beam in accordance with the buoyancy rise of the buoyancy beam (10).

The elevating steel ball is raised and lowered rack gear 41 is provided so as not to be immersed between the rack gear 41 and the guide frame 30 and the rack gear 41 is provided so as not to be immersed in the upper end of the buoyancy beam (10). It is composed of a pinion gear 42 that is engaged and rotated, a lifting wheel that is rotated in rotation with the pinion gear 42 and a gait opening rope 43 wound around the lifting wheel to pull the lifting beam.

On the other hand, the lifting wheel is composed of the first lifting wheel (44a) and the second lifting wheel (44b), the first lifting beam 21 and the second lifting beam (22) according to the lifting of the buoyancy beam (10) ), The lifting height ratio of 1) is composed of two or more so as to lift and tow at 1: 2: 4.

In addition, the buoyancy beam 10 and the lifting beam can be provided with a guide roller 45 for smooth lifting.

Hereinafter, the operational effects of the application of the present invention will be described.

As described above, in the dam, the main buoyancy linkage (1), the sedimentation index (3) and the sedimentation buoyancy linkage (2), the main buoyancy linkage (1) and the settle buoyancy linkage (2) ) Consists of a buoyancy beam (10) and the lifting beam and the lifting hole, the lifting beam of the main buoyancy linkage (1) is opened from the riverbed according to the water level of the river, the stream maintains a certain level and the flow of the river It is composed of bed streams to prevent sediment and is not interrupted by riverbed ecological environment.

In addition, the present invention is the sedimentation of the riverbed through the sedimentation index road (3) formed in front of the main buoyancy linkage (1) upstream with the river water, the earth and sand introduced into the sedimentation index (3) The operation failure of the main buoyancy linkage (1) due to the sediment of the sediment discharged downstream by the lifting beam of the settling buoyancy linkage (2) buoyancy open from the riverbed to be prevented.

In addition, the present invention is the lifting device is provided so as not to be submerged between the rack gear 41 and the both side guide frame 30 is provided with a protruding upwards so as not to be submerged on the upper end of the buoyancy beam (10). Pinion gear 42 which is engaged with the rotation gear 41, the pinion gear 42 and the lifting wheel which is rotated by electric engagement with the pinion gear 42 and the gaitung rope 43 is wound on the lifting wheel to pull the lifting beam If the configuration is implemented, the rack gear 41 and the pinion gear 42 are not submerged in accordance with the buoyancy lift of the buoyancy beam 10 is prevented contamination and damage by the river floating material buoyancy of the buoyancy beam 10 Opening and closing of the elevator according to the lifting operation is made smoothly.

Further, in the practice of the present invention, the lifting beam is composed of the first lifting beam 21 and the second lifting beam 22, wherein the lifting wheel is the first lifting wheel 44a and the second lifting wheel 44b. Pinion gear 42 and 1 so that the lifting height ratio of the first lifting beam 21 and the second lifting beam 22 according to the lifting of the buoyancy beam 10 can be lifted and towed to 1: 2: 4. When the second lifting wheel is electrically coupled to rotate two rotationally and the first lifting wheel is electrically coupled to rotate four rotation, the first lifting beam 21 according to the buoyancy lifting of the buoyancy beam 10. The second lifting beam 22 is sequentially lifted and operated so that opening and closing of the beam according to buoyancy is made stable.

In addition, in the practice of the present invention, when the buoyancy beam 10 and the lifting beam is provided with a guide roller 45 for smooth lifting, the lifting of the beam is made smooth.

1: Main buoyancy linkage
2: Settlement buoyancy linkage
3: earth sedimentation index
10: buoyancy beam
21: first ascent 22: second ascent
30: guide frame
41: rack gear
42: pinion gear
43: open dog rope
44a: first lifting wheel 44b: second lifting wheel
45: guide roller

Claims (5)

In the dam;
A sedimentation index path (3) having a main buoyancy linkage (1) opened from the bottom by buoyancy according to the water level of the river, and continuous in the width direction of the river upstream of the river upstream side of the main buoyancy linkage (3) And discharges the river water introduced into the sedimentary sedimentation index (3) connected from the bottom of the sedimentation index by buoyancy according to the level of the sedimentation index on at least one of both sides of the main buoyancy linkage (1). A sedimentation buoyancy linkage 2 is provided;
The main buoyancy linkage (1) and the settling buoyancy linkage (2) is located on both sides of the frame and guides the lifting of the beam from the upper side buoyancy beam (10) buoyancy lifting according to the water level of the river, the buoyancy beam It is provided with a lower side of the (10) is composed of one or more elevators to be elevated by the traction force according to the buoyancy lift of the buoyancy beam 10 and the boulder to pull up and down the elevator by the buoyancy lift of the buoyancy beam (10) and;
The elevated steel ball is a raised and lowered rack gear 41 provided so as not to be submerged between the rack gear 41 and the two guide frame 30 protruding upward so as not to be submerged on the upper end of the buoyancy beam (10) and A pinion gear 42 that is engaged and rotated, a lift wheel that is electrically engaged with the pinion gear 42 to be rotated, and a walk-open rope 43 wound around the lift wheel to pull the lift beam;
The lifting beam is composed of the first lifting beam 21 and the second lifting beam 22 and the lifting wheel is the first lifting beam 21 and the second lifting beam 22 according to the lifting of the buoyancy beam 10. It consists of a second elevating wheel that is electrically engaged by two rotations with respect to one rotation of the pinion gear 42 and a first elevating wheel that is electrically engaged with four rotations so that the elevating height ratio of the gear can be elevated and towed at 1: 2: 4. and;
The buoyancy beam 10 and the lifting beam is a buoyancy dam, characterized in that it is provided with a guide roller 45 for smooth lifting.
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