KR200144748Y1 - Structure of Prefab Tidal Power Plant Submersible Dam - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

It is about submersible dam of prefabricated tidal power plant.

2. The technical problem the invention is trying to solve

By installing the installation location of the generator in a suitable position to ensure smooth power generation, while the conventional power generation at the low tide at the same time at the same time at the same time by using an equal force at the same time as a positive power generation to ensure the stability of the entire dam structure, In addition, it is intended to economically solve the basic ground formation of the seabed by using the blank wall plate construction method on the section of when entering the dam.

3. Summary of solution of design

The generator 6 is installed on the seabed between the piers 1 to lower the installation position of the generator 6 to ensure smooth power generation and stability in the dam structure, and at the same time to allow pumping power generation. Then, the seabed ground, which is the foundation of the pier (1), was chopped with talc (9a), and the large creed (9b) was poured thereon to improve workability.

4. Important uses of the devise

Dam of tidal power plant

Description

Structure of Prefab Tidal Power Plant Submersible Dam

1 is a cross-sectional view of the submersible dam of the prefabricated tidal power plant of the present invention.

2 is a cross-sectional view showing another embodiment of the submerged dam structure of the present invention.

3 is a cross-sectional view of the dam access road when the dam assembly of the present invention.

4 is a cross-sectional view showing a conventional prefabricated tidal power station dam.

Figure 5 is a perspective view showing a state in which the tide blocking blank wall plate is assembled in the piers according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Pier 2: Home

3: blank wall for tidal blocking 4: crane

5: power generation room 6: generator

7: raceway 8: floor pallet

9: bottom foundation member 9a: talc

9b: concrete 10: ceiling pallet

11: wall 12: blank wall for tidal blocking (deep sea)

The present invention relates to a submerged dam of tidal power plant that allows the efficient use of the tidal difference of seawater to generate power. More specifically, it is possible to install the structure easily by prefabricating all structures and to make the tidal difference appropriately. The main focus is on pumping power generation (simultaneous generation at high and low tide).

The structure of a conventional prefabricated tidal power plant dam has been previously proposed by the applicant of the Korean Patent Publication No. 90-268 by the present applicant, the present invention is to provide an improved design for the own patent proposed as above.

Looking at the structure of the conventionally proposed dam, as shown in Figure 4, the bottom pallet 3 of the power generation chamber 2 on the upper surface of the pier (1) to build a lower box than the low water level (H ₁ ) Assembling and constructing the power generation room (2) of the power, the assembly 4 is constructed so that the ceiling (4) of the power generation room ( ₂ ) is higher than the high water level (H ₂ ) to generate electricity by the help of the force generated from the fall of the tidal wave The hollow wall wall grooves in which the tidal wall blocks for tidal current blocking (5) are cut into the piers (1) in the lower part of the floor pallet (3) of the power generation room (2) to ensure that the power generation is more sure. (6) to assemble so that the water level of the sea level does not fall below the bottom pallet (3) of the power generation chamber (2), and then the raceway (8) drilled in the wall plate (7) of the power generation chamber (2) installed on the pier (1). Through the ebb tide was to move with a huge force to make the development, all the structures are assembled By enabling, the precipitated to improve the economical efficiency such as cost reduction and shortened, Ltd.

On the other hand, according to the conventional dam structure, the installation position of the generator 9 is installed between the difference between the high tide and the low tide level, and is installed at a high position above the piers 1. When the generator 9 is large in proportion to, there is a problem that the force is applied to the pier (1), the stability of the overall structure is lowered, the power generation capacity is reduced only by the low tide, and also the hydraulic capacity In consideration of the side, it was found that it is desirable to install the position of the generator 9 on the sea floor as low as possible, and this proposal solves this point at the same time and facilitates the seabed foundation work for the pier installation at low cost. It was proposed to do.

Hereinafter, the configuration will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic cross-sectional view showing an embodiment of the present invention, and FIG. 5 is a perspective view showing a state in which a tide block blank board is assembled in a pier according to the present invention, and reference numeral 1 denotes a pier for dam installation.

The pier 1 is provided in the longitudinal direction of the dam at a predetermined interval, and the tide blocking blank paper wall plate 3 for blocking the tidal current is provided in the groove 2 on the inner and outer surfaces of the proximal portions of both ends of the pier 1. It is fitted and assembled.

On the other hand, the tide blocking blank wall plate (3) is of a predetermined size to easily fit in the groove (2) of the piers 1 by a crane (4) installed on the top of the piers (1) for construction during assembly work It is composed of a plurality of both ends are fitted into the groove (2) of the pier (1) is coupled.

Thus, the tide-blocking blank paper wall plate 3 is inserted into the grooves 2 formed on both the left and right sides of the pier 1 to be assembled to form a box-shaped power generation chamber 5 sealed inside.

In addition, the inside of the power generation chamber 5 is formed by dividing the wall 11 into a central portion and divided into two, and the generator 6 is installed at one side, and corresponding to the generator 6, the tide blocking blank wall plate 3 A portion of the raceway 7 is drilled so that water (sea water) moves through the raceway 7.

In addition, the bottom pallet 8, which is the bottom surface of the power generating chamber 5, is installed at the lower part of the pier 1, and the bottom pallet 8 has an empty shape inside, and is located at the bottom of the pier 1. In the jaw between the piers (1).

Reference numeral 9 denotes a base member formed at the bottom of the floor pallet 8, and since the base member 9 is actually constructed on the sea floor, the construction cost due to subsea construction is difficult when using the caisson method as in the prior art. And as the air is enormously consumed, the underlying foundation of the lower portion is first made of talc (9a) to form the ground, and then the concrete (9b) is placed on top of the structure.

In addition, the upper part of the pier (1), that is, the upper part of the power generation chamber (5) is covered to cover the ceiling pallet (10) to be configured to be a number of days (til water road) in the tsunami.

Meanwhile, in the above embodiment, the floor pallet 8 is installed at the bottom of the pier 1, and the generator 6 is installed at the top thereof. Corresponding to the size (capacity) of the power generation chamber (5) can be installed to the upper part, which will be said to belong to the scope of the present invention.

FIG. 2 shows another embodiment of the present invention. When the dam is installed in the deep sea, as shown in FIG. 2, the pier 1 is brought into contact with the bottom of the bottom pallet 8. It extends long and installs a separate tide block blank wall plate 12 at the lower center of the floor pallet 8.

In the configuration of FIG. 2, when the dam is installed in the deep sea, the installation height of the power generation chamber 5 is configured to be at the same height as the above-described embodiment of FIG. 1, but the tide blocking blank board 12 at the bottom thereof. It is to install tide to block the tide, it is a suitable configuration when installing a dam in the deep sea.

In the figure, reference numeral 4a denotes a crane used to lift or lower the generator 6, where H ₁ represents a low water level and H ₂ represents a high water level.

Looking at the effect of the effect on the structure of the subject innovation of the present invention as an example as follows.

First, the bottom of the sea is chopped with talc (9a) to form the ground, and then the foundation concrete (9b) is poured on the upper part to form the foundation member (9), and then using the crane (4) installed on the roof piers (1) Lay the floor pallet (8) in between, insert the tide block blank board (3) into the groove (2) of the piers (1) to assemble, and then assembled and installed the generator (6) and ceiling pallet (10) in order The plant dam is complete.

On the other hand, the dam of the present application in this way is a tide block blanking wall plate (3) installed in the grooves (2) on both sides of the pier (1) intercepts the seawater from the seabed to the top of the high water level to block the seawater, so It naturally moves through the raceway 7 drilled in the lower portion of the blank wall plate 3 and is supplied to the generator 6 installed inside the power generation chamber 5, whereby the generator 6 is continuously generated by the moving force of the tides. This can produce electricity.

In addition, in the present invention, since the raceway 7 and the generator 6 are installed at a low position of the seabed, in terms of hydraulics, the flow rate is increased and the amount of power generated is increased, and the heavy weight generator 6 Is installed at the bottom, which brings the effect of giving stability to the entire structure.

In addition, the most ideal in tidal power generation is dual power generation by rotating the automatic generators at the time of low tide and high tide.In the case of high tide, huge waves are coming from the ocean. Can be greatly reduced.

Claims (3)

A base member 9 is formed at the lower part of the pier 1 to support the pier 1, and a plurality of tide blocking blanks are formed in the grooves 2 formed on both sides of the pier 1 and the pier 1. The wall plate (3) is assembled and sealed on all sides and the ceiling pallet (10) is covered on the upper end of the structure is a sealed structure capable of positive power generation is composed of a box-type power generation chamber (5), inside the power generation chamber (5) The central part is blocked by the wall 11 and is divided into two parts, and one side of the tide block blank wall plate 3 is provided with a raceway 7 which is a flow passage of water (sea water) and the raceway ( 7) The structure of the prefabricated tidal power plant submersible dam, characterized in that the generator (6) is installed in the vicinity of the bottom pallet (8) laid in the lower portion of the power generation chamber (5). 2. The submersible dam of the prefabricated tidal power plant according to claim 1, characterized in that a separate tidal barrier blank 12 is installed at the bottom of the bottom pallet 8 according to the sea depth (depth of the sea). rescue. 2. The prefabricated tidal power plant submerged dam according to claim 1, wherein the lower base member (9) of the bridge (10) is grounded by a talc (9a), and the concrete (9b) is poured on top of it. Structure.