KR101160798B1 - Shock absorbing type solar power plant on the water - Google Patents

Abstract

PURPOSE: A buffered aquatic renewable energy solar power generation facility is provided to reduce maintenance costs by safely protecting the energy solar power generation from the collision of flotsam. CONSTITUTION: A solar power generation module(10) is installed at the upper side of a pontoon(11). A buffer unit body(20) surrounds generating electricity facilities. The buffer unit body is arranged as a closed curve shape. A plurality of strength wires(30) interlinks the buffer unit body and the pontoon. The plurality of strength wires is arranged in all directions. A turn buckle(31) is installed inside the plurality of strength wires. A state of tension of the plurality of strength wires is controlled according to the rotation of the turn buckle.

Description

SHOCK ABSORBING TYPE SOLAR POWER PLANT ON THE WATER}

The present invention is a plurality of plate-shaped solar cell module (solar cell module) (10) is installed on the pontoon (11) above the water-based photovoltaic facility is built floating on the water (floor) In this regard, a plurality of shock absorbing bodies 20 surrounding the pontoon 11 or the combination of the pontoons 11 in which the photovoltaic module 10 is installed are constituted, and these buffering bodies 20 and the pontoons are constructed. (11) is connected to a plurality of tension lines (30) but the planar tension lines (30) to have a radial structure to protect the power plant from the collision of drift (漂流). .

Due to the depletion of fossil fuels and environmental pollution, there is a growing interest and demand for renewable energy, which is a clean energy made in the natural state.

Solar energy is a representative renewable energy, and in the case of photovoltaic power generation using solar cells, it is not only suitable for both large capacity and small capacity generation, but also has an advantage of easy installation and maintenance, and has been applied to various fields. .

Since the amount of power generation is proportional to the installation area of the power generation facilities under the same sunshine conditions, it is important to secure the construction site for the power generation facilities. In order to solve problems such as rising construction costs, there are increasing cases of building solar power generation facilities in appeals such as reservoirs, rivers, oceans and coastal waters.

In particular, a solar cell constituting a solar power generation facility is a kind of photovoltaic device, which has a characteristic that the power generation efficiency decreases as the temperature rises, and thus it is common to provide cooling means. In the case of cooling water also has the advantage of easy.

As described above, the water-based photovoltaic power generation facilities have a number of advantages such as ease of site acquisition, construction cost reduction, and easy securing of cooling water. Have

In particular, as in Korea, most of the yearly rainfall is concentrated during the summer season, and the flood conditions are rapidly increasing due to the flooding of all water installation facilities such as lakes, coastal waters, lakes, natural lakes and artificial reservoirs. And free from collisions of drifts.

As a conventional means for protecting a power plant from collision of drifts, it is possible to consider a method of attaching a cushioning material attached to a ship hull or a harbor berth to a power plant. There is a problem that is mostly delivered to the facility.

For this reason, it is possible to consider installing fixed or floating barriers around the photovoltaic power plant.However, fixed barriers may not only cost excessive construction costs, but may also adversely affect the river and appeal environment after construction and completion. Large, floating barriers can not expect a sufficient blocking effect, there is a serious problem that the barriers cause secondary collision in the power plant after the drift hit the barrier.

The present invention was devised in view of the above-described problems, and in a water-based photovoltaic power generation facility in which the photovoltaic module 10 is installed on the pontoon 11, a plurality of buffer units 20 are closely coupled. Surrounding the pontoon 11, the combination of the plurality of buffer unit 20 in the plane is arranged in the form of a closed curve (완충),), the buffer unit 20 and the pontoon 11 is a plurality of tension lines 30 in a tension state Connected. A plurality of tensile lines 30 on the plane is a buffer type new renewable energy photovoltaic power generation facility, characterized in that arranged in a radial manner.

In addition, the tension line 30 is a buffer buckle type new renewable energy photovoltaic power generation facility, characterized in that the turnbuckle 31 is installed inside the tension line 30 to adjust the tension of the tension line 30 as the turnbuckle 31 rotates. .

Through the present invention, it is possible to safely protect the water-based photovoltaic power plant from the impact of the drift, thereby reducing the maintenance cost of the water-based photovoltaic power plant, it is possible to obtain the effect of increasing the amount of power generation by extending the operating period.

In addition, in selecting the installation point of the water photovoltaic power generation facilities, it is possible to relax the constraints due to the possibility of collision of drift, thereby achieving the effect of promoting the spread of photovoltaic power generation.

1 is a diagram illustrating an embodiment of a use of the present invention.
Figure 2 is a plan view of one embodiment of the present invention
Figure 3 is a perspective view of the main portion of the present invention
4 is an explanatory view of the behavior of the present invention during a drift collision
5 is a plan view of an embodiment of the present invention in which the buffer body is arranged in a circular shape

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A detailed configuration of the present invention will be described with reference to the accompanying drawings.

1 is a representative cross-sectional view showing a state of use of the present invention, Figure 2 is a plan view of the embodiment, as shown in these figures, the present invention provides a pontoon (11) to provide buoyancy to the power plant Installed on top of the pontoon 11, the solar cell module 10 for generating power, the buffer unit 20 surrounding the power generation facilities such as the pontoon 11, the buffer unit 20 and the pontoon ( 11) is composed of a tensile line 30 connecting the same.

The present invention can be installed in the water in a variety of ways, such as mooring, drift or partially fixed, such as other water-based photovoltaic power generation facilities, the power generation facilities will be accompanied by the elevation of the water.

In the embodiment shown as an elastic body having a buoyancy buoyant tire applied to the present invention, the waste tire was applied, as shown in Figure 3, in order to express a sufficient buffering effect and buoyancy, the waste tire is multi-layered It can also be used in combination.

As shown in FIG. 2, in the buffer body 20 of the present invention, a plurality of unit buffer bodies 20 are tightly coupled to form a linear combination of the buffer body 20. The assembly is disposed in the form of a closed curve while surrounding the pontoon 11 in which the photovoltaic module 10 is installed.

In the embodiment shown in FIG. 2, the combination of the buffer unit 20 is formed in a planar quadrangular shape, and the buffer unit 20 and the pontoon 11 are connected by a plurality of tension lines 30.

Since the tension line 30 connecting the buffer unit 20 and the pontoon 11 is installed in a tension state to which tension is applied, it is preferable that the tension line 20 is made of a high-strength wire such as a forced wire rope, and as shown in FIG. It is arranged radially.

In the method of applying the tensile force to the tension line 30, in the process of connecting the pontoon 11 and the buffer body 20, the winding portion of the tension line 30 is formed at the connection portion and wound using a tool such as a torque wrench. A method of rotating a part or a method of applying a tensile force through a hydraulic device or the like may be applied. As shown in FIG. 3, a turnbuckle 31 is installed inside the tension line 30 to draw a tension line 30. After connecting the buffer unit 20 and the pontoon 11 may be applied a tensile force by rotating the turnbuckle (31).

In particular, when the turnbuckle 31 is applied, the tension state of the tension line 30 can be freely adjusted, and additional tension is not only easily used during the use of the power generation facility, but also maintenance work such as replacement and establishment of the tension line 30. There is also an easy advantage.

4 is an explanatory diagram illustrating the mechanical behavior of the present invention during a drift collision, and as shown in the upper view of the figure, of the buffer body 20 including the pontoon 11 and the pontoon 11 shown on the left side. The combination can be simplified in the form shown on the right and exhibits the same deformation state as in the lower figure of the figure upon collision of the drift.

As shown in the lower view of Figure 4, it can be seen that the compressive force may act on the tension line 30 of the drift impact point, but the tensile force is applied to all the remaining tensile lines 30, in fact, the tension of the drift impact point The compression-side deformation at line 30 is suppressed to a slight level.

Therefore, the impact shock of the drift due to the buffering effect of the buffer body 20 is eliminated while the deformation of the entire buffer body 20 combination and the movement of the pontoon 11 are suppressed as much as possible.

This buffering and deformation suppression effect can be maximized when the combination of the buffer body 20 is arranged in a circular shape, as shown in FIG.

Through the present invention as described above, it is possible to safely protect the water-based photovoltaic power plant from the impact of the drift, thereby mitigating constraints due to the possibility of collision of the drift in selecting the installation point of the water-based photovoltaic facility. .

10: solar power module
11: pontoon
20 buffering body
30: tensile line
31: turnbuckle

Claims (2)

In the water-based photovoltaic power generation facility installed a photovoltaic module (10) above the pontoon (11),
A plurality of buffer units 20 are tightly coupled to form a linear combination of the buffer units 20, while the linear combination of the buffer units 20 surrounds the pontoon 11 in which the photovoltaic module 10 is installed. Arranged in a closed curve shape;
The buffer unit 20 and the pontoon 11 is connected to a plurality of tension lines 30 in a tension state. A plurality of tension lines (30) on the surface of the buffer type water-based renewable energy solar power plant, characterized in that arranged in a radial (放射 狀).
The method according to claim 1, wherein the tension line 30 is installed inside the turnbuckle 31 is buffered water phase renewable energy, characterized in that to control the tension state of the tension line 30 as the turnbuckle 31 rotates Power generation facilities.

Images