KR101318791B1 - Variable rope supporting type floating solar power plant - Google Patents

Abstract

PURPOSE: A variable rope supporting type floating photovoltaic power generating device is provided to prevent a floater from being drifted by stopping a winding drum when wind pressure is generated over a preset reference. CONSTITUTION: A support member (30) includes a support rope (31) and a winding drum (32). One side of the support rope is fixed under the water. The winding drum controls the length of the support rope. A tension sensor (40) senses the tension of the support rope. A wind pressure sensor (50) senses the velocity of the wind around a floater.

Description

VARIABLE ROPE SUPPORTING TYPE FLOATING SOLAR POWER PLANT}

The present invention relates to a variable rope-supported water-based photovoltaic device, and more particularly, comprising a support rope and a winding drum for winding the support rope as a support means for supporting a floating body on which a photovoltaic facility is installed. In addition, through the tension sensor to detect the tension of the support rope and the control unit for controlling the operation of the winding drum, it is possible to support the floating body ascending and descending according to the water level with a constant tension, as well as a wind speed sensor for sensing the wind speed The present invention relates to a variable rope-supported water-based photovoltaic device capable of preventing the floating body from drifting by stopping the operation of the winding drum even when the tension of the support rope changes when the wind pressure is generated by a strong wind or a typhoon.

As pollution of the natural environment is intensifying, much research is being conducted on the development of eco-friendly power generation facilities that can obtain electricity using eco-friendly energy. More specifically, from solar power, wind power, and geothermal power generation, Beyond the level of obtaining a small amount of electricity, research is being made to replace the electricity produced by the conventional power plant.

In this regard, solar power generation facilities have been widely used in recent years. In order to supplement the electric energy obtained through the existing power generation means with the solar power generation facilities, the solar power generation facilities have to be installed on a large scale. For this purpose, there is a problem that a large flat land is required.

In order to solve this problem, many attempts have recently been made to install photovoltaic power generation facilities on a large surface.

1 illustrates a water-based photovoltaic device according to the prior art. Referring to FIG. 1, the water-based photovoltaic device according to the prior art includes a floating body 1 formed to float on the surface with a predetermined size, and the The solar power plant 2 installed on the upper surface of the floating body 1 and one end 3a is fixed to the underwater bottom surface by the anchor 4 so as to support the floating body 1 in the water phase and the other end. (3b) is composed of a support rope (3) fixed to the float (1).

However, in the conventional art as described above, when the water level is lowered, the support rope 3 is loosened so that the floating body 1 cannot move and fix its position according to the flow rate. When the power generation efficiency of the problem is greatly reduced, and when the water level rises above a certain level, there is a concern that the support rope 3 is sheared due to excessive tension in the support rope 3.

In order to solve the problems of the prior art as described in the prior art Patent No. 10-1162473 (Registration Date: 2012.06.27) has been proposed "aquatic photovoltaic power generation system with a variable support rope".

Figure 2 illustrates another offshore solar cell apparatus according to the prior art disclosed in the specification of the Patent No. 10-1162473.

Referring to Figure 2, another prior art water-based photovoltaic device is a floating body 10 'is formed to be floating on the surface with a predetermined size area, and the sun is installed on the upper surface of the floating body 10' The floating body 10 'is fitted to be guided to the photovoltaic facility 20', the pulley part 30 'installed at a predetermined interval on the edge of the floating body 10', and the pulley part 30 '. Fixing) but one end is connected to the anchor (50 ') is installed on the bottom of the underwater and the other end is composed of a support rope (40') connected to the tension maintenance weight 60 '.

However, the other prior art as described above has a fear of drifting when wind pressure occurs due to strong wind or typhoon.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to adjust the length of the support rope to the tension acting on the support rope, that is, by varying the water level by floating body and photovoltaic equipment Is to provide a variable rope-supported water-based photovoltaic device that can be stably supported in the water phase, but when the wind pressure is generated above the standard to fix the length of the support rope to prevent the float floating.

In accordance with one aspect of the present invention, a variable rope-supported water photovoltaic device includes: a float formed to float on a water surface with a predetermined size; A photovoltaic power generation facility installed on an upper surface of the floating body; Support means for supporting the float in the water phase; In the water-based photovoltaic device comprising, the support means, a plurality of support ropes, one side end is fixed to the bottom surface of the water, and a plurality are installed on the edge of the floating body and the other end of the support rope is connected A tension sensor for winding a support rope and including a winding drum for adjusting a length of the support rope, and detecting a tension of the support rope; A wind speed sensor for sensing wind speed around the floating body; Even if the water level is changed, the operation of the winding drum is controlled according to the tension of the support rope detected by the tension sensor so that the support rope maintains a constant tension. A control unit for stopping the operation of the winding drum; And further comprising:

In addition, the variable rope-supported water-based photovoltaic device according to the present invention, the tension sensor is connected to the suspension of the support rope is tensioned and compressed by elastic force in accordance with the tension acting on the support rope, the length is changed. The buffer spring being tensioned, the first limit switch generating tension upper limit signals when the buffer spring is tensioned and having a length greater than or equal to the set value, and generating a tension lower limit signal when the buffer spring is compressed and smaller than the set value. And a second limit switch, wherein the control unit controls the operation of the winding drum to release the support rope by a predetermined length when the upper limit signal is received from the first limit switch, and the second limit switch When receiving the tension lower limit signal in the control the operation of the winding drum to wind the support rope by the set length And that is characterized.

The variable rope-supported water photovoltaic device according to the present invention by the configuration as described above has the advantage that the support rope can support the floating body with a constant tension by operating the winding drum according to the water level by detecting the tension of the support rope. In this case, when a certain wind pressure such as a strong wind or a typhoon is generated, the floating drum may be stopped to prevent the floating body from drifting.

1 is a side view of a water-based photovoltaic device according to the prior art
Figure 2 is a side view of a water-based photovoltaic device according to another prior art
Figure 3 is a side view of a variable rope-supported water-based photovoltaic device according to an embodiment of the present invention
4 is a plan view of a variable rope-supported water-based photovoltaic device according to an embodiment of the present invention

Hereinafter, with reference to the embodiment shown in the drawings will be described in detail the variable rope-supported water-based photovoltaic device according to the present invention.

Figure 3 is a side view of a variable rope-supported water based solar power device according to an embodiment of the present invention, Figure 4 is a plan view of a variable rope-supported water based solar power device according to an embodiment of the present invention.

Looking at the drawings, the variable rope-supported water-based photovoltaic device according to an embodiment of the present invention is a floating body 10, the photovoltaic power generation equipment 20, the support means 30, the tension sensor 40 ), A wind speed sensor 50, and a control unit 60.

In the embodiment of the present invention, the floating body 10 is formed so as to float on the surface with an area of a predetermined size, and the plurality of floats 11 made of styrofoam and the like are connected to each other by the support 12. As shown in the figure, the plane has a square shape and is provided to be floating on the water surface.

On the other hand, the photovoltaic power generation equipment 20 is installed on the upper surface of the floating body 10, the winding drum 32 as the support means 30 is installed at each corner of the floating body 10 is the winding The other end of the support rope 31 is connected to the drum 32.

The photovoltaic facility 20 is installed on the upper surface of the floating body 10 in a configuration including a photovoltaic module for converting solar energy into electrical energy and a capacitor for storing electricity generated by the photovoltaic module. .

The support means 30 is configured to support the floating body 10 in the water phase, and in one embodiment of the present invention includes a support rope 31 and a winding drum 32.

The support rope 31 is composed of a total of four to support each corner of the floating body having a rectangular planar shape in one embodiment of the present invention, one end is connected to the anchor 33 is fixed to the bottom surface underwater The other end is connected to the winding drum 32 provided at each corner of the floating body 10 so as to be wound, and its length is adjusted according to the change of the water level, and the floating body 10 is fixed to the water phase with a constant tension. It is a supporting structure.

 The winding drum 32 is composed of a total of four in each corner of the edge of the floating body 10 in one embodiment of the present invention is connected to the other end of the support rope 31 wound the support rope 31 The operation is controlled by the control unit 60 to rotate in the forward and reverse directions to adjust the length of the support rope 31.

The tension sensor 40 is configured to detect the tension of the support rope 31 and to transfer to the control unit 60 in the embodiment of the present invention buffer spring 41 and the first limit switch 42 And a second limit switch 43.

The shock absorbing spring 41 is connected to the middle of the support rope 31 is tension and compression by the elastic force in accordance with the tension acting on the support rope 31 is a configuration that is changed in length.

That is, when the water level is continuously changed up and down within a predetermined range by the influence of wind, etc. by the configuration of the buffer spring 41, the winding drum 32 is operated to change the length of the support rope 31. The tension acting on the support rope 31 can be adjusted so as to be constant even without making it work.

The first limit switch 42 is configured to generate a tension upper limit signal when the shock absorbing spring 41 is stretched and has a length greater than or equal to a set value. In the embodiment of the present invention, the shock absorbing spring is illustrated in FIG. 3. It is provided in the cylindrical housing 43 having a length longer than the length of the (41) is provided when the buffer spring 41 is stretched to a predetermined value or more, that is, the tension acting on the support rope 31 is a predetermined value or more In this case, the contact is connected and configured to generate an upper tension signal.

The second limit switch 43 is configured to generate a tension lower limit signal when the buffer spring 41 is compressed and has a length less than or equal to the configuration of the first limit switch 42. In one embodiment, as shown in FIG. 3, when the shock absorbing spring 41 is compressed inside the cylindrical housing 43, the tension applied to the support rope 31 is constant. If it is less than the value, the contact is connected and configured to generate the tension lower limit signal.

The wind speed sensor 50 is a configuration for detecting the wind speed around the floating body 10 is configured to detect a case where a strong wind pressure such as a strong wind or typhoon acts on the floating body 10.

The control unit 60 is wound according to the tension acting on the support rope 31 sensed by the tension sensor 40 and the wind speed around the floating body 10 sensed by the wind speed sensor 50. It is a structure for controlling the operation of the drum 32.

That is, the control unit 60 is the winding drum 32 according to the tension of the support rope 31 sensed by the tension sensor 40 so that the support rope 31 maintains a constant tension even if the water level is changed. It is configured to control the operation of the present invention, in the embodiment of the present invention, the control unit 60 to reduce the tension acting on the support rope 31 when the upper limit signal is received from the first limit switch 42 Control the operation of the winding drum 32 to loosen the support rope 31 by a predetermined length so that the support rope 31 is loose when the second limit switch 43 receives the tension lower limit signal. It is configured to control the operation of the winding drum 32 to wind the support rope 31 by a set length to tension it.

In addition, the controller 60 is configured to stop the operation of the winding drum 32 when the wind speed is detected by the wind speed sensor 50 or more than a set value.

That is, the control unit 60 is the support rope 31 by the strong wind pressure acting on the floating body 10 in a situation such as a typhoon when the wind speed is detected by the wind speed detection sensor 50 or more than a set value. When the winding drum 32 releases the support rope 31 by increasing the tension applied to the floating rope, the floating body 10 may drift. Thus, when the strong wind pressure is applied, the winding drum ( It is configured to stably support the floating body 10 in the water phase by stopping the operation of the 32 and adjusting the tension acting on the support rope 31 only by the elastic force of the shock absorbing spring 41.

The variable rope-supported water photovoltaic device described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

10 floats
20 PV Plant
30 Support means
31 support rope
32 winding drums
33 anchor
40 tension sensor
41 Shock Spring
42 first limit switch
43 second limit switch
44 cylindrical housing
50 Wind Speed Sensor
60 control unit

Claims (2)

A float formed to float on the surface with a predetermined size; A photovoltaic power generation facility installed on an upper surface of the floating body; Support means for supporting the float in the water phase; In the water-based photovoltaic device to include,
The support means includes a plurality of support ropes having one end fixed to the bottom surface of the water, and a plurality of support ropes installed at the edge of the floating body and connected to the other end of the support rope to wind the support ropes, and the length of the support ropes. Consists of a winding drum that can be adjusted,
A tension sensor for sensing the tension of the support rope;
A wind speed sensor for sensing wind speed around the floating body;
Even if the water level is changed, the operation of the winding drum is controlled according to the tension of the support rope detected by the tension sensor so that the support rope maintains a constant tension. A control unit for stopping the operation of the winding drum; Variable rope-supported water photovoltaic device further comprising. The method of claim 1,
The tension sensor is connected to the suspension of the support rope is tensioned and compressed by an elastic force in accordance with the tension acting on the support rope and the buffer spring is changed in length, and the buffer spring is tensioned to a length greater than a set value And a first limit switch for generating an upper tension limit signal, and a second limit switch for generating a tension lower limit signal when the buffer spring is compressed and has a length less than or equal to a predetermined value.
The control unit controls the operation of the winding drum to release the support rope by a predetermined length when the upper limit signal is received from the first limit switch, and supports the lower limit signal when the lower limit signal is received from the second limit switch. The variable rope-supported water photovoltaic device, characterized in that for controlling the operation of the winding drum to wind the rope by a set length.

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