KR101792742B1 - floating unit mooring apparatus for solar light power generating device - Google Patents

Abstract

A mooring apparatus of a buoyant body unit of an on-water solar power system according to the present invention includes: buoyant body units floating on the water on which solar power generation modules are installed; guide piles installed vertically between the buoyant body units or on a side corresponding to one side; a main frame surrounding an outer circumferential surface of the guide pile; a connection frame connecting the main frame and the buoyant body units; a plurality of guide roller units installed on the main frame and contacting an outer circumferential surface of the guide pile; and a second elastic supporting unit installed on the connection frame and the buoyant body unit and absorbing a horizontal feed force.

Description

The present invention relates to a floating unit mooring apparatus for a solar photovoltaic power generating apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation apparatus, and more particularly, to a buoyancy unit unit mooring apparatus for a water-state photovoltaic power generation apparatus improved in a supporting structure of a buoyancy unit for installing a solar power generation apparatus, .

Photovoltaic power generation (PV), which uses solar cells (solar modules) to convert light energy into electrical energy, is a non-polluting energy source that does not cause greenhouse gas emissions, noise, or environmental destruction. This solar power generation is self-procurement without being dependent on the import of fossil fuels, so it is advantageous from the aspect of energy security, so the environmental problem facing mankind is the sustainable renewable energy that can replace the fossil fuel Various studies are underway.

 In particular, solar power generation is one of the new and renewable energy fields, because it can be installed regardless of region or scale, and is very cheap in maintenance cost, unlike wind power and crude power generation, .

However, solar power requires a certain area to collect sunlight. In the case of solar power generation on the ground, it is necessary to install a solar module in addition to a building, and there is a restriction on inclination, azimuth angle, temperature, shade, etc. Therefore, It requires a large area. Therefore, in order to solve the problems of the area-intensive photovoltaic power generation industry in a narrow country, a water floating solar power structure construction method is being implemented so that a solar module can be installed on a water surface. The floating floating solar power generation is to install the solar module on the water using the idle sleep of the lake, the dam, the reservoir and the sea as a resource.

Korean Patent Registration No. 1392156 discloses a supporting structure of a photovoltaic power generation device, and Korean Patent Registration No. 14218890 discloses a floating solar power generation mooring system. Korean Patent Registration No. 1410372 discloses a water facility mooring device for a file guide.

The posted mooring device has a structure in which an outer frame of the file guide is enclosed and an inner frame is provided with an elevating frame in which rotating rollers rotating in contact with the outer surface of the file guide are arranged at regular intervals.

Korean Patent Registration No. 1613067 discloses a water guide mooring device for a file guide, and Korean Patent Registration No. 1026541 discloses an up-and-down flow device for mooring fluid.

The disclosed upper and lower flow apparatuses include a file guide unit including a plurality of file members spaced apart from each other by a predetermined distance apart from the upper fluid and having a lower end inserted into the underwater floor; And a connection unit installed in the upper fluid and moving up and down along the pile guide part to guide the up and down direction of the upper fluid and prevent the upper fluid from swinging back and forth or in the left and right directions.

The Korean Patent Registration No. 1312209 shows a floating guide for piling floating structures, and the Japanese Utility Model Registration No. 3076168 shows a piling device of a floating bridge. In Japanese Patent Registration No. 5191432, A floating bridge and a method for alleviating fluctuation using this method are disclosed.

The posted pivotal relief device comprises a pillar and a fluid guided by the pillar and is a slider for slidably supporting the fluid against the pillar, a roller which rotates against the pillar and a dome along the roller And a damper including a damper for damping the rotational force of the roller.

Since the conventional mooring devices constructed as described above can not easily absorb the displacement amount with respect to the amount of positional displacement when the buoyant body or the fluid moves up and down and can not absorb the rotational displacement when the buoyant body or the fluid swings or swings, There is a problem that it is not done. Particularly, in the conventional mooring device, since the frame provided with the guide roller is fixed to the mooring device, tilting displacement (rotational displacement) can not be sufficiently absorbed by wave or strong wind.

Korea Patent No. 1613067 Korea Patent No. 1026541 Korea Patent No. 1312209 Japanese utility model registration No. 3076168 Japanese Patent No. 5191432

The present invention provides a buoyancy unit unit for supporting a buoyancy unit for installing a photovoltaic power generation device and capable of absorbing up and down and impact force of a buoyancy unit swinging or rocking, Device.

According to another aspect of the present invention, there is provided a buoyancy unit unit mooring device for a water-based photovoltaic power generation system capable of absorbing lift and tilting forces of a buoyancy unit, have.

According to an aspect of the present invention, there is provided a buoyancy unit unit mooring device for a water-based photovoltaic power generation system, comprising solar power generation modules installed in the buoyancy unit units, A main frame for enclosing an outer circumferential surface of the guide file, a connection frame for connecting the main frame and the buoyancy unit, and a plurality of guide frames provided on the main frame, And a file guide unit provided with guide roller units and an elastic support unit installed in the connection frame and the buoyancy unit for absorbing a horizontal feed force.

In the present invention, the connecting frame or the resilient supporting unit may further include a rotational force absorbing unit installed between the connection bracket and the fluid float to absorb the rotational force of the buoyancy unit with respect to the file guide unit.

The buoyancy unit unit mooring device of the water-state photovoltaic generation apparatus of the present invention is guided to the guide pile according to the change of the water level, and reduces the impact force of the impact force on the guide pile and buoyancy unit in the horizontal direction of the buoyancy unit Not only the structural durability can be improved but also the weight of the structure and the economical efficiency can be improved.

Also, it is possible to prevent the rotating force of the supporting portion when the bushing unit is rolled from being transmitted to the main frame, and to prevent the overloading of the guide roller when the guide roller is lifted.

1 is a perspective view showing a state where a buoyant unit of a buoyancy unit of a water-state photovoltaic power generation apparatus according to the present invention is installed,
Fig. 2 is a perspective view showing the pile supporting unit of the buoyancy unit of the buoyancy unit of the water-state photovoltaic power generating apparatus shown in Fig. 1,
3 is an exploded perspective view of the file support unit shown in Fig. 2, Fig.
4 is an exploded perspective view of the guide roller unit,
5 is a sectional view of the guide roller unit,
6 is a plan view showing another embodiment of the file guide unit according to the present invention,
7 is a plan view showing an operating state of the file guide unit according to the present invention.

The buoyancy unit unit mooring device of the water-state photovoltaic generation device according to the present invention supports a buoyancy unit to which solar photovoltaic modules are installed, and one embodiment is shown in FIG.

The buoyancy unit unit mooring apparatus 10 of the water-state photovoltaic power generation apparatus according to the present invention includes a solar power generation module 100 and a plurality of buoyancy unit units 120 Or a guide pile 20 vertically installed on the side adjoining them. The buoyancy unit 120 is installed in the buoyancy unit 120 and is guided by the guide pile 20 in accordance with the variation of the water level. The buoyancy unit 120 moves horizontally due to strong winds or waves, And a file guide unit (30) capable of absorbing it.

The file guide unit 30 further includes a rotational force absorbing unit 70 (see FIG. 3) for preventing rotational force generated by rolling the buoyancy body unit 120 from being transmitted to the guide pile by strong winds and waves.

The buoyancy unit unit mooring device of the water-state photovoltaic generation apparatus according to the present invention constructed as described above will be described in more detail according to each component.

The buoyancy unit unit 120 of the buoyancy unit unit mooring device 10 of the water-state photovoltaic power generation apparatus according to the present invention comprises a buoyancy body frame 120 having a plurality of buoys 121 as shown in FIGS. 1 and 2, (122). In the upper surface of the buoyant body frame 122, frames 101 on which the solar power generation modules 100 are installed are arranged, and a cult roll box, a converter or transmission devices for controlling electricity generated from the solar power generation module Can be installed. If necessary, a separate charging device may be installed.

The buoyancy unit 120 is not limited to the above-described embodiments, and may be formed of a concrete buoyant body, a concrete buoyant body, or the like for installing the solar power generation modules 123.

The guide unit 30 is connected to the frame 101 of the buoyant body inlet 120 to prevent the buoyant body unit 120 from moving in the horizontal direction. And a main frame 31 installed to surround the guide pawls 20 at predetermined intervals. A guide roller unit (not shown) is mounted on the inner circumferential surface of the main frame 31 to support the main frame 31 in such a manner that the main frame 31 can be moved up and down along the guide pawls 20 by being contacted with the outer circumferential surface of the guide pawls 20 And a connecting frame 32 extending to the buoyancy unit 120 is installed on the outer circumferential surface of the main frame 31. The connecting frame 32 and the buoyancy unit 120 are installed in the horizontal direction And an elastic supporting unit 60 for absorbing the feeding force to the elastic supporting unit.

3 and 4, the guide roller unit 40 is provided with a roller housing 42 for supporting the guide roller 41 on the inner surface of the main frame 31, and the roller housing 42 The first and second pillow blocks 45 and 46 are slidably installed on the first and second guide members 43 and 44 so as to support both ends of the guide roller 41. [ Both sides of the guide roller 41 are rotatably installed in the first and second pillow blocks 45 and 46. And the first and second pillow blocks 45 and 46 have the same curvature as the outer circumferential surface of the guide pile 20 on the outer circumferential surface of the guide roller 41, The first and second guide members 43 and 44 are provided with elastic springs 47 and 48 so that the front side of the first and second pillow blocks 44 and 45, 20 so as to be brought into close contact with the outer circumferential surface.

The guide roller unit 40 is not limited to the above-described embodiment and may be of any structure that can contact the outer circumferential surface of the guide pawl 20 and move the main frame 31 up and down along the guide pawl 20 .

The elastic support unit 60 is capable of coupling the connection frame 32 and the buoyancy unit 120 and absorbing the impact force due to the horizontal movement of the buoyancy unit 120, 1 and Fig. 2, respectively.

Referring to the drawings, the elastic supporting unit 60 is provided with a connecting frame 32 parallel to one side of the main frame 32, and between the connecting frames 32, (61). An elastic support bar 62 is slidably installed on the elastic support frame 61 in a direction parallel to the connection frame 32. A stopper 63 is provided at the center of the elastic support bar 62 located at the center of the elastic support frame 62, that is, in the inner space of the elastic support frame 61, First and second cushioning springs 65 and 66 are provided on the support rod 62. The first cushioning spring 65 is provided on the elastic support rod 62 between the stopper 63 and the inner side surface of the elastic support frame 61 on the side of the main frame 31. The second cushion spring 66 is provided on the elastic support rod 62, Is provided on the elastic support bar 62 between the stopper 63 and the inner surface of the elastic support frame 61 on the end side of the connection frame 32.

Here, the length of the elastic support bar 62 is set such that the end of the elastic support bar 62 is elastically supported by the elastic support frame (not shown) even when the buffer spring at one side of the first buffer spring 65 or the second buffer spring 66 is completely pressed. 61). The first and second buffer springs may be made of elastic rubber.

 A connecting bracket 68 to which the buoyant body frame 122 of the buoyancy unit 120 is connected is coupled to the end of the elastic supporting bar 62 on the side of the connecting frame 32. The connecting bracket 68 is connected to the elastic supporting rod 62, And is fixed by a separate fixing unit so as to change the fixing position with respect to the end of the fixing member 62. The fixing unit 69 is provided with a tab at an end of the elastic supporting rod 62. The first and second fixing members 69a and 69b are screwed to the end of the elastic supporting rod 62, The end of the connection bracket 69 is positioned. Therefore, the first and second fixing members 69a and 69b can be selectively tightened and loosened to adjust the coupling position of the connection bracket 69. [

The rotation force absorbing unit 70 absorbs the rotational force of the buoyancy unit 120 relative to the main frame 31 at the end of the connection bracket 69 and the buoyant body frame 122, And a fixing bracket 71 provided on the buoyant body frame 122 are connected to each other by a hinge shaft 72.

On the upper and lower sides of the fixing bracket 71, an extension plate that is not shown in the figure but extends to the upper and lower sides of the connection bracket is provided, and a guide rail may be provided between the extension plate and the connection bracket. 8, the main frame 31 and the connecting frame 32 may be connected by a reinforcing frame 34, and the reinforcing frame 34 and the buoyant frame 122 may be connected to the buffer member 36 So as to reduce the interference of the external force due to the feeding of the elastic supporting bar 62 with respect to the elastic supporting frame 61. [ The shock absorber may be a cylinder using a shock absorber, rubber, hydraulic or pneumatic.

The operation of the buoyancy unit mooring device of the water-state photovoltaic generation apparatus according to the present invention constructed as described above will be described below.

The mooring unit of the buoyancy unit of the water-state photovoltaic generation apparatus of the present invention is constructed by guide piles 20 and a file guide unit 30 installed in the guide piles 20 as shown in Figs. 1 to 8 The position of the buoyancy unit 120 on which the solar module is installed can be prevented from being moved. Also, it is possible to prevent the trouble due to the displacement due to the movement in the horizontal direction and the change in the positional movement of the file guide unit 30 during the elevation and descent along the guide pawl 20. [

More specifically, the buoyancy unit of the buoyancy unit of the water-state photovoltaic power generation apparatus has a buoyancy unit 120 installed with the PV module 100 as the water level changes, that is, Is lowered or raised along the guide file 20. The guide roller 41 of the guide roller unit 40 is moved along the outer peripheral surface of the guide pile 20. When the vertical direction of the pile is not good, Since the first and second guide blocks 45 and 46 are elastically biased in the outward direction by the elastic springs 47 and 48 supported by the first and second guide members 43 and 44, The deviation can be absorbed. The position of the main frame 31 is moved in the horizontal direction while the main frame 31 is lowered or raised along the guide pawl 20, It is possible to prevent the buoyant body frame 122, which is absorbed by the elastic supporting unit 60 of the photovoltaic module 100, from moving in the horizontal direction.

In addition, when a wave, a strong wind, or a float of the float body 122 is floated, particularly in the sea, the buoyant body frame 122 is horizontally moved or rolled due to the sea current, 20 can be supported by the elastic support unit 60 and the rotational force absorbing unit 70 of the file guide unit 30 that supports the buoyant body frame 122.

 6 and 7, when the buoyant body frame 122 provided with the solar power generation module 100 is horizontally displaced from the guide pawl 20, 61 to the connecting bracket 68 connected to the buoyant body frame 122 is transmitted. A stopper 63 is provided on the elastic support bar 62 and a first and a second cushioning frame 61 are interposed between the stopper 63 and the elastic support frame 61, 65) 66 are provided, respectively, so that they are contracted or loosened so that the elastic support rods 62 are prevented from being conveyed. Accordingly, it is possible to absorb the displacement of the buoyant body frame 61 and to provide a damping force according to the movement of the buoyant body frame 61.

In particular, when the elastic supporting unit 60 is installed on the front and rear sides of the main frame 31 as shown in FIGS. 2 and 6, the above-described operation can be performed independently.

In the case where the buoyant body frame 122 provided with the solar power generation module 100 is simultaneously subjected to rolling and horizontal positional movement, the movement in the horizontal direction is performed by the first and second buffer springs 65 And the elastic support rods 62 supported by the buoyant body frame 122 and connected by the connecting brackets 68 are moved and moved to their home positions while the rotation is absorbed by the rotational force absorbing unit 70 do. That is, since the end of the connection bracket 69 and the fixing bracket 71 supported by the buoyant body frame 122 are connected by the hinge shaft 72, the fixing bracket 71 smoothly contacts the connection bracket 69 The rotation of the buoyant body frame 122 due to rolling can be prevented from being transmitted to the file through the file guide unit 30. [

As described above, the mooring device of the buoyancy unit of the aquamarine solar power generator according to the present invention can absorb the positional shift amount of the buoyant body frame supported by the guide pile, Can be reduced. In particular, since the buoyant frame can be stably supported, the durability of the photovoltaic device can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (7)

Guide piles 20 installed vertically on the side corresponding to one side or between the buoyancy unit units 120 and the buoyancy unit units 120 installed on the aquatic power generation modules 100 installed on the water power generation modules 100, A main frame 31 surrounding the outer circumferential surface of the guide pile 20, a connection frame 32 connecting the main frame 31 and the buoyancy unit 120, A plurality of guide roller units 40 that are in contact with the outer circumferential surface of the guide pawl 20 and an elastic support unit 60 installed on the connection frame 32 and the buoyancy unit 120 to absorb the horizontal transfer force And a file guide unit (30)
The elastic supporting unit 60 is provided with a connecting frame 32 parallel to one side of the main frame 31 and an elastic supporting frame 61 having an internal space is installed between the connecting frames 32 An elastic support bar 62 is slidably installed in the elastic support frame 61 in a direction parallel to the connection frame 32 and an elastic support bar 62 positioned in the inner space of the elastic support frame 61, And the first and second cushioning springs (65, 66) are provided on the elastic supporting bars (62) on both sides of the stopper (63) Of the buoyancy unit. The method according to claim 1,
The buoyant body frame 120 is provided between the connecting bracket 68 of the connecting frame 32 or the elastic supporting unit 60 and the buoyant body frame 122 to absorb the rotational force of the buoyancy unit 120 relative to the file guide unit 30. [ Further comprising a rotational force absorbing unit (70) for biasing the buoyancy unit. The method according to claim 1,
The file guide unit 30 includes a main frame 31 spaced a predetermined distance from the outer circumference of the guide pile 20 and surrounding the guide pile 20, A guide roller unit 40 for supporting the main frame 31 so as to be movable up and down along the guide pawls 20 by being rotated by being in contact with the outer peripheral surface of the main frame 31, And an elastic supporting unit 60 provided with connection frames 32 extending to the unit 120 side and installed in the connection frame 32 and the buoyancy unit 120 to absorb the horizontal transfer force Wherein the buoyancy unit of the buoyancy unit of the water-state photovoltaic power generation apparatus is characterized in that: The method according to claim 1,
The guide roller unit 40 is provided with a roller housing 42 for supporting a guide roller 41 on the inner surface of the main frame 31. Both ends of the guide roller 41 are fixed to the roller housing 42 The first and second pillow blocks 45 and 46 slidably installed on the first and second guide members 43 and 44 so as to support the first and second pillow blocks 45 and 46 The first and second guide members 43 and 44 between the roller housing 42 and the first and second pillow blocks 45 and 46 are rotatably provided on both sides of the guide roller 41. [ Wherein the resilient springs (47) and (48) are installed so that the guide roller (41) is elastically biased so as to be brought into close contact with the outer peripheral surface of the guide pile (20). 5. The method of claim 4,
Wherein the outer peripheral surface of the guide roller (41) is curved so as to have the same curvature as the outer peripheral surface of the guide pile (20). delete 3. The method of claim 2,
The rotating force absorbing unit 70 is configured such that the end of the connecting bracket 69 and the fixing bracket 71 provided on the buoyant body frame 122 are connected by a hinge shaft 72. [ Of the buoyancy unit.

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