KR101412994B1 - Assembling type solar power generation device - Google Patents

Abstract

An object of the present invention is to provide a prefabricated solar photovoltaic power generation apparatus capable of easily installing a solar photovoltaic module and performing maintenance and management of the photovoltaic module on the road shoulder without control of the vehicle. The present invention provides a frame structure comprising: a plurality of holding frames; A module frame installed at an upper portion of the strut frame and having a guide rail installed therein; And a plurality of solar modules inserted at one side of the module frame, slid along the guide rail, and fixed at an arbitrary position of the module frame to perform solar power generation. The present invention performs maintenance and management operations of a photovoltaic power generation device without the control of a vehicle, thereby preventing the occurrence of traffic congestion due to the work and performing maintenance and management work on the road shoulder road, The safety of the operator can be secured.

Description

[0001] ASSEMBLING TYPE SOLAR POWER GENERATION DEVICE [0002]

The present invention relates to a prefabricated photovoltaic power generation apparatus, and more particularly, to a prefabricated photovoltaic power generation apparatus capable of easily installing a photovoltaic module and performing maintenance and management of the photovoltaic module at the shoulder of a road without control of the vehicle. ≪ / RTI >

Generally, solar power generation refers to a power generation system that converts sunlight directly into electric power by a solar cell.

Solar power generation is clean energy that does not have pollution such as air pollution, noise, heat, vibration compared to other fossil fuel or nuclear power generation, it does not need the maintenance of fuel transportation and power generation facilities, Selection of facility size and installation work is easy.

Such solar power generation system has advantages of clean, unlimited energy source, easy maintenance of power generation system, unmannable and long life.

In addition, photovoltaic power generation equipment is inexpensive and stable structure, and is widely used in places where there is no restriction on the installation area in a remote area. Especially, it is usually installed in places with high wind speed such as a book area, And it is a relatively popular array supporting method because there is no danger associated with it. In Korea, a fixed type device is used as a standard device for photovoltaic devices for books in Japan, such as a utility model registration No. 8003023 (1996.01.29.

However, since such a photovoltaic device uses the ground plane, there is a problem that a lot of space is required to install the photovoltaic module.

Attempts have been made to install photovoltaic devices on the roads to alleviate the problems of such installation space.

Fig. 1 is a perspective view showing a state in which a conventional solar power generation apparatus is installed on a road, in which a pillar 11 of a solar power generator 10 is installed on both sides of a road 20, 20 so that a plurality of photovoltaic modules 12 are installed.

However, in order to install the pillar frame 11 and the photovoltaic module 12, the conventional photovoltaic power generation apparatus 10 has a structure in which one side of the road 20 is blocked so that the vehicle 30 can not pass therethrough, There is a problem that it must be performed.

Further, even if maintenance and management after the installation of the photovoltaic device 10 is performed, it is necessary to check the presence or absence of an abnormality of the photovoltaic device 10 in a state in which at least one road 20 or more is blocked. There is a problem that the traffic accident is triggered and workers are exposed to safety accidents.

In order to solve these problems, it is an object of the present invention to provide a prefabricated solar photovoltaic power generator in which the installation of the solar photovoltaic module is easy and the maintenance and management of the solar photovoltaic module is performed on the shoulder of the road without control of the vehicle do.

According to an aspect of the present invention, A module frame installed at an upper portion of the strut frame and having a guide rail inside the module frame main body; And a plurality of solar modules inserted at one side of the module frame and slid along the guide rails and fixed at an arbitrary position of the module frame to perform solar power generation, And a first flange protruding along the longitudinal direction to guide the rainwater to be drained.

In addition, the strut frame according to the present invention includes a first frame branched from a front end of a strut frame and having a predetermined length; And a second frame branching at the front end of the strut frame and opposed to the first frame, and extending the same length or longer than the first frame.

Further, the module frame according to the present invention includes a module frame main body having a cavity formed therein; A guide rail formed along the longitudinal inner side of the module frame body; And an insertion portion formed on one side of the module frame body so that the solar module is inserted into the module frame body.

Further, the module frame according to the present invention further includes a lid part installed at one side of the insertion part to cover the insertion part and closely contact with a part of the solar module inserted in the module frame to support the solar module to be fixed .

Further, the module frame according to the present invention may further include a second flange protruding along the longitudinal outer side of the module frame main body to prevent foreign matter from entering into the guide rail.

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Further, the solar module according to the present invention comprises a support frame; A plurality of wheels provided on both longitudinal sides of the support frame so as to be rotatable about a rotation axis; And a solar cell panel mounted on the support frame.

Further, the solar module according to the present invention is characterized in that it further comprises coupling parts installed on both lateral sides of the support frame to engage with neighboring solar modules.

In addition, the solar module according to the present invention further includes a support frame flange protruding along the longitudinal outer side of the support frame to prevent foreign matter from entering into the module frame.

The present invention has the advantage of performing installation, maintenance, and management of a solar module on the shoulder of a road without vehicle control.

In addition, the present invention has an advantage of preventing the occurrence of traffic congestion due to work by performing various operations without controlling the vehicle.

Further, the present invention is advantageous in that the maintenance and management work is performed on the shoulder of the road, thereby securing the safety of the operator from the vehicle during running.

Further, the present invention is also advantageous in that it can be easily provided with a large-capacity power generation apparatus regardless of the installation location by being installed on a highway or a river.

1 is a perspective view showing a conventional solar cell generator.
2 is an exploded perspective view showing a configuration of a prefabricated solar photovoltaic device according to the present invention.
3 is a perspective view showing a module frame structure of the assembled photovoltaic device according to FIG.
4 is a perspective view showing a configuration of a solar module of the assembled solar power generator according to FIG. 2;
5 is a sectional view showing the structure of the solar module according to Fig.
6 is a perspective view illustrating an installation process of the assembled photovoltaic device according to FIG. 2;
Fig. 7 is a perspective view showing an installation state of the assembled photovoltaic device according to Fig. 2; Fig.
Fig. 8 is a block diagram showing an electrical coupling state of the assembled solar photovoltaic device according to Fig. 2; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the assembled photovoltaic apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view showing a module frame structure of the assembled solar power generating apparatus according to FIG. 2, and FIG. 4 is a perspective view of the assembly type photovoltaic apparatus according to the present invention, FIG. 5 is a sectional view showing the structure of the solar module according to FIG. 4. FIG. 5 is a perspective view showing the structure of the solar module of the photovoltaic device.

2 to 5, the assembled photovoltaic device 100 according to the present invention includes a plurality of strut frames 110, a module frame 120, and a plurality of solar modules 130 .

The strut frame 110 is provided on both sides of the road to support the module frame 120. The strut frame 110 is made of a metal pipe and is provided at the front end of the strut frame body with a first frame 111 and the second frame 112 are branched.

The first frame 111 is branched from the front end of the strut 110 and extends upward by a predetermined length. The second frame 112 is connected to the first frame 111 at the front end of the strut 110, And is formed so as to extend the same length or longer than the first frame 111.

That is, when the photovoltaic power generation apparatus 100 is installed on a highway installed in the north-south direction, the length of the first frame 111 is set to be longer than the length of the first frame 111 so that the module frame 120 fixing the photovoltaic module 130 can be inclined in the south direction. The length of the second frame 112 is long and the lengths of the first frame 111 and the second frame 112 are the same in the case of a highway or a general road installed in the east-west direction, So that the module frame 120 is arranged to be inclined in the south direction.

In addition, the strut frame 110 further includes an auxiliary strut frame 110 'for supporting the module frame 120 in the middle when the distance between the installed strut frames 110 is large.

That is, the auxiliary strut frame 110 'is provided with a third frame 113 having a predetermined length in the horizontal direction at the tip of the auxiliary strut frame body, and a pair of first and second frames 113, Two frames 111 and 112 are formed, respectively, so that the module frame 120 is installed in the middle of the road when the road width is wide such as a highway.

The module frame 120 is installed on the upper part of the strut 110 to support the solar module 130. The module frame main body 121 has a square shape and has a hollow inside, A guide rail 122 formed on the inside of the frame body 121, an insertion portion 123 for inserting or withdrawing the solar module 130, a lid portion 124 for covering the insertion portion 123, A first flange 125 forming a drainage path of the foreign matter, and a second flange 126 blocking foreign matter from entering.

The module frame main body 121 is made of a metal material having a "ㅁ" shape and penetrates through the center.

The guide rail 122 is a groove formed along the longitudinal inner side of the module frame main body 121. The wheel 133 of the solar module 130 moves along the guide rail 122, As shown in FIG.

The insertion unit 123 is installed on one side of the module frame body 121 to allow the solar module 130 to be inserted into the module frame body 121 or to be inserted into the module frame body 121 So that the optical module 130 is taken out.

The lid part 124 is a plate-shaped member and is rotatably installed on one side of the insertion part 123 through a hinge part 124 ', selectively covering the upper part of the insertion part 123, When the solar module 130 is inserted into the module frame 120, the solar module 130 is closely attached to the inserted solar module 130 to support the solar module 130 fixed to the module frame 120.

The first flange 125 protrudes at a predetermined height along the longitudinal outer side of the module frame body 121 and guides the path so that the rainwater is drained to one side without falling down the module frame 120.

The second flange 126 protrudes from the frame body 121 at a predetermined distance from the first flange 125 at a position spaced apart from the first flange 125 by a predetermined height. To prevent foreign matter from entering.

A plurality of fixing holes 127 are drilled at four corners or at arbitrary positions of the module frame main body 121 so that the module frame 120 is inserted through the bolts 140 into the supporting frame 110 or the auxiliary supporting frame 110 ' So that it can be fixed.

The solar module 130 is inserted through an insertion portion 123 provided at one side of the module frame 120 and slid along the guide rail 122 and is fixed at an arbitrary position of the module frame 120 A support frame 131, a wheel 133, a solar panel 134, a coupling portion 135, a support frame flange 136, and a connector 137 .

The support frame 131 supports the solar cell panel 134 so as to be fixed thereto. The support frame 131 includes a first support frame 131 'and a second support frame 131' The first and second support frames 131 'and 131 "are each provided with a rotation shaft 132, and a plurality of wheels 133 are installed.

In the present embodiment, the shape of the support frame 131 is described as an "H" shape, but the present invention is not limited thereto, and it will be apparent to those skilled in the art that various modifications can be made.

The wheel 133 is installed on both sides of the first support frame 131 'and the second support frame 131' of the support frame 131 so as to be rotatable about the rotation axis 132, To slide along the guide rails 122 of the module frame 120.

The solar cell panel 134 is installed on the upper portion of the support frame 131 to perform solar power generation, and is formed to have a predetermined size for convenience of operation.

The joining portion 135 is a concave and convex portion formed at both side ends of the first support frame 131 'and the second support frame 131 ". When the solar module 130 is inserted into the module frame 120, For example, "LEGO BLOCK" which can be selectively combined with a solar module.

The support frame flange 136 protrudes from the first support frame 131 'and the second support frame 131' of the support frame 131 by a predetermined length, (126) to prevent foreign matter from entering the module frame (120).

The connector 137 is provided on the back surface of the solar cell panel 134 and is electrically connected to a neighboring solar cell panel.

Hereinafter, the installation and operation of the assembled solar power generator according to the present invention will be described.

6 is a perspective view showing the installation process of the assembled photovoltaic device according to FIG. 2. As shown in FIG. 6, the supporting frame 110 is installed on both sides of the road 200, And is fixed to the bolt 140 by engaging with the frame 110.

At this time, the strut frame 110 is installed outside the road (at least at a position away from the shoulder) away from the road 200 by a predetermined distance or more.

When the installation of the strut frame 110 and the module frame 120 is completed, the lid unit 124 is opened and the installation target solar modules 130 and 130 ') Are sequentially inserted to be a solar module array.

The solar modules 130 and 130 'inserted in the module frame 120 are sequentially moved to the other side of the module frame 120 along the guide rails 122.

At this time, the solar modules 130 and 130 'are connected to neighboring solar modules 130' through the coupling portions 135 formed on the support frame 131 so that the solar modules 130 and 130 'are connected as one module, The solar modules 130 and 130 'are electrically connected to each other through the connector 137 (see FIG. 5).

When the installation of the solar module 130 is completed in the module frame 120, the cover part 124 is covered so that the insertion part 123 is not exposed, and the solar module 130 inserted into the module frame 120 130, and 130 'are prevented from flowing.

Fig. 7 is a perspective view showing the installation state of the assembled solar photovoltaic device according to Fig. 2. In the case of a road 200 'having a wide road width as shown in Fig. 7, The frame 110 is installed, and the auxiliary strut frame 110 'is installed on the separator 210 installed at the center of the road.

The photovoltaic devices 100, 100 ', 100 "are installed between the support frame 110 installed at one side of the road 200' and the auxiliary support frame 110 'installed at the separator 210, 200 ').

When maintenance is performed after the installation of the solar power generation apparatus 100 is completed, a vehicle or equipment for maintenance is placed on the shoulder 200 "of the road 200 ', and then the cover 124 is opened The photovoltaic module 130 may be sequentially taken out to inspect the entire photovoltaic module or only a photovoltaic module having a failure may be taken out and replaced or inspected.

FIG. 8 is a block diagram showing an electrically coupled state of the assembled solar power generator according to FIG. 2. As shown in FIG. 8, the solar power module 1 130a, the solar module 2 130b, The power generated by the inverter 130 having the power control device is temporarily stored for a long period of time so that the power generated by the inverter 160 can be supplied to the battery 160 Or the generated direct current is converted into alternating current and supplied to the load 170. [

Therefore, by performing the maintenance and management work of the photovoltaic power generation device without the control of the vehicle, it is possible to prevent the occurrence of the traffic congestion due to the work and to perform the maintenance and management work on the road shoulder road, It is possible to secure the safety of the user.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the definitions of these terms should be based on the contents throughout this specification.

100, 100 ', 100 ": Photovoltaic device 110: Holding frame
110 ': auxiliary supporting frame 111: first frame
112: second frame 113: third frame
120: module frame 121: module frame body
122: guide rail 123:
124: lid part 124 ': hinge part
125: first flange 126: second flange
127: fixing hole 130: solar module
130a: solar module 1 130b: solar module 2
130c: Solar module n 131: Support frame
131 ': first support frame 131': second support frame
132: rotating shaft 133: wheel
134: solar panel 135:
136: Support frame flange 137: Connector
140: Bolt 150: Inverter
160: Battery 170: Load
200, 200 ': road 200'':
210:

Claims (9)

A plurality of strut frames (110);
A module frame 120 installed at an upper portion of the strut 110 and having a guide rail 122 installed inside the module frame main body 121; And
A plurality of solar modules 130 which are inserted from one side of the module frame 120 and slide along the guide rails 122 and are fixed at arbitrary positions of the module frame 120 to perform solar power generation, Including,
Wherein the module frame (120) further comprises a first flange (125) protruding along the longitudinal outer side of the module frame body (121) to guide the rainwater to drain.
The method according to claim 1,
The strut frame 110 includes a first frame 111 which is branched from a front end of a strut frame and extends a predetermined length; And
And a second frame (112) branched from the first frame (111) at the front end of the strut frame and extending the same length or longer than the first frame (111) Generator.
The method according to claim 1,
The module frame 120 includes a hollow module frame body 121;
A guide rail 122 formed along the longitudinal inner side of the module frame body 121; And
And an insertion part (123) formed at one side of the module frame body (121) so that the solar module (130) is inserted into the module frame body (121).
The method of claim 3,
The module frame 120 is installed on one side of the insertion part 123 so as to cover the insertion part 123 and closely contact with a part of the solar module 130 inserted in the module frame 120, Further comprising a cover (124) for supporting the optical module (130) to be fixed to the module frame (120).
delete The method of claim 3,
The module frame 120 further includes a second flange 126 protruding along the longitudinal outer side of the module frame body 121 to prevent foreign matter from entering into the guide rail 122 Prefabricated photovoltaic devices.
The method according to claim 1,
The solar module 130 includes a support frame 131;
A plurality of wheels 133 rotatably mounted on both sides of the support frame 131 on the rotation axis 132; And
And a solar panel (134) installed on the upper portion of the support frame (131).
8. The method of claim 7,
Wherein the solar module (130) further includes a coupling part (135) installed on both sides of the support frame (131) in the lateral direction to engage with neighboring solar modules.
8. The method of claim 7,
The solar module 130 further includes a support frame flange 136 protruding along the longitudinal direction of the support frame 131 to prevent foreign matter from entering the module frame 120. A prefabricated photovoltaic device.

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