KR20190001354A - Solar light power generator - Google Patents

Abstract

The present invention relates is a solar light power generation device for moving to a location where a user needs the device, and making the width of a support narrower and a generation panel folded when the solar light power generation device is not used, thereby reducing a storage space. The solar light power generation device comprises: a generation part including a plurality of a generation units configured to fold a pair of the solar light generation panel; and a movable support part configured to support the generation unit from the bottom. A width of the support part is changed in accordance with a width change of the generation part as the generation unit is folded.

Description

[0001] Solar light power generator [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation apparatus, and more particularly, to a photovoltaic power generation apparatus that can be moved to a predetermined place according to a user's need and can be folded and stored when not in use.

Alternative energy is being developed as fossil fuels such as petroleum and coal are depleted. Especially, energy resources utilizing solar energy are being actively developed.

Power generation technologies that utilize solar energy to produce electricity include solar power generation that uses solar heat to drive a heat engine to generate electricity, and solar power that generates electricity from solar cells using solar light.

Photovoltaic devices that perform solar power generation are classified into independent type and grid type.

The grid-connected photovoltaic power generation apparatus has a form capable of receiving or sending electricity through a power distribution line. The stand-alone photovoltaic power generation system has an advantage of self-power generation that is independent of the distribution line and is operated independently, and is simple in construction and low in cost.

The stand-alone solar photovoltaic system can be used not only as an emergency residence in grid-connected areas such as desert, large-scale farms and ranches but also in unmanned systems such as communication base stations, military operations and surveillance camera systems have.

The stand-alone photovoltaic power generation apparatus generally has a structure in which a plurality of solar battery modules are arranged on the roof slope of the upper part of a residential container house.

However, where a stand-alone photovoltaic power generation system is required, additional power may be required depending on the user's needs since the power is not connected to the outside, that is, the power is out of the suburbs, and the place where the power is used may be changed from time to time. The photovoltaic power generation device disposed at the top of the existing residential container house is difficult to increase the capacity and it is difficult to demolish and move when the location where the power supply is used is changed.

In addition, in order to prevent the contamination of the surface of the photovoltaic panel included in the photovoltaic power generation apparatus during rain, it is preferable to store the power generation apparatus in the room, but there is a problem that it is difficult to store the room by its size.

As a prior art to the present invention, it is possible to exemplify the open patent publication No. 2011-0104798.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a solar photovoltaic device configured to be movable to a place required by a user.

Another object of the present invention is to provide a photovoltaic power generation system in which a power panel can be folded and a support can be narrowed when not in use, thereby reducing the storage space.

According to an aspect of the present invention, there is provided a solar power generation system comprising: a power generation unit including a plurality of power generation units configured to allow a pair of solar power generation panels to be folded; And a support portion movably configured to support the power generation unit from below, wherein the support portion has a width changed in accordance with a change in the width of the power generation portion due to the folding of the power generation unit.

Wherein the power generating unit includes a connecting block to which the solar power generating panel is connected by a rotating shaft to both sides thereof, one end connected to the connecting block, the other end connected to one side of the solar power generating panel, A first lift disposed on one side of the solar power generation panel among the solar power generation panels connected to each other, and a second ring disposed on the other side of the solar power generation panel And a second ring disposed on one side of the other one of the solar power generation panels and hooked to the first ring.

One of the solar power generation panels included in the power generation unit may be hinged to one of the solar power generation panels included in the neighboring power generation unit.

The support unit includes: a vertical support connected to a lower portion of each of the power generation units; a horizontal support member horizontally connected to a lower portion of the vertical support member and having a movable wheel disposed at a lower portion thereof; And a connection rod which is connected to the support and is foldably connected to the intermediate portion.

And a second lift rotatably connected to a lower end of the connecting block at one end and detachably connected to one side of the vertical support to adjust the inclination of the power generating unit.

The length of the horizontal support member under the power generation unit may be longer or shorter than the length of the horizontal support member under the neighboring power generation unit.

The mobile wheel may be connected to an auxiliary support connected to both lower ends of the horizontal support.

The auxiliary support connected to the horizontal support bar below the power generation unit and the auxiliary support connected to the horizontal support bar below the power generation unit adjacent to each other may have the same shape but different heights.

The present invention as described above can be moved to a place required by the user.

In addition, when the present invention is not used, the power panel can be folded and the width of the support can be narrowed, so that the storage space can be reduced.

FIG. 1 is a perspective view showing an unfolded state of a photovoltaic device according to an embodiment of the present invention. FIG.
2 is a perspective view showing a state in which a solar cell is folded and stored according to an embodiment of the present invention.
Fig. 3 is a view for explaining the configurations of the first and second rings used in the present invention. Fig.
4 is a view for explaining the use of the first and second rings used in the present invention.
5 is a view showing the connection between the power generating unit and the vertical support by the second lift.
6 is a view showing the use of the second lift.
7 is a view showing a connection between power generating units used in the present invention.
8 is a view showing a change in the spacing of the vertical supports according to the spreading of the power generating unit.
9 is a view showing a configuration of a connection rod used in the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing an unfolded state of a solar photovoltaic device according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a state in which a solar photovoltaic device according to an embodiment of the present invention is folded and stored.

Referring to FIGS. 1 and 2, a photovoltaic device 100 according to an embodiment of the present invention includes a power generation unit 110 and a support unit 160.

The power generation unit 110 generates and outputs a predetermined power source using incident sunlight.

The power generation unit 110 includes a plurality of the power generation units 120 that are configured to allow a pair of the solar power generation panels 122 to be folded. Here, the power generating unit 120 is connected to one side of the pair of solar power generation panels 122, and is rotatably connected to a predetermined rotation axis so that it can be folded according to the user's need.

Although the power generation unit 110 is shown as including a pair of power generation units 120, the number of the power generation units 120 included in the power generation unit 110 may vary according to the needs of the user . ≪ / RTI >

The power generating unit 120 will be described in more detail.

The power generation unit 120 includes a pair of the solar power generation panels 122, the connection block 124, the first lift 126, the first loop 132, and the second loop 134 .

The solar power generation panel 122 is formed in a rectangular shape having a predetermined area and outputs a predetermined power by incident sunlight. The production of the power source by the solar power generation panel 122 is well known in the art, and a detailed description thereof will be omitted. Here, the power generator 110 according to the present invention may include a predetermined rechargeable battery (not shown) for storing the power output from the photovoltaic power generation panel 122.

The connection block 124 is connected to the solar power generation panel 122 on both sides. At this time, the connection block 124 and the solar power generation panel 122 are connected to each other by a predetermined rotation axis.

In the present embodiment, the connection block 124 has a shape in which one side to be connected with the first lift 126 to be described later is projected downward, but the solar power generation panel 122 may be rotatably connected to both sides And the first lift 126 may be connected to one end of the first lift 126, the shape and size of the first lift 126 may vary.

The first lift 126 is configured such that the piston rod moves into and out of a predetermined cylinder and the length of the piston rod can be varied according to the user's need.

One end of the first lift 126 is connected to the connection block 124 and the other end of the first lift 126 is connected to one side of the solar power generation panel 122. The solar power generation panel 122 is folded .

The length of the first lift 126 may vary depending on the user's operation, but may be a structure in which the length is changed by an external hydraulic pressure or a pneumatic pressure. In addition, if necessary, the length may be varied by an external power source.

The first loop 132 and the second loop 134 are coupled to each other when the solar power generation panel 122 included in the power generation unit 120 is unfolded so that the solar power generation panel 122 is rotated by its own weight So that the solar power generation panel 122 is leveled.

3 is a view showing the configuration of first and second rings used in the present invention.

Referring to FIG. 3, the first ring 132 is a ring having a predetermined size, and the first ring 132 is connected to one side of the solar power generation panel 122 of one of the solar power generation panels 122 included in the power generation unit 120 .

The second ring 134 has a rectangular ring shape and has a predetermined size. The second loop 134 is bound to the first loop 132.

The second loop 134 is disposed on one side of the other solar power generation panel 122 included in the power generation unit 120. At this time, the second loop 134 may be connected to one side of the knob 135 to facilitate coupling and disassembly of the first loop 132 and the second loop 134.

That is, one end of a handle 135 having a predetermined length is rotatably connected to one side of the solar power generation panel 122 where the second ring 134 is disposed, and in the middle of the handle 135, One end of the second loop 134 is rotatably connected.

Referring to FIG. 3, when the solar power generation panel 122 is unfolded, it can be seen that the end portion of the solar power generation panel 122 is in a lowered state due to the load of the solar power generation panel 122.

4 is a view for explaining the use of the first and second rings used in the present invention.

Referring to FIG. 4, after the first ring 132 and the second ring 134 are engaged with each other, the first ring 132 and the second ring 134 The first ring 132 and the second ring 134 can be coupled more firmly.

The ends of the photovoltaic panel 122 can be prevented from being sagged down by the combination of the first loop 132 and the second loop 134 to be horizontal.

When the solar power generation panel 122 is folded, the handle 135 is operated to the first ring 132 and the second ring 134 side so that the first ring 132 and the second ring 134, (134) is released.

Here, various components other than the ring may be used as long as they can be bound together to prevent sagging of the solar power generation panel 122.

The support portion 160 supports the power generation unit 120 at a lower portion of the power generation unit 120 and can move to a required position. The width of the power generation unit 120 is changed according to the folding and the power generation unit 120 is supported at the bottom.

Referring again to FIG.

The support portion 160 includes a vertical support 162, the horizontal support 164, the second lift 172, and a connection rod 180.

The vertical support 162 is in the form of a rod having a predetermined length and is connected to the lower portion of the power generation unit 120 to support the power generation unit 120. The upper end of the vertical support 162 is connected to the lower portion of the connection block 124 and the lower end is connected to the horizontal support member 164 described later.

The vertical support 162 and the power generation unit 120 are connected by a predetermined rotation axis so that the power generation unit 120 can adjust the tilt according to the altitude of the sun.

A second lift 172, which will be described later, is connected to the vertical support member 162 and the power generation unit 120 to adjust the inclination of the power generation unit 120.

5 is a view showing the connection between the power generating unit and the vertical support by the second lift.

5, the second lift 172 is in the form of a rod having a predetermined length, and one end of the second lift 172 is rotatably installed at a lower side of the connection block 124 of the power generation unit 120 The other end of the second lift 172 may be connected to one side of the vertical support member 162 by a bolt 173. [

Here, the bolt 173 may be detached from the vertical support 162 if necessary.

In FIG. 5, it can be seen that the solar power generation panel 122 is kept horizontal.

6 is a view showing the use of the second lift.

6, after the bolts 173 are detached from the vertical support stand 162, the photovoltaic panel 122 is fixed to the predetermined position by predetermined (predetermined) inclination, Slope the ramp. As the solar power generation panel 122 is inclined, the other end of the second lift 172 is moved to the lower end than the case where the solar power generation panel 122 is horizontal.

When the bolt 173 is fixed to one side of the vertical support 162 through the end of the second lift 172, the inclination of the solar power generation panel 122 can be maintained.

The second lift 172 may have the same configuration as the first lift 126 although the second lift 172 has a rod shape.

The horizontal support 164 is in the form of a rod having a predetermined length and is horizontally connected to the lower end of the vertical support 162. Here, for the stable connection with the vertical support 162, the vertical support 162 is connected to the middle of the horizontal support 164.

A moving wheel 166 is connected to both ends of the horizontal support table 164. At this time, in order to stably support the horizontal support table 164, auxiliary supports 168 having a predetermined length are connected to both sides of both lower ends of the horizontal support table 164 in a direction orthogonal to the horizontal support table 164, A mobile wheel 166 may be connected to each end of the support 168.

Meanwhile, the plurality of power generation units 120 may be connected to each other.

7 is a view showing a connection between power generating units used in the present invention.

Referring to FIG. 7, a pair of the solar power generation panels 122 included in the power generation unit 120 is connected to one of the solar power generation panels 122, The solar power generation panel 122 of one of the solar power generation panels 122 of the solar cell module 122 may be hinged to each other.

8 is a view showing a change in the spacing of the vertical supports according to the spreading of the power generating unit.

8, when the solar power generation panel 122 included in the power generation unit 120 is unfolded by the adjustment of the first lift 126, The solar power generation panel 122 is rotated horizontally with respect to the hinged portion and the interval between the power generation units 120 is widened.

On the other hand, the length of the horizontal support member 164 can be set as follows.

The horizontal support table 164 supporting one of the power generation units 120 connected to each other is shorter than the length of the horizontal support table 164 supporting the other power generation unit 120 Or may be formed long. Accordingly, when the photovoltaic panel 122 is folded together, the auxiliary support 168 connected to the horizontal support 164 supporting the power generation unit 120 of any one of the power generation units 120 connected to each other May be received between the auxiliary supports 168 connected to the horizontal support posts 164 that support the other power generation unit 120.

In addition, the auxiliary support 168 may be formed in the same shape as the 'A' shape or the '.' Shape. The auxiliary support 168 connected to the horizontal support member 164 for supporting the power generation unit 120 of any one of the power generation units 120 connected to each other supports the other power generation unit 120 It is preferable to arrange the power supply unit 120 so as not to interfere with each other when the power generation unit 120 is folded by being disposed lower than the auxiliary support 168 connected to the horizontal support member 164.

Meanwhile, the support part 160 may further include a connection rod 180.

9 is a view showing a configuration of a connection rod used in the present invention.

The connection rod 180 has a predetermined length, and the intermediate portion is configured to be rotatable. Both ends of the connection rod 180 are rotatably connected to the horizontal support rods 164 included in the power generation unit 120 adjacent to each other.

The connection rod 180 is maintained in a folded state in the middle portion when the solar power generation panel 122 is folded.

When the solar power generation panel 122 is unfolded by the first lift 126 so that the distance from the power generation unit 120 becomes long, the connection rod 180 can be unfolded have.

Also, the connection rod 180 may be folded as shown in FIG. 2 when the power generation unit 120 is folded for storage of the power generation apparatus.

According to the present invention configured as described above, it is possible to move to a place required by the user, and when not in use, the power panel can be folded and the width of the support can be narrowed, so that the storage space can be reduced.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Photovoltaic device
110: power generation unit 120: power generation unit
160: Support part 162: Vertical support
164: horizontal support 180: connecting rod

Claims (8)

A power generation unit including a plurality of power generation units configured to allow a pair of solar power generation panels to be folded;
And a support portion that supports the power generation unit from below and is configured to be movable,
Wherein the support portion changes its width in accordance with a change in the width of the power generation portion due to the folding of the power generation unit. The method according to claim 1,
The power generation unit includes:
A connection block to which the solar power generation panel is connected by a rotation shaft,
A first lift connected to the connection block at one end and connected to one side of the solar power generation panel, a length of which is expanded and contracted, a length of which is expanded and contracted and the solar power generation panel is folded,
A first ring arranged on one side of the solar power generation panel among the solar power generation panels connected to each other,
And a second loop disposed on one side of the other one of the solar power generation panels connected to each other and engaged with the first loop. 3. The method of claim 2,
Wherein one of the solar power generation panels included in the power generation unit is hinged to one of the solar power generation panels included in the neighboring power generation unit. The method of claim 3,
The support portion
A vertical support connected to a lower portion of each of the power generation units,
A horizontal support which is horizontally connected to a lower portion of the vertical support,
And a connection rod having opposite ends connected to the horizontal supporter adjacent to the horizontal supporter, and a middle connection portion bendably connected. 5. The method of claim 4,
And a second lift rotatably connected to the lower end of the connecting block at one end and detachably connected to one side of the vertical support to adjust a tilt of the power generating unit. 5. The method of claim 4,
Wherein a length of the horizontal support member under the power generation unit is longer or shorter than a length of the horizontal support member under the neighboring power generation unit. The method according to claim 6,
The mobile wheel
And connected to an auxiliary support connected to both lower ends of the horizontal support. 8. The method of claim 7,
Wherein the auxiliary support connected to the horizontal support part of the power generation unit and the auxiliary support connected to the horizontal support part of the lower part of the power generation unit adjacent to each other have the same shape but different heights.

Images