KR101326798B1 - Solar photovoltatic power generation - Google Patents

Abstract

The present invention relates to a photovoltaic power generation apparatus for obtaining a small amount of output of 3 to 5 kW level, which power generation apparatus is installed on a rooftop of a building and et cetera. The photovoltaic power generation apparatus according to the present invention includes: a plurality of photovoltaic module panels (5) respectively arranged in a center frame (10), a left-side frame (20) and a right-side frame (30); an upper horizontal unit (11) and a lower horizontal unit (14) of the center frame formed in a panel type; first and second guide holes (12, 13) formed in the upper horizontal unit; third and fourth guide holes (15, 16) formed to correspond to the first and the second guide holes; first and third slide protrusions (21, 22) formed in a side of the top surface and in a side of the bottom surface of the left-side frame inserted into the first and the third guide holes; second and fourth slide protrusions (31, 32) formed in a side of the top surface and in a side of the bottom surface of the right-side frame inserted into the second and the fourth guide holes; and therefore the left-side frame and the right-side frame are overlapped on the center frame or the left-side frame and the right-side frame are able to be unfolded in the center frame.

Description

SOLAR PHOTOVOLTATIC POWER GENERATION

The present invention relates to a photovoltaic device that is installed on the roof of a building to obtain a small capacity output of about 3 ~ 5㎾, and more particularly, the left frame and the right frame in which the photovoltaic module panels are arranged are arranged in the middle frame in a sliding manner. It is to provide a photovoltaic device that can overlap or unfold.

Republic of Korea Patent No. 10-1064714 (registered September 6, 2011) "photovoltaic device" is introduced.

The photovoltaic device includes a pillar assembly in which one or more pillars are continuously connected, and a light collecting plate coupled to an upper portion of the pillar assemblies, wherein the pillars are provided with an inclined surface at an upper surface thereof and a filler accommodating space therein. An inlet is provided and the volume of the filler receiving space is made different.

The conventional photovoltaic device as described above can be installed on a rooftop or the like, but the rooftop cannot be used because the photovoltaic device is fixedly installed on the entire rooftop, and it is possible to cope with typhoons and strong winds so that no typhoon or strong wind damage occurs. There is no structure.

Accordingly, an object of the present invention is that the left frame and the right frame overlap the middle frame, or the left frame and the right frame in the middle frame can be unfolded, when not in use or should be folded by the external environmental factors, the left frame in the middle frame And to provide a photovoltaic device that can be moved to a predetermined space on the roof in a state in which the right frame and the sliding overlap.

Another object of the present invention is to provide a photovoltaic device capable of distributed generation with commercial power by mounting a small inverter on the middle frame, the left frame and the right frame, respectively.

In the solar cell apparatus according to the present invention for achieving the above object, a plurality of solar module panels are arranged in the middle frame, the left frame and the right frame, respectively, the upper horizontal portion and the lower horizontal portion of the middle frame in the form of a panel First and second guide holes are formed in the upper horizontal portion, and the third and fourth guide holes are formed long in correspondence with the first and second guide holes in the lower horizontal portion, and the first and third guide holes are formed. The first and third slide protrusions formed at the upper side and the lower side of the left side frame are inserted into the holes, and the second and fourth portions formed at the upper side and the lower side of the right side frame are inserted into the second and fourth guide holes. By inserting the slide projections, the left frame and the right frame overlap the middle frame, or the left frame and the right frame can be unfolded in the middle frame.

The middle frame is supported by two pedestals formed in the form of a robe, the solar module panel is inclined toward the sky, characterized in that the wheel is mounted on the bottom of the pedestal.

The left frame is formed with a vertical groove for inserting the auxiliary support in the side vertical portion, the projection is formed on the upper side of the auxiliary support, the guide long hole is formed in the side upper end of the vertical groove, the projection of the auxiliary support guide Characterized in that is arranged in the hall.

The right frame is formed with a vertical groove for inserting the auxiliary support in the side vertical portion, a projection is formed in the upper side of the auxiliary support, a guide long hole is formed in the upper side of the vertical groove, the projection of the auxiliary support guide Characterized in that is arranged in the hall.

In addition, the photovoltaic device according to the present invention is a small inverter is mounted on the middle frame, left frame and right frame, respectively, the power generated in the solar module panel of the middle frame, left frame and the right frame is each small inverter It is characterized by being converted into commercial power by being supplied to the commercial power grid.

As a result, when the solar cell apparatus according to the present invention is not used or should be folded due to external environmental factors, the left frame and the right frame on the middle frame can be moved to a predetermined space on the roof in a sliding manner. In addition, by installing a small inverter in each frame and distributed generation, there is an effect that can eliminate the centralized inverter installation.

1 and 2 are a perspective view schematically showing a photovoltaic device according to the present invention
Figure 3 is a rear perspective view schematically showing a photovoltaic device according to the present invention
Figure 4 is a schematic block diagram showing a photovoltaic device according to the present invention can be distributedly generated by a small inverter mounted on the middle frame and the left and right frame.

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

1 and 2, in the photovoltaic device according to the present invention, a plurality of solar module panels 5 are arranged in the middle frame 10, the left frame 20, and the right frame 30, respectively. The upper horizontal portion 11 and the lower horizontal portion 14 of the intermediate frame 10 are formed in the form of a panel, and the first and second guide holes 12 and 13 are formed in the upper horizontal portion 11, and the lower portion In the horizontal portion 14, the third and fourth guide holes 15 and 16 are formed long to correspond to the first and second guide holes 12 and 13, and the first and third guide holes 12 and 15 are formed. The first and third slide protrusions 21 and 22 formed at the upper end side and the lower side end of the left side frame 20 are fitted into the right side frame 30, and the right side frame 30 is inserted into the second and fourth guide holes 13 and 16. By fitting the second and fourth slide protrusions 31 and 32 formed at the upper end side and the lower end side of the surface, the left frame 20 and the right frame 30 overlap the middle frame 10, or the middle frame The left frame 20 and the right frame 30 are unfolded in 10 Can.

The photovoltaic device according to the present invention configured as described above should be left in the middle frame 10 and the left frame 20 and the right frame 30 in an unfolded state, and should not be used or removed from the roof by external environmental factors. In this case, the left frame 20 and the right frame 30 may overlap the middle frame 10. At this time, the first and third slide protrusions 21 and 22 of the left frame 20 are moved along the first and third guide holes 12 and 15 of the intermediate frame 10 and the right frame 30 The second and fourth slide protrusions 31 and 32 may also be moved along the second and fourth guide holes 13 and 16.

Referring to FIG. 3, the middle frame 10 is supported by two pedestals 40 formed in the shape of a robe, and the solar module panel 5 is disposed to be inclined toward the sky, and the bottom of the pedestal 40 is provided. On the wheel 42 is mounted.

As a result, when the solar cell apparatus according to the present invention is not used or should be folded due to external environmental factors, the middle frame 10 is formed on the rooftop in a state where the left frame 20 and the right frame 30 overlap. It may be moved to a predetermined space.

The left frame 20 is formed with a vertical groove 25 into which the auxiliary support 27 can be inserted into the side vertical part 24, and a protrusion 28 is formed at the upper side of the auxiliary support 27. The guide long hole 28 is formed long in the upper side of the groove 25, and the protrusion 28 of the auxiliary support 27 is disposed in the guide long hole 28.

As a result, when the left frame 20 overlaps the intermediate frame 10, the auxiliary support 27 is inserted into the vertical groove 25, and when the left frame 20 is unfolded in the intermediate frame 10, After removing the auxiliary support 27 from the groove 25, it can be disposed to be inclined so as to support the left frame 20.

The right frame 30 also has a vertical groove 35 for inserting the auxiliary support 37 in the side vertical portion 34, a protrusion is formed on the upper side of the auxiliary support 37, the vertical groove 35 Guide long hole is formed in the upper side of the side), the projection of the auxiliary support 27 is disposed in the guide long hole.

3 and 4, the solar cell apparatus according to the present invention further includes small inverters 51, 52, and 53 mounted on the intermediate frame 10, the left frame 20, and the right frame 30, respectively. Thus, the power produced by the solar module panels 5-1, 5-2, 5-3 of the middle frame 10, the left frame 20, and the right frame 30 is reduced to the respective small inverters 51, 52. , 53) is converted into commercial power and supplied to the commercial power grid.

Here, converting to commercial power means that the power generated by the solar module panels 5-1, 5-2, and 5-3 matches the frequency and voltage of the power supplied from the power plant to each house or home. It means that the power produced in a normal home can be used commercially.

Thereby, the photovoltaic device according to the present invention can eliminate the use of the centralized inverter, and is installed so as to be connected with the commercial power grid immediately after converting the power generated from each solar module into commercial power, There is no complicated installation work required for the centralized inverter, and if a separate wattmeter (not shown) is installed in each small inverter (51, 52, 53), it is easy to check the amount of power produced by the solar module and supplied to the commercial power grid. It is possible to reduce the electricity bill by the amount of power supplied. In addition, the small inverter 30 can be connected to the monitoring unit that can remotely check the operation state, through the monitoring unit easily checks the operating state of the inverter, whether there is a failure, the current generation amount of the power generation module, whether to replace the capacitor, etc. can do.

5: solar module panel 10: middle frame
20: left frame 30: right frame

Claims (5)

A plurality of solar module panels 5 are arranged in the middle frame 10, the left frame 20 and the right frame 30, respectively, and the upper horizontal portion 11 and the lower horizontal portion 14 of the middle frame 10. ) Is formed in the form of a panel, the first and second guide holes 12 and 13 are formed in the upper horizontal portion 11, and the third and fourth guide holes 15 and 16 in the lower horizontal portion 14. The first and second guide holes (12, 13) is formed long corresponding to the first and third guide holes (12, 15) formed in the upper side and the lower side side end of the left frame 20 And second and fourth slide protrusions (21, 22) are fitted into the second and fourth guide holes (13, 16) and formed on the upper and lower side sides of the right side frame (30). 31 and 32 may be fitted, so that the left frame 20 and the right frame 30 may overlap the middle frame 10, or the left frame 20 and the right frame 30 may be unfolded in the middle frame 10. Photovoltaic device characterized in that there is.
The method of claim 1,
The intermediate frame 10 is supported by two pedestals 40 formed in the form of a robe, so that the solar module panel 5 is inclined toward the sky, and the wheels 42 are disposed at the bottom of the pedestal 40. Photovoltaic device characterized in that the mounting.
The method of claim 1,
The left frame 20 is formed with a vertical groove 25 into which the auxiliary support 27 can be inserted into the side vertical part 24, and a protrusion 28 is formed at the upper side of the auxiliary support 27. The guide long hole (28) is formed long in the upper side of the groove 25, the projection 28 of the auxiliary support 27 is disposed in the guide long hole (28).
The method of claim 1,
The right frame 30 is formed with a vertical groove 35 into which the auxiliary support 37 can be inserted into the side vertical part 34, a protrusion is formed at the upper side of the auxiliary support 37, and the vertical groove 35 is formed. The guide long hole is formed long in the upper side of the side, the projection of the auxiliary support 27, characterized in that the photovoltaic device is disposed in the guide long hole.
The method of claim 1,
Small inverters are mounted on the intermediate frame, the left frame and the right frame, respectively, and the small inverters are converted into commercial power and supplied to the commercial power network. Photovoltaic device characterized in that.

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