KR101921087B1 - Photovoltaic solar panels for washing equipment - Google Patents

Abstract

The present invention relates to a solar cell panel cleaning apparatus for a photovoltaic power generation, in which the left and right spraying range and the vertical spraying range of the washing water sprayed by the spray nozzle can be widened, In addition, since the electromotive force and collecting power of the solar cell panel for solar power generation can be increased, the power generation efficiency through the solar cell panel for solar power generation can be greatly improved.

Description

{Photovoltaic solar panels for washing equipment}

The present invention is capable of widening the left-right spraying range and the up-and-down spraying range of the washing water sprayed by the spraying nozzle, so that the entire surface of the solar cell panel for solar power generation can be more easily cleaned and cooled, And more particularly, to a solar cell panel cleaning apparatus for a photovoltaic power generation capable of greatly improving power generation efficiency through the photovoltaic power generation solar cell panel because the electromotive force and collecting power of the photovoltaic power generation solar cell panel can be increased.

As human civilization develops and industry develops, much energy is needed, and electric energy, which is the cleanest energy that has been developed so far, has been widely used in various fields.

As a means to generate electric energy, thermal power generation that burns fossil energy coal or petroleum, hydroelectric power that uses water flow, and wind power using wind have been developed and helped a lot, and in addition, As a result of nuclear power generation using heat, a lot of electric energy is produced. However, not only the raw materials are limited to thermal power generation, but also cause secondary environmental pollution and gradually use them. In addition, And the secondary problem has arisen due to the occurrence of solar energy. Recently, solar energy has been developed as an electric energy source, and the scope of its use is gradually widened.

Solar power is composed of solar cells, batteries, and power conversion devices. When sunlight is attached to a solar cell that is a junction of a p-type semiconductor and an n-type semiconductor, holes and electrons are generated in the solar cell by the energy of the sunlight.

At this time, the holes are collected toward the p-type semiconductor and the electrons are collected toward the n-type semiconductor, so that a current flows when a potential difference occurs.

In constructing the photovoltaic generator for using solar light as an electric energy source, it is essential to install a solar cell panel that converts solar energy into electric energy. At this time, It is necessary to always keep clean and absorb a lot of sunlight and maintain the proper temperature to obtain the best power generation efficiency.

Therefore, the most important task is to construct a facility for appropriately supplying cleaning water and cooling water to install a solar cell panel for solar power generation.

Recently, in order to clean the surface of a solar cell panel of a solar cell generator that generates electricity using solar light or to prevent the surface temperature from rising, a cleaning water of a solar cell panel- The cooling water supply structure has been proposed in Korean Patent Laid-Open Publication No. 10-2013-0058967.

However, in the case of the above-mentioned Korean Patent Laid-Open Publication No. 10-2013-0058967, there is a problem in that a certain portion of the surface of the solar cell panel can not be cleaned and cooled because the spraying range of the nozzles is limited by injecting the washing water and the cooling water .

Korean Patent Laid-Open Publication No. 10-2013-0058967

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of cleaning a solar cell panel, And solar cells for solar photovoltaic power generation capable of greatly improving power generation efficiency through the solar cell panel for solar power generation because the electromotive force and collecting power of the solar cell panel for solar power generation can be increased, It is an object of the present invention to provide a panel cleaning apparatus.

According to another aspect of the present invention, there is provided a solar cell panel cleaning apparatus for a photovoltaic power generation system including a plurality of spray nozzles disposed on an upper portion of a solar cell for solar power generation, And a left and right diffusing grooves are formed in the front end face of the nozzle, the right and left diffusing grooves being elongated in the left-right direction around the spray hole through which the washing water is sprayed.

Preferably, a lateral groove communicating with the left and right diffusion grooves is formed on one end of the injection nozzle so as to extend from one side to the other side of the injection nozzle.

In addition, it is preferable that a vertically diffusing groove having an erect shape extending vertically downwardly of the injection hole is formed in a state of communicating with the spray hole through which the washing water is sprayed on the distal end face of the injection nozzle.

It is preferable that longitudinal grooves communicating with the upper and lower diffusion grooves are formed vertically extending in the lower end of the upper and lower diffusion grooves on the end surface of the injection nozzle.

Further, a guide member for guiding the wash water injected in the upper direction of the injection nozzle to the lower side of the injection nozzle is provided on the front side of the injection nozzle, and the upper part of the front side of the guide member is connected to the guide It is preferable that the guide member is inclined downward toward the front lower side of the guide member toward the front side of the member.

A support for supporting the injection nozzle at a predetermined height; A fixed guide plate fixed to an upper portion of the support plate at a predetermined height and having a first shaft hole formed at a central portion thereof and having an arc shaped guide slit formed at an upper portion thereof in the direction of the first shaft hole; A second shaft hole is formed in the center portion so as to be communicated with the first shaft hole and a plurality of fixing holes are formed at the upper portion at equal intervals in the upper direction so as to be positioned in the upper direction of the second shaft hole, And is fixed in position in a state of passing through the first shaft hole of the fixed guide plate, the second shaft hole of the angle adjusting plate, and the plurality of fixing holes of the angle adjusting plate and the guide slit of the fixing guide plate And an up-and-down angle adjusting member composed of a fixing member.

In addition, a plurality of fixed frames are formed at a lower part of the solar cell for solar power generation at regular intervals in a direction from the lower rear side to the lower front side of the solar cell for solar power generation, The movable frame is positioned and fixed in a state in which it is moved left and right along a left and right movable member provided so as to be movable left and right inside the fixed frame located on the lower rear side of the solar cell for solar power generation, An upper left and right moving plate provided so as to be movable left and right inside the stationary frame located on the lower rear side of the solar cell for the solar power generation; And the upper and lower moving plates are moved left and right together with the injection nozzle and the support, A left and right moving plate constituted by a lower left and right moving plate fixed to be fixed; And a fastening member for fastening the upper left and right moving plates to the lower left and right moving plates.

The upper and lower angle adjusting member is fixed to the support base with the injection nozzle by a position fixing member in a state where the vertical angle adjusting member is vertically adjusted. The position fixing member includes a fixing guide plate A U-bolt penetrating therethrough; And a nut fastened to the U-bolt.

The present invention is characterized in that the left and right diffusion grooves formed in the front end face of the injection nozzle in the left and right directions are elongated in the left and right direction and the left and right diffusion grooves Range and the vertical spraying range can be widened, so that the entire surface of the solar cell panel for solar power generation can be more easily cleaned and cooled, and the electromotive force and the light amount of the solar cell panel for solar power generation become larger And the power generation efficiency through the solar cell panel for solar power generation can be greatly improved.

1 is a plan view schematically showing a solar cell panel cleaning apparatus for a photovoltaic power generation according to an embodiment of the present invention,
2 is a front view schematically showing a state in which a state in which left and right diffusion grooves and upper and lower diffusion grooves are respectively formed on the front end surface of the injection nozzle is formed,
3 is a side view schematically showing a state in which a guide member is provided on the front side of the injection nozzle,
4 is a partially enlarged and separated side view schematically showing a state in which the injection nozzle is separated from the support,
5 and 6 are partially enlarged coupling side views schematically showing a state in which a spray nozzle is installed on a support,
7 is a cross-sectional view taken along line A-A in Fig.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a plan view schematically showing a solar cell panel cleaning apparatus for a photovoltaic power generation according to an embodiment of the present invention.

As shown in FIG. 1, the solar cell panel cleaning apparatus for a photovoltaic power generation according to an embodiment of the present invention comprises solar cell panel 10 for solar power generation and a plurality of spray nozzles 20.

First, a plurality of the injection nozzles 20 are provided at an upper portion of the rear side opposite to the front side of the solar cell panel 10 for solar power generation.

A plurality of the injection nozzles 20 are arranged in a direction from the one side of the solar cell panel 10 to the other side and can be made of water or the like in the upper direction of the solar cell panel 10 The washing water is sprayed.

As shown in FIG. 1, a washing water supply unit 21 for supplying washing water to the plurality of injection nozzles 20 may be provided.

The washing water supplying unit 21 may include a washing water storage tank 210, a washing water supplying line 220, a plurality of washing water distributing lines 230 and a pump 240.

The washing water storage tank 210 may be positioned at one side of the solar cell panel 10 while maintaining a certain distance from the solar cell panel 10 for solar power generation.

The washing water supply line 220 and the washing water dispensing line 230 may be various types such as pipes and hoses.

One side of the wash water supply line 220 may be watertightly connected to the other side of the opposite side of the wash water storage tank 210.

The rear side of the plurality of the wash water distribution lines 230 may be watertightly connected to the other side of the wash water supply line 220 at regular intervals.

The front side of each of the plurality of the wash water distribution lines 230 may be connected to the rear end of the plurality of the injection nozzles 20 in a watertight manner.

2 is a front view schematically showing a state in which a state in which left and right diffusion grooves and upper and lower diffusion grooves are respectively formed on the front end surface of the injection nozzle is formed.

As shown in FIG. 2, in order to widen the left and right spraying ranges of the washing water such as water sprayed by the plurality of spray nozzles 20, Right and left diffusion grooves 210 are formed on the end surface of the injection nozzle 20 with respect to the spray hole 201 in the shape of elongated obliquely extending in the lateral direction of the spray hole 201 so as to communicate with the spray hole 201 .

In order to allow the washing water injected by the plurality of injection nozzles 20 to be more easily diffused in the left and right direction of the injection nozzle 20, A lateral groove 211 communicating with the injection nozzle 210 may be formed to extend laterally in a predetermined length from one side of the injection nozzle 20 to the other side.

2, washing water is injected into the front end surface of the injection nozzle 20 in order to widen the vertical spraying range of the washing water such as water jetted from the plurality of the spray nozzles 20, The upper and lower diffusion grooves 220 may be formed to extend in the downward direction of the injection hole 201 in a state of being communicated with the injection hole 201 and the left and right diffusion holes 210.

Here, in order to allow the wash water injected by the plurality of injection nozzles 20 to be more easily diffused in the vertical direction of the injection nozzle 20, A longitudinal groove 221 communicating with the groove 220 may be formed to extend in the vertical direction of the injection nozzle 20 by a predetermined length.

3 is a side view schematically showing a state in which a guide member is provided on the front side of the injection nozzle.

The washing water is sprayed to the front side of the spray nozzle 20 in the upward direction of the spray nozzle 20 and the washing water is sprayed to the front side of the spray nozzle 20, A guide member 30 may be provided for guiding the upper part.

The injection nozzle 20 may be horizontally provided in the center of the guide member 30 in a state where the center of the guide member 30 horizontally passes through the injection nozzle 20 in the longitudinal direction.

The upper portion of the front side of the guide member 30 may be inclined downward toward the front side of the guide member 30 from the rear side of the guide member 30 toward the front side of the guide member 30. [

The washing water injected in the upper direction of the injection nozzle 20 may be guided to the upper part of the solar cell panel 10 for the solar power generation by being hitting the upper part of the front side of the guide member 30.

As the downward inclination angle α of the upper portion of the front side of the guide member 30 becomes larger, the washing water injected in the upper direction of the injection nozzle 20 collides with the upper part of the front side of the guide member 30, It can be gradually injected toward the front side of the upper surface of the battery panel 10.

The washing water injected in the upper direction of the injection nozzle 20 as the downward inclination angle alpha of the upper portion of the guide member 30 becomes smaller, the washing water injected in the upper direction of the injection nozzle 20 collides with the upper part of the front side of the guide member 30, It can be gradually injected toward the rear side of the upper surface of the solar panel 10.

The guide member 30 may be formed of a variety of materials and the guide member 30 may be formed of a material such that the upper portion of the guide member 30 can be bent more easily in the vertical direction of the guide member 30, ) May be made of a metal material having an elastic force such as stainless steel (SUS) which is resistant to corrosion.

FIG. 4 is a partially enlarged and separated side view schematically showing a state in which the injection nozzle is separated from the support, and FIGS. 5 and 6 are partially enlarged and combined side views schematically showing a state in which the injection nozzle is installed on the support.

4 to 6, in order to more easily adjust the vertical spray angle of the washing water sprayed by the spray nozzle 20, a support base 40 and a vertical angle adjusting member 50 may be provided have.

The support base 40 is vertically provided at a predetermined interval in the other direction from one side of the photovoltaic solar panel 10 to the rear side of the solar cell panel 10 for solar power generation, It can be supported at a constant height.

7 is a cross-sectional view taken along the line A-A in Fig.

As shown in FIGS. 4 and 7, the vertical angle adjusting member 50 may include a fixed guide plate 510, an angle adjusting plate 520, and a fixing member 530.

The other side of the fixing guide plate 510 may be fixed to the upper front side of the support base 40 at a predetermined height.

One side of the fixed guide plate 510 may be bent in the forward direction of the fixed guide plate 510.

A first shaft hole 511 may be formed at a central portion of one side of the fixed guide plate 510.

A guide slit 512 may be formed at an upper portion of one side of the fixed guide plate 510 to be positioned in an upper direction of the first shaft hole 511.

The guide slit 512 may be formed in a convex arc shape upward in the fixing guide plate 510.

The other side of the angle regulating plate 520 is bent in an upward direction of the angle regulating plate 520 and is fixed to one side of the fixing guide plate 510 by a worker in a state of being in contact with one side of the fixing guide plate 510 And can be rotatably provided.

A second shaft hole 521 communicating with the first shaft hole 511 of the fixing guide plate 510 may be formed at the center of the other side of the angle adjusting plate 520.

A plurality of fixing holes 522 may be formed at regular intervals in the arc direction along the guide slits 512 so as to be positioned in the upper direction of the second shaft hole 521 on the other side of the angle adjusting plate 520.

The plurality of fixing holes 522 may be composed of a front fixing hole 522a, a rear fixing hole 522b, and an intermediate fixing hole 522c.

The front fixing hole 522a may be formed on the other side of the other side of the angle regulating plate 520. [

The rear fixing hole 522b may be formed on the rear side of the other side of the angle regulating plate 520.

The intermediate fixing hole 522c may be formed at one or two or more upper portions of the other side of the angle adjusting plate 520 so as to be positioned between the front fixing holes 522a and the rear fixing holes 522b .

The injection nozzle 20 may be fixed by a position fixing member 540 to a lower side of the angle regulating plate 520.

The position fixing member 540 may be composed of a U bolt 541 and a nut 542.

The U-bolt 541 may vertically penetrate one side of the angle regulating plate 520 while the injection nozzle 20 is accommodated in the U-bolt 541.

The nut 542 may be tightly fixed to an upper portion of one side of the angle regulating plate 520 while being screwed on the U bolt 541.

The fixing member 530 may include a fixing bolt 531 and a nut 532.

The fixing bolt 531 can horizontally penetrate the first shaft hole 511 of the fixed guide plate 510 and the second shaft hole 521 of the angle adjusting plate 520.

The fixing bolt 531 may horizontally penetrate one of the plurality of fixing holes 522 of the angle regulating plate 520 and the guide slit 512 of the fixing guide plate 510.

The nut 532 is screwed to the opposite side of the fixing bolt 531 to fix the fixing bolt 531.

In order to allow the upper and lower spray angle of the washing water to the spray nozzle 20. The spray can be wider than the separation distance (D ₁ in Fig. 4) of the front side fixing hole (522a) and the rear fixing hole (522b) is (D _{2 in} FIG. 4) of the guide slit 512 of the fixed guide plate 510.

Next, as shown in FIGS. 5 and 6, a plurality of fixed frames 11 may be formed at a predetermined interval below the solar cell panel 10 for solar power generation.

The stationary frame 11 may be formed laterally extending from one side of the solar cell panel 10 to the other side by a predetermined length.

The fixed frame 11 may be formed at a plurality of spaced apart from the lower rear side of the photovoltaic solar cell panel 10 in the lower front side direction.

A guide slit 111 may be formed at a lower middle portion of the fixed frame 11 to extend laterally to a predetermined length along the fixed frame 110.

In order to allow the spray nozzle 20 to spray wash water to a specific part of the upper surface of the solar cell panel 10, the spray nozzle 20 includes a plurality of the fixed frames 11, (11) located on the lower rear side of the photovoltaic solar panel (10) of the photovoltaic power generation system, And can be fixed in position while being moved left and right along the member (12).

The left and right moving member 12 may include an upper left and right moving plate 121, a lower left and right moving plate 122, and a fastening member 124.

The upper left and right moving plate 121 is located inside the stationary frame 11 located on the lower rear side of the solar cell panel 10 among the plurality of stationary frames 11 by the operator, (Not shown).

The upper portion of the lower left and right moving plate 122 may be bent in a forward direction of the lower left and right moving plate 122.

An upper portion of the lower left and right moving plate 122 may be provided at a lower portion of the support 40 in a state where the upper portion of the lower left and right moving plate 122 is fastened to the lower portion of the upper left and right moving plate 121.

The lower left and right moving plate 122 may be welded and fixed to the lower front side of the supporting table 40. In order to smoothly replace and repair the lower left and right moving plate 122, And the lower portion is detachably fixed to the lower front side of the support base 40 by a fixing member 123. [

The fixing member 123 includes a U bolt 123a horizontally passing through a lower portion of the lower left and right moving plate 122 while receiving the lower side of the supporting base 40 inside; And a nut 123b screwed to the front side of the U bolt 123a.

The lower left and right moving plate 122 can be fixed in position with the injection nozzle 20 and the support 40 moved left and right by the operator along the upper left and right moving plate 121. [

The fastening member 124 may fasten the lower left and right moving plate 122 to the lower portion of the upper left and right moving plate 121.

The fastening member 124 may be a fastening bolt screwed vertically to the upper left and right moving plates 121 and the lower left and right moving plates 122.

Next, as shown in FIGS. 5 to 7, the vertical position adjusting member 50 is vertically and horizontally adjusted by the operator to the position fixing member 60 together with the injection nozzle 20, As shown in FIG.

The position fixing member 60 includes a U-bolt 610 horizontally passing through the fixing guide plate 510 in a state where the supporting member 40 is housed inside the U-bolt 610; And a nut 620 fastened to the U bolt 610.

The present invention constructed as described above is characterized in that the right and left diffusion grooves 210 are formed in the front end face of the injection nozzle 20 in the left and right direction and are formed in a long shape, The spraying range and the vertical spraying range of the washing water sprayed by the spraying nozzle 20 can be widened through the diffusion groove 220 to make the entire surface of the solar cell panel 10 more easily Cleaning and cooling of the photovoltaic power generation solar cell panel 10, and thus the electromotive force and the light collection amount of the solar cell panel 10 for solar power generation can be increased, There is an advantage.

10; Solar panel for solar power generation, 20; Injection nozzle,
200; Injection, 210; Left and right diffusion groove.

Claims (8)

A solar cell panel cleaning apparatus for a photovoltaic power generation system, comprising: a plurality of spray nozzles disposed on an upper portion of a solar cell for solar power generation to spray wash water,
A left and right diffusion groove having a shape of an oblong shape elongated in the left and right direction is formed around a spray hole for spraying wash water on a tip end face of the injection nozzle,
A guide member provided at a front side of the injection nozzle and inclined downward from a rear side of the front side toward a front side in order to guide the washing water sprayed upward in the spray nozzle upward to the top of the solar cell for solar power generation, Wherein the solar cell panel cleaning apparatus comprises:
A solar cell panel cleaning apparatus for a photovoltaic power generation system, comprising: a plurality of spray nozzles disposed on an upper portion of a solar cell for solar power generation to spray wash water,
A left and right diffusion groove having a shape of an oblong shape elongated in the left and right direction is formed around a spray hole for spraying wash water on a tip end face of the injection nozzle,
A support for supporting the injection nozzle at a predetermined height;
A fixed guide plate fixed to an upper portion of the support plate at a predetermined height and having a first shaft hole formed at a central portion thereof and having an arc shaped guide slit formed at an upper portion thereof in the direction of the first shaft hole; A second shaft hole is formed in the center portion so as to be communicated with the first shaft hole and a plurality of fixing holes are formed at the upper portion at equal intervals in the upper direction so as to be positioned in the upper direction of the second shaft hole, And is fixed in position in a state of passing through the first shaft hole of the fixed guide plate, the second shaft hole of the angle adjusting plate, and the plurality of fixing holes of the angle adjusting plate and the guide slit of the fixing guide plate And an upper and a lower angle adjusting member composed of a fixing member.
3. The method according to claim 1 or 2,
And a lateral groove communicating with the left and right diffusing grooves is formed on a front end surface of the injection nozzle so as to extend from one side to the other side of the injection nozzle.
3. The method according to claim 1 or 2,
And an upper and a lower diffusion groove in the shape of an oval shape extending vertically downwardly of the injection hole in a state of being communicated with a spray hole through which the washing water is sprayed is formed on the end surface of the spray nozzle Device.
5. The method of claim 4,
And a vertical groove communicating with the upper and lower diffusion grooves is formed vertically extending in the front end surface of the injection nozzle in the lower direction of the upper and lower diffusion grooves.
3. The method of claim 2,
A plurality of fixed frames are formed at a lower portion of the solar cell for solar power generation at regular intervals in a direction from the lower rear side to the lower front side of the solar cell for solar power generation,
Wherein the injection nozzle is fixed in a state in which the injection nozzle is moved left and right along a left and right movable member provided so as to be movable laterally to the inside of the fixed frame located on the lower rear side of the solar cell for solar power generation among a plurality of the fixed frames,
Wherein the left and right movable member includes an upper left and right movable plate movably provided on an inner side of the fixed frame located at a lower rear side of the solar cell for the photovoltaic power generation among a plurality of the fixed frames, And a lower left and right moving plate which is positioned and fixed in a state of being moved left and right along the upper left and right moving plates together with the injection nozzle and the supporting plate in a state of being provided at a lower portion of the support frame in a state where the upper portion is fastened, ;
And a fastening member for fastening the upper left and right moving plates to the lower left and right moving plates.
3. The method of claim 2,
The upper and lower angle adjusting member is fixed to the support by the position fixing member in a state in which the up and down angle adjusting member is adjusted up and down with the injection nozzle,
The U-bolt passing through the fixing guide plate in a state in which the position fixing member is housed inside the support;
And a nut fastened to the U-bolt. delete

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