KR20210064789A - Solar panel cleaning device - Google Patents

Abstract

The present invention relates to a solar panel cleaning device. The brush can be rotated and moved back and forth by using one drive motor so as to reduce installation costs and washes a surface of a solar panel without scratching the surface of the solar panel so as to remove foreign substances such as dust and the like.

Description

Solar panel cleaning device

In the present invention, the brush can be rotated and moved back and forth using one driving motor, so installation costs can be reduced, and the surface of the solar panel is washed without scratching the surface of the solar panel to remove foreign substances such as dust It relates to a solar panel cleaning device that can remove

As environmental issues are recognized as important around the world, research using solar energy, a clean energy, is being conducted in various ways.

In particular, a method of using solar heat among solar energy is a method of using hot water by heating water with solar heat, and a method of using solar energy among solar energy is a method of using solar power by forming solar photovoltaic panels (PV panels). There are ways to generate and use electricity.

The photovoltaic panel is installed at an angle for each size so that sunlight can be irradiated to the widest possible surface, or installed so as to rotate along the direction in which the sun moves.

On the other hand, solar power generation facility operation and management are mostly solar panel cleaning operations, and it is known that the efficiency is reduced by about 20% due to dust accumulated on the photovoltaic panel.

Therefore, in general, in the case of a horizontal photovoltaic panel, cleaning is required once a week, and in the case of a photovoltaic panel installed at an angle, cleaning is required once a month. At the same time, a dry automatic dust removal device for a multifunctional solar power panel that can suck in and discharge dust using wind has been proposed as Korean Patent Publication No. 10-1614528.

However, in the Korean Patent Publication No. 10-1614528, two brush motors are used to rotate two brushes to remove dust, and the two brushes are formed for one-way rotation of the wire dragging the body frame. There is a problem in that a plurality of motors are required for rotation and transfer of the brush motor, such as one wire motor being used, which incurs a lot of installation cost.

Domestic Registration Patent Publication No. 10-1614528

The present invention was created to solve the above-described problems, and it is possible to rotate and move the brush back and forth using one driving motor, so that installation costs can be reduced as well as the solar panel without scratches on the surface of the solar panel. An object of the present invention is to provide a solar panel cleaning device capable of removing foreign substances such as dust by washing the surface of the optical panel.

The present invention for achieving the above object is a washing water spray unit for spraying washing water on the surface of the solar panel disposed in an inclined state on the frame; a guide rail installed on the side of the solar panel; a driving motor installed to be movable back and forth along the guide rail; a rotation shaft coupled to the shaft of the driving motor and disposed in the horizontal direction above the surface of the solar panel; a brush installed on the rotating shaft; It provides a solar panel washing device comprising a; string wound on the rotation shaft in a state where the upper end is fixed to the upper end of the solar panel.

Here, the frame includes a lower frame; The lower part is shaft-coupled to the upper part of the lower frame, and the front side and the rear side are each composed of an upper frame whose angle is adjusted by vertical rotation, and a rotational moving part for vertically rotating the front side and the rear side of the upper frame. desirable.

In addition, the rotation moving unit includes an auxiliary frame in which an upper front side and an upper rear side are respectively fixed to a lower front side and a lower rear side of the upper frame; a chain fixed to the upper surface of the auxiliary frame; a sprocket engaged with the chain; a rotating shaft coupled to the sprocket to rotate the sprocket; It is preferable to include; a driving member for rotating the rotating shaft.

In addition, a sensing unit provided on the lower frame to sense the lower portion of the upper frame; Preferably, a control unit for controlling the rotational movement unit according to the sensing signal of the sensing unit is provided.

Further, the rear side is shaft-coupled to the lower frame so as to be located in the lower direction of the upper frame, the front side is rotated up and down to adjust the angle, the sensing unit is provided on the upper side, and the upper frame according to the vertical rotation range of the front side It is preferable that a vertical angle control unit for adjusting the vertical rotational movement range of the front and rear sides of the .

In addition, the sensing unit is composed of a first sensing unit and a second sensing unit that are moved in the front and rear directions of the vertical angle control unit on the upper portion of the vertical angle control unit and fixed at regular intervals in a controlled state, and the first sensing unit It is preferable that the vertical rotation range of the front side and the rear side of the upper frame is adjusted according to the separation distance between the and the second sensing unit.

In addition, the guide rail includes a first guide rail installed on the frame in the lower direction of the side of the solar panel; It is preferable to include a; second guide rail installed in the outer side of the side of the solar panel in a state where it is fastened by the first guide rail and the fastening part, and the driving motor is installed to be movable back and forth.

In addition, a detection unit provided on the side surface of the solar panel at regular intervals in the front-rear direction of the solar panel to detect the driving motor moving up and down along the guide rail; Preferably, a control unit for controlling the driving motor according to the detection signal of the detection unit is provided.

In the present invention, the brush can be rotated and moved back and forth using one driving motor, so installation costs can be reduced, and the surface of the solar panel is washed without scratching the surface of the solar panel to remove foreign substances such as dust has the effect of removing

1 is a perspective view schematically showing an apparatus for cleaning a solar panel according to an embodiment of the present invention;
Figure 2 is a plan view of Figure 1,
3 is a perspective view schematically showing a frame in which a solar panel is separated;
4 is a partial lisa perspective view schematically showing a state in which the second guide rail is separated from the first guide rail;
Figure 5 is a side view of Figure 1,
6 is a partially enlarged cutaway side view schematically showing an up and down angle adjustment unit;
7 is a block diagram schematically showing the control state of the control unit;
8 and 9 are side views schematically illustrating a process of adjusting the vertical angle of the upper frame in a state in which the front side of the vertical angle adjusting unit is raised,
10 and 11 are side views schematically showing the process of adjusting the vertical angle of the upper frame according to the separation distance of the first and second sensing units in a state in which the front side of the vertical angle adjusting unit is raised;
12 and 13 are side views schematically illustrating the process of adjusting the vertical angle of the upper frame in a state in which the front side of the vertical angle adjusting unit is lowered;
14 and 15 are side views schematically illustrating the process of adjusting the vertical angle of the upper frame according to the separation distance of the first and second sensing units in a state where the front side of the vertical angle adjusting unit is lowered;
16 and 17 are perspective views schematically illustrating a state in which the washing water spray unit sprays washing water and the brush moves up and down for cleaning the surface of the solar panel;
18 is a perspective view schematically illustrating a state in which guide rails are installed on both sides of a solar panel.

Hereinafter, a preferred embodiment of the present invention will be described in more detail based on the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications may be made by those of ordinary skill in the art without departing from the technical gist of the present invention.

1 is a perspective view schematically showing an apparatus for cleaning a solar panel according to an embodiment of the present invention, and FIG. 2 is a plan view of FIG. 1 .

As shown in Figs. 1 and 2, the solar panel washing apparatus according to an embodiment of the present invention is largely, a washing water spray unit, a guide rail 20, a driving motor 30, a rotating shaft 40, a brush 50, and a string. (60) is included.

First, the washing water spray unit sprays washing water, such as water, to the surface of the solar panel 8 disposed in an inclined state on the frame 9, which will be described in detail below for convenience of description.

3 is a perspective view schematically showing a frame from which a solar panel is separated, and FIG. 4 is a partial perspective view schematically showing a state in which the second guide rail is separated from the first guide rail.

Here, as an example, the frame 9 may be largely composed of a lower frame 91 and an upper frame 92 as shown in FIG. 3 .

The lower frame 91 may be composed of one lower frame 911 and the other lower frame 912 vertically arranged at regular intervals from one side to the other side of the solar panel 8 .

An upper portion of the one lower frame 911 may be shaft-coupled to a lower one middle portion of the upper frame 92 .

An upper portion of the other lower frame 912 may be shaft-coupled to the lower middle portion of the other lower frame 92 .

The photovoltaic panel 8 may be fixed in various ways such as bolt fixing in a state in which the solar panel 8 is seated in a plurality of rows and a plurality of rows on the upper portion of the upper frame 92 .

The upper frame 92 may be angled in a state in which the front and rear sides of the upper frame 92 are rotationally moved in the vertical direction of the solar panel 8, respectively.

A rotation movement unit 11 for vertically rotating the front and rear sides of the upper frame 92 may be provided.

As an example, the rotational moving part 11 is large, as shown in FIG. 3 , to be configured to include an auxiliary frame 111 , a chain 112 , a sprocket 113 , a rotating shaft 114 and a driving member 115 . can

The auxiliary frame 111 may be formed in various shapes, such as an arc shape convex in a downward direction of the upper frame 92 .

The auxiliary frame 111 may be composed of one side auxiliary frame 111a and the other auxiliary frame 111b respectively provided on the lower portion of one side and the lower portion of the other side of the upper frame 92 .

The upper front side and the upper rear side of the one side auxiliary frame 111a may be fixed in various ways, such as bolt fixing to one side lower front side and one side lower rear side of the upper frame 92, respectively.

The upper front side and the upper rear side of the other auxiliary frame 111b may be fixed to the lower front side of the other side and the lower rear side of the other side of the upper frame 92 in various ways, such as fixing bolts, respectively.

The chain 112 is seated on the upper surface of the one side auxiliary frame 111a of the auxiliary frame 111 and the upper surface of the other auxiliary frame 111a of the auxiliary frame 111, and can be fixed in various ways such as welding fixing, bolt fixing, etc. have.

The sprocket 113 may be provided on the chain 112 in a state in which it is engaged with the chain 112 .

One side and the other side of the rotating shaft 114 are rotatably coupled to the middle part of the one lower frame 911 of the lower frame 91 and the middle part of the other lower frame 912, respectively, in various ways such as bearing coupling. have.

In a state in which the sprocket 113 is coupled to one side portion and the other side portion of the rotation shaft 114 positioned in the upper direction of the chain 112, the rotation shaft 114 may rotate the sprocket 113 forward and reverse. .

The driving member 115 may include a driving motor 115a, a rotational force transmission sprocket 115b, and a rotational force transmission chain 115c.

The driving motor 115a is horizontally seated on the upper part of the fixing plate 913 provided on the lower part of the lower frame 911 of one side of the lower frame 91 or the lower part of the lower frame 912 of the other side. can be fixed in this way.

The rotational force transmission sprocket 115b may be coupled to one or the other portion of the rotation shaft 114 positioned in the upper direction of the shaft of the driving motor 115a and the shaft of the driving motor 115a.

The lower and upper portions of the rotational force transmission chain 115c are respectively coupled to one side or the other side of the rotating shaft 114 located in the upper direction of the shaft of the driving motor 115a and the shaft of the driving motor 115a. It may be wound around the rotational force transmission sprocket (115b).

The rotational force transmission chain 115c may sequentially transmit the rotational force of the shaft of the driving motor 115a to the rotational force transmission sprocket 115b and the rotational shaft 114 to rotate the rotational shaft 114 .

Due to the chain 112, the upper surface of one auxiliary frame 111a of the auxiliary frame 111 and the upper surface of the other auxiliary frame 111a of the auxiliary frame 111 have gear teeth engaged with the sprocket 113 to be separately machined. There is no need, and thus the manufacturing cost can also be reduced.

Next, the guide rail 20 is installed on one side or the other side of the solar panel 8 in a state extending by a predetermined length in the front-rear direction of the solar panel (8).

For example, as shown in FIGS. 3 and 4 , the guide rail 20 may be configured to include a first guide rail 210 and a second guide rail 220 .

The first guide rail 210 may be formed of two, and the second guide rail 220 may be formed of one.

The two first guide rails 210 are bolted to one side lower front side and one side lower rear side of the upper frame 92 of the frame 9 in the lower direction of one side of the solar panel 8, etc. Each can be fixedly installed in this way.

Alternatively, the two guide rails 210 are bolted to the lower front side of the other side and the lower rear side of the other side of the upper frame 92 of the frame 9 in the lower direction of the other side of the solar panel 8. Each can be fixedly installed in various ways.

One of the second guide rails 220 is attached to the outside of one side or the outside of the other side of the solar panel 8 in a state where it is fastened with the first guide rail 210 and the fastening part 70 . can be

The fastening part 70 may include, for example, a fastening frame 710 and a fastening member 720 .

The fastening frame 710 includes a front side of the first guide rail 210 and a front side of the second guide rail 220 adjacent to the front side of the second guide rail 220 among the two first guide rails 210 . It may be provided between the front side.

In addition, the fastening frame 710 includes the rear side of the first guide rail 210 and the second guide rail 220 adjacent to the rear side of the second guide rail 220 among the two first guide rails 210 . ) may be provided between the rear side.

The fastening member 720 may include a U-bolt 721 and a nut 722 as shown in FIG. 4 .

In a state in which the first guide rail 210 and the second guide rail 220 are respectively accommodated inside the U bolt 721, the U bolt 721 connects one side and the other side of the fastening frame 710, respectively. It can penetrate vertically.

The nut 722 may be fastened to the U-bolt 721 .

Next, the driving motor 30 is installed on the second guide rail 220 of the guide rail 20 to move forward and backward along the second guide rail 220 . .

A moving body 310 installed to the second guide rail 220 of the guide rail 20 at a lower portion of the driving motor 30 to be movable in the front and rear direction of the second guide rail 220 is bolted, etc. It can be fixed in a variety of ways.

With the movable body 310 positioned between the fastening parts 70 , the second guide rail 220 of the guide rail 20 moves the lower portion of the movable body 310 before and after the movable body 310 . can penetrate horizontally.

Next, the shaft of the driving motor 30 is coupled to one end or the other end of the rotation shaft 40 .

The rotation shaft 40 is disposed on the upper side of the surface of the solar panel 8 in a state of horizontally extending from one side to the other side of the solar panel 8 .

Next, the brush 50 may be installed on the rotation shaft 40 at regular intervals.

Next, the upper end of the string 60 is fixed to the upper end of the solar panel 8 in various ways, such as bolted, and the lower end of the string 60 is bolted to the outer surface of the rotating shaft 40 and fixed by adhesive. The string 60 may be wound on the outer peripheral surface of the rotation shaft 40 in a state of being fixed in various ways, such as in a fixed state.

A plurality of the strings 60 may be wound on one outer circumferential surface, an intermediate outer circumferential surface, and the other outer circumferential surface of the rotation shaft 40 , respectively, and the brush 50 may be positioned between the plurality of strings 60 .

The string 60 may be formed of various types such as a string member such as a rope, a wire, or a sheet such as a cloth.

FIG. 5 is a side view of FIG. 1 , and FIG. 6 is a partially enlarged cut-away side view schematically showing the vertical angle adjusting unit.

Next, a sensing unit 80 provided in the lower frame 91 to sense the lower portion of the upper frame 92 may be provided.

And, as shown in FIGS. 5 and 6 , a vertical angle adjusting unit 90 may be provided in the lower frame 91 to be positioned in the lower direction of the upper frame 92 .

An angle adjusting plate 900 may be vertically formed at a lower rear side of the vertical angle adjusting unit 90 .

The center of the angle adjusting plate 900 vertically formed on the lower rear side of the upper and lower angle adjusting unit 90 is one side outer surface of one lower frame 911 of the lower frame 91 or one outer surface of the other lower frame 912. It may be shaft-coupled to the outer surface of the other side, which is the opposite side.

As shown in FIG. 6 , an arc-shaped guide slit 901 convex in the downward direction of the angle adjusting plate 900 may be formed in a portion of the angle adjusting plate 900 around the center of the angle adjusting plate 900 .

A position fixing member 908 may be provided so that the front side of the vertical angle adjusting unit 90 can be vertically rotated by an operator to be fixed in an angle-adjusted state.

The position fixing member 908 is a bolt screwed to the outer surface of one side of the one lower frame 911 or the other outer surface of the other lower frame 912 while penetrating the guide slit 901 of the angle adjusting plate 900 . It may be of various types.

The sensing unit 80 may be provided on the upper surface of the vertical angle adjusting unit 90 .

For example, the sensing unit 80 may include a first sensing unit 810 and a second sensing unit 820 as shown in FIG. 6 .

The first sensing unit 810 and the second sensing unit 820 are moved in the front and rear directions of the vertical angle adjusting unit 90 by an operator on the upper part of the vertical angle adjusting unit 90 to adjust their positions. can be fixed at regular intervals.

To this end, a guide slit 902 extending by a predetermined length in the front-rear direction of the vertical angle adjusting unit 90 may be formed in the upper central portion of the vertical angle adjusting unit 90 .

In addition, a first guide plate 903 and a second guide plate 904 are provided on the upper and lower angle adjusting unit 90 , and a first guide body 905 is provided inside the upper and lower angle adjusting unit 90 . and a second guide body 906 may be provided.

The cross-sectional shape of the first and second guide plates 903 and 904 may be formed in various shapes such as a '┗' shape.

The first and second guide plates 903 and 904 may be connected and fixed to the first and second guide bodies 905 and 906 by a fixing member 907 .

The fixing member 907 is installed in the first and second guide plates 903 and 904 in a state in which the lower portions of the first and second guide plates 903 and 904 and the guide slit 902 are vertically penetrated, respectively. It may be made of a bolt screwed to a predetermined depth on the upper part.

The head part 907a of the fixing member 907 may be closely fixed to the upper surface of the vertical angle adjusting part 90 around the guide slit 902 .

7 is a block diagram schematically showing a control state of a control unit.

Next, as shown in FIG. 7 , a control unit 100 for controlling the rotational movement unit 11 according to the sensing signal of the sensing unit 80 may be provided.

In addition, a timer 300 capable of setting the rising time and falling time of the front side of the upper frame 92 and the washing time of the solar panel 8, respectively, is provided in the control unit 100, such as a push button or a dial button, etc. It may be provided in various ways.

8 and 9 are side views schematically illustrating a process of adjusting the vertical angle of the upper frame in a state in which the front side of the vertical angle adjusting unit is raised.

Next, the vertical rotational movement range of the front side and the rear side of the upper frame 92 may be adjusted according to the vertical rotational movement range of the front side of the vertical angle adjusting unit 90 .

For example, as the front side of the vertical angle control unit 90 descends, the vertical rotation range of the front and rear sides of the upper frame 92 may gradually increase, and as the front side of the vertical angle control unit 90 rises, the The vertical rotation range of the front and rear sides of the upper frame 92 may gradually decrease.

As shown in FIG. 8 , while the front side of the upper frame 92 is lowered in a state in which the front side of the vertical angle adjusting unit 90 is raised, the second sensing unit 820 detects the upper frame 92 of the upper frame 92 . When the lower portion is not detected and the first detection unit 810 detects the lower portion of the upper frame 92 , the driving member 115 of the rotational moving unit 11 is controlled by the control unit 100 . The power supply of the power supply unit 200 to the driving motor 115a of the may be cut off, so that the driving motor 115a may be stopped.

As shown in FIG. 9 , while the front side of the upper frame 92 is raised in a state in which the front side of the vertical angle adjusting unit 90 is raised, the first detecting unit 810 detects the upper frame 92 . When the lower portion is not detected and the second detecting unit 820 detects the lower portion of the upper frame 92 , the driving member 115 of the rotational moving unit 11 is controlled by the controller 100 . The power supply of the power supply unit 200 to the driving motor 115a of the may be cut off, so that the driving motor 115a may be stopped.

10 and 11 are side views schematically illustrating a process of adjusting the vertical angle of the upper frame according to the separation distance of the first and second sensing units in a state in which the front side of the vertical angle adjusting unit is raised.

And, as shown in FIGS. 10 and 11 , the upper frame according to the separation distance D between the first and second sensing units 810 and 820 in a state in which the front side of the vertical angle adjusting unit 90 is raised. (92) the front and rear vertical rotation movement range can be adjusted.

For example, in a state in which the front side of the vertical angle adjusting unit 90 is raised, as the separation distance D of the first and second sensing units 810 and 820 increases, the front and rear sides of the upper frame 92 are The vertical rotation movement range may gradually increase, and as the separation distance D between the first and second sensing units 810 and 820 decreases, the vertical rotation movement range of the front and rear sides of the upper frame 92 gradually decreases. can get

12 and 13 are side views schematically illustrating a process of adjusting the vertical angle of the upper frame in a state where the front side of the vertical angle adjusting unit is lowered.

As shown in FIG. 12 , while the front side of the upper frame 92 is lowered in a state in which the front side of the vertical angle adjusting unit 90 is lowered, the second sensing unit 820 detects the upper frame 92 of the upper frame 92 . When the lower portion is not detected and the first detection unit 810 detects the lower portion of the upper frame 92 , the driving member 115 of the rotational moving unit 11 is controlled by the control unit 100 . The power supply of the power supply unit 200 to the driving motor 115a of the may be cut off, so that the driving motor 115a may be stopped.

As shown in FIG. 13 , while the front side of the upper frame 92 is raised in a state in which the front side of the vertical angle adjusting unit 90 is lowered, the first sensing unit 810 is detected by the upper frame 92 . When the lower portion is not detected and the second detecting unit 820 detects the lower portion of the upper frame 92 , the driving member 115 of the rotational moving unit 11 is controlled by the controller 100 . The power supply of the power supply unit 200 to the driving motor 115a of the may be cut off, so that the driving motor 115a may be stopped.

14 and 15 are side views schematically illustrating a process of adjusting the vertical angle of the upper frame according to the separation distance of the first and second sensing units in a state where the front side of the vertical angle adjusting unit is lowered.

And, as shown in FIGS. 14 and 15 , the upper frame according to the separation distance D between the first and second sensing units 810 and 820 in a state in which the front side of the vertical angle adjusting unit 90 is lowered. (92) the front and rear vertical rotation movement range can be adjusted.

For example, as the separation distance D of the first and second sensing units 810 and 820 increases in a state in which the front side of the vertical angle adjusting unit 90 is lowered, the front and rear sides of the upper frame 92 are The vertical rotation movement range may gradually increase, and as the separation distance D between the first and second sensing units 810 and 820 decreases, the vertical rotation movement range of the front and rear sides of the upper frame 92 gradually decreases. can get

16 and 17 are perspective views schematically illustrating a state in which the washing water spray unit sprays washing water and the brush moves up and down for cleaning the surface of the solar panel.

Next, as shown in FIG. 16 , the washing water spray unit 10 described above includes a washing water reservoir (not shown), a washing water supply line 120 , a pump (not shown), and a washing water spray nozzle 140 . can be

The washing water reservoir (not shown) may be disposed around the frame 9, and washing water, which may be made of water, etc., may be stored inside the washing water reservoir (not shown).

The washing water supply line 120 may be formed of various types such as a hose and a pipe, and the other side of the washing water supply line 120 may be connected and fixed in a watertight manner to the lower portion of the washing water reservoir (not shown).

The pump (not shown) may be provided in the washing water supply line 120 to forcibly pump washing water such as water stored in the washing water reservoir (not shown) into the washing water supply line 120 .

The washing water spray nozzle 140 is connected to one side of the washing water supply line 120 and is on the opposite side of the front side of the solar panel 8 seated and fixed on the upper rear side of the upper frame 91 of the frame 9. A plurality of methods such as fixing bolts at regular intervals from one side to the other side of the solar panel 8 are provided on the upper rear side, and washing water such as water can be sprayed onto the surface of the solar panel 8 .

As shown in FIG. 16 , under the control of the control unit 100 , the washing water jet nozzle 140 of the washing water jet unit 10 sprays washing water such as water to the surface of the solar panel 8 , while the driving motor When 30 rotates the rotating shaft 40 in the reverse direction, the brush 50 rotates in the reverse direction along the rotating shaft 40 and the string 60 is unwound from the rotating shaft 40 while the rotating shaft ( 40) and the brush 50 together with the drive motor 30 moving in the forward direction of the second guide rail 220 of the guide rail 20 while cleaning the surface of the solar panel 8 It is possible to remove foreign substances such as

When the driving motor 30 rotates the rotating shaft 40 in the forward direction in a state in which the washing water injection of the washing water jet nozzle 140 of the washing water jet unit 10 is stopped under the control of the control unit 100, As shown in FIG. 17 , the brush 50 rotates in the forward direction along the rotation shaft 40 and the string 60 is wound around the rotation shaft 40 together with the rotation shaft 40 and the brush 50 . The driving motor 30 may move in the rearward direction of the second guide rail 220 of the guide rail 20 to return to its original position.

One of the other solar panels 8 provided on the front side of one side of the solar panel 8 provided on the upper front side of the upper frame 92 of the frame 9 and the upper rear side of the upper frame 92 A detection unit 400 including a first detection unit 401 and a second detection unit 402 for detecting the driving motor 30 moving back and forth along the second guide rail 220 of the guide rail 20 on the rear side ) may be respectively provided in various ways such as fixing bolts at regular intervals in the front-rear direction of the solar panel 8 .

The detection unit 400 may be formed of various types such as a proximity sensor, a limit switch, a proximity switch, and a laser sensor, and the control unit 100 controls the driving motor 30 according to the detection signal of the detection unit 400 . can

When the first detection unit 401 detects the driving motor 30 moving in the front direction of the second guide rail 220 of the guide rail 20, the cleaning is performed under the control of the control unit 100. The rotating shaft 40 is rotated in the forward direction so that the washing water injection of the washing water injection nozzle 140 of the water injection unit 10 is stopped and the driving motor 30 is moved to the rear side of the second guide rail 220 so that it can be returned to its original position. can be rotated

When the second detection unit 402 detects the driving motor 30 moving in the rear direction of the second guide rail 220 of the guide rail 20 , the driving is performed under the control of the control unit 100 . The motor 30 may be shut down.

18 is a perspective view schematically illustrating a state in which guide rails are installed on both sides of a solar panel.

Next, as shown in FIG. 18 , in order for the driving motor 30 to move smoothly in the front-rear direction of the second guide rail 220 of the guide rail 20, the guide rail 20 is It is preferable to be installed on both the one side and the other side of the optical panel (8).

In this case, the driving motor 30 may be installed on the second guide rail 220 located on the other side of the solar panel 8 to be movable back and forth.

In addition, one side of the rotation shaft 40 is rotatably coupled to the upper portion of the movable body 310 installed on the second guide rail 220 located on one side of the solar panel 8 in various ways, such as bearing coupling. can

In the present invention configured as described above, the brush 50 can be rotated and moved back and forth using one driving motor 30 , thereby reducing installation cost and scratching the surface of the solar panel 8 . There is an advantage that foreign substances such as dust can be removed by washing the surface of the solar panel 8 without generation.

10; washing water spray unit, 20; guide rail,
30; drive motor, 40; rotating shaft,
50; brush, 60; string.

Claims (8)

a washing water spraying unit for spraying washing water on the surface of the solar panel disposed in an inclined state on the frame;
a guide rail installed on the side of the solar panel;
a driving motor installed to be movable back and forth along the guide rail;
a rotation shaft coupled to the shaft of the driving motor and disposed in the horizontal direction above the surface of the solar panel;
a brush installed on the rotating shaft;
A solar panel washing apparatus comprising a; string wound on the rotation shaft in a state where the upper end is fixed to the upper end of the solar panel.
The method of claim 1,
The frame includes a lower frame;
The lower part is shaft-coupled to the upper part of the lower frame, and the front side and the rear side are each composed of an upper frame whose angle is adjusted by vertical rotation,
A photovoltaic panel washing apparatus, characterized in that it is provided; a rotational movement unit for vertically rotating the front and rear sides of the upper frame.
3. The method of claim 2,
The rotational moving unit comprises: an auxiliary frame in which an upper front side and an upper rear side are respectively fixed to a lower front side and a lower rear side of the upper frame;
a chain fixed to the upper surface of the auxiliary frame;
a sprocket engaged with the chain;
a rotating shaft coupled to the sprocket to rotate the sprocket;
A solar panel washing device comprising a; a driving member for rotating the rotating shaft.
3. The method of claim 2,
a sensing unit provided in the lower frame to sense a lower portion of the upper frame;
A solar panel washing device comprising a; a control unit for controlling the rotational movement unit according to the detection signal of the sensing unit.
5. The method of claim 4,
The rear side is shaft-coupled to the lower frame so as to be positioned in the lower direction of the upper frame, the front side is rotated up and down to adjust the angle, the sensing unit is provided on the upper side, and the front side of the upper frame according to the vertical rotation range of the front side A solar panel washing device, characterized in that it is provided; and a vertical angle control unit for adjusting the vertical rotation range of the rear side.
6. The method of claim 5,
The sensing unit is composed of a first sensing unit and a second sensing unit that move in the front-rear direction of the vertical angle control unit on the upper side of the vertical angle control unit and are fixed at regular intervals in a state where the position is adjusted,
A solar panel washing apparatus, characterized in that the vertical rotation movement range of the front and rear sides of the upper frame is adjusted according to the separation distance between the first detection unit and the second detection unit.
The method of claim 1,
The guide rail includes: a first guide rail installed on the frame in the lower direction of the side of the solar panel;
and a second guide rail installed on the outer side of the side of the solar panel in a state where it is fastened by the first guide rail and the fastening part, and the driving motor is installed to move back and forth. Solar panel cleaning device.
The method of claim 1,
a detection unit provided on a side surface of the solar panel at regular intervals in the front-rear direction of the solar panel to detect the driving motor moving up and down along the guide rail;
A solar panel washing apparatus, characterized in that it is provided; a control unit for controlling the driving motor according to the detection signal of the detection unit.

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