KR102643281B1 - Portable Solar Module Coating Solution Application Device - Google Patents

Abstract

The mobile solar module coating liquid application device according to the present invention includes a coating liquid storage tank in which the coating liquid for solar modules is accommodated, a flow pipe whose end is connected to the side of the coating liquid storage tank and a flow path through which the coating liquid flows is formed, and the flow. A control pump provided in the pipe to allow the coating liquid to flow from one end of the flow pipe to the other end, a power supply unit that supplies power for operation of the control pump, and a power supply unit provided at the other end of the flow pipe to flow by the flow pipe. It includes a coating liquid spray head including a spray nozzle that sprays the coating liquid on the surface of the solar module.

Description

Portable solar module coating solution application device}

The present invention relates to a coating liquid application device for applying a coating liquid to the surface of a solar module. More specifically, it relates to a mobile solar module that is conveniently portable and can apply a coating liquid to the surface of a solar module in a simple manner. It relates to a coating liquid application device.

According to the International Energy Agency, in relation to the power generation efficiency of a solar power generation system, if contamination due to dust, etc. on the surface of the module occurs, it causes output loss due to a decrease in light transmittance. It varies depending on the location and angle of incidence of the module, but the amount of annual power generation varies. It is understood that this represents a significant decline of approximately 7%.

To prevent this phenomenon, the surface of the solar module is cleaned. However, if the solar module is frequently cleaned due to the installation environment, climate, weather, etc., anti-reflective (AR) ) or it may cause damage to the module, including wear of the Anti-Soiling (AS) coating.

Therefore, the most ideal method at present is to perform maintenance/repair by additionally applying anti-reflection/anti-pollution coating on the cover glass of the solar module to restore the function of the module itself.

Accordingly, there is a need for coating materials and coating equipment that can form an anti-reflection/anti-pollution coating by applying to solar modules installed in the field under a room temperature environment to prevent loss of efficiency and restore functionality of solar modules. there is.

However, processes such as the sol-gel method used for anti-reflection/anti-pollution coating applied to the initial cover glass require high-temperature or high-pressure spraying equipment, and for this purpose, expensive and fixed process equipment such as semiconductor processing equipment must be used. After installation of a solar module, it is impossible to perform anti-reflection/anti-pollution coating on the cover glass for maintenance purposes.

Therefore, a method to solve these problems is required.

Korean Patent Publication No. 10-2020-0082296

The present invention is an invention made to solve the problems of the prior art described above, and is a solar module with excellent portability so that anti-reflection/anti-pollution coating on the cover glass can be performed for maintenance in the field after installation of the solar module. The purpose is to provide a coating liquid application device.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The mobile solar module coating liquid application device of the present invention for achieving the above object includes a coating liquid storage tank in which the coating liquid for solar modules is accommodated, one end of which is connected to the coating liquid storage tank side, and a flow path through which the coating liquid flows is formed. a flow pipe, a control pump provided in the flow pipe to allow the coating liquid to flow from one end of the flow pipe to the other end of the flow pipe, a power supply unit that supplies power for operation of the control pump, and a control pump provided at the other end of the flow pipe. It includes a coating liquid spraying head including a spray nozzle that sprays the coating liquid flowed by the flow pipe onto the surface of the solar module.

At this time, the coating liquid spray head is provided adjacent to the circumference of the spray nozzle, protrudes longer than the spray nozzle, and is in contact with the solar module during the process of spraying the coating liquid through the spray nozzle, and the coating liquid spray head It may further include a scraper that scrapes the coating liquid sprayed on the surface of the solar module as it moves to ensure uniform application.

A plurality of such scrapers may be provided in succession.

In addition, the present invention may further include a head connection bar provided to connect the other end of the flow pipe and the coating liquid injection head.

At this time, the head connection bar is formed to have an adjustable length so that the coating liquid injection head can move linearly. In this case, the present invention may further include a stepping motor that provides driving force for adjusting the length of the head connection bar. .

In addition, the head connection bar is rotatably connected to the flow pipe to enable angle adjustment. In this case, the present invention further includes an angle adjustment motor that provides driving force for adjusting the angle of the head connection bar. You can.

The mobile solar module coating liquid application device of the present invention for solving the above-mentioned problems has a compact structure and is conveniently portable, and can apply the coating liquid to the surface of the solar module in a simple manner, thereby improving the quality of the solar module. It has the advantage of being able to easily perform anti-reflection/anti-pollution coating work on the cover glass in the field after installation.

Accordingly, the present invention can greatly improve the lifespan of solar modules and maintain high power generation efficiency.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 and 2 are views showing a mobile solar module coating liquid application device according to a first embodiment of the present invention;
Figure 3 is a view showing applying a coating solution to the surface of a solar module through a mobile solar module coating solution application device according to the first embodiment of the present invention;
Figure 4 is a view showing a mobile solar module coating liquid application device according to a second embodiment of the present invention;
Figure 5 is a view showing a mobile solar module coating liquid application device according to a third embodiment of the present invention;
Figure 6 is a view showing a mobile solar module coating liquid application device according to a fourth embodiment of the present invention; and
Figure 7 is a view showing the mobile solar module coating liquid application device according to the fifth embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention, in which the object of the present invention can be realized in detail, will be described with reference to the attached drawings. In describing this embodiment, the same names and the same symbols are used for the same components, and additional description accordingly will be omitted.

Figures 1 and 2 are diagrams showing the mobile solar module coating liquid application device 100 according to the first embodiment of the present invention.

As shown in Figures 1 and 2, the mobile solar module coating liquid application device 100 according to the first embodiment of the present invention includes a coating liquid storage tank 110, a flow pipe 120, a control pump 130, It includes a power supply unit 160, a coating liquid injection head 150, and a head connection bar 140.

The coating liquid storage tank 110 contains a coating liquid for solar modules inside. At this time, the coating liquid may be a liquid material for anti-reflective (AR) or anti-soiling (AS) coating.

And one end of the flow pipe 120 is connected to the coating liquid receiving tank 110, and a flow path through which the coating liquid flows is formed inside. In this embodiment, the flow pipe 120 and the coating liquid receiving tank 110 are connected by a connecting hose so that the coating liquid can be transferred from the coating liquid receiving tank 110 to the flow pipe 120.

The control pump 130 is provided in the flow pipe 120 to allow the coating liquid to flow from one end of the flow pipe 120 to the other end. At this time, power for operating the control pump 130 may be supplied from the power supply unit 160, and the power supply unit 160 is limited to this embodiment if it is configured to supply power such as external commercial power or a battery. It can be applied without.

The coating liquid spray head 150 is provided at the other end of the flow pipe 120 and includes a spray nozzle 151 that sprays the coating liquid flowed by the flow pipe 120 onto the surface of the solar module 10.

In addition, in the case of this embodiment, the coating liquid spray head 150 is provided adjacent to the circumference of the spray nozzle 151, and protrudes longer than the spray nozzle 151, so that sunlight is emitted during the process of spraying the coating liquid through the spray nozzle 151. It is in contact with the module 10 and further includes a scraper 152 that scrapes the coating liquid sprayed on the surface of the solar module 10 according to the movement of the coating liquid spray head 150 to ensure uniform application. can do.

The portion of the scraper 152 that comes into contact with the coating liquid may be formed to have an inclined surface in order to increase the scraping efficiency of the coating liquid. In addition, the scraper 152 may be provided at various positions of the coating liquid spraying head 150, and in this embodiment, in the process of applying the coating liquid, it is located at the rear of the spray nozzle 151 based on the moving direction of the coating liquid spraying head 150. It has the form provided in .

The head connection bar 140 is provided to connect the other end of the flow pipe 120 and the coating liquid injection head 150.

Figure 3 is a diagram showing the coating solution being applied to the surface of the solar module 10 through the mobile solar module coating solution application device 100 according to the first embodiment of the present invention.

As shown in FIG. 3, the solar module coating liquid application device 100 including the above-described components uses a spray nozzle in the process of moving the coating liquid spray head 150 in one direction on the surface of the solar module 10. The coating liquid is sprayed on the surface of the solar module 10 through (151).

Accordingly, the coating liquid can be sprayed on the surface of the solar module 10 along the movement path of the coating liquid injection head 150, and in this process, the scraper 152 is sprayed on the coating liquid sprayed by the spray nozzle 151. It moves along with the movement of the coating liquid injection head 150 in a contact state, and the coating liquid can be spread uniformly on the surface of the solar module 10.

Meanwhile, in this embodiment, the head connection bar 140 is rotatably connected to the flow pipe 120 based on the rotation axis 121 provided at the connection portion with the flow pipe 120, so that the head connection bar 140 can be formed to adjust the angle. , In addition, in this case, the present embodiment may further include an angle adjustment motor (not shown) that provides driving force for adjusting the angle of the head connection bar 140.

The reason why the head connection bar 140 can change the angle with respect to the flow pipe 120 is because the solar module 10 is installed at various angles, the spray nozzle 151 is installed at various angles. This is to enable the coating liquid to be sprayed perpendicularly to the surface of (10).

Below, other embodiments of the present invention will be described. In each embodiment to be described below, descriptions of components that overlap with the first embodiment described above will be omitted.

Figure 4 is a view showing the mobile solar module coating liquid application device 100 according to the second embodiment of the present invention.

In the case of the second embodiment of the present invention shown in Figure 4, the head connection bar 140 is formed to have an adjustable length so that the coating liquid spraying head 150 can move linearly. For this purpose, this embodiment uses a head connection bar ( 140) has the feature of further including a stepping motor (not shown) that provides driving force for adjusting the length.

Specifically, in this embodiment, the head connection bar 140 is divided into a plurality of unit lengths and assembled together in a telescopic manner. The head connection bar 140 of this embodiment includes a first unit length portion 141 and a second unit length portion 142, and the second unit length portion 142 is located inside the first unit length portion 141. The length can be adjusted by being pulled in or pulled out to the outside of the first unit length portion 141.

However, of course, the length adjustment method of the head connection bar 140 may be implemented in a manner different from that of the present embodiment. For example, the head connection bar 140 may be coupled to the flow pipe 120 so as to be inserted into the back of the flow pipe 120 or pulled out to the outside of the flow pipe 120. Accordingly, the head connection bar 140 may be connected to the flow pipe 120. Length adjustment can be performed by moving the pipe 120 in a sliding manner.

Figure 5 is a view showing the mobile solar module coating liquid application device 100 according to the third embodiment of the present invention.

The mobile solar module coating liquid application device 100 according to the third embodiment of the present invention shown in Figure 5 is capable of detecting and correcting the angle formed by the coating liquid spraying head 150 with respect to the solar module 10. It further includes an angle correction unit 153.

This angle correction unit 153 is provided on the coating liquid injection head 150 and is configured to oscillate and receive laser or ultrasonic waves.

Therefore, in this embodiment, before spraying the coating liquid through the coating liquid spray head 150, the angle correction unit 153 is driven to oscillate a laser or ultrasonic wave on the surface of the solar module 10, and the coating liquid spray head 150 By correcting the angle formed with respect to the solar module 10 to be vertical, the coating liquid can be sprayed uniformly.

That is, when the laser or ultrasonic waves oscillated by the angle correction unit 153 on the surface of the solar module 10 are reflected and normally received again by the angle correction unit 153, the spray nozzle 151 and the solar module 10 ) can be judged to be vertical.

Figure 6 is a view showing the mobile solar module coating liquid application device 100 according to the fourth embodiment of the present invention.

The mobile solar module coating liquid application device 100 according to the fourth embodiment of the present invention shown in FIG. 6 is characterized in that a plurality of scrapers 152a and 152b are provided in succession on the coating liquid spray head 150.

Accordingly, in this embodiment, the coating liquid sprayed on the surface of the solar module 10 through the spray nozzle 151 can be spread more evenly.

In particular, in this embodiment, the height (h ₂ ) of the second scraper (152b) provided closer to the injection nozzle 151 side is the height (h) of the first scraper (152a) provided further away from the injection nozzle 151 side. ₁ ) can be formed lower than that.

The reason for doing this is to initially spread the coating liquid evenly on the solar module 10 by the low-height second scraper 152b during the process of the coating liquid injection head 150, and then to spread the coating liquid evenly on the solar module 10, and then to 1 This is to enable the coating liquid to be spread by secondary scraping by the scraper 152a.

Figure 7 is a view showing the mobile solar module coating liquid application device 100 according to the fifth embodiment of the present invention.

The mobile solar module coating liquid application device 100 according to the fifth embodiment of the present invention shown in Figure 7 has a coating liquid leakage prevention member 154 arranged perpendicular to the scraper 152 on the coating liquid spray head 150. It has the characteristic of being more equipped.

The coating liquid outflow prevention member 154 is located on both sides of the spray nozzle 151 of the coating liquid spray head 150, and one side is in contact with the scraper 152.

This embodiment of this type includes a pair of coating liquid outflow prevention members ( 154), it is possible to prevent the coating liquid from dispersing laterally.

Meanwhile, in this embodiment, the lower end of the coating liquid leak prevention member 154 is formed to gradually become smaller in width from the top to the bottom, so that the lower end has a sharp shape, and this is to minimize the contact area with the solar module 10. .

As described above, preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms in addition to the embodiments described above without departing from the spirit or scope thereof is recognized by those skilled in the art. It is self-evident to them. Therefore, the above-described embodiments are to be regarded as illustrative and not restrictive, and accordingly, the present invention is not limited to the above description but may be modified within the scope of the appended claims and their equivalents.

10: Solar module
100: Mobile solar module coating liquid application device
110: Coating liquid storage tank
120: Flow pipe
130: Control pump
140: Head connection bar
141: First unit length part
142: Second unit length part
150: Coating liquid spray head
151: Spray nozzle
152, 152a, 152b: scraper,
153: Angle correction unit
154: Coating liquid outflow prevention member
160: Power supply unit

Claims (6)

A coating liquid storage tank containing a coating liquid for solar modules;
A flow pipe, one end of which is connected to the coating liquid receiving tank and forming a flow path through which the coating liquid flows;
a control pump provided in the flow pipe to allow the coating liquid to flow from one end of the flow pipe to the other end;
A power supply unit that supplies power for operation of the control pump;
A coating liquid spraying head provided at the other end of the flow pipe and including a spray nozzle for spraying the coating liquid flowed by the flow pipe onto the surface of the solar module; and
An angle correction unit provided to determine and correct the angle formed by the coating liquid spray head with respect to the solar module;
Includes,
The coating liquid spray head is,
It is provided adjacent to the periphery of the spray nozzle, protrudes longer than the spray nozzle, and is in contact with the solar module during the process of spraying the coating liquid through the spray nozzle. As the coating liquid spray head moves, the solar energy is emitted. It includes a first scraper and a second scraper provided in succession to each other to scrape the coating liquid sprayed on the surface of the module and achieve uniform application,
As the height of the second scraper provided closer to the injection nozzle side is formed lower than the height of the first scraper provided farther away from the injection nozzle side,
In the process of progressing the coating liquid injection head, the coating liquid is spread evenly on the solar module first by the second scraper with a low height, and then the coating liquid is secondarily scraped by the first scraper with a high height. Allows the coating liquid to spread,
The coating liquid spray head is,
It is arranged perpendicularly to the first scraper and the second scraper, and further includes a coating liquid outflow prevention member whose lower end is formed to gradually decrease in width from the upper to the lower end and has a sharp lower end,
The coating liquid leak prevention member is located on both sides around the spray nozzle of the coating liquid spray head, and one side is in contact with the first scraper and the second scraper,
During the process of spraying the coating liquid from the spray nozzle and the scraping process by the first scraper and the second scraper, the coating liquid is dispersed laterally by a pair of coating liquid outflow prevention members located on both sides of the coating liquid spray head, respectively. prevent it from happening,
The angle correction unit is,
It is formed to oscillate and receive laser or ultrasonic waves, and when the laser or ultrasonic waves oscillated on the surface of the solar module are reflected and normally received back to the angle correction unit, the spray nozzle and the surface of the solar module form a By allowing the angle to be determined to be vertical, the angle formed by the coating liquid injection head with respect to the solar module is corrected to be vertical to ensure uniform spraying of the coating liquid.
Mobile solar module coating liquid application device. delete delete According to paragraph 1,
Further comprising a head connection bar provided to connect the other end of the flow pipe and the coating liquid injection head,
Mobile solar module coating liquid application device. According to paragraph 4,
The head connection bar is formed to have an adjustable length so that the coating liquid injection head can move linearly,
Further comprising a stepping motor that provides driving force for adjusting the length of the head connection bar,
Mobile solar module coating liquid application device. According to paragraph 4,
The head connection bar is rotatably connected to the flow pipe so that the angle can be adjusted,
Further comprising an angle adjustment motor that provides driving force for adjusting the angle of the head connection bar,
Mobile solar module coating liquid application device.