KR20230150571A - Solar Module Coating Liquid Application Device for Vehicle - Google Patents

Abstract

According to the present invention, a vehicle application device of a photovoltaic module coating solution comprises: a base stage provided in a vehicle loading space to have a photovoltaic module installed and moving the photovoltaic module along front and back directions of a vehicle; a coating liquid accommodating tank provided at an arbitrary location of the vehicle and accommodating a coating liquid for a photovoltaic module; a coating liquid spraying assembly including a fixed plate provided to be spaced apart from an upper part of the base stage, and a spray nozzle provided on the fixed plate to spray the coating liquid flowing from the coating liquid accommodating tank side onto a surface of the photovoltaic module; and a control pump allowing the coating liquid to flow from the coating liquid accommodating tank to a spray nozzle side. Accordingly, a lifespan of the photovoltaic module can be significantly improved and high power generation efficiency can be maintained.

Description

Solar Module Coating Liquid Application Device for Vehicle}

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 vehicle solar power system that is installed in a vehicle, is easy to move, and can automatically apply a coating liquid to the surface of a solar module. It relates to a module 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 provides a vehicle module coating liquid application device that can perform anti-reflection/anti-pollution coating on the cover glass for maintenance in the field after installation of the solar module. It has the purpose of doing so.

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 vehicle module coating liquid application device of the present invention for achieving the above object is provided in the loading space of the vehicle so that the solar module can be seated, and includes a base stage for moving the solar module along the front and rear direction of the vehicle, and a vehicle. It is provided at an arbitrary position and contains a coating liquid storage tank for storing the coating liquid for solar modules, a fixing plate provided to be spaced apart from the upper part of the base stage, and a solar module provided on the fixing plate to store the coating liquid flowing from the side of the coating liquid storage tank. It includes a coating liquid injection assembly including a spray nozzle for spraying onto the surface of the optical module, and a control pump that causes the coating liquid to flow from the coating liquid storage tank toward the spray nozzle.

At this time, the base stage is rotatable about a central axis in the left and right directions, has a plurality of rotating rollers arranged along the front and rear directions of the vehicle, and is provided on both sides of the plurality of rotating rollers to rotate the rotating axes of the plurality of rotating rollers. It may include a base frame for fixing it.

And the base stage may further include a roller drive motor that provides rotational driving force to the plurality of rotating rollers.

In addition, the coating liquid spray assembly may be provided on the fixing plate and may further include a curing lamp that generates heat to harden the coating liquid sprayed on the surface of the solar module.

At this time, the curing lamps may be alternately arranged with the spray nozzles on the fixing plate.

Meanwhile, the coating liquid injection assembly is provided on one side of the fixing plate, protrudes longer than the spray nozzle, and is in contact with the solar module in the process of spraying the coating liquid through the spray nozzle, and generates solar energy by the base stage. It may further include a scraper that scrapes the coating liquid sprayed on the surface of the solar panel as the optical module moves to ensure uniform application.

The vehicle module coating liquid application device of the present invention to solve the above problems is installed in the loading space of the vehicle and can move freely, and can automatically apply the coating liquid to the surface of the solar module, so it can be used after installation 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.

Accordingly, the present invention can greatly improve the lifespan of solar modules and has the advantage of maintaining 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 vehicle-type solar module coating liquid application device according to a first embodiment of the present invention;
Figure 3 is a view showing a vehicle-type solar module coating liquid application device according to a second embodiment of the present invention;
Figure 4 is a view showing a vehicle-type solar module coating liquid application device according to a third embodiment of the present invention;
Figure 5 is a view showing a vehicle-type solar module coating liquid application device according to a fourth embodiment of the present invention; and
Figures 6 and 7 are diagrams showing a vehicle-type solar module coating liquid application device according to a 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.

1 and 2 are diagrams showing a vehicle-type solar module coating liquid application device 100 according to a first embodiment of the present invention.

As shown in Figures 1 and 2, the vehicle-type solar module coating liquid application device 100 according to the first embodiment of the present invention is a loading space 3 formed inside a container 2 installed in the vehicle 1. ), and includes a base stage 110, a coating liquid receiving tank 130, a coating liquid injection assembly 140, and a control pump (not shown).

The base stage 110 is provided in the loading space 3 of the vehicle 1 so that the solar module 10 can be seated, and moves the solar module 10 along the front and rear direction of the vehicle 1.

Specifically, in this embodiment, the base stage 110 is provided to be rotatable about a central axis in the left and right directions, and includes a plurality of rotation rollers 111 arranged along the front and rear directions of the vehicle 1, and a plurality of such rotation rollers. It includes a base frame 112 provided on both sides of the roller 111 to fix the rotation axis of the plurality of rotation rollers 111, and a roller drive motor 120 that provides rotational driving force to the plurality of rotation rollers 111. .

That is, when the solar module 10 is inserted into the loading space 3 of the vehicle 1 and placed on the plurality of rotating rollers 111, the rotating rollers 111 are moved by the driving force of the roller drive motor 120. It rotates and allows the solar module 10 to freely move forward or backward.

The coating liquid storage tank 130 is provided at an arbitrary location in the vehicle 1 and is a component that accommodates the coating liquid for solar modules. At this time, the coating liquid may be a liquid material for anti-reflective (AR) or anti-soiling (AS) coating, and in this embodiment, the coating liquid storage tank 130 is the loading space of the vehicle 1. It was decided to be provided within (3).

The coating liquid injection assembly 140 is a component that sprays the coating liquid toward the solar module 10 mounted on the base stage 110. In the present embodiment, a fixing plate ( 141) and a spray nozzle 142 provided on the fixing plate 141 to spray the coating liquid flowing from the coating liquid storage tank 130 onto the surface of the solar module 10.

At this time, the present invention may be additionally provided with a control pump that causes the coating liquid to flow from the coating liquid storage tank 130 to the spray nozzle 142.

In addition, in this embodiment, the coating liquid injection assembly 140 is provided on the fixing plate 141, and includes a curing lamp 143 that generates heat to cure the coating liquid sprayed on the surface of the solar module 10, and a fixing plate. It is provided on one side of (141), protrudes longer than the spray nozzle 142, and is in contact with the solar module 10 during the process of spraying the coating liquid through the spray nozzle 142, and is connected to the base stage 110. It may further include a scraper 144 that scrapes the coating liquid sprayed on the surface of the solar panel 10 according to the movement of the solar module 10 to ensure uniform application.

At this time, in the case of this embodiment, a plurality of injection nozzles 142 and curing lamps 143 are provided and arranged alternately on the fixing plate 141, and the scraper 144 is provided on one side of the fixing plate 141. .

In addition, the scraper 144 may have a portion in contact with the coating liquid formed as an inclined surface to increase the scraping efficiency of the coating liquid.

That is, the present invention moves the solar module 10 along the front and rear directions of the vehicle while mounted on the base stage 110, and in the process of moving the solar module 10, the solar module 10 is sprayed through the spray nozzle 142. A coating liquid is sprayed on the surface of the optical module 10.

Accordingly, the coating liquid can be sprayed on the surface of the solar module 10 along the movement path of the solar module 10, and in this process, the scraper 144 is applied to the coating liquid sprayed by the spray nozzle 142. The coating liquid can be uniformly spread on the surface of the solar module 10 in a contact state.

In addition, the curing lamps 143 provided alternately with the spray nozzle 142 apply heat to the coating liquid spread on the solar module 10 to achieve rapid curing.

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 3 is a diagram showing a vehicle-type solar module coating liquid application device 100 according to a second embodiment of the present invention.

In the case of the second embodiment of the present invention shown in Figure 3, the curing lamp 143 of the coating liquid injection assembly 140 is formed to be linearly movable in the vertical direction on the lower surface of the fixing plate 141, so that the solar module ( 10) It is formed so that the separation distance from it can be varied.

That is, in this embodiment, the curing lamp 143 located in the area to be quickly cured on the surface of the solar module 10 to which the coating liquid is applied is moved downward to close the distance to the solar module 10 for curing. can be performed, and the coating solution applied to the surface of the solar module 10 can be quickly cured by controlling the plurality of curing lamps 143 in this manner.

Figure 4 is a diagram showing a vehicle-type solar module coating liquid application device 100 according to a third embodiment of the present invention.

In the case of the third embodiment shown in FIG. 4, the coating liquid injection assembly 140 has the characteristic of including a plurality of scrapers 144, and each scraper 144 includes the spray nozzle 142 and the curing lamp 143. It is provided in each space.

Therefore, this embodiment allows the coating liquid to be uniformly spread multiple times through the plurality of scrapers 144 in the process of moving the solar module 10 through the base stage 110.

At this time, in this embodiment, the height of each scraper 144 may be formed differently, and in particular, the height of the scraper 144 may be gradually lowered as the solar module 10 moves along the direction of movement.

The reason for doing this is that in the process of moving the predetermined point of the solar module 10, the coating liquid is spread step by step by scraping while passing sequentially from the low-height scraper 144 to the high-height scraper 144. This is to ensure that a more even surface can be obtained.

Figure 5 is a view showing the vehicle-type solar module coating liquid application device 100 according to the fourth embodiment of the present invention.

In the case of the fourth embodiment shown in FIG. 5, the coating liquid injection assembly 140 is formed to be movable in the vertical direction with respect to the fixing plate 141 and includes a scraper 144 whose height is adjustable.

For this purpose, the fixing plate 141 is provided with a scraper fixing part 145 that fixes the scraper 144 so that it can move up and down, and the inside of the scraper fixing part 145 has an external force applied in the downward direction of the scraper 144. An elastic member that applies may be provided. Accordingly, the scraper 144, which has moved upward, is formed so that it can be restored downward to its original position by the elastic member.

At this time, the basic setting of the scraper 144 may be such that the lower end of the scraper 144 is located lower than the upper surface of the solar module 10. In this case, the solar module 10 is moved by the base stage 110. In the process of moving, one end of the solar module 10 comes into contact with the inclined surface 144a of the scraper 144, and then the scraper 144 can be moved upward by the solar module 10. In this state, the scraper 144 presses the surface of the solar module 10 by the elastic member, and thus the coating solution can be spread and applied to a thinner thickness.

Figures 6 and 7 are diagrams showing the vehicle-type solar module coating liquid application device 100 according to the fifth embodiment of the present invention.

In the case of the fifth embodiment of the present invention shown in FIGS. 6 and 7, the base stage 110 has the feature of further including a module fixing unit 114 provided between each rotating roller 111.

Specifically, the module fixing unit 114 is provided to be movable up and down with respect to the base frame 112 of the base stage 110. And when the module fixing unit 114 is lowered, the upper surface is provided at a position lower than the top of the rotating roller 111, and when the module fixing unit 114 is raised, the upper surface is located higher than the top of the rotating roller 111. It can be provided at location.

Therefore, when the module fixing unit 114 is raised, the solar module 10 is lifted from the rotating roller 111 by the module fixing unit 114, and the movement by the rotating roller 111 is temporarily It can be stopped.

That is, the module fixing unit 114 temporarily fixes the solar module 10 so that it does not move in an arbitrary position, thereby changing the residence time and easily controlling the thickness of the coating solution.

And for this purpose, long holes 113 formed long in the vertical direction are formed in the base frame 112 at each position where the module fixing unit 114 is provided, and long holes 113 are inserted into these long holes 113 on both sides of the module fixing unit 114. An insertion protrusion 115 may be provided. In addition, although not shown, a separate unit drive motor may be further provided to move the module fixing unit 114 upward.

As described above, the 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 thus the present invention is not limited to the above description but may be modified within the scope of the appended claims and their equivalents.

1: vehicle
2: container
3: Loading space
10: Solar module
100: Vehicle solar module coating liquid application device
110: base stage
111: Rotating roller
112: base frame
113: Janghol
114: Module fixing unit
115: Insertion protrusion
120: Roller drive motor
130: Coating liquid storage tank
140: Coating liquid spray assembly
141: Fixing plate
142: Spray nozzle
143: Curing lamp
144: scraper
144a: slope
145: Scraper fixing part

Claims (6)

A base stage provided in the loading space of the vehicle so that the solar module can be seated, and moving the solar module along the front and rear direction of the vehicle;
A coating liquid storage tank provided at an arbitrary location in the vehicle and containing a coating liquid for solar modules;
A coating liquid spray assembly including a fixing plate spaced apart from the upper part of the base stage and a spray nozzle provided on the fixing plate for spraying the coating liquid flowing from the coating liquid receiving tank onto the surface of the solar module; and
a control pump that causes the coating liquid to flow from the coating liquid receiving tank toward the spray nozzle;
Including,
Vehicle solar module coating liquid application device. According to paragraph 1,
The base stage is,
A plurality of rotating rollers that are rotatable about a central axis in the left and right directions and are arranged along the front and rear directions of the vehicle; and
a base frame provided on both sides of the plurality of rotating rollers to fix the rotating axes of the plurality of rotating rollers;
Including,
Vehicle solar module coating liquid application device. According to paragraph 2,
The base stage is,
Further comprising a roller drive motor that provides rotational driving force to the plurality of rotating rollers,
Vehicle solar module coating liquid application device. According to paragraph 1,
The coating liquid injection assembly,
It is provided on the fixing plate and further includes a curing lamp that generates heat to cure the coating liquid sprayed on the surface of the solar module.
Vehicle solar module coating liquid application device. According to paragraph 4,
The curing lamps are arranged alternately with the spray nozzles on the fixing plate,
Vehicle solar module coating liquid application device. According to paragraph 1,
The coating liquid injection assembly,
It is provided on one side of the fixing plate, protrudes longer than the spray nozzle and comes into contact with the solar module during the process of spraying the coating liquid through the spray nozzle, and as the solar module moves by the base stage, the Further comprising a scraper that scrapes the coating liquid sprayed on the surface of the solar panel to ensure uniform application,
Vehicle solar module coating liquid application device.