Solar Module Cleaning Mist Sprinkler with Lateral Fittings

Abstract

Solar Module Cleaning Mist Sprinkler with Lateral Fittings provides a comprehensive solution for maintaining solar panels. At its core, the Mist Sprinkler (1) is designed to clean Solar Modules (10) without causing shadow effects, ensuring compatibility with various types of solar panels. The sprinkler disperses water in a 180-degree pattern via Reflector (3), efficiently cleaning dust, debris, and bird droppings from the solar surface within one minute. The system features a Reflector Thread Cap (2) to secure the reflector, and water is filtered through a three-stage filtration system, including the Round Filter (4), U-Filter (6), and Water Filter (12), ensuring clean water is sprayed onto the panels. The sprinkler is connected via a 20mm Lateral Pipe (11), secured by a 20mm Ring Lock (7), and attached to the solar module frame using the Sprinkler Holding Bracket (9). The Water Pump (13) and Water Tank (14) provide the necessary water flow.

Specification

Description:Title of Invention
Solar Module Cleaning Mist Sprinkler with Lateral Fittings


Field of Invention
The present novel invention relates to a cleaning system, more particularly to a cleaning system for a solar panel with a novel mist sprinkler using high pressure water spray that cleans bird drop and dust from solar panel surface which is installed on top of the solar panel in such a way that it has zero shadow effect on the solar panel.


Background of Invention
In today's world, the demand for energy is rapidly increasing, and traditional power generation methods like coal and steam are insufficient to meet this growing need. As a result, countries like India, along with the global community, are turning to sustainable green energy sources. One of the most effective and cost-efficient solutions is the widespread installation of solar panels. Solar energy, harnessed through photovoltaic cells, converts sunlight into electricity and plays a critical role in transitioning to a sustainable, eco-friendly energy system. With advancements in technology, solar energy has become more affordable, making it a key component in meeting the world's energy demands.
However, solar panels, typically installed outdoors at specific angles to capture maximum sunlight, face challenges like dust accumulation and bird droppings. These obstructions reduce the amount of sunlight that reaches the solar cells, lowering the efficiency of energy generation. Regular cleaning is essential to maintaining optimal performance and ensuring that solar panels generate maximum electricity. Keeping solar panels clean is a crucial aspect of solar energy maintenance, ensuring that this renewable energy source continues to contribute effectively to meeting global energy needs.
Maintaining the cleanliness of solar panels is crucial for optimizing energy production and ensuring maximum returns on solar investments. However, when dust and dirt accumulate on the surface for as little as two weeks, the efficiency can drop drastically to 8%-10%. This loss in efficiency translates directly into reduced energy generation and financial losses. Currently, manual cleaning is the predominant method used for solar panel maintenance, but it is both time-consuming and labor-intensive. Manual cleaning not only incurs high labor costs. Moreover, relying on solar module cleaning agencies, while possible, is highly inconvenient and costly. Besides, these methods pose safety risks, especially for rooftop solar installations, where cleaners must climb the solar modules. Falls from panels can lead to serious injuries or even fatalities, making manual cleaning not only inefficient but dangerous.
For smaller solar power plants, particularly those generating less than 10 KWP, installing a cleaning machine is economically impractical. The cost of such machines can exceed the total cost of the solar installation itself. Additionally, these machines often require specific installation structures that do not suit all types of solar panels. Traditional cleaning machines rely on rotational mechanical parts that degrade over time due to friction, leading to high maintenance costs. Another common method of cleaning solar modules is chemical washing. However, there are no standardized regulations regarding the pH value of the chemicals used, and there is no chemical spraying device available on the market. This lack of standards leads to potential risks, as individuals may apply chemicals without proper precautions, resulting in skin irritations, damage to solar module insulation. Additionally, chemical cleaning requires significant manpower and is not a sustainable or cost-effective long-term solution.
An invention disclosed in patent application number CN204710769U discloses a Full -automatic solar cell panel belt cleaning device which belongs to the utility model relates to a solar panel cleaning device, in particular to a fully automatic solar panel cleaning device. When the illumination sensor detects that the sunlight is strong and the dust sensor detects dust on the solar panel, under the automatic control of the control panel the stepping motor rotates to drive the support frame to move left and right. The distributor distributes the water evenly on the solar panel, and wipes the high-speed rotation to quickly wipe the dust on the solar panel. The cleaning speed is fast, the cleaning effect is good, and the automation is high.
The said invention uses illumination sensor and dust sensor for system input and perform cleaning operation using stepping motor, in present novel invention this type of sensors is not used. Further the said invention use wiper with water and major issue with wiper is that it creates scratches on the panel and need to replace after some cleaning cycle. To install wiper brush, need equal/specific solar module structure, it is not suitable with all types of solar plant. During cleaning weight of this system on module is very high due to motors and rotating wiper. Moving part Weight and vibration effects on module and supporting structure in long run.
An invention disclosed in patent application number US2011094549A1 CLEANING SYSTEM FOR SOLAR PANEL which belongs to the frame, a cleaning device, and an operating device. The frame includes a first sidewall and a opposite second sidewall facing away from the first sidewall. The cleaning device is affixed on the transparent protection panel. The operating device includes a motor, a pulley and a belt. The motor is affixed on one end of the first sidewall. The pulley is affixed on the other end of the first sidewall. The cleaning device is driven by the operating device to clean the solar panel. The said invention uses same sidewall mechanical structure and motor. They install sprinkler on side wall while present novel invention installs mist sprinkler on top of the solar module. They used electromagnetic valve and spraying fluid, instead of this present novel invention uses normal water.
In contrast, the present novel invention provides a sprinkler-based cleaning system that presents a more efficient, safe, and economical alternative. The system uses clear water, free from any hard particles that could damage the solar modules. This method eliminates the need for harsh chemicals, reducing the risk of insulation damage and ensuring the long-term integrity of the panels. A significant advantage of this system is that algae, which commonly forms inside pipelines and blocks water flow, cannot grow within the lateral pipes and fittings, primary and secondary filtration greatly reduces the need for frequent maintenance, making the system more durable and reliable over time.
Furthermore, the sprinkler-based cleaning method offers numerous other advantages over traditional mechanical and chemical cleaning. It is contactless, eliminating any risk of scratching or damaging the solar panels, which can occur with manual or mechanical cleaning methods. The absence of moving parts in the system also reduces wear and tear, minimizing the need for repairs and lowering long-term maintenance costs. The cleaning process is vibration-free and does not cast shadows on the panels, ensuring uninterrupted energy production. For solar power plant owners, especially those with smaller installations, this system provides an affordable and practical solution. By addressing the limitations of manual, mechanical, and chemical cleaning methods, a sprinkler-based system helps maximize the efficiency of solar panels and enhances the overall reliability and longevity of solar power installations. There are many solar module manufacturers in the market, each offering panels with different thicknesses and lengths, which makes it challenging to use conventional cleaning systems. However, present novel sprinkler-based cleaning system is designed in such a way that it can be installed with all types of solar modules, overcoming this limitation.
The present novel sprinkler-based system cleans the entire panel efficiently, ensuring even water distribution to remove dust, debris, and bird droppings within a short time. Cleaning in the early morning has the added benefit of reducing the impact of dust and maximizing power generation once the panels dry and are exposed to sunlight. Additionally, the system can be fully automated, allowing it to clean at any time of day or night without the need for manual intervention, providing a safe, efficient, and low-maintenance solution for solar panel cleaning.

Objectives of invention
● Principal objective of the present novel invention is to provide mist sprinkler based solar module cleaning system it can generate up to 35% more power with respect to solar module which are not clean.
● Another objective of the present novel invention is to reduce the pain of solar plant owner for periodic module cleaning.
● Further objective of the present novel invention is that no rotating parts in the device, due to which very less maintenance is required on longer run.
● Another objective of the present novel invention is that solar plant owner does not need to rely on cleaning agency manpower.
● Further objective of the present invention is that the system operation is fully automatic.
● Another objective of the present invention is that there are no requirements of cleaning brush, cleaning machine or added chemicals at the time of module cleaning so its highly safe system.
● Further objective of the present invention is that it can be installed on any type of solar power plant like rooftop solar, ground mount solar, industrial solar, floating solar, axial tilting solar power plant, etc.

Summary
As existing solar panel cleaning systems are often labor-intensive, posing safety risks and increasing costs due to the need for manual intervention. They can also cause damage to panels through friction, and many machines are expensive and incompatible with various solar setups, making them impractical for small installations. The present novel invention offers a solution to these challenges with a mist sprinkler system specifically designed to address the cleaning needs of solar panels. This system can be easily installed on any type of solar panel, regardless of size or layout, and provides contactless cleaning by using high-pressure mist to effectively remove dust and debris without causing any scratches or damage to the panel surface. Unlike traditional systems, the mist sprinkler requires minimal maintenance, has no moving parts, and can be automated to clean the panels at scheduled intervals, ensuring maximum efficiency without the need for manual intervention. This not only improves the performance and lifespan of the solar panels but also reduces the overall maintenance costs, making it a practical and economical solution for both large and small solar installations.

List of Drawings:
Figure 1: Block Diagram
Figure 2: Mist Sprinkler Exploded View
Figure 3: Mist Sprinkler Left view
Figure 4: Mist Sprinkler Right view
Figure 5: Mist Sprinkler Front view
Figure 6: Mist Sprinkler Fitting on Solar Module
Figure 7: Mist Sprinkler Water Projection
Figure 8: Mist Sprinkler Placement on Solar Module
List of the Components:
1. Mist Sprinkler
2. Reflector Thread Cap
3. Reflector
4. Round Filter
5. Hex Threaded Nipple
6. U-Filter
7. 20mm Ring Lock
8. 20mm Lateral Female Thread Tee with Ring Lock
9. Sprinkler Holding Bracket
10. Solar Module (Solar Panel)
11. 20MM Lateral Pipe (20MM Lateral Line)
12. Water Filter
13. Water Pump
14. Water Tank



Detailed Description of Drawing
Figure 1 illustrates the block diagram of a solar panel cleaning system utilizing novel mist sprinklers. Plurality of Mist sprinklers (1) are strategically positioned on the top side of each Solar Module (10) to ensure proper water distribution. These Mist sprinklers (1) are connected in series via 20mm Lateral Pipes (11), ensuring a consistent water supply. A Water Filter (12) is installed in the main line to remove any hard particles, ensuring that only clean water reaches the Mist sprinklers (1). Water is pumped from a Water tank (14) by a Water Pump (13), passing through the Water Filter (12) and into the Lateral Pipes (11). This arrangement ensures efficient and thorough cleaning of the Solar Panels (10), helping to maintain their optimal performance by removing dust and bird droppings.
Figures 2, 3, 4 and 5 collectively illustrates mist sprinkler with exploded, left, right, and front views respectively highlighting its individual components. At the top is the Reflector thread cap (2), followed by the Reflector (3). Below the Reflector (3) is a Round filter (4). The Hex Threaded Nipple (5) connects to an U-Filter (6) beneath it. A 20mm ring lock (7) and a 20mm Lateral Female Thread Tee with Ring Lock (8) are positioned at the bottom.
The Sprinkler Holding Bracket (9) is attached to the frame section of the Solar Module (10), which helps maintain the stability and positioning of the sprinkler assembly. This arrangement demonstrates how each part fits together to form the complete mist sprinkler unit.
Figure 6 and Figure 8 illustrates mist sprinkler fitting on Solar Module (10), which is strategically positioned to ensure that there is no shadow cast on the Solar Panel (Solar Module) (10) at any time of the day, thereby maximizing productivity.
Figure 7 illustrates mist sprinkler water projection as the water is disperse in a 180-degree half-circle cone pattern which ensures even coverage of the Solar Panel (Solar Module) (10) surface.

Detailed Description of Invention and working of Invention
Solar Module Cleaning Mist Sprinkler with Lateral Fittings provides Mist Sprinkler (1), Reflector thread cap (2), Reflector (3), Round Filter (4), Hex Threaded Nipple (5), U-Filter (6), 20mm Ring Lock (7), 20mm Lateral Female Thread Tee with Ring Lock (8), Sprinkler Holding Bracket (9), Solar Module (Solar Panel) (10), 20mm Lateral Pipe (11), Water Filter (12), Water Pump (13), and Water Tank (14).
The present novel invention focuses on solar module cleaning, specifically contactless sprinkler-based cleaning using clear water. The innovative design eliminates shadow effects on solar panels during daylight hours and incorporates no moving parts, which significantly reduces wear and tear, enhancing durability and reliability. Further the contactless sprinkler-based cleaning offers scratch and vibration free cleaning of solar panels.
Components and Features:
Mist Sprinkler (1) is the central component responsible for distributing water over the surface of the Solar Panels (Solar Module) (10). It is designed to produce a fine mist that ensures thorough cleaning without causing any damage to the Solar Panels (10). It is constructed from high-quality, UV-resistant materials to withstand prolonged exposure to sunlight and environmental conditions. Mist sprinkler (1) features universal 20mm thread size and 20mm lateral fittings compatibility, allowing for direct connection to a half an inch main water line and various types of pipes, including UPVC, CPVC, PVC, GI, HDPE, and SWR pipes. Mist sprinkler's (1) flexible line provides adaptability for installation on different solar module configurations, including axial, rotating, and floating solar modules.
Reflector Thread Cap (2) secures the Reflector (3) in place and ensures the correct positioning of the Reflector (3) to achieve optimal water dispersion. It has threaded design for easy attachment and detachment, facilitating maintenance and replacement.
Reflector (3) is uniquely designed to disperse water in a 180-degree half-circle cone pattern which makes suitable for all types of solar modules technology like thin-film, polycrystalline, and monocrystalline and ensures even coverage of the Solar Panel (Solar Module) (10) surface, preventing the formation of shadow areas and maximizing cleaning efficiency. It is made from corrosion-resistant materials to prevent degradation over time.
Round Filter (4) is an internal filter that captures any residual debris present in the water which ensures that only clean water reaches the Reflector (3), preventing clogging and maintaining the efficiency of the Mist Sprinkler (1). It is easy to remove and clean, ensuring minimal maintenance.
Hex Threaded Nipple (5) is a connector that securely joins components such as Reflector (3), Round Filter (4), and U-Filter (6) of the Mist Sprinkler (1) and maintains the structural integrity of the Mist Sprinkler (1) under high water pressure. It has Precision-engineered threads to ensure leak-proof connections.
U-Filter (6) provides an additional layer of filtration within the Mist Sprinkler (1). It captures any remaining particles that might bypass the Water Filter (12), ensuring the purity of the water reaching the solar panels. It has high-flow design to minimize pressure drop while providing effective filtration.
20mm Ring Lock (7) is a locking mechanism that holds the lateral pipe (11) securely in place. It ensures stability and prevents disconnection under high water pressure. It is made from durable, impact-resistant materials for long-lasting performance.
20mm Lateral Female Thread Tee with Ring Lock (8) is a tee fitting that connects Lateral Pipes (11), facilitating the series connection of multiple mist sprinklers (1). The said ring lock mechanism ensures a secure fit, maintaining the integrity of the connection. It is engineered to handle high flow rates and pressures typical of cleaning systems.
Sprinkler Holding Bracket (9) attaches the Mist Sprinkler (1) to the Solar Module (10) frame. It is designed to prevent any movement during operation, ensuring consistent water distribution. It has quick-release mechanism for easy installation and removal without tools.
Solar Module (Solar Panel) (10) has the surface to be cleaned by the Mist Sprinkler (1) system. It is typically installed at an angle to maximize sunlight absorption and it is made from high-efficiency photovoltaic cells encapsulated in a durable glass layer.
20mm Lateral Pipe (11) connects multiple mist sprinklers (1) in series. It ensures even water distribution across all Mist Sprinklers (1) in the system. It is made from corrosion-resistant, high-strength materials suitable for outdoor use.
Water Filter (12) is installed between the Water Pump (13) and the Lateral Pipe (11). It removes hard particles from the water, preventing damage and clogging of the mist sprinklers (1). It has High-capacity design to extend the time between maintenance intervals.
Water Pump (13) is located inside the Water Tank (14), it can be fitted outside as well. It generates the necessary water pressure for the cleaning operation and is equipped with a pressure regulator to maintain consistent water flow and pressure.
Water Tank (14) stores water used by the cleaning system and it ensures a consistent supply of water for the cleaning cycles. It is made from UV-resistant, non-corrosive materials to ensure longevity.
Working Mechanism:
The present novel invention mainly focuses on solar module cleaning, specifically contactless sprinkler-based cleaning using clear water.
Installation and Setup:
Plurality of mist sprinklers (1) are installed on the top side of the Solar Modules (10) using the Sprinkler Holding Bracket (9).
No glue, screws, or drilling are required, preserving the Solar Module's (10) warranty.
In one row, plurality of mist sprinklers (1) are connected in series via a 20mm Lateral Pipe (11). Lateral fittings are used to connect two rows of Solar Panel (10).
The main Water Filter (12) is connected between the Water Pump (13) and the 20mm Lateral Pipe (11). The Water Pump (13) is installed inside the Water Tank (14), which can be fitted outside as well.
Filtration:
High-pressure water passes through the main Water Filter (12). If any hard particles are present in the water, they are trapped by the filter, ensuring that only clean water passes through the 20mm Lateral Pipes (11).
The Lateral Pipe (11) is press-fitted over the 20mm Lateral Female Thread Tee with Ring Lock (8). This ring lock mechanism holds the Lateral Pipe (11) securely under high water pressure.
Sprinkling:
Once the Water Pump (13) is turned on, high-pressure water flows through the Water Filter (12), into the 20mm Lateral Pipe (11), and reaches to the mist sprinklers (1).
The mist sprinklers (1) are designed such that if any hard particles are present, they get trapped inside two levels of filters such as Round filter (4) and U filter (6), allowing only clean water to reach the Reflector (3).
Dual-stage filtration system to ensure maximum removal of particulate matter.
The Reflector (3) disperses water in a unique 180-degree half-circle cone pattern. This pattern ensures even coverage of the entire Solar Module (10) surface.
The Solar Module (10) surface, made of glass to maximize sunlight absorption, often accumulates dust, debris, and bird droppings. These contaminants prevent sunlight from reaching the solar cells.
Typically, Solar Modules (10) are installed facing south at a 15 to 30-degree slope. When the Mist Sprinkler (1) starts sprinkling high-pressure water on the Solar Module (10) surface, dust and bird droppings lose their grip and glide down the Solar Module (10).
The high-water flow continues for one minute, or as pre-set by the user, ensuring the entire module is thoroughly cleaned.

Advantages:
• No Shadow Effect:
The design ensures that there is no shadow effect on the solar panels during daylight hours, maintaining maximum energy conversion efficiency.
• No Moving Parts:
The absence of moving parts reduces wear and tear, enhancing the system's durability and reliability.
• Easy Installation:
The press-fit installation process is quick and easy, requiring no additional tools or adhesives, and preserves the warranty of the solar modules.
• Effective Filtration:
The dual filtration system ensures that only clean water is used for cleaning, preventing clogging and maintaining the efficiency of the sprinklers.
• Durability and Reliability:
The robust construction and secure locking mechanisms ensure long-term reliability and performance, even under high water pressure.
• Optimized Water Usage:
The high-pressure mist ensures thorough cleaning with minimal water wastage, making the system environmentally friendly.

The present novel Mist Sprinkler (1) for Solar Panel (10) cleaning offers a highly efficient, reliable, and easy-to-install solution for maintaining solar modules in optimal condition. Its innovative design features ensure effective cleaning without causing any shadow effects or wear and tear, significantly enhancing the longevity and performance of solar panels. The Mist Sprinkler (1) can be installed on axial/rotating and floating Solar Modules (10) due to its flexible line. This Mist Sprinkler (1) features a three-level water filtration system: two filters (4, 6) inside the sprinkler (1) and a screen Water Filter (12) on the main line. This high level of filtration prevents algae formation in the lateral line. The lateral pipe (11) and fittings do not require glue, chemicals, or PVC solvent to secure the connection between the Mist Sprinkler (1) and the Lateral pipe (11). The Mist Sprinkler (1) includes a Sprinkler Holding Bracket (9) that attaches the sprinkler (1) to the Solar Panel (10). This Sprinkler Holding Bracket (9) is compatible with all types of Solar Modules (10). The holding bracket (9) secures to the Solar Module (10) without the need for drilling or screws. It is designed to fit both short frame and full frame Solar Modules (10) by attaching to the main side frame of the Solar Module (10). The present novel solar panel cleaning system works any time of day or night based on end user configuration and it does not required any human interaction at the time of cleaning operation.
, Claims:Claims
I/We claim,
1. A Solar Module Cleaning Mist Sprinkler with Lateral Fittings, with no moving parts, providing scratch-free and vibration-free contactless cleaning while preventing the formation of shadows on the solar panel surface comprising:
A Mist Sprinkler (1) operatively configured to discharge a fine mist of water over the surface of a Solar Module (10);
A Reflector thread cap (2) removably securing a Reflector (3) in position, said Reflector thread cap (2) facilitating maintenance by allowing for easy attachment and detachment of the Reflector (3);
The Reflector (3) operatively structured to disperse water in a 180-degree semicircular cone pattern ensuring uniform coverage of the Solar Module (10) surface;
A Round filter (4) integrated within the Mist Sprinkler (1), said Round filter (4) is configured to intercept residual particulate matter in the water flow;
A Hex Threaded Nipple (5) structured to interconnect the Reflector (3), the Round Filter (4), and a U-Filter (6) of the Mist Sprinkler (1), said Hex Threaded Nipple (5) providing leak-proof and high-pressure-resistant connections;
The U-filter (6) positioned to provide a secondary filtration stage within the Mist Sprinkler (1), wherein said U-filter (6) ensures that only filtered water reaches the Solar Module (10);
A 20mm ring lock (7) configured to secure a 20mm lateral pipe (11) under operational water pressure conditions, said 20mm ring lock (7) preventing disconnection and ensuring system stability;
A 20mm Lateral Female Thread Tee with A Ring Lock (8) is operatively connecting multiple Lateral Pipes (11) in series, thereby allowing the integration of multiple mist sprinklers (1) in a connected array;
A Sprinkler Holding Bracket (9) is configured to affix the Mist Sprinkler (1) to the frame of the Solar Module (10), said bracket (9) preventing movement of the Mist Sprinkler (1) during operation and ensuring consistent water distribution;
A 20mm lateral pipe (11) arranged to distribute water across the series-connected mist sprinklers (1);
A Water Filter (12) positioned between a Water Pump (13) and the 20mm lateral pipe (11), wherein said Water Filter (12) removes particulate contaminants from the water supply to prevent clogging of the mist sprinklers (1);
The Water Pump (13) operatively configured to generate the requisite water pressure for cleaning, said Water Pump (13) integrated within a Water Tank (14);
The Water Tank (14) stores and supply water for the cleaning system;
Wherein a method of cleaning the said Solar Module (10), comprising:
Mounting a plurality of said Mist sprinklers (1) onto the top surface of the Solar Module (10) using the Sprinkler Holding Bracket (9), without requiring the use of glue, screws, or drilling;
Connecting the said Mist sprinklers (1) in series through the 20mm lateral pipe (11), wherein multiple rows of said Solar Modules (10) are interconnected via lateral fittings;
Supplying water from the Water Tank (14) through the Water Pump (13) and the Water Filter (12) into the 20mm lateral pipe (11), ensuring filtered water reaches the Mist sprinklers (1);
Filtering water through both the Round filter (4) and the U-filter (6) within the Mist Sprinkler (1), thereby preventing the introduction of particulate matter to the Solar Module (10);
Dispensing water through the Reflector (3) in a 180-degree semicircular cone pattern, ensuring complete and uniform coverage of the Solar Module (10) surface;
Conducting the cleaning operation without any moving mechanical parts;
Maintaining a cleaning cycle for a predefined period for the surface of the solar module (10).
2. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein the Reflector (3) is composed of corrosion-resistant materials.
3. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein the Round filter (4) and the U-filter (6) are configured for easy removal and maintenance, ensuring continuous operation of the Mist Sprinkler (1) by preventing the buildup of particulate matter.
4. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein the Mist sprinkler (1) features universal 20mm thread size and 20mm lateral fittings compatibility, allowing for direct connection to a half an inch main water line by including but not limited to UPVC, CPVC, PVC, GI, HDPE, and SWR pipes.
5. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein the Water Pump (13) is further provided with a pressure regulation mechanism to ensure consistent and controlled water pressure throughout the cleaning operation.
6. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein the mist sprinkler's (1) provides adaptability for installation on different solar module configurations, including but not limited to axial, rotating, and floating solar modules.
7. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein the cleaning cycle lasts for 1 minute or as pre-set by the user, providing sufficient water flow to remove dust and debris from the Solar Module (10) surface.
8. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein said Mist Sprinkler (1) is constructed from UV-resistant materials.
9. The Solar Module Cleaning Mist Sprinkler with Lateral Fittings as claimed in claim 1, wherein said Water Tank (14) constructed from UV-resistant and non-corrosive materials.

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