DRONE SPRAY CONSTRUCTION

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MuDD Architects SL CIF B42828319 mudd@muddarchitects.com www.muddarchitects.com

OUR CATEGORIES

Insulation Spraying

Thanks to this solution, we can efficiently apply layers of thermal, acoustic, or waterproof insulation, improving the energy performance of buildings and reducing operational costs. Additionally, it offers precision and speed in the process, minimizing work times and risks for workers. This technique is gaining popularity in building renovation and construction projects where the goal is to optimize efficiency and safety.

Moreover, it allows the use of a variety of insulating materials, such as the following:

Polyurethane foam: This material is commonly used for thermal and acoustic insulation. It is applied as a spray and expands upon contact with air, creating a very efficient insulating layer.
Phenolic foam: Similar to polyurethane foam but with better thermal properties and lower environmental impact. It is ideal for areas that require higher fire resistance.
Elastomer-based thermal insulators: Primarily used to prevent heat or cold loss, ideal for HVAC installations and buildings where energy efficiency is crucial.
Acoustic insulators: Materials such as acoustic foam or spray products specifically designed to reduce noise in facades or ceilings.
Eco-friendly insulators: Natural materials such as cellulose or hemp can be applied by drones for those seeking sustainable and environmentally friendly solutions.

Vertical Garden Mix Spraying

This modern technique is used to create and maintain vertical gardens by applying a special mix of nutrients, soil, and plants onto vertical structures. This method is primarily used on building facades, walls, or urban structures, where there is not enough space for a horizontal garden but where adding greenery is desired to enhance the environment.

The spraying process for vertical gardens involves the use of drones or specialized equipment to apply a liquid or semi-liquid mix onto vertical surfaces. This mix consists of a combination of growing substrates, seeds or young plants, nutrients and fertilizers, and binding agents.

Thanks to this technique, vertical gardens on buildings not only improve their aesthetics but also contribute to sustainability, reducing the urban heat island effect and helping with rainwater management. Additionally, these gardens are self-sustaining, meaning that once established, they require less maintenance due to the mix used.

Greenhouse Shading

Greenhouse shading refers to techniques or materials used to reduce the amount of sunlight entering a greenhouse to protect plants from excessive heat, light, or UV exposure. It plays a crucial role in regulating the internal climate of the greenhouse, ensuring optimal growing conditions for plants throughout the year. Additionally, the use of drones to apply these sprays significantly reduces the time and effort required to install or adjust shading systems in large or hard-to-reach greenhouses.

Drones can use a variety of sprays to implement shading techniques in greenhouses, including:

Shading Paint: One of the most commonly used sprays to reduce sunlight intensity in greenhouses, helping to prevent overheating and protecting plants from excessive light exposure. This type of paint can be applied to glass, plastic, or polycarbonate surfaces in the greenhouse structure.
Aerosols: Used to create a light shading layer that reduces the amount of sunlight passing through the greenhouse roof. They are useful in greenhouses that require temporary or controlled shading during certain seasons of the year.
Reflective Liquid Solutions: These can be applied to the roof of the greenhouse to redirect sunlight to specific areas of the greenhouse. These products are useful for increasing light distribution efficiency and improving photosynthesis without generating excess heat.
Anti-UV Products: Sprays designed to block ultraviolet (UV) rays, which can be harmful to some plants. These products can be applied to greenhouse surfaces to provide additional protection against UV radiation.

Waterproof Solution Spraying

Waterproof Solution Spraying is a technique used in construction and building rehabilitation to efficiently apply waterproofing materials. This method involves the use of specialized equipment, such as drones or automated spraying systems, to apply liquid solutions that create a waterproof barrier on the surfaces of structures, such as walls, roofs, foundations, and facades.

Waterproofing products are designed to be water-resistant and are formulated to adhere well to both vertical and horizontal surfaces, offering long-lasting protection. Some of these materials include:

Liquid Membranes: These form a flexible and continuous layer that can cover irregular surfaces. These solutions are often highly effective for roofs and walls exposed to the elements.
Waterproof Paints: Primarily used on vertical surfaces like walls and facades. These paints create a protective barrier against water, but they are not usually as durable as liquid membranes.
Polyurethane Coatings: These are highly durable and effective for roofs and areas that require high resistance to moisture and temperature fluctuations.

The use of drones and automated spraying systems optimizes the waterproofing process, improving efficiency, safety, and quality in construction and rehabilitation work.

Polyurethane Spraying

The use of drones for polyurethane spraying is an innovative technique in architecture, which utilizes drones equipped with specialized spraying systems to apply polyurethane foam or polyurethane coatings. This method is gaining popularity due to its efficiency and precision, especially in applications such as insulation, waterproofing, and surface protection, particularly in hard-to-reach areas or large-scale projects. For polyurethane foam spraying, a mixture of two components (resin and isocyanate) is needed, which react and expand when sprayed onto surfaces. The drone sprays the liquid polyurethane mixture, which expands and cures within minutes, forming a solid foam layer that acts as an insulating barrier. This foam provides excellent thermal insulation, air sealing, and acoustic insulation, making it an ideal option for insulating buildings in walls, roofs, and sloped ceilings.

It is an optimal solution for building insulation as drones can spray foam in hard-to-reach places. It is also used for waterproofing and roof coatings, as well as facade insulation and protection. Drones are convenient for the restoration of historic buildings, as these structures often have irregular shapes and surfaces, and the precision and flexibility of drones are ideal for applying insulation and protection materials without damaging the original structures.

Drones are not only useful in architecture but also in industrial areas that require coatings resistant to chemicals, abrasion, and moisture. This use is common in warehouses, factories, and storage facilities, where additional protection is needed against extreme conditions.

Paint Spraying

Paint spraying with drones is an innovative technique used in architecture to apply paint or coatings efficiently and accurately. Drones are equipped with spraying systems, allowing them to cover large surfaces quickly, often in places that would be difficult or dangerous for humans to access, such as high-rise buildings, bridges, or large facades. This method is increasingly popular in construction, restoration, and maintenance due to its effectiveness and the reduction in labor and time required for painting tasks.

In the application process, the drone flies over the designated surface, spraying paint in a controlled pattern. Depending on the setup, drones may be able to apply different layers of paint or coatings, such as base coats, topcoats, or specialized coatings (e.g., waterproofing, anti-graffiti, or UV protection).

The types of paint and coating used with drones are: regular architectural paints, (such as latex or oil-based paints, can be used with drones, provided they have the correct viscosity for spray application), waterproofing, UV Protection or anti-graffiti coatings.

It can be applied in different types of situations: buildings facades and exterior walls, roof coating, bridges and large infrastructures, historic buildings restoration or any other industrial application.

Our spraying drone

Automation of the process will bring major advantages, not only in terms of time, but also in terms of cost. In other words, more efficient results will be achieved due to the high precision in the application of the materials, and it will no longer be necessary for the person in charge of the flight to have a high level of specialization, since the drone flight will be automated and only the personnel in charge of controlling the process will be needed.

Increased Efficiency

Drones equipped with advanced sensors and positioning systems can ensure precise and consistent material application. By programming specific flight paths and parameters, drones can spray with a high degree of accuracy, minimizing errors and inconsistencies that may occur with manual application. This level of precision contributes to improved architecture, engineering, gardening or construction quality and reduced rework, ultimately saving costs.

Increased Efficiency

Traditional spraying methods often involve manual labor and require scaffolding or elevated platforms. Using drones for spraying eliminates the need for such infrastructure, significantly reducing setup time and labor costs. Drones can quickly navigate complex structures, reach inaccessible areas, and spray mortar efficiently, saving time and resources.

Drone automation advantages

Increased Efficiency

Spraying with drones enhances safety on construction and working sites by reducing the need for workers to operate at heights or in hazardous conditions. Drones can access hard- to-reach or dangerous areas, such as high-rise exteriors or unstable structures, minimizing the risk of accidents and injuries. The improved safety measures associated with drone-based spraying positively impact the company’s reputation and reduce potential liability.

Time and Cost Savings

The efficiency and precision of drone-based spraying significantly reduce project timelines and associated costs. Drones can complete spraying tasks faster than manual labor, enabling faster project completion and reduced labor expenses. Additionally, the accuracy of drone spraying reduces material wastage, optimizing resource utilization and lowering material costs.astructure, significantly reducing setup time and labor costs. Drones can quickly navigate complex structures, reach inaccessible areas, and spray mortar efficiently, saving time and resources.