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Turnkey Project of
Blast Room/ Paint Booth with
Shutter Door System

Our Shutter Door Blast Room/ Paint Booth System is a durable and efficient solution for industrial surface preparation and painting needs. Contact us to improve your facility's productivity and safety.

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A Blast Room with Motorized Trolley and Shatter Door is a specialized facility used in industrial settings for abrasive blasting processes. This type of room typically features a motorized trolley system, which allows for efficient movement of heavy equipment or components within the blast chamber. The inclusion of a shatter door system enhances safety and productivity.

 

These doors are designed to quickly open and close, minimizing downtime between blasting cycles and ensuring containment of abrasive media. Similarly, a Paint Booth with Shatter Door System incorporates these features into a facility dedicated to painting processes.

 

he shatter door technology helps maintain controlled environments necessary for quality paint applications while facilitating smooth ingress and egress of materials or equipment. Both systems represent advanced solutions for industrial surface preparation and finishing tasks, optimizing workflow and safety standards.

Features:

Blast Room with Motorized Trolley and Shatter Door:

  • Blast Room: This is a controlled environment used for abrasive blasting processes, such as sandblasting or shot blasting. It provides a contained space where abrasive materials are propelled at high speeds to clean, etch, or prepare surfaces for coating or finishing.

  • Motorized Trolley: A motorized trolley is a mechanism installed within the blast room that allows for the movement of heavy equipment or materials. It typically runs along a track system installed on the ceiling or walls of the blast room, enabling efficient transport of items within the room without manual lifting or carrying.

  • Shatter Door: A shatter door is a type of door designed to withstand high-pressure blasts and provide a secure seal when closed. It's crucial in blast rooms to contain the abrasive media and protect operators and surrounding areas from the impact of the blasting process. Shatter doors are robust and durable, able to withstand the forces generated during blasting operations.

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Paint Booth with Shatter Door System:

  • Paint Booth: This is an enclosed space used for applying paint or coatings to various objects, such as automotive parts, machinery components, or furniture. Paint booths provide a controlled environment free from dust, debris, and other contaminants, ensuring a high-quality finish.

  • Shatter Door System: Similar to the blast room, a paint booth with a shatter door system includes doors that can withstand the pressures generated during painting processes. These doors ensure the integrity of the booth enclosure, preventing leaks or breaches that could compromise the painting environment. The shatter door system also provides easy access for personnel and equipment when entering or exiting the paint booth.

Material Compatibility:

A Blast Room with Motorized Trolley and Shatter Door and a Paint Booth with Shatter Door System are specialized facilities used in industrial settings for different purposes:

  • Blast Room with Motorized Trolley and Shatter Door: This is typically used for abrasive blasting processes, where materials such as steel grit, garnet, aluminum oxide, or other abrasive media are propelled against a surface to remove contaminants, rust, old coatings, or prepare the surface for painting or coating.The motorized trolley allows for easy movement of heavy objects within the blast room, while the shatter door is a type of door system designed to withstand the force of the blasting process and provide easy access in and out of the room.

  • Paint Booth with Shatter Door System: This is used for painting or coating applications in industrial settings. The shatter door system provides a secure closure for the booth while also being designed to withstand the potentially volatile conditions inside the booth, such as overspray or fumes from the painting process.

When considering material compatibility for these systems, several factors need to be taken into account:

  • Abrasion Resistance: In the case of the blast room, materials need to withstand the abrasive impact of the blasting media. High-strength materials such as steel or reinforced concrete are commonly used for blast room construction.

  • Chemical Resistance: For both blast rooms and paint booths, materials need to be resistant to the chemicals involved in the blasting or painting process. This may include solvents, paint thinners, or chemicals present in the blasting media.

  • Corrosion Resistance: Especially relevant for blast rooms where metal surfaces are being treated. Corrosion-resistant materials such as stainless steel or coated metals may be used to prevent deterioration over time.

  • Temperature Resistance: Depending on the type of blasting media used or the temperature of the curing process in paint booths, materials need to withstand high temperatures without deforming or degrading.

  • Compatibility with Cleanliness Requirements: Paint booths especially require materials that can be easily cleaned to maintain a dust-free environment for painting processes.

  • Structural Integrity: Both blast rooms and paint booths need to be structurally sound to contain the processes they house and withstand any external forces they may be subjected to.

The specific materials used in constructing these facilities can vary based on factors such as budget, environmental conditions, and the specific requirements of the processes involved. Common materials include steel, concrete, fiberglass, and specialty coatings designed for industrial applications. It's important for these materials to meet safety standards and regulations set by relevant authorities. Consulting with engineers or experts in industrial facility design can provide more tailored recommendations for material compatibility.

Compliance &
Standards:

  • OSHA Regulations: Ensuring workplace safety, ventilation, and worker protection.

  • NFPA Standards: Fire safety measures, including ventilation and explosion prevention.

  • ANSI Guidelines: Equipment design, performance, and safety standards.

  • ISO Standards: International standards for quality, safety, and environmental management.

  • Industry-specific Requirements: Specific standards for automotive, aerospace, or manufacturing industries.

  • Local Building Codes: Compliance with local regulations for installation and safety.

  • Manufacturer's Specifications: Adherence to the manufacturer's guidelines for safe operation.

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