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Laser cutting fume extractors, also known as laser cutting fume purifiers or dust extraction systems, use exhaust hoods installed near the cutting head or suction ducts on both sides of the worktable. Under the negative pressure generated by a fan, the fumes generated during processing are drawn into the equipment. The fumes then pass through a multi-stage filtration system, where harmful substances are intercepted. Finally, clean air is discharged back into the workshop or outdoors, thus purifying the working environment and protecting the health of operators.
Features and Advantages
1. High-Efficiency Capture and Purification
Through optimized air intake design and airflow matching, it can quickly capture smoke and dust near the source, preventing their dispersion.
Using high-performance filter media (such as flame-retardant coated polyester fiber or PTFE coated filter cartridges), the filtration efficiency for particles larger than 0.3 microns can reach over 99.9%, ensuring clean exhaust air.
2. Superior Core Components
The filter media is typically flame-retardant treated, making it explosion-proof and fire-resistant.
Highperformance centrifugal fans provide stable air pressure and volume, and are resistant to high temperatures and wear.
The intelligent control system can be linked with the laser cutting machine for start/stop operation and features differential pressure alarms and dust removal reminders.
3. Enhanced Overall Efficiency
Effectively removes PM2.5 and other inhalable particulate matter and harmful chemical fumes.
Clean smoke and dust will not adhere to the guide rails, lenses, and sensors of the laser cutting machine, reducing equipment failure rates, extending the lifespan of optical lenses and equipment, and lowering maintenance costs.
Improves workshop visibility and air quality, enhancing the working environment.
Ensure exhaust emissions meet national and local standards and comply with environmental protection requirements.
4. Economical and Convenient Operation
The pulse backflushing cleaning system automatically removes dust adhering to the filter cartridges, keeping the filter clear, extending filter life, and reducing replacement frequency and consumable costs.
Modular design ensures a compact equipment structure, easy filter replacement, and convenient maintenance.
Application Industries
Laser cutting fume extractors are widely used in all manufacturing sectors involving laser cutting processes, primarily including:
• Sheet Metal Processing Industry
This is the core application area, used to remove fumes and metal dust generated during the cutting of carbon steel, stainless steel, aluminum plates, brass, and other metal materials.
• Machinery Manufacturing
Used in the production of engineering machinery, agricultural machinery, textile machinery, and other equipment to remove fumes generated during the laser cutting of parts.
• Automotive Manufacturing and Parts
Used for laser cutting and welding processes of automobile bodies, chassis, structural components, and other precision parts.
• Furniture and Metal Art Products
Used for the precision laser cutting of metal tables and chairs, display stands, advertising lettering, metal decorations, etc.
• Aerospace and Precision Instruments
Used in fields with extremely high requirements for the processing environment to handle fumes generated from cutting special alloys (such as titanium alloys).
• Electronic Products
Used for cutting precision metal parts such as mobile phone frames and heat sinks.
Laser cutting fume extractors, also known as laser cutting fume purifiers or dust extraction systems, use exhaust hoods installed near the cutting head or suction ducts on both sides of the worktable. Under the negative pressure generated by a fan, the fumes generated during processing are drawn into the equipment. The fumes then pass through a multi-stage filtration system, where harmful substances are intercepted. Finally, clean air is discharged back into the workshop or outdoors, thus purifying the working environment and protecting the health of operators.
Features and Advantages
1. High-Efficiency Capture and Purification
Through optimized air intake design and airflow matching, it can quickly capture smoke and dust near the source, preventing their dispersion.
Using high-performance filter media (such as flame-retardant coated polyester fiber or PTFE coated filter cartridges), the filtration efficiency for particles larger than 0.3 microns can reach over 99.9%, ensuring clean exhaust air.
2. Superior Core Components
The filter media is typically flame-retardant treated, making it explosion-proof and fire-resistant.
Highperformance centrifugal fans provide stable air pressure and volume, and are resistant to high temperatures and wear.
The intelligent control system can be linked with the laser cutting machine for start/stop operation and features differential pressure alarms and dust removal reminders.
3. Enhanced Overall Efficiency
Effectively removes PM2.5 and other inhalable particulate matter and harmful chemical fumes.
Clean smoke and dust will not adhere to the guide rails, lenses, and sensors of the laser cutting machine, reducing equipment failure rates, extending the lifespan of optical lenses and equipment, and lowering maintenance costs.
Improves workshop visibility and air quality, enhancing the working environment.
Ensure exhaust emissions meet national and local standards and comply with environmental protection requirements.
4. Economical and Convenient Operation
The pulse backflushing cleaning system automatically removes dust adhering to the filter cartridges, keeping the filter clear, extending filter life, and reducing replacement frequency and consumable costs.
Modular design ensures a compact equipment structure, easy filter replacement, and convenient maintenance.
Application Industries
Laser cutting fume extractors are widely used in all manufacturing sectors involving laser cutting processes, primarily including:
• Sheet Metal Processing Industry
This is the core application area, used to remove fumes and metal dust generated during the cutting of carbon steel, stainless steel, aluminum plates, brass, and other metal materials.
• Machinery Manufacturing
Used in the production of engineering machinery, agricultural machinery, textile machinery, and other equipment to remove fumes generated during the laser cutting of parts.
• Automotive Manufacturing and Parts
Used for laser cutting and welding processes of automobile bodies, chassis, structural components, and other precision parts.
• Furniture and Metal Art Products
Used for the precision laser cutting of metal tables and chairs, display stands, advertising lettering, metal decorations, etc.
• Aerospace and Precision Instruments
Used in fields with extremely high requirements for the processing environment to handle fumes generated from cutting special alloys (such as titanium alloys).
• Electronic Products
Used for cutting precision metal parts such as mobile phone frames and heat sinks.
