抛光机ACME
Robotic Polishing Cell
抛光机
ACME
Robotic Polishing Cell
EXW 起拍價 不包含增值稅
€13,500
製造年份
2008
狀況
二手
位置
爱尔兰 

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机器数据
价格和位置
EXW 起拍價 不包含增值稅
€13,500
- 位置:
- Rineanna, Windsor Hill, Glounthaune, T45 DP71 Cork, IE

撥打
技术细节
- 输入电流类型:
- 三相
- 输入电压:
- 400 V
- 设备:
- 双面, 文档 / 手册, 转速可无级变速, 铭牌可用
优惠详情
- 產品ID:
- A20419060
- 參考編號:
- 968973
- 最後更新:
- 於 30.10.2025
描述
2008 ACME Robotic Polishing Cell with Fanuc M-710i Robot – Fully Automated Metal Finishing Solution
Looking for a high-performance robotic metal polishing system? Don’t miss this 2008 ACME Manufacturing Co. Robotic Polishing Cell, engineered for precision, consistency, and automation. Ideal for metal finishing, surface treatment, automotive, aerospace, or industrial manufacturing.
Pedsxtftyjpfx Af Uorc
🔧 Manufacturer: ACME Manufacturing Co.
🚨 Machine Type: Robotic Polishing Cell
📅 Year of Manufacture: 2008
🤖 Robot Model: Fanuc M-710i
📍 Location: Ireland
📦 Condition: Good – fully operational and maintained
🟢 Availability: Immediate
✅ Machine Overview:
This 2008 ACME robotic metal polishing cell is a fully automated surface finishing system equipped with a Fanuc M-710i 6-axis robot and designed for precision metal polishing in high-volume environments. Ideal for manufacturers in medical device, automotive, aerospace, general engineering, or stainless steel finishing sectors.
💡 System Includes:
✅ Fanuc M-710i Industrial Robot – Reliable 6-axis automation for complex polishing paths
✅ Two Twin-Head Polishing Stations – Simultaneous dual-surface processing
✅ Automatic Polishing Paste Delivery Units – Supports both fine and coarse pastes for optimal finish
✅ Vibration Monitoring Point – Ensures consistent surface quality and machine health
📈 Benefits:
Increased throughput and reduced labor costs
Repeatable, uniform polishing quality
Fully automated and programmable – minimal operator input
Compact, integrated cell for efficient floor space use
Core Functionality
Material Removal: The robotic system employs abrasive belts or wheels to remove material from workpieces, effectively smoothing edges, removing imperfections like flash, and achieving specific surface finishes.
Precision and Repeatability: Unlike manual polishing, which can vary from part to part, robotic systems ensure consistent and repeatable results, crucial for high-precision applications.
Versatility: ACME cells can be adapted for a wide range of materials and part geometries, including orthopedic implants, automotive components, and more.
Integrated Automation: These cells often feature part handling systems, like conveyors and dual-drawer arrangements, to enable continuous and unattended operation.
Dust and Sound Containment: Built-in enclosures help confine dust and noise generated during the process, improving safety and environmental conditions.
Key Features and Benefits
Increased Production Rates: Robotic polishing can significantly increase the number of parts processed per hour compared to manual methods.
Reduced Costs: By automating the process, companies can reduce abrasive media costs, labor costs, and potentially decrease scrap rates.
Improved Safety: Robotic systems eliminate the need for operators to manually handle potentially hazardous materials and tools.
Enhanced Consistency: Robots deliver consistent, repeatable results, ensuring uniform quality across all parts.
Process Optimization: ACME cells allow for programmable belt speeds and other parameters, enabling optimization for different materials and finishes.
Looking for a high-performance robotic metal polishing system? Don’t miss this 2008 ACME Manufacturing Co. Robotic Polishing Cell, engineered for precision, consistency, and automation. Ideal for metal finishing, surface treatment, automotive, aerospace, or industrial manufacturing.
Pedsxtftyjpfx Af Uorc
🔧 Manufacturer: ACME Manufacturing Co.
🚨 Machine Type: Robotic Polishing Cell
📅 Year of Manufacture: 2008
🤖 Robot Model: Fanuc M-710i
📍 Location: Ireland
📦 Condition: Good – fully operational and maintained
🟢 Availability: Immediate
✅ Machine Overview:
This 2008 ACME robotic metal polishing cell is a fully automated surface finishing system equipped with a Fanuc M-710i 6-axis robot and designed for precision metal polishing in high-volume environments. Ideal for manufacturers in medical device, automotive, aerospace, general engineering, or stainless steel finishing sectors.
💡 System Includes:
✅ Fanuc M-710i Industrial Robot – Reliable 6-axis automation for complex polishing paths
✅ Two Twin-Head Polishing Stations – Simultaneous dual-surface processing
✅ Automatic Polishing Paste Delivery Units – Supports both fine and coarse pastes for optimal finish
✅ Vibration Monitoring Point – Ensures consistent surface quality and machine health
📈 Benefits:
Increased throughput and reduced labor costs
Repeatable, uniform polishing quality
Fully automated and programmable – minimal operator input
Compact, integrated cell for efficient floor space use
Core Functionality
Material Removal: The robotic system employs abrasive belts or wheels to remove material from workpieces, effectively smoothing edges, removing imperfections like flash, and achieving specific surface finishes.
Precision and Repeatability: Unlike manual polishing, which can vary from part to part, robotic systems ensure consistent and repeatable results, crucial for high-precision applications.
Versatility: ACME cells can be adapted for a wide range of materials and part geometries, including orthopedic implants, automotive components, and more.
Integrated Automation: These cells often feature part handling systems, like conveyors and dual-drawer arrangements, to enable continuous and unattended operation.
Dust and Sound Containment: Built-in enclosures help confine dust and noise generated during the process, improving safety and environmental conditions.
Key Features and Benefits
Increased Production Rates: Robotic polishing can significantly increase the number of parts processed per hour compared to manual methods.
Reduced Costs: By automating the process, companies can reduce abrasive media costs, labor costs, and potentially decrease scrap rates.
Improved Safety: Robotic systems eliminate the need for operators to manually handle potentially hazardous materials and tools.
Enhanced Consistency: Robots deliver consistent, repeatable results, ensuring uniform quality across all parts.
Process Optimization: ACME cells allow for programmable belt speeds and other parameters, enabling optimization for different materials and finishes.
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