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High-Efficiency Ball Mill Integrated Control Cabinet Energy-Saving Variable Frequency Drive & Soft Starter Solution

High-Efficiency Ball Mill Integrated Control Cabinet Energy-Saving Variable Frequency Drive & Soft Starter Solution

Standard Packaging: Carton and Plywood box packaging
Delivery Period: 5-8 work days
Payment Method: L/C,D/A,T/T,D/P,MoneyGram,Western Union
Supply Capacity: 500-10000 per Month
Detail Information
Place of Origin
GuangDong
Brand Name
ACI
Certification
CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000
Model Number
DLT Series
Voltage:
200V/ 380V
Power:
7.5 ~ 630KW
Computer Interface:
Digital Tube, LCD Screen, Touch Screen
Highlight:

Soft Starter Solution

,

Variable Frequency Drive Solution

,

Integrated Ball Mill Control Cabinet

Product Description
High-Efficiency Ball Mill Integrated Control Cabinet | Energy-Saving Variable Frequency Drive & Soft Starter Solution
I. Core Functions: Dual Efficiency of VFD & Soft Starter
1. Variable Frequency Drive (VFD)
Principle : Adjusts motor speed by altering input power frequency, enabling precise control for different material grinding requirements (e.g., high-speed impact for hard ores, low-speed prevention of over-crushing for brittle materials).
Advantages:
  • 10%-40% Energy Savings : Dynamically matches power output to load demands, eliminating wasteful constant-speed operation. Example: A copper mine reduced annual electricity consumption by 15% after adopting VFD control.
  • Process Optimization : Supports multi-stage speed adjustment for automated "coarse-to-fine" grinding transitions, enhancing product consistency.
  • Reduced Mechanical Wear : Smooth speed control minimizes impact loads on motors and gears, extending equipment lifespan.
2. Soft Starter
Principle : Gradually increases voltage during startup to limit inrush current (typically 3-5x rated current), protecting both the grid and equipment.
Advantages:
  • Motor Protection : Reduces thermal stress during startup, preventing insulation degradation.
  • Grid Stability : Avoids voltage fluctuations caused by high-power motor startups, ideal for limited grid capacity scenarios.
  • Frequent Start Support : High-voltage solid-state soft starters (e.g., 2240KW/10KV models) enable 3-5 starts per hour for continuous production.
II. Technical Architecture: Integrated Design for Streamlined Deployment
1. Hardware Components
  • Inverter : Converts fixed-frequency AC power to adjustable-frequency AC power for motor drive.
  • Soft Starter Module : Works in tandem with the inverter to optimize startup dynamics.
  • PLC Control System : Enables automation logic (e.g., auto-tuning, fault diagnosis, remote monitoring).
  • Human-Machine Interface (HMI) : Touchscreen display for real-time parameter monitoring (speed, current, temperature) and historical data logging.
  • Protection Units : Overcurrent, overvoltage, undervoltage, and overheating safeguards ensure operational safety.
2. Software Capabilities
  • Intelligent Parameter Adjustment : Automatically optimizes speed and grinding time based on material properties, reducing manual intervention.
  • Remote Monitoring : IoT-enabled real-time device status uploads for mobile/PC remote operation.
  • Predictive Maintenance : Big data analytics identifies potential failures (e.g., bearing wear, motor overheating) in advance, minimizing downtime.
III. Industry Applications
1. Mining Sector
Case Study : An iron ore mine deployed a 2240KW/10KV high-voltage soft starter cabinet, achieving stable motor startups and 20% annual maintenance cost reduction.
Requirements : High-torque startups and precise speed control for processing hard ores without equipment jams.
2. Cement Industry
Case Study : A cement plant used EN501 series energy-saving cabinets to optimize rotor speed and ball load, increasing mill output by 10%.
Requirements : Low-speed high-torque grinding of clinker with dust-resistant control cabinet designs.
3. Power Generation
Requirements : Continuous coal pulverization in thermal plants demands stable operation under load fluctuations, which VFD control effectively addresses.
IV. Selection Guide: Matching Features to needs
1. Power Sizing
Select cabinets with 20%-30% power margin above motor ratings to handle load variations. Example: A 200KW motor requires a 250KW-300KW integrated cabinet.
2. Control Complexity
  • Basic Speed Control : Opt for low-voltage VFD cabinets (e.g., SY680-QM series) for cost-effective simplicity.
  • Advanced Process Control : Choose dedicated energy-saving cabinets (e.g., EN501 series) with multi-stage speed programming and PLC integration.
3. Environmental Adaptability
  • High-Temperature/Humidity : Recommended IP54 with independent cooling ducts.
  • Dusty Environments : Prioritize dust-proof designs to prevent internal contamination.
products
PRODUCTS DETAILS
High-Efficiency Ball Mill Integrated Control Cabinet Energy-Saving Variable Frequency Drive & Soft Starter Solution
Standard Packaging: Carton and Plywood box packaging
Delivery Period: 5-8 work days
Payment Method: L/C,D/A,T/T,D/P,MoneyGram,Western Union
Supply Capacity: 500-10000 per Month
Detail Information
Place of Origin
GuangDong
Brand Name
ACI
Certification
CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000
Model Number
DLT Series
Voltage:
200V/ 380V
Power:
7.5 ~ 630KW
Computer Interface:
Digital Tube, LCD Screen, Touch Screen
Packaging Details:
Carton and Plywood box packaging
Delivery Time:
5-8 work days
Payment Terms:
L/C,D/A,T/T,D/P,MoneyGram,Western Union
Supply Ability:
500-10000 per Month
Highlight

Soft Starter Solution

,

Variable Frequency Drive Solution

,

Integrated Ball Mill Control Cabinet

Product Description
High-Efficiency Ball Mill Integrated Control Cabinet | Energy-Saving Variable Frequency Drive & Soft Starter Solution
I. Core Functions: Dual Efficiency of VFD & Soft Starter
1. Variable Frequency Drive (VFD)
Principle : Adjusts motor speed by altering input power frequency, enabling precise control for different material grinding requirements (e.g., high-speed impact for hard ores, low-speed prevention of over-crushing for brittle materials).
Advantages:
  • 10%-40% Energy Savings : Dynamically matches power output to load demands, eliminating wasteful constant-speed operation. Example: A copper mine reduced annual electricity consumption by 15% after adopting VFD control.
  • Process Optimization : Supports multi-stage speed adjustment for automated "coarse-to-fine" grinding transitions, enhancing product consistency.
  • Reduced Mechanical Wear : Smooth speed control minimizes impact loads on motors and gears, extending equipment lifespan.
2. Soft Starter
Principle : Gradually increases voltage during startup to limit inrush current (typically 3-5x rated current), protecting both the grid and equipment.
Advantages:
  • Motor Protection : Reduces thermal stress during startup, preventing insulation degradation.
  • Grid Stability : Avoids voltage fluctuations caused by high-power motor startups, ideal for limited grid capacity scenarios.
  • Frequent Start Support : High-voltage solid-state soft starters (e.g., 2240KW/10KV models) enable 3-5 starts per hour for continuous production.
II. Technical Architecture: Integrated Design for Streamlined Deployment
1. Hardware Components
  • Inverter : Converts fixed-frequency AC power to adjustable-frequency AC power for motor drive.
  • Soft Starter Module : Works in tandem with the inverter to optimize startup dynamics.
  • PLC Control System : Enables automation logic (e.g., auto-tuning, fault diagnosis, remote monitoring).
  • Human-Machine Interface (HMI) : Touchscreen display for real-time parameter monitoring (speed, current, temperature) and historical data logging.
  • Protection Units : Overcurrent, overvoltage, undervoltage, and overheating safeguards ensure operational safety.
2. Software Capabilities
  • Intelligent Parameter Adjustment : Automatically optimizes speed and grinding time based on material properties, reducing manual intervention.
  • Remote Monitoring : IoT-enabled real-time device status uploads for mobile/PC remote operation.
  • Predictive Maintenance : Big data analytics identifies potential failures (e.g., bearing wear, motor overheating) in advance, minimizing downtime.
III. Industry Applications
1. Mining Sector
Case Study : An iron ore mine deployed a 2240KW/10KV high-voltage soft starter cabinet, achieving stable motor startups and 20% annual maintenance cost reduction.
Requirements : High-torque startups and precise speed control for processing hard ores without equipment jams.
2. Cement Industry
Case Study : A cement plant used EN501 series energy-saving cabinets to optimize rotor speed and ball load, increasing mill output by 10%.
Requirements : Low-speed high-torque grinding of clinker with dust-resistant control cabinet designs.
3. Power Generation
Requirements : Continuous coal pulverization in thermal plants demands stable operation under load fluctuations, which VFD control effectively addresses.
IV. Selection Guide: Matching Features to needs
1. Power Sizing
Select cabinets with 20%-30% power margin above motor ratings to handle load variations. Example: A 200KW motor requires a 250KW-300KW integrated cabinet.
2. Control Complexity
  • Basic Speed Control : Opt for low-voltage VFD cabinets (e.g., SY680-QM series) for cost-effective simplicity.
  • Advanced Process Control : Choose dedicated energy-saving cabinets (e.g., EN501 series) with multi-stage speed programming and PLC integration.
3. Environmental Adaptability
  • High-Temperature/Humidity : Recommended IP54 with independent cooling ducts.
  • Dusty Environments : Prioritize dust-proof designs to prevent internal contamination.