 |
| Quantity: | |
|---|---|
| Parameter | Value |
| Model | GS-6100CL |
| Card Type | EMID 125kHz card |
| Storage Type | Flash memory |
| Storage Capacity | 80,000 records |
| Shock Records | 30,000 records |
| Reading Distance | 0~3 cm |
| Prompting Mode | OLED display, Vibrating alert, LED indicator |
| Communication | USB cable |
| Power Supply | 3.7V 900 mAh rechargeable Lithium Battery |
| Protection Class | IP65 |
The Waste Material Single Shaft Processor emerges as a versatile solution for multi-material waste processing, engineered to handle diverse waste streams with exceptional efficiency. This adaptable machine combines a robust 22-55 kW motor system with advanced material handling technology to achieve a reliable 8-15 tons/hour processing capacity, making it suitable for medium to large-scale waste management facilities. Its single-shaft design features a universal shredding mechanism that accommodates everything from organic waste to light industrial scrap, eliminating the need for pre-sorting in many applications. The processor's intelligent control system optimizes performance based on material type, ensuring consistent particle size reduction across different waste categories.
At its core is a high-carbon steel blade assembly with a staggered configuration that efficiently processes heterogeneous waste streams. The blade system features a unique self-sharpening design that maintains cutting performance even when handling mixed materials, from cardboard and plastics to wood and light metal scraps. The 320mm diameter rotor ensures sufficient inertia for cutting through varying material thicknesses without performance degradation.
The processor incorporates a variable-speed hydraulic pusher that adjusts feeding pressure based on material density, preventing jamming during uneven feeding. This system includes ultrasonic sensors that detect material buildup and automatically adjust the pusher speed, ensuring continuous operation even with irregular waste input. The 1000×600mm feed hopper accommodates bulky items while reducing the need for pre-cutting.
Equipped with a color touchscreen PLC control system, the processor offers real-time monitoring of key metrics including motor load, blade temperature, and throughput rate. Operators can select from pre-programmed settings for different waste types, optimizing cutting parameters for maximum efficiency. The system includes automatic overload protection that reduces rotor speed during peak loads, minimizing energy consumption and extending component life.
This versatile processor excels across diverse waste management scenarios:
Municipal Waste Processing: Handles mixed household and commercial waste for volume reduction
Industrial Waste Management: Processes factory scrap including packaging, wood pallets, and plastic offcuts
Construction & Demolition: Reduces lightweight building materials, drywall, and insulation waste
Organic Waste Handling: Shreds food waste and green waste for composting or anaerobic digestion
Retail & Logistics Waste: Processes cardboard, plastic packaging, and returnable transit packaging
A: The Waste Material Single Shaft Processor efficiently handles mixed waste streams containing paper, cardboard, plastics, wood, organic matter, and light metal components without pre-sorting. Its adaptive feeding system and robust blade design prevent jamming even when processing heterogeneous materials.
A: The processor uses intelligent sensor technology to detect material hardness and automatically adjusts rotor speed and feeding pressure. For harder materials like small metal scraps, it increases torque and reduces speed, while for lighter materials like paper, it operates at higher speeds for maximum throughput.
A: Standard output particle size ranges from 20mm to 100mm depending on screen configuration. Optional interchangeable screens allow operators to customize particle size for specific downstream processes, from composting (larger particles) to energy recovery (finer particles).
A: By eliminating the need for separate shredders for different materials, it reduces overall energy consumption by 25-30% compared to multiple single-purpose machines. The variable-speed motor and load-sensing technology further optimize energy usage by matching power output to processing demands.
| Parameter | Value |
| Model | GS-6100CL |
| Card Type | EMID 125kHz card |
| Storage Type | Flash memory |
| Storage Capacity | 80,000 records |
| Shock Records | 30,000 records |
| Reading Distance | 0~3 cm |
| Prompting Mode | OLED display, Vibrating alert, LED indicator |
| Communication | USB cable |
| Power Supply | 3.7V 900 mAh rechargeable Lithium Battery |
| Protection Class | IP65 |
The Waste Material Single Shaft Processor emerges as a versatile solution for multi-material waste processing, engineered to handle diverse waste streams with exceptional efficiency. This adaptable machine combines a robust 22-55 kW motor system with advanced material handling technology to achieve a reliable 8-15 tons/hour processing capacity, making it suitable for medium to large-scale waste management facilities. Its single-shaft design features a universal shredding mechanism that accommodates everything from organic waste to light industrial scrap, eliminating the need for pre-sorting in many applications. The processor's intelligent control system optimizes performance based on material type, ensuring consistent particle size reduction across different waste categories.
At its core is a high-carbon steel blade assembly with a staggered configuration that efficiently processes heterogeneous waste streams. The blade system features a unique self-sharpening design that maintains cutting performance even when handling mixed materials, from cardboard and plastics to wood and light metal scraps. The 320mm diameter rotor ensures sufficient inertia for cutting through varying material thicknesses without performance degradation.
The processor incorporates a variable-speed hydraulic pusher that adjusts feeding pressure based on material density, preventing jamming during uneven feeding. This system includes ultrasonic sensors that detect material buildup and automatically adjust the pusher speed, ensuring continuous operation even with irregular waste input. The 1000×600mm feed hopper accommodates bulky items while reducing the need for pre-cutting.
Equipped with a color touchscreen PLC control system, the processor offers real-time monitoring of key metrics including motor load, blade temperature, and throughput rate. Operators can select from pre-programmed settings for different waste types, optimizing cutting parameters for maximum efficiency. The system includes automatic overload protection that reduces rotor speed during peak loads, minimizing energy consumption and extending component life.
This versatile processor excels across diverse waste management scenarios:
Municipal Waste Processing: Handles mixed household and commercial waste for volume reduction
Industrial Waste Management: Processes factory scrap including packaging, wood pallets, and plastic offcuts
Construction & Demolition: Reduces lightweight building materials, drywall, and insulation waste
Organic Waste Handling: Shreds food waste and green waste for composting or anaerobic digestion
Retail & Logistics Waste: Processes cardboard, plastic packaging, and returnable transit packaging
A: The Waste Material Single Shaft Processor efficiently handles mixed waste streams containing paper, cardboard, plastics, wood, organic matter, and light metal components without pre-sorting. Its adaptive feeding system and robust blade design prevent jamming even when processing heterogeneous materials.
A: The processor uses intelligent sensor technology to detect material hardness and automatically adjusts rotor speed and feeding pressure. For harder materials like small metal scraps, it increases torque and reduces speed, while for lighter materials like paper, it operates at higher speeds for maximum throughput.
A: Standard output particle size ranges from 20mm to 100mm depending on screen configuration. Optional interchangeable screens allow operators to customize particle size for specific downstream processes, from composting (larger particles) to energy recovery (finer particles).
A: By eliminating the need for separate shredders for different materials, it reduces overall energy consumption by 25-30% compared to multiple single-purpose machines. The variable-speed motor and load-sensing technology further optimize energy usage by matching power output to processing demands.
