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| 브랜드 이름: | Xrido |
| 모델 번호: | 2000 |
| 지불 조건: | 협상 가능 |
Bulky Waste Shredder Bulky Waste Crusher Bulky Waste Recycling Plant
A Bulky Waste Shredder is a device specifically designed for handling large waste. It mechanically breaks down and shreds large discarded items, such as old furniture (sofas, mattresses, wardrobes), used appliances (refrigerators, washing machines), and wood, into smaller pieces for easy recycling, transportation, or disposal.
Working Principle
A motor drives the blades or rotor at high speed, breaking up the material through the shearing, tearing, and squeezing action of the blades. Once large pieces of waste enter the shredder chamber, they are subjected to the intense impact and shearing force of the rotating blades, gradually breaking them into smaller pieces.
Large-scale waste shredders are suitable for a variety of large, hard, and tough materials:
Furniture
• Wooden furniture: These include old wardrobes, desks, bed frames, and chairs. These wooden furniture are made of a variety of materials, including solid wood and artificial boards. Solid wood is tough, but the large-scale waste shredder's powerful shearing and crushing capabilities can break it down. Artificial boards like density fiberboard and particleboard can also be effectively processed by the shredder.
• Upholstered furniture: Common upholstered furniture such as sofas and mattresses are also suitable. Sofa frames are typically made of wood or metal, with filling materials like sponge and down, and outer layers of fabric or leather. Mattresses have internal structures like springs and sponge. Large-scale waste shredders can shred upholstered furniture made of these various materials.
Home Appliances
• Large appliance casings: The casings of refrigerators, washing machines, and outdoor air conditioners are typically made of plastic, metal, and other materials. Plastic casings have a certain degree of toughness, while metal components are relatively strong. A large-scale waste shredder can shred these different materials into smaller pieces by adjusting the blades and parameters.
• Used TVs: Although televisions are becoming increasingly lightweight, the casings and internal metal frames of some older, large-size TVs can also be processed using a large-scale waste shredder.
Wood
• Construction timber: This includes used doors and windows, beams, and wooden keels. These timbers are typically large and have a relatively uniform texture, but some may be damaged or deformed due to long-term use. Large-scale waste shredders can effectively shred these timbers.
• Garden timber: This includes branches, trunks, and stumps. Although wood from garden waste often contains moisture and impurities, a large-scale waste shredder can still shred it. The shredded wood can be used for biomass power generation, charcoal production, or as a raw material for papermaking.
Other Materials
• Industrial Waste: Large waste materials generated during factory production, such as large plastic and rubber products, can be initially shredded using a large-scale waste shredder if they are bulky and difficult to handle directly, allowing for subsequent recycling or disposal.
• Used bicycles and electric bikes: The main frames of these vehicles are generally made of metal, but they also contain plastic components and rubber tires. A large-scale waste shredder can shred them, either in whole or in part, facilitating the separation and recycling of metal and other materials.
Advantages
• Improved processing efficiency: Large pieces of waste can be quickly broken down, significantly shortening processing time and increasing the amount of waste processed per unit time.
• Reduced transportation costs: After processing in the shredder, the volume of waste is significantly reduced, reducing the number of transports and the space required, thereby lowering transportation costs.
• Promoted resource recovery: Large pieces of waste are broken down into appropriate sizes, facilitating subsequent sorting and recovery of valuable materials such as metal, wood, and plastic, thereby improving resource utilization.
• Environmental benefits: Reduces the land use and environmental pollution caused by the indiscriminate storage and landfill of large pieces of waste, thereby helping to improve urban environmental quality.
Product Specifications:
| Model | Overall Size(mm) | Crushing Cavity Size(mm) | Power(kw) | Weight(kg) |
| XRD - SZSS - 500 | 2800×1300×1850 | 500×480 | 11×2 | 2200 |
| XRD - SZSS - 800 | 3000×1300×1850 | 800×480 | 15×2 | 2500 |
| XRD - SZSS - 1000 | 3300×1900×2200 | 1000×690 | 22×2 | 5200 |
| XRD - SZSS - 1200 | 3600×2000×2200 | 1200×690 | 30×2 | 6400 |
| XRD - SZSS - 1500 | 4100×2100×2400 | 1500×850 | 55×2 | 9000 |
| XRD - SZSS - 1800 | 5800×2400×3300 | 1800×1206 | 75×2 | 13600 |
| XRD - SZSS - 2000 | 6400×2700×3500 | 2000×1490 | 90×2 | 20100 |
| XRD - SZSS - 2500 | 7500×3200×3800 | 2500×1800 | 110×2 | 22500 |
| XRD - SZSS - 3000 | 8600×3500×4000 | 3000×1800 | 160×2 | 31000 |
(Special - customized types can be customized according to the size and type of materials.)
The bulky waste shredding and sorting line efficiently processes large pieces of waste, enabling resource recycling and harmless disposal. The general process flow is as follows:
Pretreatment
Bulky waste is manually or mechanically loaded onto a conveyor for initial sorting, removing non-trash items (such as rocks and large metal objects) and hazardous materials (such as glass and sharp objects) to prevent damage to downstream equipment.
Shredding
The pre-treated bulky waste is conveyed by a conveyor to a shredder. The shredder uses the shearing, squeezing, and tearing forces generated by the rotating blades to break the bulky waste into smaller pieces, typically 5-30 cm in size, for subsequent sorting. Common shredded items include used sofas, mattresses, furniture, and large appliance casings.
Magnetic Separation
After shredding, the material enters a magnetic separator, where the magnet's attraction to ferromagnetic materials (such as nails, wire, and metal parts) separates the ferrous metal for recycling.
Eddy Current Separation
After magnetic separation, the material enters an eddy current separator. This device uses an alternating magnetic field to generate eddy currents in non-ferrous metals. The magnetic field generated by the eddy currents interacts with the original magnetic field, repelling the non-ferrous metals and separating them. It primarily separates non-ferrous metals such as copper and aluminum.
Wind separation
The airflow generated by the fan separates lighter materials (such as plastics and fabrics) from heavier materials (such as stones and ceramics) by taking advantage of differences in material density and suspension speed. The light materials are transported to a collection device, while the heavier materials fall into other collection areas.
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