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 | Product Introduction |
Alva Advanced Comprehensive Wood Chipper is a high-performance crushing and chipping equipment specially designed for wood processing, forestry waste treatment and biomass recycling. It can efficiently process logs, branches, slabs, wood offcuts and various wood residues into uniform wood chips, meeting the requirements of biomass fuel, papermaking, particleboard production and other industrial applications.
Adopting a robust structure, high-strength cutter head and wear-resistant blades, the machine ensures stable operation, strong crushing capacity and long service life under heavy-duty working conditions. With advanced feeding and power matching design, it features high chipping efficiency, uniform chip size and low energy consumption, effectively improving resource utilization and reducing labor input.
The machine is equipped with reliable safety protection and easy operation system, supporting continuous and stable operation. It can be customized in feeding size, output and chip specifications to adapt to different production scenarios, providing a safe, efficient and economical wood chipping solution for industrial users.
| Product Display |
| Product Parameter |
| Model | Power | Production | Weight |
| ALVA-1C-1000 | 90kw | 8ton | 6.5ton |
| ALVA-1C-1300 | 110kw | 10ton | 8.5ton |
| ALVA-1C-1400 | 132kw | 15ton | 10.5ton |
| ALVA-1C-1600 | 160kw | 20ton | 13.5ton |
| Product Advantages |
Adopting a counter-rotating dual-shaft cutter set design, the cutters are arranged in a staggered spiral pattern, creating a "bite-type" shearing force on materials. Whether it is wood, plate scraps, or tough materials, efficient shredding can be achieved, avoiding jamming and tangling issues common in traditional single-shaft equipment, and significantly increasing the processing volume per unit time.
The feed hopper features a wide-mouth + diversion structure design, allowing easy loading of large, irregularly shaped materials. The dual shafts have high power matching, and can automatically adjust the rotation speed according to material load during feeding, eliminating the need for manual sorting and preprocessing, which significantly reduces the operation threshold and labor intensity.
The main body of the equipment is integrally cast with high-quality cast steel and reinforced by a dual heat treatment process, resulting in excellent tensile strength and Brinell hardness. Its impact resistance is significantly higher than that of equipment with ordinary steel plate bodies. For key areas of the crushing chamber that are vulnerable to material impact, additional wear-resistant alloy liners are added and rigidly connected to the body through a stable structure. This design can withstand the instantaneous impact force generated when large-sized logs are fed, effectively avoiding structural damages such as body deformation and weld cracking. The bottom of the equipment adopts a weighted anti-shake base design, which, combined with shock-absorbing foot pads, controls the vibration amplitude during operation to an extremely low range. This not only reduces the foundation requirements for the production site but also minimizes the wear of internal transmission components caused by vibration, ensuring the overall service life of the equipment is much longer than the industry average.
The core power system of the equipment is equipped with internationally renowned brand motors. Relying on a mature structural design system and strict manufacturing quality control standards, it achieves dual guarantees of power performance and operation stability. The internal windings of the motor are made of high-temperature resistant copper wire material, and combined with the optimized heat dissipation air duct design, completely avoiding problems such as overheating shutdown and sudden power drop of traditional motors caused by long-term operation.It not only ensures strong power when crushing hard wood, but also reduces energy consumption when processing soft materials. Its comprehensive energy efficiency is significantly higher than that of ordinary motors, providing continuous and reliable power support for large-scale production.
