Shandong Famousbrain Heavy Industry Machinery Co., Ltd.
Product Advantages
The machine is suitable for rock loading, bottom cleaning and excavation of frozen soil in coal mines, metal mines, non-metallic mines, shafts, inclined shafts and flat tunnels.
Compared with the traditional manual bottom cleaning, the use of the machine greatly saves labor costs while improving the operation efficiency and improving the working environment.
Compared with the traditional diesel-powered mini excavator, due to the use of electro-hydraulic system, this machine has the characteristics of energy saving, low noise, no exhaust gas pollution and high efficiency, and is more suitable for underground use.
Product Introduction
Built for dominance in extreme terrain, this crawler-based material management system employs a reinforced undercarriage to deliver exceptional traction and equilibrium across fractured or low-friction surfaces. Its high-output drivetrain paired with 360° debris capture technology ensures holistic site clearance, removing fragment retention and operational voids in excavation sectors. Self-governing material processing eliminates manual residue management, critically enhancing worksite security and procedural predictability in subterranean confined spaces such as ore extraction networks and subsurface infrastructure developments.
Cognitive Ergonomics and Adaptive Command Systems
A neural-aligned hydroelectronic steering architecture enables micron-level positioning accuracy for delicate material orchestration through responsive tactile feedback. Modular control dashboards prioritize cognitive load reduction across expertise levels while maintaining mechanical predictability. The pressurized operator pod integrates body-supportive seating matrices and adaptive thermal regulation to counteract occupational fatigue during extended duty cycles. Multi-stage inertial compensation paired with sound-isolating cabin engineering fosters a sensory-optimized environment, neutralizing kinetic stressors and ambient disturbance.
Emission-Aware Productivity with Scalable Powertrains
The system excels in high-velocity material logistics while maintaining strict compliance with ecological stewardship principles. Its fatigue-resistant monocoque construction achieves mass-efficiency without compromising structural fidelity under cyclical loading patterns. Motion-optimized workflows grounded in occupational physiology minimize crew overhead and resource allocation. Multi-mode energy integration features silent electric drivetrains for atmospheric-sensitive enclosed chambers and combustion-based configurations for autonomous field deployment, ensuring mission-specific adaptability across industrial ecosystems.
| Project | Unit | WPZ-37/600L | ||
| Installed power | Kw | 37 | ||
| Weight | Kg | 6500 | ||
| Form factor in the shipping state-(L×W×H) | mm | 5100×1200×2150 (1260( Uncovered) | ||
| Hydraulic system | The rated pressure of the hydraulic system | Mpa | 21.5/31.5 | |
| Max flow of the hydraulic system | L/min | 110 | ||
| Max temperature of hydraulic oil | ℃ | 75 | ||
| Walking mechanism | The driving way of walking | / | Intergrated hydraulic motor reducer drive | |
| The width of track board | mm | 300 | ||
| Walking form | / | Crawler traveling | ||
| Specific pressure to ground | mpa | ≤0.1 | ||
| Traveling Speed | m/min | 26 | ||
| Ground clearance | mm | 260 | ||
| Climbing ability | ° | 14 | ||
| Bucket loading | Working machine structure form | Three-section arms | ||
| Bucket capacity | m3 | 0.21 | ||
| Max bucket digging force | KN | 37 | ||
| Excavating Width | mm | ≥5250 | ||
| Excavating Distance | mm | ≥3450 | ||
| Excavating Height | mm | ≥4800 | ||
| Unloading Height | mm | ≥1800 | ||
| Excavating Depth | mm | ≥2450 | ||
| hydraulic breaker | Nominal working pressure | mpa | 11~14 | |
| Max operating flow | L/min | 70 | ||
| Impact frequency | rpm | 500~900 | ||
| Impact energy | J | 600 | ||
| Suitable Brazing tools specification | mm | 68 | ||
| Noise | dB(A) | ≤120 | ||
| Dozer blade | Blade width*H | mm | 1200×320 | |
| Proximity angle | ° | 12 | ||
| Max digging depth | mm | 200 | ||
| Machine turning radius | mm | ≤2700 | ||
| Max non-removable partsize(L*W*H) | mm | 3600×1200×1100 | ||
Product Info
| 重量 | 6500 公斤 |
|---|---|
| 尺寸 | 5100 × 1200 × 2150 毫米 |
| Industries Served | Chemical, Coal Mine, Construction, Hydropower, Metal Mine, Metallurgical, Military Engineering, Non-Metal Mine |
| Applications | Cable Duct, Caverns, Construction Tunnel, Culverts, Drainage Tunnels, Hydraulic Channel Tunnel, Inclined Shaft, Military Passageways, Mine, Mining Site, Mining Tunnels, Traffic Tunnels, Tunnels, Utility Tunnels |
| Scenarios | Block Load, Breaking, Convey, Dig, Excavate, Floor Clean, Muck&Load |
| Installed power(Kw) | |
| Form factor in the shipping state -mm (L×W×H) | |
| The rated pressure of the hydraulic system(Mpa) | |
| Max Flow Of The Hydraulic System(L/Min) | |
| Max Temperature Of Hydraulic Oil(℃) | |
| The Driving Way of Walking | |
| The width of track board(mm) | |
| Walking Form | |
| Specific Pressure to Ground(mpa) | |
| Traveling Speed(km/h) | |
| Ground Clearance(mm Can Be Heightened) | |
| Climbing Ability(°) | |
| Working Machine Structure Form | |
| Bucket Capacity(m³/h) | |
| Max Bucket Digging Force(KN) | |
| Excavating Width(mm) | |
| Excavating Distance(mm) | |
| Excavating Height(mm) | |
| Uninstall Height(mm customizable) | |
| Excavating Depth(mm) | |
| Nominal Working Pressure(mpa) | |
| Max Operating Flow(L/min) | |
| Impact Frequency(rpm) | |
| Impact Energy(J) | |
| Suitable Brazing Tools Specification(mm) | |
| Noise(dB(A)) | |
| Blade Width*H(mm) | |
| Proximity Angle | |
| Max Digging Depth(mm) | |
| Machine Turning Radius(mm) | |
| Weight(T) | |
| Max Non-Removable Partsize(L*W*H mm) | |
| Customizable |
