Atomoving
400KG Semi-electric Stacker
400kg Eelectric Platfrom Stacker with 1500mm 1700mm Platform
- Enhanced Operator Efficiency: Battery-powered operation reduces fatigue while maximizing productivity in repetitive lifting tasks.
- Versatile Platform Design: Features removable platform and adjustable fork tines, perfect for handling both skids and pallets.
- Superior Mobility: Ultra-lightweight 110kg design with lockable castors enables effortless movement between work areas.
- Minimal Maintenance Requirements: Simple mechanical structure ensures low upkeep costs with basic daily inspections.
- Field-Proven Reliability: Extensively used in manufacturing facilities, featuring strong battery life with convenient onboard charging.
Elevate your material handling capabilities with our 400kg Electric Platform Stacker, the ultimate solution for efficient workplace operations. Available in 1500mm and 1700mm heights, this versatile powerhouse combines battery-powered convenience with exceptional maneuverability. Its lightweight design and removable platform offer unmatched flexibility, while the simple mechanical structure ensures reliable performance with minimal maintenance. Perfect for facilities seeking to maximize productivity while minimizing operator fatigue.
400KG Semi-electric Stacker
| Model | EP4085 | EP4120 | EP4150 | EP4170 | |
|---|---|---|---|---|---|
|
Capacity |
(KG) |
400 |
400 |
400 |
400 |
|
Max.Platform Height |
(mm) |
850 |
1200 |
1500 |
1700 |
|
Min.Platform Height |
(mm) |
200 |
200 |
200 |
200 |
|
Platform Length |
(mm) |
650 |
650 |
650 |
650 |
|
Platform Width |
(mm) |
550 |
550 |
550 |
550 |
|
Total Length |
(mm) |
1070 |
1070 |
1070 |
1070 |
|
Total Width |
(mm) |
590 |
590 |
590 |
590 |
|
Total Height |
(mm) |
960 |
1310 |
1710 |
1910 |
|
Load Roller |
(mm) |
Φ150 |
Φ150 |
Φ150 |
Φ150 |
|
Steering Wheel |
(mm) |
Φ150 |
Φ150 |
Φ150 |
Φ150 |
|
Power Unit |
(KW) |
0.8 |
0.8 |
0.8 |
0.8 |
|
Battery |
(Ah/V) |
60/12 |
60/12 |
70/12 |
70/12 |
|
Net Weight |
(KG) |
88 |
93 |
107 |
115 |
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More Material Handling Equipment
Performance
Engineered for Operator Comfort and Productivity
Experience unmatched workplace efficiency with our Electric Platform Stacker, designed to eliminate operator fatigue while maximizing productivity. The battery-powered operation transforms repetitive lifting tasks into effortless movements, while the onboard charger ensures continuous operation throughout your workday. Field-tested in demanding manufacturing environments, this 400kg capacity stacker delivers consistent performance with exceptional battery life. The lockable castors provide stability during operation, making this the perfect solution for facilities prioritizing both efficiency and operator comfort.
Versatile Design Meets Simple Maintenance
Minimize downtime with our intelligently engineered stacker featuring a streamlined mechanical structure that ensures reliability with minimal maintenance. The straightforward design focuses on essential components – hydraulic system, battery, and drive motor – requiring only basic daily inspections. The versatile platform configuration, with removable deck and adjustable fork tines, adapts seamlessly to handle both skids and pallets. Available in 1500mm and 1700mm heights, it delivers professional-grade versatility without complicated maintenance requirements.
Superior Mobility for Dynamic Workspaces
Transform your material handling capabilities with our ultra-mobile Electric Platform Stacker. Weighing just 110kg including battery, this lightweight powerhouse offers exceptional maneuverability with minimal pushing resistance. The thoughtful design allows quick transfers between work areas without strain, making it perfect for dynamic environments where flexibility is crucial. Despite its lightweight construction, it maintains impressive stability and lifting performance, proving that powerful material handling doesn’t require bulky equipment.
Frequently Asked Questions
How does semi-electric stacker work?
Semi-Electric Stackers achieve efficient material handling through a hybrid “electric lifting + manual propulsion” operational mode. The core working principle operates as follows: when an operator presses the lift/lower button on the handle, an internal 24V DC motor immediately activates, driving the hydraulic pump to pressurize hydraulic oil within the cylinder, pushing the hydraulic cylinder piston rod upward, thus smoothly elevating the forks through a chain drive mechanism. The entire lifting process is fully electrified, eliminating manual pumping requirements. Operators need only single-hand button control to precisely adjust fork height, with lifting speeds typically ranging between 10-20mm/s and equipped with relief valves preventing overpressure.
For horizontal movement, the equipment relies on manual propulsion. Operators grasp ergonomically designed handles with both hands, using body force to push the entire unit. The steering system employs caster wheel design or tiller steering mechanisms, with front wheels capable of 180-degree rotation and minimum turning radius of approximately 1 meter, maintaining agility in narrow aisles. Some premium models incorporate assist bearings on drive wheels for easier propulsion. Fork components are manufactured from high-strength alloy steel with standard width of 685mm, adaptable to different pallet specifications from 800-1200mm through manual adjustment levers.
Safety protection mechanisms are integrated throughout the entire workflow. Equipment features emergency power disconnect switches for immediate power cutoff during emergencies. During lowering operations, throttle valves control cylinder oil return speed ensuring smooth cargo descent. Overload protection devices automatically restrict lifting when loads exceed rated capacity (typically 1-1.5 tons). Battery packs (generally 12V/24Ah lead-acid batteries) provide motor power, supporting 300-500 lifting cycles when fully charged, with accompanying intelligent chargers featuring overcharge protection. This electromechanical integrated design retains the simplicity and reliability of manual equipment while significantly enhancing operational efficiency through electrification of critical functions.
Do you need training to use a semi-electric stacker?
Operating semi-electric stackers requires systematic training to ensure operational safety and efficiency, encompassing the following core content:
Fundamental Theory Training
- Equipment Structure Recognition involves learning the functions of key components including hydraulic systems, battery packs, and control handles, understanding how load center distance (typically 500-600mm) affects stability.
- Safety Regulations cover mastering OSHA or local regulatory requirements, including maximum load capacity (such as 1.5 tons), prohibition of carrying personnel, and slope operation angle limitations (recommended ≤5°).
Practical Skills Training
- Lifting Control involves practicing precise operation of lift/lower buttons, mastering “gentle start, gentle stop” techniques (controlling lifting speed within 15mm/s) to prevent cargo oscillation.
- Propulsion and Steering includes training figure-eight obstacle navigation in narrow aisles (≥1.8m), learning how to use body weight to assist steering during single-hand propulsion.
- Pallet Engagement encompasses simulating fork insertion into pallets (insertion depth ≥2/3 of pallet length), developing spatial judgment skills for rapid positioning within 3 seconds.
Special Scenario Training
- Slope Operations require maintaining forks on the downhill side when ascending, employing reverse pushing when descending, and wearing non-slip footwear (mandatory when slope gradient >3°).
- Emergency Response involves simulating manual pressure relief operations during hydraulic failure, training for battery power loss, emergency cargo lowering, and other contingency procedures.
Maintenance Capability Development
- Daily Inspection encompasses mastering hydraulic oil level checking (oil sight gauge centerline), wheel wear detection (tread depth <1mm requires replacement), and battery maintenance (weekly water replenishment) skills.
- Fault Identification involves learning to diagnose common issues such as motor overheating (shutdown for cooling) and fork binding (check chain lubrication).