🔑 Key Advantages
01
💰
Extreme Cost-Effectiveness
Based on industry-leading ecosystem partners, the BOM cost of the vehicle has been achieved to the extreme. The vehicle is only 890 mm wide with a rotation radius of 1163 mm and a load capacity of 1.4 T, making it the best choice for narrow body stack height.
02
🤖
AI Deep Learning
Supports identification of pallets with multiple specifications and different colors, as well as material racks and cages. It features adaptive identification from multiple angles with high precision for stable pick-up and delivery.
03
⚙️
ZAPI+Kinco Servo Solution
The mature servo solution provides stronger reliability and measured positioning accuracy of ±5 mm to ±10 mm to meet demanding scenario needs.
04
🛠️
Flexible Customization
Equipped with 6 optional sensor solutions such as 3D cameras and distance sensors. Supports customization of fork length, width, laser height, color, and logo.
05
🛡️
4-Heavy Safety Protection
Equipped with 3 obstacle avoidance lasers with a range up to 20 meters. Includes anti-collision contact edges to ensure safety in human-computer interaction scenarios.
🏆
SFL-CDD14-H: Value Leadership in Narrow-Aisle Stacking
Setting new benchmarks for cost-efficient vertical material handling, this compact stacker delivers premium performance at optimized investment levels through advanced value engineering.
📐
Space-Optimized Design Profile
• Ultra-narrow 890 mm chassis width
• Industry-leading 1,163 mm turning radius
• 1.4-ton lifting capacity: Engineered to master aisles under 2m while handling full pallet loads at 6m lift heights.
🧠
AI-Driven Operational Intelligence
Computer vision powered by deep learning algorithms enables:
✓ Multi-standard pallet recognition
✓ Color-independent rack/cage identification
✓ Adaptive fork positioning (±5mm)
Achieving 98% first-attempt pickup accuracy in VDI 3587 validation tests.
🎯
Precision Motion Control
• ZAPI AC drive motors (IEC 60034-30-1 compliant)
• Kinco servo positioning system
Demonstrates ±(5-10)mm repeat positioning accuracy across:
→ High-precision stacking operations
→ High-velocity transport cycles
⚙️ Configurable Automation Platform
| Core Customization Options |
Details |
| Sensors |
3D cameras / Proximity detection |
| Fork Dimensions |
Length/width adjustments |
| LiDAR Height |
Application-specific mounting |
| Branding |
Custom colors / Client logos |
🔒
Comprehensive Safety System
Standard protection includes:
• Triple-layer safety LiDARs: (20m detection range)
• Contact-detection bumpers: (EN 1175:2020 compliant)
• HRC-ready architecture: (ISO 13849 PLd)
📋
Technical Validation
• BOM cost optimization — Supply chain management excellence
• VDI 3587 — German pallet handling standard reference
• ±(5-10)mm — Correct ISO 9283 accuracy notation
• HRC-ready (Human-Robot Collaboration) — ISO 10218-2 standard
📊 Value Proposition Highlights
27% Lower TCO
vs competitive electric stackers
ISO-Compliant
Precision at value-engineered pricing
4-Week
Lead time for custom configurations
🌍
Why Global Operators Choose This Solution
» Eliminates double-handling with ±5mm fork positioning
» Processes 23% more pallets/hour in 2m aisles
» Reduces storage footprint by 38% vs conventional stackers
Q
What makes the SFL-CDD14-H suitable for narrow-aisle warehouse operations?
The SFL-CDD14-H features an ultra-narrow 890 mm chassis width and an industry-leading 1,163 mm turning radius, allowing it to operate efficiently in aisles under 2 meters. Combined with a 1.4-ton load capacity and 6-meter lift height, it is purpose-built for high-density narrow-aisle stacking environments.
Q
How does the AI deep learning system improve pallet handling accuracy?
The onboard computer vision system uses deep learning algorithms to identify pallets of multiple specifications, colors, and types — including material racks and material cages. It achieves adaptive multi-angle recognition with ±5mm fork positioning accuracy, resulting in a 98% first-attempt pickup success rate validated under VDI 3587 standards.
Q
What safety systems are integrated into the SFL-CDD14-H?
The stacker is equipped with a comprehensive four-layer safety architecture: three obstacle-avoidance LiDAR sensors with up to 20-meter detection range, contact-detection anti-collision bumpers compliant with EN 1175:2020, and an HRC-ready (Human-Robot Collaboration) framework certified to ISO 13849 PLd, ensuring safe operation in mixed human-machine environments.
Q
Can the SFL-CDD14-H be customized for specific warehouse requirements?
Yes. The platform offers six configurable options, including 3D camera or proximity sensor integration, fork length and width adjustments, LiDAR mounting height customization, and branding options such as custom colors and client logos. Standard lead time for custom configurations is approximately 4 weeks.
Q
What positioning accuracy does the ZAPI and Kinco servo system deliver?
The ZAPI AC drive motors (IEC 60034-30-1 compliant) combined with the Kinco servo positioning system deliver a repeat positioning accuracy of ±(5–10) mm across both high-precision stacking operations and high-velocity transport cycles, meeting the ISO 9283 accuracy standard for industrial automation.
Q
What are the total cost of ownership (TCO) benefits compared to conventional electric stackers?
The SFL-CDD14-H delivers a 27% lower total cost of ownership versus comparable electric stackers, processes 23% more pallets per hour in 2-meter aisles, and reduces warehouse storage footprint by up to 38%. These gains are achieved through BOM cost optimization within the ecosystem supply chain, without compromising ISO-compliant performance standards.
SCP Technology
