Kunshan-Tower Shuttle
Kunshan, China
A 12-level vertical lift smart parking system in Kunshan, Jiangsu, providing 350 spaces within 800㎡, with intelligent scheduling for fast access, high efficiency, and fully digital parking management.
完成年份:2024
項目挑戰
Five Tower Shuttle vertical lift parking systems form a 345+5 three-dimensional traffic matrix, achieving an ultra-compact footprint of 800㎡ while accommodating 350 parking spaces (including 135 SUV spaces and 5 EV charging stations). The space utilization efficiency is 5 times that of traditional flat parking layouts.
Equipped with the Cowain–CoPARK industrial-grade dispatching algorithm, the system delivers ultra-fast 90-second vehicle retrieval and access, with a daily throughput exceeding 1,200 vehicle movements.
A cloud-based intelligent control system synchronously connects charging stations and a visitor information display, enabling a fully digital “park–retrieve–charge–view” integrated workflow.
As the first benchmark project of an industry–city integrated multi-story parking facility in the Yangtze River Delta, it is driven by a dual core of “space folding + intelligent IoT,” empowering high-tech zones with land-intensive utilization and low-carbon mobility innovation.
解決方案
3D Visualization Full-Scene Monitoring: A dynamic data dashboard maps real-time garage operations, tracking vehicle access progress, providing countdown reminders, and enabling voice interaction, delivering a fully transparent user experience for drivers.
Edge–Cloud Collaborative Intelligent Control: The CoPARK-Edge system generates a digital twin of the garage at the edge level to intelligently schedule parking and retrieval paths. Data is directly connected to the CoPARK-Cloud platform, enabling unified nationwide operations and maintenance management.
Seamless All-Domain Interaction Ecosystem: Multi-modal authentication including face recognition, license plate recognition, and mobile verification enables seamless entry and exit. Integrated WeChat and Alipay mini-programs support remote booking within 100 meters, one-click vehicle retrieval, and other flexible services.
AI Dual-Drive Service Chain: Voice-enabled AI robots simultaneously communicate with users (e.g., overtime reminders) and management systems (e.g., fault alerts), enabling a fully unattended 24/7 service loop and improving operational efficiency by 70%.
Cloud-Powered Commercial Engine: CoPARK-Cloud enables real-time nationwide configuration of parking and retrieval strategies, pricing rules, and advertising deployment, with changes taking effect within 3 seconds, reshaping the value of parking assets.
Proprietary Panel-Type Vehicle Carrying Technology: Full-area tire-free contact lifting eliminates any risk of scratching or abrasion.
Friction Wheel Adaptive Drive System: Reduces dependency on high-precision alignment, achieving 99.99% docking reliability.
Upper–Lower Plate Exchange System + Dual-Deck Carrier: Enables parallel processing of vehicle retrieval and pallet return, reducing single-cycle operation time by 30%.
Dual Closed-Loop Elevation Control: Achieves ±2mm cabin positioning accuracy with response time improved to 0.5-second level.
Chain Retrieval Function: As soon as the first vehicle is retrieved, the system automatically preloads the next scheduled vehicle, reducing waiting time by 40%.
Instant Re-Parking Mode: After vehicle retrieval, users can immediately re-park at the same space, supporting high-frequency temporary parking scenarios and increasing space turnover efficiency by 2x.
技術亮點
This project is a core cowain system type: a Vertical Lift Large Cabin system.
The vertical lift large-cabin equipment is equipped with a horizontal transfer mechanism on the main lifting system, enabling simultaneous horizontal and vertical movement, significantly improving vehicle retrieval efficiency.
It is compatible with comb-type, clamp-type, and pallet transfer carriers. Each level can accommodate 6–14 vehicles, with up to 16 levels in total.
The system requires a very small footprint—smaller than flat moving-type systems. The minimum footprint per single unit is 120㎡ (6 vehicles per floor), with an average minimum land usage of only 1.2㎡ per vehicle.
This results in extremely high space utilization efficiency, with an average vehicle access/retrieval time of 90 seconds.