소개
그만큼 Hanging Delta Robot employs a parallel kinematic architecture with three articulated arms suspended from an overhead mounting frame. This inverted configuration places the end-effector below the drive mechanism, granting unobstructed access to the workspace beneath. Lightweight carbon-fiber linkages and rotary servo actuators at each upper joint deliver rapid acceleration and deceleration across the full motion envelope. The overhead suspension keeps the drive train clear of the pick zone, reducing particulate contamination risks in precision assembly settings.
Motion coordination across the three arms is governed by a centralized kinematic solver running on a dedicated motion controller. Each arm follows a continuously interpolated trajectory, with the solver resolving joint angles in real time to maintain precise end-effector positioning. This approach suits high-throughput pick-and-place tasks where short cycle times and repeatable landing accuracy are critical. The control architecture also accommodates conveyor tracking, enabling synchronized pick operations on continuously moving product streams.
Typical deployment scenarios span electronics assembly, consumer goods packaging, food sorting, and laboratory automation. The robot excels in lightweight payload handling where sub-millimeter placement precision and rapid throughput define the operational requirement. The overhead frame integrates into existing line infrastructure with minimal footprint, and the open architecture permits flexible end-effector tooling changes for varied part geometries.

Hanging Delta Robot
Hanging Delta Robot Automotive Smart Factory Conveyor Tracking Synchronized High Speed Sorting
그만큼 Hanging Delta Robot integrates a three-arm parallel kinematic chain suspended from an elevated bridge frame. Each arm begins at a rotary servo actuator mounted on the top structure, with paired lightweight connecting rods extending downward to the end-effector platform. This top-down arrangement inverts the conventional delta layout, keeping the motors and gearboxes above the workspace where they remain clear of debris and process byproducts. The carbon-fiber rod pairs provide high stiffness-to-weight ratio, minimizing inertial lag during rapid directional changes inherent to high-frequency pick-and-place cycles.
A centralized motion controller executes the kinematic computations that translate Cartesian target positions into individual joint angle commands for all three axes. The control architecture processes trajectory data in advance, pre-computing acceleration profiles that respect the mechanical limits of each joint while maintaining synchronized motion across the arm chain. Integrated vision input allows the controller to apply real-time offset correction, adjusting the final placement position based on detected part orientation and board fiducial locations without interrupting the motion sequence.
The robot’s mechanical structure supports straightforward integration into smart factory architectures. Overhead mounting preserves unobstructed floor-level access, and the open kinematic design simplifies visual inspection of all moving components. Recipe-driven operation stores complete motion parameter sets — including waypoint coordinates, approach heights, and grip delay timing — for instant recall across different product variants. This software-defined reconfiguration replaces mechanical tooling changes, suiting automotive electronics production environments where multiple module types share a single assembly cell.

Hanging Delta Robot
명세서
| 목 | Parameters |
| Overall Dimensions | L750×W500×H850mm |
| Detail Parameters | Travel Distance 600mm |
| Payload | 1kg |
| 노즐 개수 | 1 Pcs |
| Precision | Single camera: ±0.15mm / Dual camera: ±0.05mm |
| 속도 | 2,600~3,600 Pcs/hr |
| Feed Range | 350×250mm |
| 전압 | 220V |
| Air Pressure | 0.5~0.8MPa |
| 무게 | 80KG |
| 힘 | 1KW |

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