High Speed 6 Axis Robotic Press Line Tandem Solution PLC Controlled
High Speed 6 Axis Robotic Press Line Tandem Solution PLC Controlled
High Speed 6 Axis Robotic Press Line Tandem Solution PLC Controlled
Brand Name
Qicheng
country of origin
China
MOQ
1
unit price
Negotiable
payment method
TT/LC
Product Summary
6 Axis Robotic Press Line Tandem Solution Our 6-Axis Tandem Solution transforms a series of standalone presses into a fully integrated, autonomous production line. By utilizing articulated robots instead of fixed-path feeders, manufacturers can switch between vastly different part types (e.g., from ...
Product Details
Highlight:
6 axis robotic press line
,compact robotic stamping solution
,High speed robotic press line
Precision:
High Accuracy
Maintenance:
Low Maintenance
Cycletime:
High Speed
Controlsystem:
PLC Controlled
Applicationindustry:
Automotive, Electronics, Manufacturing
Productname:
Compact Robotic Stamping Line
Footprint:
Small Space Requirement
Automationlevel:
Fully Automated
Design:
Compact
Primaryfunction:
Stamping
Materialcompatibility:
Metal Sheets
Type:
Robotic Stamping Line
Energyefficiency:
Energy Saving Mode
Robottype:
Industrial Robot
Safetyfeatures:
Integrated Safety Guards
Product Description
6 Axis Robotic Press Line Tandem Solution
Our 6-Axis Tandem Solution transforms a series of standalone presses into a fully integrated, autonomous production line. By utilizing articulated robots instead of fixed-path feeders, manufacturers can switch between vastly different part types (e.g., from a flat floor pan to a deeply contoured inner door) with zero mechanical reconfiguration of the transfer system.
The core advantage lies in our Simultaneous Control Logic. We treat the entire tandem line as a single kinematic chain. By slaving the robot's 6th-axis "wrist" to the press's absolute resolver, we achieve a fluid, continuous motion that reduces "wait time" at the die face, maintaining a consistent output of 12 to 15 Strokes Per Minute (SPM).
Technical Specification Matrix
Authoritative data for Tier-1 and OEM procurement evaluation.
| Feature | Specification | Engineering Benefit |
|---|---|---|
| Robot Kinematics | 6-Axis Articulated (Heavy Payload) | Full 3D reorientation (Flip/Tilt/Rotate) |
| Payload Capacity | 50kg - 165kg (Customizable) | Handles large BIW panels + heavy EOAT |
| Inter-Press Distance | 4.0m - 9.0m (Adjustable) | Flexible layout for existing factory bays |
| System Cycle Time | 4.0s - 7.5s (Robot Transfer) | Synchronized for 10-15 SPM line speed |
| Repeatability | ±0.06 mm | Ensures precise centering in the next die |
| Sync Protocol | ProfiNet IRT / CIP Safety | Real-time "Electronic Cam" synchronization |
| Mounting Options | Floor / Shelf / Overhead Rail | Maximizes floor space & die access |
Tandem Line Application Scenarios
Demonstrating experience in high-complexity automotive stamping.
- Inner & Outer Body Panels: Ideal for hoods, trunk lids, and side-wall reinforcements where parts must be tilted to match the draw angle of the next die.
- Structural High-Strength Steel (HSS): Heavy-payload 6-axis robots provide the rigidity needed to handle heavy, high-tensile parts without vibration.
- Multi-Model Flexible Production: Systems using Automatic Tool Changers (ATC) to switch both dies and robotic grippers in under 10 minutes (SMED).
- EV Large-Scale Components: Handling of integrated "Giga-casting" secondary stamping or large-format aluminum battery housings.
Technical FAQ: The Tandem Advantage
Building Trustworthiness through expert technical comparisons.
Q1: Why use 6-axis robots instead of a 4-axis or 2D-belt transfer system?
Degrees of Freedom. A 4-axis robot is faster in a straight line but cannot "flip" a part. If your part needs to be turned over for a piercing operation or tilted 30° to enter a specific die, only a 6-axis robot provides the "wrist" flexibility required. This eliminates the need for expensive, standalone turnover stations between presses, shortening the overall line length.
Q2: How do you prevent robots from colliding with the press slide during "Continuous Motion"?
We use Interference Zone Predictive Control. The robot controller receives a live feed of the press's crank angle. Using a virtual "Safe Zone" model, the robot begins its entry movement as the slide is still rising (at roughly 270°). If the press speed varies, the robot's trajectory is dynamically adjusted in real-time to maintain a 100mm safety buffer.
Q3: Can 6-axis robots be integrated with older mechanical presses in a tandem layout?
Yes. Our solution includes a Master Line Controller that acts as the "brain" for the whole line. We retrofit older presses with absolute encoders and link them to the robot's PLC via a safety gateway. This "upcycles" traditional mechanical presses into a high-speed, synchronized robotic tandem line.
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