Controlling mechanical equipment such as robotic arms, conveyor belts, welding machines, and painting systems to ensure precise execution of assembly steps (e.g., welding seams, part positioning, and paint spraying sequences).
Collecting real-time data from sensors (e.g., pressure, temperature, and position sensors) to monitor equipment status and production parameters, enabling timely adjustments if deviations occur.
Coordinating the operation of multiple production stations (e.g., stamping, welding, painting, and final assembly) to achieve smooth workflow and synchronization.
Supporting integration with upper-level systems like MES (Manufacturing Execution System) for data exchange, facilitating production scheduling, quality tracking, and fault diagnosis.

Specification:

Type	Dimensions (Height × Width × Depth, unit: mm)	Notes
Standard Sizes	Small (single robot/station): 800×600×300 – 1200×800×500	Compact sizes for standalone welding robots or simple assembly stations; larger enclosures for integrating multiple PLC modules, HMI screens, and communication devices.
	Medium (multi-robot coordination): 1500×1000×600 – 1800×1200×800
	Large (line-level control): 2000×1500×800 – 2200×1800×1000
Custom Sizes	Flexible based on:	Can be tailored to non-standard dimensions (e.g., low-profile 600×400×200mm for limited spaces) or reinforced structures for heavy-duty components.
	- Number of connected devices (robots, sensors, actuators)
	- Installation space (floor-mounted, wall-mounted, or embedded in production lines)
	- Special requirements (e.g., explosion-proof enclosures for paint shop zones)

Material:
Aluminum alloy, stainless steel, carbon steel

Suggestion:

1. Size & Layout: Match dimensions to robot count and installation space. Optimize internal layout for easy wiring/maintenance, with separate zones for power and control components.

2. Durability: Use rugged enclosures (IP65+) for factory floors; opt for heat-resistant materials near welding stations.

3. Compatibility: Ensure integration with robot protocols (e.g., Profinet, Ethernet/IP) and add ports for future sensors/AGVs.

4. Safety: Include emergency stop relays and surge protection. For welding areas, add shielding against electrical interference.

5. Monitoring: Integrate a compact HMI for real-time status checks and quick parameter adjustments.

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