1. In the field of industrial automation, they are used to control equipment such as motors and valves in production lines to realize automated production processes;

2. In the energy industry, such as photovoltaic power stations and substations, they monitor and control power equipment;

3. In building intelligence, they can control systems such as building lighting, air conditioning, and elevators to improve the intelligent management level of buildings;

4. In the transportation field, signal systems and monitoring equipment in subways and airports often require customized control cabinets to meet specific control needs;

5. In environmental protection equipment, they are used for operation control and parameter adjustment of environmental protection equipment such as sewage treatment and waste gas treatment.

Design:

Dimension Type	Details
Height	50-200cm
Length	20-80 cm
Width	20-200cm
Installation Panel Sizes	Cutomized

Material:

Galvanized Sheet / Cold rolled steel / Stainless Steel

OEM / ODM Suggestion :

Suggestion Category	Key Recommendations
1. Clarify Requirements	Define application scenarios (industrial/energy/building), control objects (motors/valves/instruments), functional needs (automation/data acquisition/remote monitoring), and performance parameters (current/voltage/IP rating).
2. Compliance Design	Follow industry standards (IEC/GB) and safety regulations; ensure cabinet materials, electrical components, and wiring meet certification requirements (CE/UL).
3. Space Planning	Optimize layout for component quantity and maintenance needs; reserve sufficient heat dissipation space and operation gaps to avoid overcrowding-related issues.
4. Heat Dissipation Solutions	Select cooling methods (natural/fan/air conditioning) based on power loss; ensure internal temperature stays within component limits, especially in high-temperature environments.
5. Protection Rating	Choose appropriate IP rating per environment (e.g., IP65 for dusty areas, IP30 for dry indoor spaces) to prevent damage from dust, moisture, etc.
6. Modular Design	Adopt modular structure for easy component replacement, upgrades, and expansion; simplify wiring to enhance reliability and maintenance efficiency.
7. Component Brand Selection	Prioritize renowned brands for core components (PLCs/breakers/contactors) to ensure quality, stability, and reduce future failure risks.
8. Clear Identification	Label cabinets, terminals, and cables with component numbers, function descriptions, and wiring diagrams for easier installation, debugging, and maintenance.
9. Testing & Validation	Conduct comprehensive factory tests (insulation/withstand voltage/functional simulation) to ensure stable and reliable operation in real-world conditions.

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