SMT Magazine Rack E3550M with anti-static properties, it is perfect for SMT factories and PCB storage. Surface resistance of 10^4~10^9Ω for reliable ESD protection.
The SMT magazine rack E3550M is widely used in SMT processing plants, PCB factories, and computer motherboard factories. It is resistant to acid, alkali, and oil, non-toxic and odorless, suitable for storing PCB boards. It facilitates convenient cleaning, easy circulation of circuit boards, neat stacking, and efficient management.
Specification
Product model: E3550M
Overall dimensions: 460*400*563mm
Specifications: length 460* width 50-330mm
Groove size: Groove length 460mm, groove width 5.0mm, groove depth 3.4mm, groove spacing 10mm
Basic size: A: 34mm, B: 34mm
Storage quantity: 50 slots
Adjustment method: manual adjustment, M6 hexagon socket screw fixation
Static electricity indicator: Surface resistance 104-108 ohms
Temperature resistance of trough plate: □70℃, □120℃, □230℃
Base plate material: Metal panel, galvanized carbon steel
Side panel structure: 5 pieces of plastic panels
Frame structure: aluminum alloy columns, brackets
Baffle mechanism: spring lever
Optional accessories: Accept non-standard customization
Composition of SMT Magazine Rack:
Antistatic Side Panels The interior of the SMT Magazine Rack is mainly composed of plastic, effectively ensuring that the surface of PCB boards is not scratched when placed, thus preventing damage to electronic components. It provides excellent antistatic effects.
Columns Each individual rack consists of four columns, with screws on both sides for stability. The simple installation process greatly enhances its support strength.
Metal Top and Bottom Plates The metal bottom plate significantly increases friction with the ground, enhancing stability.
Plastic Locking Clips Plastic locking clips secure the movable side panels in place, making them less likely to detach. The distance can be adjusted based on the size of the product, and the plastic material protects hands from injury.
Gear Strips The gear strips undergo high-frequency quenching, resulting in high strength, strong wear resistance, and high transmission capacity, providing strong load-bearing capacity.