1. Disc Feeder: The Preferred Choice for Small Screws

• Applicable Specifications: Focuses on the miniature screw field of M0.5 to M2, such as the tightening of ultra-small fasteners in electronic products.

• Special Advantages: With its unique design, it can stably feed screws, avoiding the jamming or rolling of tiny screws during conveyance, achieving zero screw jamming.

• Application Scenarios: Widely used in automation assembly processes where screw size is highly sensitive, such as mobile phones, precision instruments, and micro motors.

2. Vibratory Feeder: The Choice for Medium and Small Screws

• Applicable Specifications: Mainly covers medium and small conventional screws from M2 to M6, including common head types such as pan head, countersunk head, and hex head. It is widely used in automotive electronics, home appliances, instruments and meters, and 3C electronics.

• Efficiency Core: Through electromagnetic vibration and track selection, it can achieve high-speed stable feeding at 40pcs/min, meeting the efficiency needs of most automated production lines.

3. Step Feeder: The Solution for Large and Long Screw Automatic Feeding

• Applicable Specifications: Mainly ranges from M2 to M24 screws, particularly widely used in the automotive assembly industry.

• Structural Design: It uses a push plate linear feeding method instead of vibration, allowing screws to be conveyed smoothly in a low-noise, low-friction state, especially suitable for applications with high surface treatment requirements.

• Cleanliness in Multiple Dimensions: Multiple-dimensional structures for pushing, feeding, and other processes achieve non-damaging cleaning.

• Error-Proofing for Long and Short Screws: Innovative error-proofing technology with detection accuracy up to ±1mm.

Key Dimensions for Scientific Selection

1. Screw Parameters: The length-to-diameter ratio, material, and surface treatment of the screw.

2. Production Capacity Requirements: Choose the type of feeder based on the production line cycle (pieces/minute).

3. Environmental Constraints: Whether there are noise or dust-proof requirements.

4. Expansion Space: Reserve compatibility for changes in screw size.