Insertion, Extraction

Image	Part Number	Description / PDF	Quantity	Rfq
	0851700004 Woodhead - Molex	2SU 18.5MM VERT RECP FEMALE TOOL	0
	2001991500 Woodhead - Molex	EXTRACTION TOOL GUARDIAN	0
	0638134800 Woodhead - Molex	EXTRACTOR TOOL - DOUBLE LATCH	0
	0622015400 Woodhead - Molex	BACKPLANE TOOL OFFSET #2	0
	0622002700 Woodhead - Molex	FLAT ROCK COMPLAINT TOOL	0
	0622005703 Woodhead - Molex	144 POSITION HDM TERM TOO	0
	0622029850 Woodhead - Molex	ICM 10GB 2X4 INSERTION TOOL	0
	0622010904 Woodhead - Molex	MALE PRESS IN MODULE 84CKT	0
	0622018629 Woodhead - Molex	PRESS-IN TOOL PWR MODULE 15 ROW	0
	0622021910 Woodhead - Molex	PRESS BLOCK ASSY 4POS	0
	2002140027 Woodhead - Molex	INSERTION TOOL IMPULSE BACKPLANE	0
	0622001600 Woodhead - Molex	LFH STICK LOAD TOOL 622001600	0
	0851890414 Woodhead - Molex	PIN RETENTION TOOL	0
	0622018621 Woodhead - Molex	TOOL 15 ROW 10 COLUMN BACKPLANE	0
	0622018612 Woodhead - Molex	TOOL HAND RA RCPT/HDR 10COL 7ROW	0
	0622024350 Woodhead - Molex	IMPACT RAM EXTRACT TOOL	0
	0638131800 Woodhead - Molex	EXTRACTION TOOL	0
	0638132350 Woodhead - Molex	EXTRACT TOOL FOR CP 1.5 CRP TERM	0
	0627009000 Woodhead - Molex	INSERTION TOOLING	0
	0621009710 Woodhead - Molex	IMPEL DC EXTRACT TOOL 3 X 8	0

Insertion, Extraction

1. Overview

Insertion/Extraction tools are precision mechanical devices designed to automate the installation (insertion) and removal (extraction) of components in industrial processes. These tools integrate with robotic systems, CNC machines, and manual workflows to enhance efficiency, accuracy, and safety. They play a critical role in sectors requiring high repeatability and minimal human intervention, such as electronics manufacturing, automotive assembly, and medical device production.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Manual Insertion Tools	Handheld devices with ergonomic design for controlled force application	Prototyping, small-scale electronics assembly
Pneumatic Extractors	Compressed air-driven mechanisms for rapid component removal	Automotive engine component disassembly
Electric Insertion Systems	Motorized linear/rotary actuators with torque control	PCB connector installation, battery pack assembly
Automated Robotic End-effectors	Multi-axis grippers with vision system integration	High-speed semiconductor packaging lines

3. Structure and Components

A typical system comprises: - Mechanical Frame: Aluminum/steel alloy housing for structural integrity - Actuation System: Servo motors/pneumatic cylinders for motion control - Sensing Array: Force-torque sensors and proximity detectors - Tool Interface: Quick-change couplers with ISO standard compliance - Control Module: PLC-based unit with programmable parameters

4. Key Technical Specifications

Parameter	Importance	Typical Range
Insertion Force	Determines material compatibility and joint integrity	5-500N
Positioning Accuracy	Ensures proper alignment in precision applications	0.01-0.1mm
Cycle Life	Indicates durability for high-volume production	1M-10M operations
Environmental Resistance	Defines operational suitability in harsh conditions	IP54-IP67

5. Application Fields

Primary Industries: - Electronics Manufacturing: IC socket insertion, heat sink installation - Medical Equipment: Surgical instrument sterilization tray handling - Automotive Production: Transmission component assembly - Aerospace: Composite panel fastening systems - Consumer Goods: Battery insertion in mobile devices

6. Leading Manufacturers and Products

Manufacturer	Key Product	Technical Highlights
Coval MecWeld	Electromagnetic Insertion Tool	Patented shock absorption, 0.02mm repeatability
Atlas Copco	QX Series Electric Extractor	Smart torque feedback, 300rpm max speed
OnRobot	MULTI Mount End-effector	Quick-swap modular design for collaborative robots

7. Selection Guidelines

Key Considerations: 1. Match insertion force requirements with material specifications 2. Verify compatibility with existing automation infrastructure 3. Evaluate environmental operating conditions (temperature, dust/water exposure) 4. Calculate total cost of ownership including maintenance intervals 5. Prioritize programmability for adaptive manufacturing needs

8. Industry Trends

Future developments include: - Integration with AI-powered predictive maintenance systems - Adoption of digital twins for virtual process optimization - Miniaturization for micro-electronics assembly applications - Expansion of cobot-compatible tooling solutions - Increased adoption of energy-efficient piezoelectric actuators