Crimpers, Applicators, Presses

Crimpers, Applicators, Presses - Accessories

Image	Part Number	Description / PDF	Quantity	Rfq
	17990000050 HARTING	HAR-BUS HM PRESS-IN DIE LOWER	0
	17990000027 HARTING	HAR-BUS HM BOTTOM TOOL HAR-BUS	0
	17990000023 HARTING	HAR-BUS HM TOP TOOL HAR-BUS HM	0
	09990000181 HARTING	DIN-TOOL EINPRESSPCEMPEL Q,2Q	0
	17990000016 HARTING	HAR-BUS HM TOP TOOL HAR-BUS HM	0
	17990000068 HARTING	HAR-BUS HM TOOTH INSERT FOR T	0
	17990000007 HARTING	HAR-BUS HM INSERT BLOCK TYPE E	0
	17990000058 HARTING	HAR-BUS HM TOP TOOL HAR-BUS HM	0
	07790000040 HARTING	SETZDORN U EINPRESSDORN	0
	17990000091 HARTING	ZAHNEINLEGETEIL HAR-BUS HM 48 (6	0
	09990000086 HARTING	LOCATOR FOR CRIMPING TOOL	0
	09990000344 HARTING	HAN YELLOCK LOCATOR 20A F3R 0813	0
	09990000816 HARTING	HOLDER FOR CRIMP DIE - LOWER	0
	09990000158 HARTING	CONTACT REEL HOLDER	0
	16990000004000 HARTING	MICROTCA BOTTOM TOOL	0
	07790000071 HARTING	LOCHEINSATZ 2SU (FEDER)	0
	09990000271 HARTING	TOP TOOL M (60+4)	0
	09996000200 HARTING	D SUB BASE PLATE FOR IDC CONNECT	0
	09990000099 HARTING	DIN-TOOL POSITIONSHULSE BC	0
	60990000022 HARTING	HMIK PUNCH GUIDE	0

Crimpers, Applicators, Presses - Accessories

1. Overview

Crimpers, applicators, presses, and their accessories are precision mechanical systems designed to join materials through compression, deformation, or bonding. These tools are critical in manufacturing processes requiring high reliability of connections, particularly in electrical, automotive, aerospace, and industrial assembly applications. Modern advancements focus on automation, precision control, and material compatibility to meet evolving industry standards.

2. Major Types & Functional Classification

Type	Functional Characteristics	Application Examples
Manual Crimpers	Hand-operated tools with adjustable force settings	Prototyping, low-volume electrical terminal crimping
Pneumatic Applicators	Air-pressure driven systems for high-speed operations	Automotive wiring harness production
Hydraulic Presses	Fluid-based force amplification for heavy-duty applications	Aerospace component assembly
Servo-Driven Crimpers	Computer-controlled motion with real-time feedback	Medical device manufacturing

3. Structure & Components

Typical systems consist of: - Frame/Chassis: Aluminum or steel structural base - Actuation Mechanism: Hydraulic cylinders, pneumatic pistons, or electric servomotors - Tooling Interface: Quick-change die systems with precision alignment - Control System: PLC or CNC interface with pressure/position sensors - Die Sets: Customizable anvils and punches for specific material profiles

4. Key Technical Specifications

Parameter	Importance
Crushing Force Range	Determines maximum material thickness capacity
Positioning Accuracy	0.01mm typical for high-precision connections
Cycle Time	Production throughput measurement (0.5-5s/cycle)
Die Compatibility	Interchangeability across different tooling systems
Pressure Monitoring	Real-time force feedback for quality control

5. Application Fields

Primary industries include: - Automotive manufacturing (wire harness assembly) - Aerospace (composite material bonding) - Electronics (connector terminal crimping) - Industrial machinery (hydraulic fitting installation) - Medical device production (precision micro-crimping)

6. Leading Manufacturers & Products

Manufacturer	Representative Product
TE Connectivity	Komax 455S automatic crimping machine
Sumitomo Heavy Industries	HPF-2000 hydraulic press system
Schleuniger Inc.	9250E wire processing system
Amphenol Industrial	Crimptite 2000 series applicators

7. Selection Recommendations

Key considerations: - Application-specific force requirements (calculate peak load needs) - Material compatibility (metal hardness, composite characteristics) - Production volume requirements (manual vs automated systems) - Precision tolerance needs ( 0.02mm for aerospace vs 0.1mm for automotive) - Tooling changeover frequency (quick-release mechanisms save time) - Integration capabilities with existing production lines

8. Industry Trends Analysis

Current developments focus on: - Smart system integration with IoT-enabled monitoring - Hybrid actuation systems combining hydraulic/pneumatic advantages - Advanced coatings for die wear reduction (DLC coatings show 300% lifespan improvement) - AI-driven quality control systems using real-time data analytics - Miniaturization for micro-crimping applications in electronics - Sustainability through energy-efficient servo systems (30-50% power reduction compared to traditional models)