Crimpers, Applicators, Presses

Image	Part Number	Description / PDF	Quantity	Rfq
	09990000374 HARTING	TOOL HAND CRIMPER 8AWG SIDE	0
	09990000815 HARTING	TOOL HAND CRIMPER HYD BATT PWRD	0
	09990000830 HARTING	HARTING CRIMP TOOL FOR WIRE END	0
	09990000366 HARTING	TOOL HAND CRIMPER MODULAR	0
	20990001033 HARTING	TOOL HAND CRIMPER FBR OPTIC SIDE	0
	09990000201 HARTING	TOOL PRESS MANUAL IDC CONNECTORS	0
	09990000247 HARTING	TOOL HAND CRIMPER 22-28AWG TOP	0
	09990000246 HARTING	TOOL BENCH PRESS AUTO	0
	09990000314 HARTING	CRIMP TOOL SET PNEUMATIC HAN C	0
	09990000334 HARTING	TOOL HAND CRIMPER SHIELD	0
	20990003021 HARTING	HAN YELLOCK APPLICATION SAMPLE C	0
	09990000307 HARTING	CRIMP TOOL SET PNEUMAT HAN C/D/E	0
	09990000114 HARTING	TOOL PRESS TERMINATOR	0
	09990000233 HARTING	TOOL HAND CRIMPER SIDE ENTRY	0
	09458000500 HARTING	TOOL HAND CRIMPER MODULAR SIDE	0
	09990000860 HARTING	BATTERY-HYDRAULIC CRIMP TOOL 120	0
	09990000385 HARTING	TOOL HAND CRIMPER HYDRAULIC	0
	09458000530 HARTING	RJ45 CAT5 COMPACT ASSEMBLY CRIMP	0
	09458000025 HARTING	RJ45 GIGALINK COMPACT VERSION CR	0
	09990000861 HARTING	HAND HYDRAULIC CRIMP TOOL 120KN	0

Crimpers, Applicators, Presses

1. Overview

Crimpers, applicators, and presses are precision mechanical tools used to join components through compression, deformation, or forming processes. Crimpers create permanent electrical or mechanical connections by compressing materials (e.g., wire terminals). Applicators install fasteners, clips, or components onto substrates, while presses apply controlled force for shaping, assembling, or testing materials. These tools are critical in industries requiring high reliability, such as automotive, aerospace, and electronics manufacturing.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Manual Crimpers	Hand-operated, low-force, portable	Field repairs, prototyping
Electric Crimpers	Motor-driven, programmable force control	High-volume wire harness production
Pneumatic Applicators	Air-powered, high-speed fastener installation	Automotive trim assembly
Hydraulic Presses	High-force fluid pressure actuation	Metal forming, composite molding
Automatic Press Systems	PLC-controlled, integrated sensors	Automated terminal crimping lines

3. Structure and Components

Typical configurations include: - Crimpers: Die set (anvil/die cavity), handle/actuator, ratchet mechanism, force transmission linkage. - Applicators: Magazine feed system, pneumatic/hydraulic cylinder, applicator nose, spring-loaded retention arms. - Presses: Frame/base, hydraulic/pneumatic cylinder, bolster plate, programmable control panel, safety guarding. Advanced models integrate IoT-enabled sensors for real-time force/displacement monitoring.

4. Key Technical Specifications

Parameter	Description	Importance
Crimping Force (kN)	Maximum compressive force capacity	Determines joint integrity and material compatibility
Stroke Length (mm)	Distance of ram/die movement	Affects application versatility and material thickness range
Repeatability ( m)	Positioning accuracy consistency	Ensures quality in high-precision applications
Cycle Rate (pcs/hr)	Production speed metric	Directly impacts manufacturing throughput
Force Control Resolution (%)	Adjustable force precision	Optimizes material-specific process windows

5. Application Fields

Automotive: Wire harness assembly, battery terminal crimping
Electronics: Connector insertion, SMT component forming
Aerospace: Composite panel riveting, fuel line fittings
Energy: Solar panel busbar welding, battery cell stacking
Medical: Catheter tip forming, surgical staple application

6. Leading Manufacturers and Representative Products

Manufacturer	Product Example	Key Features
TE Connectivity	MicroPress+ Crimping System	Sub- m force control, IoT connectivity
Schleuniger Inc.	Combi 7000 Series	Multi-axis servo control, automatic tool changing
Amada Miyachi Europe	HACO FPH-1500 Press	Hydraulic servo press with 150 kN force capacity
Delphi Technologies	Automotive Terminal Applicator 4.0	AI-driven process optimization, predictive maintenance

7. Selection Recommendations

Key selection criteria: - Application-specific force/stroke requirements - Production volume vs. tooling changeover frequency - Automation integration capabilities (PLC, robotics) - Material compatibility (e.g., copper vs. aluminum crimping) - Calibration/maintenance cost considerations - Safety features (e.g., dual-hand operation, light curtains)

8. Industry Trends Analysis

Current trends include: - Smart Tooling: Embedded sensors for real-time quality monitoring - Modular Design: Quick-change tooling systems for multi-product lines - Energy Efficiency: Servo-driven systems reducing power consumption - AI Integration: Predictive maintenance and adaptive process control - Miniaturization: Sub-mm precision tools for microelectronics assembly - Global Standards: Increased adoption of ISO 13849 functional safety compliance