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Actuator Connection Points Component – Machinery and Equipment Manufacturing

Component Specifications

Definition

Actuator connection points are critical mechanical interfaces on oscillation tables designed to securely attach linear or rotary actuators. These points transfer precise mechanical forces and motions from the actuator to the table surface, enabling controlled oscillatory movement for material handling, sorting, or processing applications. They ensure minimal energy loss and maintain alignment under dynamic loads.

Working Principle

Actuator connection points function by providing a rigid, low-backlash mechanical linkage between the actuator's output shaft or rod and the oscillation table's moving platform. They convert the actuator's linear or rotary motion into the table's oscillatory motion through direct mechanical coupling, often using threaded, bolted, or pinned connections that allow for precise adjustment and alignment.

Materials

Typically made from high-strength steel alloys (e.g., AISI 4140, 4340) or stainless steel (e.g., 316L) for corrosion resistance. Hardened surfaces (HRC 45-55) are common to resist wear. Alternative materials include aluminum alloys (e.g., 6061-T6) for lightweight applications.

Technical Parameters

Load Capacity 500-5000 N static, 200-2000 N dynamic
Surface Finish Ra 1.6 μm or better
Connection Type Threaded, Flanged, or Pinned
Alignment Tolerance ±0.1 mm positional, ±0.05° angular
Thread Specification M8 to M30 metric or equivalent UNC/UNF
Operating Temperature -20°C to +80°C
Mounting Hole Diameter 10-50 mm

Standards

ISO 2768, DIN 7186, ISO 286-2

Industry Taxonomies & Aliases

Commonly used trade names and technical identifiers for Actuator Connection Points.

Parent Products

This component is used in the following industrial products

Oscillation Table

A mechanical platform that provides controlled oscillatory motion to the continuous casting mold during steel production.

View Product Details

Engineering Analysis

Risks & Mitigation

Misalignment causing premature wear
Over-torquing leading to thread damage
Corrosion in humid environments
Fatigue failure under cyclic loads

FMEA Triads

Trigger: Improper installation or misalignment
Failure: Reduced oscillation efficiency, increased vibration, or component fracture
Mitigation: Use alignment tools during installation, follow torque specifications, and conduct regular inspections.

Trigger: Material fatigue from continuous cyclic loading
Failure: Crack propagation and eventual breakage at the connection point
Mitigation: Design with fatigue-resistant materials, implement load monitoring, and replace at recommended intervals.

Industrial Ecosystem

Compatible With

Interchangeable Parts

Compliance & Inspection

Tolerance

Geometric tolerances per ISO 2768-m, positional tolerance ±0.1 mm, surface roughness Ra ≤ 1.6 μm

Test Method

Dimensional inspection with CMM, load testing per ISO 7500-1, fatigue testing via cyclic load application

Procurement Evaluation Criteria

Not customer reviews or live demand data. These dimensions support RFQ preparation and supplier evaluation.

Technical documentation

4/5

Manufacturing capability

4/5

Inspection readiness

5/5

Supplier transparency

3/5

These scores are example evaluation dimensions, not real customer ratings, country-specific buyer feedback, or live inquiry activity.

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Frequently Asked Questions

What types of actuators are compatible with these connection points?

Compatible with linear actuators (e.g., pneumatic cylinders, electric linear actuators) and rotary actuators (e.g., servo motors with eccentric cams), provided they match the connection specifications like thread size and load rating.

How do you maintain actuator connection points on oscillation tables?

Regular inspection for wear, loosening, or corrosion; lubrication of threaded parts if specified; torque checks on fasteners; and alignment verification during preventive maintenance schedules.

Can I contact factories directly?

Yes, each factory profile provides direct contact information.

Data Basis

CNFX manufacturer profiles, technical classification, publicly available product information, and ongoing plausibility checks.

Preliminary Technical Classification

This page supports structured research, RFQ preparation, and supplier evaluation. It does not replace buyer-led supplier qualification, standards review, or technical approval.

Actuator Connection Points