Guider

Product Overview
The Guider is a precision alignment component designed for robotic-assisted surgical systems, particularly in orthopedic procedures.
Developed by TARUK Medical Instruments, the Guider ensures accurate trajectory control, guiding surgical instruments and robotic arms with sub-millimeter precision throughout complex procedures.
Its design prioritizes accuracy, stability, and repeatability, helping surgeons maintain optimal control and achieve consistent clinical outcomes.

Design & Functionality
The Guider functions as a structural interface between the robotic system and surgical tools, translating planned trajectories into precise instrument movements.
Key design features include:
● Robust framework for minimal deformation under operational load
● Precisely machined guide surfaces for accurate trajectory alignment
● Lightweight medical-grade stainless steel for durability and balance
● Smooth, passivated surface for sterilization and reduced contamination risk
● Modular design for easy assembly, adjustment, and maintenance
The Guider supports repeatable positioning and controlled motion, critical for high-precision orthopedic procedures and robotic navigation accuracy.

Engineering & Manufacturing Capabilities
TARUK leverages advanced 5-axis and 4-axis CNC machining centers combined with turn-mill compound machines to manufacture the Guider with tight tolerances and complex geometries.
Capabilities include:
● Multi-axis machining ensuring geometric accuracy
● Dimensional verification using coordinate measuring systems (CMM)
● Surface finishing and passivation for corrosion resistance
● High-precision assembly ensuring proper alignment and interface consistency
Every Guider is produced under an ISO 13485-certified quality system, guaranteeing reliability, stability, and compliance with international medical device standards.

OEM / ODM Customization Services
TARUK provides comprehensive OEM and ODM services for the Guider, supporting robotic system manufacturers with customized solutions tailored to their specifications.
Customization options include:
● Adjusting geometry and guide surfaces for unique robotic configurations
● Integration with specific surgical instruments and navigation platforms
● Material and surface treatment options
● Private labeling, serial coding, and full traceability
Through collaborative engineering, TARUK helps OEM partners accelerate product development, ensuring precision and regulatory compliance.

Quality Control & Validation
Every Guider undergoes rigorous quality assurance to ensure functional accuracy and mechanical stability.
Inspection and validation procedures include:
● Dimensional verification and tolerance analysis
● Mechanical endurance and fatigue testing
● Surface finish assessment and corrosion resistance testing
● Controlled cleaning, passivation, and final assembly
● Full traceability from raw material to shipment
These measures ensure each Guider meets the performance standards expected by global robotic surgery OEMs, delivering reliable and consistent results.

Why Choose TARUK
TARUK is a trusted engineering and manufacturing partner for robotic surgical components.
Our advantages include:
● Engineering collaboration: Early involvement in design and assembly planning for optimized tolerances and performance
● Advanced CNC machining: Five-axis and four-axis CNC centers with turn-mill compound machines deliver precise sub-millimeter accuracy
● ISO 13485-certified quality system: Ensures full traceability and compliance
● Flexible supply chain: Supports prototyping, small-batch production, and high-volume manufacturing
● Global OEM experience: Proven success serving international robotic surgery system developers
Choosing TARUK means partnering with a company capable of delivering precision, stability, and engineering expertise for advanced robotic surgical instruments.

Contact TARUK
For technical specifications, CAD review, or OEM collaboration regarding the Guider, please contact TARUK Medical Instruments.
We are committed to providing high-precision components that meet the evolving requirements of robotic-assisted orthopedic surgery.