INJIN-Corpe Private limited
Website:
injincorp.com
Job details:
KRA Structure: Hydraulic Tuning & Systems Engineer
1. System Design & Performance Optimization
Objective: To define and maintain the ideal hydraulic parameters for peak machine efficiency.
· Flow & Pressure Regulation: Calculate and set optimal flow rates and pressure settings to meet machine cycle times without overheating or energy waste.
· Component Selection: Select and specify appropriate cylinders, valves, manifolds, and piping architectures based on mechanical load requirements.
· System Simulation: Use modeling or empirical testing to predict system behavior under varying loads.
2. Sourcing & Vendor Management
Objective: To ensure high-quality procurement and reliable lifecycle support.
· Strategic Sourcing: Identify and vet global or local suppliers for high-performance hydraulic valves and pumps.
· Service Level Agreements (SLAs): Establish and manage relationships with service providers for hydraulic maintenance and emergency repairs.
· Cost Management: Optimize the Bill of Materials (BOM) for the hydraulic circuit without compromising safety or durability.
3. Cross-Functional Integration (Support to Person X)
Objective: To ensure the "muscles" (hydraulics) respond perfectly to the "brain" (electronics).
· Electro-Hydraulic Calibration: Work with Power electronics to tune proportional valves and sensors, ensuring the electronic signals result in smooth, precise physical movement.
· Feedback Loop Integration: Assist the electronics team in placing and calibrating pressure transducers and flow meters for real-time monitoring.
· Troubleshooting: Lead the diagnostic process when there is a mismatch between electronic command and hydraulic response.
4. Reliability, Maintenance & Safety
Objective: To maximize machine uptime and ensure operator safety.
· Plumbing & Routing: Design leak-free pipe and hose routing that accounts for vibration, thermal expansion, and ease of access for servicing.
· Fluid Health: Define oil filtration standards and sampling schedules to prevent contamination-related failures.
· Safety Compliance: Ensure all hydraulic circuits meet international safety standards (e.g., ISO 4413) regarding over-pressure protection and emergency stops.
Reporting Structure
· Primary Report: Mechanical Design Team Lead (Focus on physical integration and structural integrity).
· Dotted Line / Collaboration: Person X, Electronics Lead (Focus on logic, control loops, and automation).
Note: Since you the engineer will be a bridge between teams, your success depends heavily on their ability to translate "Bar" and "LPM" into "Voltage" and "Duty Cycles" for Power electronics
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