Banco de pruebas de plataforma de perforación direccional
Advanced Testing Solution for HDD Machines and Subsystems
El Directional Drilling Rig Test Bench is a professional testing system designed for horizontal directional drilling (HDD) machines and key subsystems.
It enables accurate performance testing, functional verification, and reliability validation under simulated real operating conditions.
This test bench is widely used by HDD equipment manufacturers, hydraulic system suppliers, Riñonal&D centers, and quality inspection departments to ensure stable performance, seguridad, and compliance before field operation.
Typical Applications
Horizontal Directional Drilling (HDD) machine manufacturers
Trenchless technology equipment suppliers
Hidráulico system R&D and validation
End-of-line production testing
Commissioning and acceptance testing
Test Objects
The test bench supports testing of complete HDD machines or individual subsystems, incluido:
Rotary drive system
Thrust and pull-back system
Hydraulic pumps and motors
Cajas de cambios and transmission units
Control and proportional valve systems
Funciones de prueba de núcleo
The directional drilling rig test bench provides comprehensive testing capabilities such as:
Torque and rotational speed testing
Thrust and pull-back force simulation
Hydraulic pressure and flow measurement
Power output and system efficiency analysis
Load simulation under different drilling conditions
Continuous operation and endurance testing
Safety and overload performance verification
All test parameters are monitored and recorded in real time.
Banco de pruebas de plataforma de perforación direccional: Precision Reliability for Complex Wellbores
Directional drilling is the cornerstone of modern oil, gas, and geothermal resource extraction, enabling the realization of non-vertical boreholes, including horizontal and multi-branch wells. Nuestro Banco de pruebas de plataforma de perforación direccional provides a rigorous validation platform for power systems, directional control, and operational stability under the most complex geological conditions.
Comprehensive Performance & Safety Validation
Power System Validation
Evaluation of hydraulic and electric system efficiency, including high-speed dynamic response testing. Measures the fundamental relationship where Power $$P = \frac{2 \pi \tau N}{K}$$ to ensure mechanical robustness.
Directional Control & MWD
Strict verification of MWD (Measurement While Drilling) precision and the deflection capability of mud motors.
Extreme Condition Simulation
Advanced simulation of Stick-Slip Vibration y Stuck Pipe scenarios to ensure rig stability in high-risk environments.
High-Load Durability
Supports continuous 72-hour high-load operation tests to verify long-term reliability and thermal management.
Advanced Engineering & Sustainable Efficiency
Energy Regenerative Technology
Incorporating state-of-the-art AC Load Feedback Braking Systems, our test bench achieves an energy regeneration rate of $$\ge 75\%$$. This technology recovers mechanical energy during load simulation, significantly reducing operational costs and heat emission.
Intelligent Control Architecture
Utilizing CAN Bus (TCP/IP) protocolos, the system integrates centralized power regulation, comprehensive safety monitoring, and automated data acquisition into one high-stability platform. It ensures high repeatability and satisfies the most stringent R&D standards.
Industrial Environmental Specifications:
The system is engineered to maintain laboratory-grade accuracy in rugged industrial environments.
| Parámetro | Operational Specification |
| Ambient Operating Temperature | -5°C to +45°C |
| Relative Humidity Tolerance | Arriba a 98% (non-condensing) |
| Acoustic Noise Level | ≤ 90 dB during peak operation |
| Power Supply Compatibility | AC 380V / 220V (±10%) |
| Data Communication | CAN Bus / TCP/IP High-Speed Interface |
Industrial Reliability: Built to satisfy the most stringent R&D and QA standards for the petroleum industry.
Simulation Accuracy: Precisely calculates the power-torque-speed relationship (
$$P = \frac{2 \pi \tau N}{K}$$) to ensure mechanical integrity.
Diseño a prueba de futuro: Modular architecture allows for easy upgrades to test the latest generation of autonomous drilling rigs.
