Abstract

Nowadays, hydraulic excavators are an indispensable part of the construction industry; however, conventional hydraulic excavators consume a great deal of fossil fuel and release a large amount of pollution emissions into the environment. This causes many unwanted costs, therefore, effective solutions are required to solve the above-mentioned problems. In this paper, a new independent metering system is proposed to improve energy-saving and reduce costs of a conventional system. In detail, a directional valve is used to control movement and three electro-hydraulic poppet valves are integrated to adjust the flow rate at the inlet and outlet ports of the boom cylinder. In addition, a control strategy based on the coordination between the speed of the pump and the opening area of the spool valve is designed to improve the performance of the system. Specifically, the valves are controlled based on the strategy that the meter-in valve is opened fully to reduce throttling losses and that the meter-out valve is controlled to reduce leakage. The speed of the pump is adjusted according to the feedback position signal. To demonstrate the effectiveness of the new configuration, a real test bench of the boom system was built under laboratory conditions. From the experimental results, the new independent metering valve system not only works with a high tracking precision, but it also reduces energy consumption. Compared with a conventional independent metering system, the fuel economy of the proposed structure can achieve a reduction of approximately 6.5%.

Highlights

  • Hydraulic systems are usually applied to construction machinery and are widely used in industry, such as for excavation, construction, and agriculture systems

  • The hydraulic boom excavator system was built to evaluate the effectiveness of the NIMV system and was compared with the conventional independent metering valve (CIMV) system

  • From the working principle of the metering modes and the control strategy, two test cases for the boom system were conducted based on two main evaluation criteria: the working performance and energy-saving potential

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Summary

A Study on a New Independent Metering Valve for Hydraulic

Independent Metering Valve for Keywords: energy consumption; energy-saving; hydraulic boom system; independent metering valve. Sci. Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations

Introduction
New Independent Metering Configuration
Control System Design
Valve Control
Pump Control
Energy Consumption
Experiments and Results
Verification with Mode Control
Comparison with CIMV
Comparison
Comparison in in thethe andand
Conclusions

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