• 드라이브 ㆍ 컨트롤
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• 제15권4호
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• pp.39-47
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• 2018

Recently, as environmental regulations for earth-moving equipment have been tightening, advanced systems such as electronic control, have been introduced for energy savings. An IMV (Independent Metering Valve) consisting of four 2-way valves, is an electro-hydraulic control systems that provides more flexible controllability, and potential for energy savings in excavators, when compared to the conventional 4-way spool valve system. To fully maximize use of an IMV, the bi-directional flow control valve that can regulate a large amount of flow in both directions, should be adopted. The hydraulic circuit of an IMV applied to an excavator from an overseas construction equipment company, reveals the flow control valve with the compound of proportional solenoid valve for first stage, and 2-way spool valve for the second stage. Moreover, the two spools are interconnected by a feedback spring, presumed to compensate for flow force acting on the second stage spool. This paper addresses the static analysis of flow control valve in an IMV to investigate the improvement of robustness, against flow force by the feedback spring. From the steady-state analysis of flow control valve model, it can be concluded that the feedback spring facilitates maintaining linearity of spool displacement for control input, and relatively constant flow for load disturbance.

• 한국전자통신학회논문지
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• 제8권12호
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• pp.1905-1910
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• 2013

논문은 유도 루프식 열차제어시스템에 대하여 준 정량적 안전무결성 등급(Safety Integrity Level : SIL)할당 방법을 적용하여 안전무결성 등급을 할당한 결과이다. 유도 루프식 열차제어시스템은 ATS장치, 지상ATP장치, 차상ATP장치, 지상ATO장치, 차상ATO 지상장치 하드웨어 및 소프트웨어로 구성되어 있으며, 안전무결성 등급 할당은 각 서브시스템에 대한 안전무결성 등급을 의미한다. 준 정량적 방법의 세 원칙에 근거하여, 열차제어시스템을 구성하고 있는 서브시스템에 대한 안전무결성 등급을 할당하였다.

• 드라이브 ㆍ 컨트롤
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• 제11권4호
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• pp.61-67
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• 2014

When a manual transmission equipped car stops on an incline where the nose of the car is higher than the rear, hill-start control or hill-holder could prevent the vehicle from rolling backward as the car moves forward. The easy-hill assist valve consists of a check valve and a needle type ON/OFF solenoid valve connected in parallel; it is a hydraulic actuator that can maintain brake pressure using an electrical signal from the ECU. As the EHA valve is a safety-related component of the brake system, high reliability as well as superior dynamic performance is required for it to be applied in commercial vehicles. This paper presents the design of the EHA valve as a piece of equipment that can simulate the brake actuation pressure with a pressurizing piston. Following specific test standards, the experimental results validate the implemented functions of the test equipment, proving the test stand to be effective for the performance and endurance of the EHA valve.

• International Journal of Safety
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• 제9권2호
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• pp.29-34
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• 2010

When doing maintenance works at the trackside of railway, the method which delivers information on approaching of train to maintenance workers through alarm devices such as the flag or indication light, etc., is being used by locating persons in charge of safety alarm in addition to the maintenance workers at fixed distances in the front and rear of the workplace. Workers maintaining at the trackside may collide with the train since they cannot recognize the approach of train although it approaches to the vicinity of maintenance workplace because of the sensory block phenomenon occurred due to their long hours of continued monotonous maintenance work. The clash or rear-end collision accidents between many maintenance trains called motor-cars can be occurred since there are cases where the signal systems for safe operation of motor-car such as track circuit etc. are blocked or not operated normally. We developed the new safety equipment for protection of trackside maintenance workers using radio frequency signals and bidirectional detection mechanism. The developed safety equipment must analyze the several operational mechanism for each different operation situations. In this paper the analysis results are represented.

• 드라이브 ㆍ 컨트롤
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• 제8권4호
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• pp.33-64
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• 2011

• 드라이브 ㆍ 컨트롤
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• 제11권4호
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• pp.86-93
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• 2014

• 드라이브 ㆍ 컨트롤
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• 제12권1호
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• pp.29-33
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• 2015

• 드라이브 ㆍ 컨트롤
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• 제13권1호
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• pp.68-69
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• 2016

• 드라이브 ㆍ 컨트롤
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• 제13권1호
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• pp.55-62
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• 2016

• 드라이브 ㆍ 컨트롤
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• 제11권3호
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• pp.69-71
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• 2014