• Title/Summary/Keyword: Screen door

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Development of Hi-efficiency Direct Drive PMAC Controller for Screen Door (스크린도아용 고효율 직접구동 PMAC Driver 개발)

  • Park, Jae-Sam
    • Journal of Korea Society of Industrial Information Systems
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    • v.17 no.7
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    • pp.35-41
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    • 2012
  • To control screen door installed in the subway platform, geared BLDC motors have been being used. However, because of the geared mechanisms, the control profile of the screen door in slow speed is very poor. Moreover, geared mechanism tends to leads system malfunctions and low efficiency. To overcome those problems, in this paper, the techniques of developing hi-efficiency direct drive gearless PMAC motor controller and application example to control the screen door of subway platforms are proposed. The developed system has advantages that; the energy efficiency has been increased by adopting gearless PMAC motor; the system break-down factor has been decreased due to the actuator mechanism has been simplified. In this paper, the screen door control system structure, PMAC motor drive circuit design, implementations of vector control algorithm, and test results are shown.

Study on the Evacuation Time Analysis by Platform Screen Door Opening Rate (스크린도어(PSD)의 개폐율에 따른 피난소요시간 분석에 관한 연구)

  • Kim, Min-Jae;Min, Se-Hong
    • Fire Science and Engineering
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    • v.30 no.4
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    • pp.59-64
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    • 2016
  • The PSD (Platform Screen Door System) has been installed to enhance the passengers' safety. A total of 592 stations operate the PSD system, which is almost 71.8% of all stations in South Korea. This study compared the opening rate between the PSD and train door, and calculated the exact amount of passengers at peak time. In addition, the evacuation time was simulated by Pathfinder 2015 with the exact input data. Some of the high density stations have extremely high dangerous points about the passengers' evacuation at some situations by the PSD door opening rate. In particular, due to the interference of a fixed door, when it stops at 7 m less than the regular position, its opening rate becomes less than half of the normal state. To solve this problem, it should be made possible to open the fixed door by changing it to an emergency door or improving the PSD module system.

A Study for the Screen Door Motor System Driving Stiffness of Dynamic Load Condition (스크린 도어 모터 시스템의 동하중 상태 구동강성 검증)

  • Lee, Jung-Hyun;Lee, Seon-Bong
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.17 no.2
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    • pp.164-170
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    • 2016
  • The initial urban railway was only required to perform its role as means of transportation. As the time of staying in an underground platform was extended, it has been faced with the issues of environmental improvement as a living space. Therefore, the sliding automatic door, which is the basis of the screen door, is used widely for large distribution stores, hospitals, restaurants, and public offices for customers' convenience and as a convenient method to control access. Therefore, screen doors are required for the purpose of customers' convenience, securing safety, establishing pleasant station buildings, and energy savings. It would be also necessary to develop the optimal design technology for a screen door system through the design of element parts and to ensure reliability. Therefore, this paper calculated, interpreted, and verified the theoretical weight of the composition parts to verify the design drive hardness of the motor for screen doors necessary for the safety of subways.

WIND PRESSURE TRANSIENTS ON PLATFORM SCREEN DOOR OF SIDE PLATFORMS IN A SUBWAY STAT10N CAUSED BY PASSING TRAINS (상대식 승강장에서 열차 운행에 의한 지하철 승강장 스크린 도어 풍압해석)

  • Lee, Myung-Sung;Lee, Sang-Hyuk;Hur, Nahm-Keon
    • 한국전산유체공학회:학술대회논문집
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    • 2007.04a
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    • pp.64-67
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    • 2007
  • In the present study, the wind pressure transients on platform screen door in side platforms caused by passing trains have been investigated numerically. The transient compressible 3-D full Navier-Stokes solution is obtained with actual operational condition of subway train and the moving mesh technique is adopted considering the train movement. To achieve more accurate analysis, the entrance and exit tunnel of platform are included in a computational domain and detailed shape of train is also modeled Numerical analyses were conducted on five operational condition which are different velocity variation of subway train, existence of stationary train and passing each other trains. The results show that pressure load on platform screen door is maximized when the two trains are passing each other. It is also seen from the computational results that the maximum pressure variation was found to be satisfactory to various foreign standards.

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WIND PRESSURE TRANSIENTS ON PLATFORM SCREEN DOOR OF SIDE PLATFORMS IN A SUBWAY STATION CAUSED BY PASSING TRAINS (상대식 승강장에서 열차 운행에 의한 지하철 승강장 스크린 도어 풍압해석)

  • Lee, Myung-Sung;Lee, Sang-Hyuk;Hur, Nahm-Keon
    • Journal of computational fluids engineering
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    • v.12 no.4
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    • pp.1-6
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    • 2007
  • In the present study, the wind pressure transients on platform screen door in side platforms caused by passing trains have been investigated numerically. The transient compressible 3-D full Navier-Stokes solution is used with actual operational condition of subway train by adopting the moving mesh technique considering the train movement. To achieve more accurate analysis, the entrance and exit tunnel connecting the stations are included in a computational domain with modeling the detailed shape of the train. Numerical analyses are conducted on five operational conditions which include the variation of the train speed, case with or without the train stopped in the other track, and case for two trains passing each other inside the station. The results show that pressure load on platform screen door is maximized when the two trains are passing each other. It is also seen from the computational results that the maximum pressure variation for the cases considered in the present study is found to be satisfactory to various foreign standards.

Commercialization of Integrated DCU for the Platform Screen Door (승강장 스크린도어를 위한 통합형 제어기의 상품화)

  • Woo, Chun-Hee;Kim, Jin-Sik
    • The Transactions of the Korean Institute of Electrical Engineers P
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    • v.60 no.3
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    • pp.110-113
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    • 2011
  • Platform Screen Door, PSD, is a device that seeks to prevent accidents with regards to falling off the platform and getting trapped between the trains, achieve improvements on the cleanliness of the air, address the accessibility issue of the disabled and the elderly and provide fresher environment on the platform in general. This is achieved by preventing health hazards and accidents from occurring through installation of fixed and moving doors between rail, tram and subway platforms and the railway. Domestic firms have achieved domestic production to a large degree in various Control Units including the Overall Control Unit and RF devices through investments in technology. Despite this, full domestic production of the core of the PSD system, Door Control Unit, DCU, is not yet achieved, having to install PSDs in a relatively short period of time. Currently, controllers with DC motors are developed for installation or one is faced with having to import foreign produced controllers. In this research, the control unit prototype using the BLDC motor was domestically produced. The performance of the control unit was rigorously tested through installation on Eun-Ha Rail on Wol-Mi Island.

Study on Disaster Prevention in Case of Fire at Subway Platform with Platform Screen Door

  • Rie, Dong-Ho;Yoon, Sung-Wook;Ko, Jae-Woong;Lee, Keun-Oh
    • International Journal of Safety
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    • v.4 no.2
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    • pp.36-42
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    • 2005
  • A study on fire phenomena in a subway transit mass station has been carried out as a part of disaster prevention plan at the subway station. The ventilation facilities installed in both the platform and the trackway are designed to convert into a smoke exhaust system in emergency situation, creating an environment necessary for evacuation. 3 dimensional Numerical Simulations based on the CFD are carried out using a simulation tool, Fire Dynamic Simulator. Total of six different cases are made and performances are compared each other to find optimal vents operation to ensure safer environment for evacuation at the platform area considering the installation of platform screen door.

WIND PRESSURE TRANSIENTS ON PLATFORM SCREEN DOOR OF ISLAND PLATFORMS IN A SUBWAY STATION CAUSED BY A PASSING TRAIN (섬식 승강장에서 열차 운행에 의한 지하철 승강장 스크린 도어 풍압 해석)

  • Lee, Myung-Sung;Won, Chan-Shik;Hur, Nahm-Keon
    • Journal of computational fluids engineering
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    • v.12 no.3
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    • pp.1-7
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    • 2007
  • In the present study, the wind pressure transients on platform screen door in island platform caused by a passing train are investigated numerically. The transient compressible 3-D full Navier-Stokes solution is obtained with actual operational condition of subway train and the moving mesh technique adopted for the train movement. To achieve more accurate results, detailed shape of train is included in a computational domain and the entrance and exit tunnel of platform are also modeled. Numerical analyses are conducted on three operational conditions of different velocity variation.

A Case Study on System Assurance for Platform Screen Door in Urban Transit (도시철도 승강장 스크린도어의 시스템보증 사례 연구)

  • Lee, Hwan-Deok;Jung, Won
    • Journal of Applied Reliability
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    • v.13 no.4
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    • pp.287-298
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    • 2013
  • This paper presents a case study of PSD(Platform Screen Door) system assurance based on EN50126 life-cycle stage. By applying this system assurance, the accidents related to urban light transit railway especially that caused casualties could be reduced tremendously. This case study contributes significantly to the reliability, availability, maintainability and safety of the PSD system. Request For Proposal (RFP) of a rail road operator in which required by RAMS is prepared in which to ensure all system assurance activity and safety assessment are compulsory. The step-by-step activities and related deliverables are used which include functional analysis, FMECA, hazard identification analysis, system hazard analysis, maintainability analysis, FRACAS, and finally verification and validation of the system.