公开(公告)号：KR101482004B1

公开(公告)日：2015-01-14

申请号：KR1020120044419

申请日：2012-04-27

Applicant: 한국건설기술연구원

Inventor： 조창연 ,  이유섭 ,  박재우

IPC: G06F19/00 ,  G06F9/455 ,  G06Q50/08

Abstract: 본 발명은 초고층 공사에 사용되는 양중장비인 건설 리프트에 대한 가동률을 정량적으로 증가시킬 수 있는 최적 운영계획 알고리즘 및 이를 이용한 시뮬레이션기법에 관한 것이다. 본 발명은 Ｂ＆Ｂ 알고리즘에 대해 리프트 이동시간의 흐름에 따른 메트릭스 개선을 실시하여 시뮬레이션을 구축하도록 구성함으로써, 건설 리프트의 양중 효율화 정도를 시뮬레이션하여 보다 체계적이고 객관적인 리프트 계획 및 양중에 관한 의사결정을 수행할 수 있는 효과를 제공한다.

公开(公告)号：KR1020120084847A

公开(公告)日：2012-07-31

申请号：KR1020110006129

申请日：2011-01-21

Applicant: 한국건설기술연구원

Inventor： 조문영 ,  김정렬 ,  조창연

IPC: B66B1/24 ,  B66B5/00 ,  E04G21/14 ,  G06Q50/00

CPC classification number: B66B1/34 ,  B66B2201/211 ,  B66B2201/212 ,  G06Q50/08

Abstract: PURPOSE: A method and a system for calculating lifting time considering acceleration/deceleration of a construction lift are provided to optimize operational planning by selecting the best lift among lifts to be used in a construction field, and to effectively implement operational management during construction by making the operational planning with selected numbers of the lifts. CONSTITUTION: A method for calculating lifting time considering acceleration/deceleration of a construction lift is as follows. Design conditions of a building to be a target for lifting and mechanical conditions of a lift are inputted(301). A standard floor is checked from the inputted target building conditions and a starting position of the lift is set(302,303,304) As required lift acceleration/deceleration time and required rising/stopping time at the starting floor is calculated, rising acceleration time and deceleration time are obtained(305,306). Required passing time and the required rising/stopping time, in which the lift is passing through a floor, are calculated to obtain total required movement time while driving at a safe driving speed(308). Required movement time of the lift for one lifting cycle is calculated from the calculated total required movement time, rising acceleration time, and deceleration time(309). Lifting time is calculated by calculating operation time of the lift from the required movement time of the lift and time in which lifting sources are loaded to and unloaded from the lift(312).

Abstract translation: 目的：提出一种考虑施工电梯加速/减速的起升时间计算方法和系统，通过选择施工现场使用的升降机之间的最佳起重量来优化运行规划，并通过制造，有效地实施施工中的运行管理 选择电梯数量的运营规划。 构成：考虑施工升力的加速/减速计算提升时间的方法如下。 输入作为升降目标的建筑物的设计条件和电梯的机械状况（301）。 根据输入的目标建筑物条件检查标准楼层，并设定升降机的起始位置（302,303,304）根据需要，计算起动加速/减速时间和启动楼层所需的上升/停止时间，上升加速时间和减速时间为 得到的（305306）。 计算所需的通过时间和升降机通过地板所需的上升/停止时间，以便在以安全的行驶速度行驶时获得总需要的运动时间（308）。 根据计算的总需求移动时间，上升加速时间和减速时间计算一个提升周期的升程所需的移动时间（309）。 起升时间是根据升降机所需的移动时间和升降机装卸起来的时间（312）计算升降机的运行时间。

公开(公告)号：KR1020130121323A

公开(公告)日：2013-11-06

申请号：KR1020120044419

申请日：2012-04-27

Applicant: 한국건설기술연구원

Inventor： 조창연 ,  이유섭 ,  박재우

IPC: G06F19/00 ,  G06F9/455 ,  G06Q50/08

CPC classification number: G06F17/5009 ,  B66B1/34 ,  B66B2201/243

Abstract: The present invention relates to a simulation method using an optimal operating plan algorithm capable of increasing operating ratios for a construction lift used in super high-rise construction. The present invention provides an effect capable of enabling a user to make a decision related to more objective and systematic lift plans by improving a matrix according to the moving time of a construction lift in a B&B algorithm and simulating the lifting efficiency of the lift. [Reference numerals] (10) Construction plan;(20) Tower crane H/W spec;(40) Simulation result;(AA) Construction lift H/W spec;(BB) Library DB;(CC) Lifted load (resources)

Abstract translation: 本发明涉及使用能够提高在超高层建筑中使用的建筑升降机的运行比的最佳操作计划算法的模拟方法。 本发明提供了一种能够使用户能够通过根据B＆B算法中的施工升力的移动时间改进矩阵来做出与更客观和系统的提升计划相关的决定并且模拟升降机的提升效率的效果 。 （10）施工计划;（20）塔式起重机H / W规格;（40）模拟结果;（AA）施工升力H / W规格;（BB）库DB;（CC）起重载荷

公开(公告)号：KR101301599B1

公开(公告)日：2013-08-29

申请号：KR1020110006129

申请日：2011-01-21

Applicant: 한국건설기술연구원

Inventor： 조문영 ,  김정렬 ,  조창연

IPC: B66B1/24 ,  B66B5/00 ,  E04G21/14 ,  G06Q50/00

Abstract: 본 발명은 초고층 공사에 사용되는 양중장비인 건설 리프트에 대한 관리 및 운영계획을 최적화할 수 있도록 양중시간을 산정하는 시스템에 관한 것이다. 본 발명은 리프트의 이동소요시간과 양중물이 적재/하역되는 시간으로부터 운행시간을 산출하되, 리프트 이동시간은 안전운행속도로 운행하는 총 이동소요시간과 1층에서의 상승가속시간, 정지층-1층의 감속소요시간의 합으로부터 산출하고, 안전운행속도로 운행하는 총 이동소요시간은 1층에서 가속거리를 제외한 나머지 거리를 통과하는 소요시간에 정지층-1층에서의 감속거리를 제외한 나머지 거리를 통과하는 소요시간과 통과하는 나머지 층의 층고의 합으로 산정하여 이를 바탕으로 효율적인 양중계획을 수행할 수 있도록 구성된다. 따라서, 본 발명은 건설 리프트의 양중 계획 및 관리의 최적화를 위한 기본 자료인 양중시간을 정확하게 산정하므로써 최근에 증가추세에 있는 초고층 공사에 있어서 리프트의 양중 계획을 최적화할 수 있는 효과를 제공한다.

公开(公告)号：KR101308973B1

公开(公告)日：2013-09-17

申请号：KR1020110143225

申请日：2011-12-27

Applicant: 한국건설기술연구원

Inventor： 김균태 ,  조창연 ,  김창한

IPC: A61B5/103 ,  A61B5/11

Abstract: 본 발명은 작업자의 자세 및 운동(동작) 이력을 정량적으로 측정할 수 있는 기술, 즉 인체의 동작 이력의 정량적 측정장치 및 방법을 제공한다.
구체적으로 본 발명에서는 건설작업 등에서 근골격계에 무리를 줄 수 있는 동작 또는 운동으로 인한 작업자의 위험도를 평가할 수 있도록, 센서를 구비한 신체 장착 밴드 및 제어장치를 이용하며, 작업자의 근골격계 운동을 모니터링하는 방법 및 장치가 제공된다.

公开(公告)号：KR100741025B1

公开(公告)日：2007-07-19

申请号：KR1020060009798

申请日：2006-02-01

Applicant: 주식회사 에이엠티 ,  한국건설기술연구원 ,  주식회사 경인

Inventor： 김정태 ,  조현수 ,  전문호 ,  조문영 ,  김정렬 ,  박재우 ,  김영석 ,  이정호 ,  이준복 ,  김한수 ,  김성근 ,  권순욱 ,  손재호 ,  조창연 ,  차연석 ,  장문교

IPC: E21B3/00 ,  E21B7/00

Abstract: An automatic verticality control device is provided to increase productivity and construction efficiency by measuring and controlling the verticality of a leader quickly and exactly using a control unit and a servo control unit. The automatic verticality control device(100) for measuring and controlling the verticality of a leader comprises a control unit(20) supporting a leader(13) and controlling the angle of the leader, and a servo control unit(30) controlling the control unit with control signals. The control unit comprises a lever(25) connected to a rotary bracket(23) installed to a fixed bracket(24) whose one side is connected to a main body(10) and the other side is fixed to the leader, a backstay cylinder(21) coupled to the top of the lever by a joint(211) and coupled to the rotary bracket by a joint(212), and an angle adjustment cylinder(22) installed to a support(221) fixed to the fixed bracket on one side and installed to a rotary joint of the rotary bracket on the other side. The servo control unit comprises a tilt sensor(31) fixed to the fixed bracket fixed to the leader and placed between the backstay cylinder and a lifting cylinder(15), a servo valve(32) installed to the main body and connected to the backstay cylinder and the angle adjustment cylinder by a hydraulic hose(321), and a servo controller(33) installed to the main body to control the tilt sensor and the servo valve.

Abstract translation: 通过使用控制单元和伺服控制单元快速精确地测量和控制领导者的垂直度，提供了自动垂直度控制装置，以提高生产率和施工效率。 用于测量和控制引线的垂直度的自动垂直度控制装置（100）包括一个控制单元（20），该控制单元支持一个引导器（13）并控制引导器的角度，以及一个伺服控制单元（30） 与控制信号。 控制单元包括连接到安装到固定支架（24）的旋转支架（23）的杆（25），所述固定支架（24）的一侧连接到主体（10）并且另一侧固定到引导件，后支柱 （21），其通过接头（211）联接到杆的顶部并且通过接头（212）联接到旋转支架;以及角度调节缸（22），其安装到固定到固定支架上的支架（221） 一侧安装到另一侧的旋转支架的旋转接头上。 伺服控制单元包括固定到固定到引导件上的固定支架并设置在后支柱筒和升降缸（15）之间的倾斜传感器（31）;伺服阀（32），安装到主体并连接到后支撑 通过液压软管（321）将气缸和角度调节气缸连接起来;以及伺服控制器（33），安装在主体上以控制倾斜传感器和伺服阀。

公开(公告)号：KR1020120075410A

公开(公告)日：2012-07-06

申请号：KR1020110143225

申请日：2011-12-27

Applicant: 한국건설기술연구원

Inventor： 김균태 ,  조창연 ,  김창한

IPC: A61B5/103 ,  A61B5/11

Abstract: PURPOSE: A method and apparatus for monitoring a musculoskeletal exercise are provided to improve work efficiency by preventing musculoskeletal diseases through the correction of a posture of a worker. CONSTITUTION: A plurality of sensor wearing members are worn in a body and include a wearing band and a sensor. The sensor is formed in the wearing band and measures a physical movement. A control unit receives a signal from the plurality of the sensor wearing members and processes the signal. The control unit calculates a 3D coordinate value, an angle, and a speed of the sensor worn in the body.

Abstract translation: 目的：提供一种用于监测肌肉骨骼运动的方法和装置，以通过修正工作者的姿势来预防肌肉骨骼疾病来提高工作效率。 构成：将多个传感器佩戴部件佩戴在身体中并且包括佩戴带和传感器。 传感器形成在佩戴带中并测量身体运动。 控制单元接收来自多个传感器佩戴构件的信号并处理该信号。 控制单元计算穿过身体的传感器的3D坐标值，角度和速度。

公开(公告)号：KR100662661B1

公开(公告)日：2006-12-28

申请号：KR1020060009799

申请日：2006-02-01

Applicant: 주식회사 에이엠티 ,  한국건설기술연구원

Inventor： 김정태 ,  조현수 ,  전문호 ,  조문영 ,  김정렬 ,  박재우 ,  김영석 ,  이정호 ,  이준복 ,  김한수 ,  김성근 ,  권순욱 ,  손재호 ,  조창연

IPC: B28D1/00

Abstract: An automated equipment for removal of a pile head, which reduces working hour and cost according to improvement of productivity and quality by analyzing a process of removing a head part of a concrete pile and automating grinding and crushing operations of a cut surface of the pile head, is provided. An automated equipment for removal of a pile head comprises: a base frame(10) which is formed in a polygonal shape and has a manifold(11) installed on one side thereof; a crushing part(20) which is installed on one side of the base frame, wherein the crushing part comprises a hydraulic cylinder of which a front part is connected to the backside of a crushing bracket, and a crushing blade and a breaker installed on the front of the crushing bracket; a cutting part(30) comprising a grinder installed on a side portion of the base frame, a hydraulic cylinder installed on an upper frame(10b), and a supporting shaft to which the grinder and the hydraulic cylinder are connected; a holder part(40) comprising a disk(41) connected to an upper part of the base frame, a holder plate installed at one side of the disk and operated by a hydraulic cylinder, and a holder frame(46) installed at the other side of the disk; and a link part(50) comprising first and second link supports that include the holder plate and are installed at the disk.

Abstract translation: 通过分析去除混凝土桩的头部部分的过程以及自动化桩头的切割表面的研磨和粉碎操作，根据提高生产率和质量来减少工作时间和成本的自动化设备用于去除桩头 被提供。 一种用于取出桩头的自动化设备包括：基座框架（10），其形成为多边形形状并且具有安装在其一侧上的歧管（11）; （20），所述破碎部（20）安装在所述基架的一侧上，其中，所述破碎部分包括液压缸，所述液压缸的前部连接到破碎支架的后侧，以及破碎刀和破碎机，所述破碎刀和破碎机安装在 破碎支架前部; （30），其包括安装在所述基架的侧部上的研磨机，安装在上框架（10b）上的液压缸以及与所述研磨机和所述液压缸连接的支撑轴; 包括连接到基座框架上部的盘（41），安装在盘的一侧并由液压缸操作的保持器板（40），以及安装在另一侧的保持器框架（46） 盘面; 以及包括第一和第二连杆支撑件的连杆部分（50），所述第一和第二连杆支撑件包括所述保持器板并安装在所述盘上。