会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明公开
    • 무거푸집 기둥과 슬림빔의 접합부 연결구조 및 그 시공방법
    • 无缝钢管连接结构及其构造方法
    • KR1020090093599A
    • 2009-09-02
    • KR1020080019209
    • 2008-02-29
    • 서울주택도시공사명화엔지니어링 주식회사현대제철 주식회사
    • 김형근강지연강석준정병석남순우김희동김경주
    • E04B1/24E04B1/18E04B1/38
    • A joint structure between a form-less column and a slim beam and a construction method thereof are provided to improve structural performance because the integrity of the joint between the form-less column and slim beam is intensified. A joint structure between a form-less column and a slim beam comprises a form-less column(100) where L-section steels(110) are placed in each edge thereof and a y-shaped steel plate(120) having a predetermined thickness is welded between L-section steels, a top flange(210), a bottom flange(220) of which the width is wider than the top flange, and a web(230) connecting the top flange and bottom flange, plural slim beams(200) which are connected to the circumference of the form-less column, and a joining unit(300) which includes a body(310) shaped like a square tube, a pair of joint angles(320) which are joined to the front, rear and both lateral surfaces of the body and is installed to the circumference of the opening formed in the center of the form-less column, and connects the slim beam to the form-less column.
    • 为了提高结构性能,提供了无形柱和细梁之间的接合结构,因为无形梁和细梁之间的接合完整性增强。 无钢柱和细梁之间的接合结构包括:在其每个边缘上放置有L型钢(110)的无形柱(100)和具有预定厚度的y形钢板(120) 焊接在L型钢之间,顶部凸缘(210),其宽度比顶部凸缘宽的底部凸缘(220)和连接顶部凸缘和底部凸缘的腹板(230),多个细长梁 200),以及连接单元(300),其包括形状为方管的主体(310),与前表面接合的一对关节角(320) 后部和两个侧表面,并且安装到形成在无形列的中心的开口的圆周上,并将苗条梁连接到无形柱。
    • 2. 发明公开
    • 무거푸집 기둥과 MHS 합성보의 접합부 연결구조 및 그시공방법
    • 无孔钢管和钢筋连接结构及其构造方法
    • KR1020090093585A
    • 2009-09-02
    • KR1020080019186
    • 2008-02-29
    • 서울주택도시공사명화엔지니어링 주식회사(주)엠씨에스공법
    • 김형근강지연강석준정병석남순우이호찬이종일
    • E04B1/30
    • A joint structure between a form-less column and a MHS composite beam and a construction method thereof are provided to improve the structural performance by intensifying the integrity of the joint between the form-less column and MHS composite beam and to facilitate junction between the slim beam and form-less column by making use of bracket. A joint structure between a form-less column and a MHS composite beam comprises a form-less column(100) where L- section steels(110) are placed in each edge thereof and a y-shaped steel plate(120) having a predetermined thickness is welded between the L-section steels, a H-section steel(210), a pair of Styrofoam members(220) which are prepared in both lateral sides around a web(216) of the H-section steel, and plural MHS composite beams(200) which includes a concrete member(230) cast in order to cover a part of the Styrofoam member and H-section steel, and is connected to the circumference of the form-less column. In the center of the form-less column, a bracket(130) for connection with the MHS composite beam is prepared. The bracket comprises a first bracket which is respectively and closely attached to the front, rear, and both lateral surfaces of the form-less column, and a second bracket which perpendicularly protrudes toward the first bracket and is connected with the MHS composite beam.
    • 提供了无形柱和MHS复合梁之间的接头结构及其构造方法,以通过增强无形柱和MHS复合梁之间的接头的完整性来改善结构性能,并且有助于纤细之间的连接 梁和无形柱通过使用支架。 无钢柱和MHS复合梁之间的接头结构包括一个无形柱(100),其中在其每个边缘上放置有L-截面钢(110)和一个具有预定位置的Y形钢板(120) 厚度焊接在L型钢,H型钢(210),在H型钢的腹板(216)周围的两个侧面上制备的一对泡沫聚苯乙烯构件(220)和多个MHS 复合梁(200),其包括浇注以覆盖一部分泡沫聚苯乙烯构件和H型钢的混凝土构件(230),并且连接到无形柱的圆周。 在无形列的中心,准备用于与MHS复合梁连接的支架(130)。 支架包括分别紧密地附接到无形列的前后,两侧表面的第一支架和朝向第一支架垂直地突出并与MHS复合梁连接的第二支架。
    • 5. 发明公开
    • 무거푸집 기둥과 TSC 합성보의 접합부 연결구조 및 그시공방법
    • 无孔钢管和钢筋连接结构及其构造方法
    • KR1020090093561A
    • 2009-09-02
    • KR1020080019155
    • 2008-02-29
    • 서울주택도시공사명화엔지니어링 주식회사(주)센구조연구소
    • 김형근강지연강석준정병석남순우이창남박선우
    • E04B1/24E04B1/58E04B1/30E04C3/04
    • A junction connection structure between a form-less column and a TSC composite beam and a construction method thereof are provided to improve structural performance because the integrity of the spot where a form-less column and a TSC composite beam are connected is intensified. A junction connection structure between a form-less column and a TSC composite beam comprises a form-less column(100), and plural TSC composite beams(200) which are connected to the circumference of the form-less column. In the form-less column, L-section steels(110) are arranged in each edge thereof and a y-shaped steel plate(120) having a predetermined thickness is welded between the L-section steels. In the center of the form-less columns, where the TCS composite beam is attached, a reinforcement plate for reinforcing the lateral strength of the form-less column is prepared. Joint steel plates(140,160) for connection with the TSC composite beam are prepared outside the form-less column.
    • 提供无形列和TSC复合梁之间的结连接结构及其构造方法,以提高结构性能,因为增强了无形列和TSC复合梁连接的点的完整性。 无形列和TSC复合梁之间的结连接结构包括无形列(100)和连接到无形列圆周的多个TSC复合梁(200)。 在无形列中,在其每个边缘上布置有L型钢(110),并且在L型钢之间焊接具有预定厚度的y形钢板(120)。 在连接TCS复合梁的无形柱的中心,制备用于增强无形柱的横向强度的加强板。 用于与TS​​C复合梁连接的联合钢板(140,160)在无形柱外面制备。
    • 6. 发明公开
    • 무거푸집 기둥과 iTECH 합성보의 접합부 연결구조 및그 시공방법
    • 无孔钢管和钢筋连接结构及其构造方法
    • KR1020090093524A
    • 2009-09-02
    • KR1020080019085
    • 2008-02-29
    • 서울주택도시공사명화엔지니어링 주식회사(주) 동양구조안전기술
    • 김형근강지연강석준정병석남순우정광량우운택김도현
    • E04B1/24E04B1/58E04B1/30
    • A junction connection structure between a form-less column and an iTECH composite beam and a construction method thereof are provided to improve structural performance and to shorten the construction period because the integrity of the junction between form-less column and iTECH composite beam are intensified. A junction connection structure between a form-less column and an iTECH composite beam comprises a form-less column(100) wherein L-section steels(110) are arranged in each edge and a Y-shaped steel plate(120) having a predetermined thickness is welded between L-section steels, a top flange, a bottom flange of which of the width is wider than the top flange, and a web connecting the top flange and bottom flange. Plurality web holes are formed along the web at the same interval. In addition, the structure comprises plurality iTECH composite beams(200) connected to the circumference of the form-less column, and a joining device(300) which includes a body formed with the rectangular tube and a bracket protruding from four sides of the body and connects the iTECH composite beam to the form-less column.
    • 提供无形列和iTECH复合梁之间的结连接结构及其构造方法,以提高结构性能并缩短施工周期,因为无形列和iTECH复合梁之间的连接的完整性增强。 无形柱和iTECH复合梁之间的接合连接结构包括一个无形柱(100),其中L形钢(110)布置在每个边缘中,并且具有预定的Y形钢板(120) 厚度在L型钢,顶部法兰,其宽度比顶部法兰宽的底部法兰之间焊接,以及连接顶部凸缘和底部凸缘的腹板。 沿着腹板以相同的间隔形成多个网孔。 此外,该结构包括连接到无形列的圆周的多个iTECH复合梁(200)和包括形成有矩形管的主体和从主体的四边突出的支架的接合装置(300) 并将iTECH复合光束连接到无形列。
    • 7. 发明授权
    • 조립 철골 철근콘크리트기둥과 수평부재의 접합구조 및이의 시공방법
    • 조립철골철근콘크리트기둥과수평의접합구조및이의시공방
    • KR100648376B1
    • 2006-11-24
    • KR1020050121617
    • 2005-12-12
    • 대한주택공사서울주택도시공사명화엔지니어링 주식회사(주)센구조연구소
    • 윤영호김상연이수진강지연김형근이창신남순우강석태이창남김성배함정태
    • E04B1/30
    • A joint structure of a prefabricated steel frame reinforced concrete column and a horizontal member is provided to improve structural efficiency by reinforcing the unity of a joint of a column the vertical member and a beam or a slab the horizontal member. A joint structure of a prefabricated steel frame reinforced concrete column and a horizontal member contains a prefabricated steel frame column(100) formed by assembling shape members(110) and steel plates(120), column reinforcement bars(210,220) composed of vertical reinforcement bars and tie bars and arranged on the outside of the prefabricated steel frame column, horizontal reinforcement bars(200) arranged to the inside of the prefabricated steel frame column through an opening formed on a joint of a column(C) and a horizontal member(H), and concrete(300) placed inside/outside the prefabricated steel frame column and the horizontal reinforcement bars to make the prefabricated steel frame column, the column reinforcement bars and the horizontal reinforcement bars buried to complete a column in a prefabricated steel frame reinforced concrete column and to unify a column and a horizontal member.
    • 提供预制钢框架钢筋混凝土柱和水平构件的连接结构,以通过加强柱的垂直构件与梁或水平构件的连接处的单一性来提高结构效率。 预制钢框架钢筋混凝土柱和水平构件的连接结构包括:由形状构件(110)和钢板(120)组装而成的预制钢框架柱(100),由垂直钢筋构成的柱钢筋条(210,220) (C)和水平构件(H)的接合处形成的开口布置在预制钢框架柱的内部的水平加强杆(200),所述水平加强杆(200)在预制钢骨架柱 )和混凝土(300)放置在预制钢框架柱和水平加强杆的内部/外部以制造预制钢框架柱,加固柱加强筋和水平加强筋以填充预制钢框架钢筋混凝土柱 列和统一列和水平成员。
    • 8. 发明授权
    • 강판을 ㄱ형강 내측에 접합한 콘크리트 충전용 박스형조립기둥의 제작방법
    • 강판을ㄱ형강내측에접합한콘크리트충전용박스형조립기둥의제작방강판
    • KR100639293B1
    • 2006-10-27
    • KR1020050076625
    • 2005-08-22
    • 대한주택공사서울주택도시공사명화엔지니어링 주식회사(주)센구조연구소
    • 윤영호김상연이수진김형근이창신남순우강석태이창남김성배
    • E04C3/34E04C3/36E04B1/16
    • A method of manufacturing a concrete filling box-shaped assembly pillar jointed with a steel plate in an L-steel is provided to improve the neat external beauty according as the junction area is not exposed to the outside. A method of manufacturing a concrete filling box-shaped assembly pillar jointed with a steel plate(120) in an L-steel(110) is composed of a step(a) of manufacturing a first surface by separating two L-steels, placing the steel plate between the two L-steels, and jointing the steel plate at the L-steels inside; a step(b) of manufacturing a second surface by separating two first assembly members(130) to face each other; a step(c) of manufacturing a third surface by fitting the steel plate between two separated first assembly members, placing the steel plate in the L-steel of the first assembly member, and jointing the steel plate at the L-steel inside; and a step(d) of completing the box-shaped assembly pillar by repeating the step(c) and closing the last one surface with the steel plate.
    • 提供一种制造与L钢中的钢板接合的混凝土填充箱形组装立柱的方法,以改善整洁的外部美感,因为接合区域不暴露于外部。 一种制造与L钢(110)中的钢板(120)接合的混凝土填充箱形组装立柱的方法,包括以下步骤(a):通过分离两个L钢制造第一表面, 在两个L型钢之间的钢板上,并在内部的L型钢上接合钢板; 通过分离两个第一组装构件(130)以彼此面对来制造第二表面的步骤(b) 通过将钢板装配在两个分离的第一组装构件之间,将钢板放置在第一组装构件的L钢中,并将钢板在L钢内部接合来制造第三表面的步骤(c) 以及通过重复步骤(c)并用钢板封闭最后一个表面来完成箱形组装柱的步骤(d)。
    • 9. 发明授权
    • y형강판 띠 기둥 = y형 띠 기둥
    • y型钢板支柱= y型支柱
    • KR100588393B1
    • 2006-06-09
    • KR1020040102058
    • 2004-12-06
    • 대한주택공사서울주택도시공사(주)센구조연구소명화엔지니어링 주식회사
    • 윤영호김상연이수진김형근이창신남순우강석태이창남김성배
    • E04C3/34
    • 최근 개발한 강콘크리트 보(강판 영구거푸집이 철근 역할을 겸하는 TSC 보, 이하 TSC 보)의 우수성이 알려져서 널리 확산되고 있으나 이와 어울리는 기둥이 개발되지 않아 그 장점이 희석되고 있다. 강관 속에 콘크리트를 채운 콘크리트 충전강판 기둥(이하 CFT)은 원리상 TSC 보에 가장 적합한 기둥이지만 제작상의 난이도와 제작비 부담이 크므로 대형 다층(多層) 건물에서만 적용하고 있다. 따라서 이와 기능은 같으면서도 다층 건물의 고층부 또는 소형 건물에서도 부담 없이 사용할 수 있는 저렴하고 취급이 용이한 기둥이 본 발명의 y형강판 띠 기둥(이하 y형 띠 기둥)이다.
      4 구석에 강재를 집중 배치(ㄱ형강을 적용)하고 이들 사이 4 변에 얇은 강판 (80)을 점용접하여 이룬 상자형 단면 내부에 콘크리트를 부어 넣을 때 얇은 강판이 콘크리트의 측압에 변형을 일으키면 CFT가 성립되지 못한다. 따라서 얇은 강판의 단면계수와 단면2차모멘트가 커지도록 y형 돌기를 성형하여 휨 내력과 변형 저항력을 향상(9mm 강판에 해당)시키고 돌기(32)의 웨브가 외피(31)와 이루는 각도는 콘크리트를 부어 넣을 때 공극이 생기지 않도록 비스듬하게 성형한다.
      도 3에서 y형 띠 기둥(10)은 4 개의 ㄱ형강(40) 사이에 y형강판(30)을 점용접한 상자 속에 콘크리트(60)를 채워 양생시키는 것이다. ㄱ형강 단면이 부족한 부위에는 도 4와 같이 국부적으로 철근(50)을 추가하여 기둥에 압축력과 휨모멘트가 작용할 때 기둥의 상하부분에만 더 큰 응력이 발생하는 구조역학 이론에 유연하게 대응한다.
      동일 건물에서도 하중이 큰 저층 일부에는 도 2의 기둥머리 단면처럼 위 y형 강판(30) 대신 강판(80)을 대체하면 CFT기둥과 다를 바 없는 기둥이 된다. y형 띠 기둥의 y형강판은 일반 철근콘크리트 기둥에서의 띠철근 역할을 겸한다. ㄱ형강 (40)과 외피(31)의 사이에 틈이 있으면 콘크리트가 새 나올 염려가 있으므로 외피의 보강용 부풀림이 메움제 역할을 겸하게 한다. 도 2의 기둥머리는 일반 CFT 기둥에 보를 접합하는 것과 같다.
      y형강판의 폭은 600mm 돌기(32)의 양 단부를 눌러 누름판(34)을 조성하며, 접합 후 ㄱ형강과의 접합면에 틈이 벌어지는 것을 막고 y형강판의 최하단 돌기는 끝부분을 둥글게 구부려서 상하 이음 위치에서 콘크리트가 새지 않도록 한다. y형강판의 코일 두께는 0.8mm 이상, 돌기 높이는 35mm, 간격은 150mm로 한다.
    • 最近开发了一种钢筋混凝土梁的优越性(钢永久模具TSC束,也作为一个加强梁,以下TSC角色)alryeojyeoseo了广泛的传播,但已经与这匹配支柱尚未开发的优势稀释。 填充有在钢管(以下,CFT)混凝土钢管混凝土已被应用于仅在最合适的列,但大的多层(多层)和建立在生产原理TSC光束较大的生产成本负担的难度。 因此,本发明的y形钢板支柱(以下称为y型支柱)是一种便宜且易于操作的支柱,
    • 10. 发明授权
    • 아연도강판 편면 분체도장기
    • 아연도강판편면분체도장기
    • KR100753549B1
    • 2007-08-30
    • KR1020070017403
    • 2007-02-21
    • 명화엔지니어링 주식회사
    • 남순우
    • E04B5/40E04C2/08
    • A powder coating machine for one side of a galvanized steel sheet is provided to secure excellent paint quality and to increase durability of a galvanized steel sheet by powder-painting one side of a galvanized steel sheet while laying on the side. The powder coating machine for one side of a galvanized steel sheet(S) used as a permanent form for concrete building construction includes a transfer device(200) composed of a primary transfer portion(210) connected from the front end to a paint spray booth to place a galvanized steel sheet in the widthwise direction and to transfer in the longitudinal direction and a secondary transfer portion(220) connected from a drying furnace to the end to place a galvanized steel sheet in the longitudinal direction and to transfer in the widthwise direction, a paint spray booth(300) installed in the middle of the transfer device to spray powder paints on the upper surface of the galvanized steel sheet transferred by the transfer device and composed of a powder paint spray portion formed on the front to spray powder paints, an air injection portion formed on the rear to jet out air to the top and bottom of the galvanized steel sheet and a collecting portion formed under the powder paint portion and the air injection portion, a drying furnace(400) installed on the rear of the transfer device to apply heat and dry the galvanized steel sheet covered with the powder paints, a pre-processing device(100) installed on the front of the transfer device to pre-treat the upper surface of a galvanized steel sheet before the galvanized steel sheet put on the transfer device passes through the paint spray booth, and a cooling device(500) installed on the end of the transfer device to cool down the galvanized steel sheet passed through the drying furnace.
    • 本发明提供一种用于镀锌钢板单面的粉末涂布机,以确保优异的涂料质量,并通过在侧面铺设镀锌钢板的一面进行粉末涂装来提高镀锌钢板的耐久性。 用作混凝土建筑结构永久形式的镀锌钢板(S)一侧的粉末涂料机包括由一次转印部分(210)构成的转印装置(200),该转印部分从前端连接到喷漆室 以沿横向放置镀锌钢板并沿纵向传送镀锌钢板,以及从干燥炉连接到端部的二次转印部分(220),以沿纵向放置镀锌钢板并沿宽度方向 ,安装在转移装置中间的喷漆室(300),用于在由转移装置转移的镀锌钢板的上表面上喷涂粉末涂料,并由在前面形成的粉末涂料喷射部分组成,以喷涂粉末涂料 ,在后部形成的空气喷射部分以将空气喷射到镀锌钢板的顶部和底部,以及形成在粉末涂料部分a下方的收集部分 和空气喷射部分;安装在传送装置后部的干燥炉(400),用于加热并干燥覆盖有粉末涂料的镀锌钢板;预处理装置(100),其安装在传送装置的前部 在镀锌钢板穿过转移装置之前对镀锌钢板的上表面进行预处理的装置以及安装在转移装置的端部上以冷却镀锌的冷却装置(500) 钢板通过干燥炉。