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    • 41. 发明授权
    • 편심캠의 제조방법
    • 制造偏心凸轮的方法
    • KR101253087B1
    • 2013-04-12
    • KR1020120042129
    • 2012-04-23
    • 주식회사신스윈양재부
    • 양재부
    • B23P15/00B23P23/02B23B39/04B23B31/10
    • B23P15/00B23B31/10B23B39/04B23P23/02
    • PURPOSE: A method for manufacturing an eccentric cam is provided to eccentrically machine a work-piece chucked on a main chuck without moving the work-piece in order to avoid changing a referential axis for machining, thereby reducing a cumulative machining tolerance. CONSTITUTION: A method for manufacturing an eccentric cam includes: a step of exposing the holder part of the eccentric bore machining tool of a sub-tool rest so that the holder part can be capable of being chucked by a sub-chuck; a step(S1) of chucking a round rod work-piece on a main chuck; a step(S2) of rotating the main chuck, and partially machining the outer diameter of the round rod work-piece with the tool of a main tool rest; a step(S5) of chucking the eccentric bore machining tool of the sub-tool rest on the sub-chuck; a step(S6) of allowing the main chuck and the sub-chuck to deviate from each other as much as the eccentric amount of the eccentric cam, stopping the rotation of the main chuck, and then allowing the sub-chuck to rotate and approach the work-piece in order to machine the eccentric bore; a step(S7) of returning the eccentric bore machining tool to the sub-tool rest; a step(S8) of chucking the work-piece, which is chucked on the main chuck, on the sub-chuck; a step(S9) of simultaneously rotating the main chuck and the sub-chuck in order to cut the work-piece with the cutting tool of the main tool rest; and a step(S11) of implementing a final machining on the work-piece chucked on the sub-chuck with a final machining tool supported by the sub-tool rest. [Reference numerals] (AA) Start; (BB) End; (S1) Arranging a tool on a tool rest; (S10) Machining a main groove; (S11) Implementing final machining and ejecting; (S2) Chucking a work-piece on a main chuck; (S3) Machining the outer periphery; (S4) Drilling a pin hole/fueling hole; (S5) Chucking an inner periphery machining tool; (S6) Machining an eccentric inner periphery; (S7) Returning an eccentric inner periphery machining tool; (S8) Chucking the work-piece with a sub-chuck; (S9) Cutting the rear end;
    • 目的:提供一种用于制造偏心凸轮的方法,用于使夹持在主卡盘上的工件偏心加工而不移动工件,以避免改变用于加工的参考轴线,从而减小累积加工公差。 构成:一种用于制造偏心凸轮的方法包括:使辅助工具架的偏心孔加工工具的保持器部分露出的步骤,使得保持器部分能够被副卡盘夹紧; 将圆棒工件卡在主卡盘上的台阶(S1) 旋转主卡盘的步骤(S2),并用主工具的工具部分地加工圆棒工件的外径; 将子工具的偏心孔加工工具夹紧在副卡盘上的工序(S5) 允许主卡盘和副卡盘与偏心凸轮的偏心量一样偏离的步骤(S6),停止主卡盘的旋转,然后允许副卡盘旋转并接近 工件为了加工偏心孔; 将所述偏心孔加工工具返回到所述副刀架的台阶(S7); 将夹在主卡盘上的工件夹紧在副卡盘上的步骤(S8); 步骤(S9),同时旋转主卡盘和副卡盘,以便用主工具架的切割工具切割工件; 以及通过由副刀架支撑的最终加工工具对夹紧在副卡盘上的工件进行最终加工的步骤(S11)。 (附图标记)(AA)开始; (BB)结束; (S1)在刀架上安排刀具; (S10)加工主槽; (S11)实施最终加工和喷射; (S2)将主工件上的工件夹住; (S3)加工外周; (S4)钻孔/加油孔; (S5)夹紧内周加工工具; (S6)加工偏心内周; (S7)返回偏心内周加工工具; (S8)用亚卡盘夹住工件; (S9)切割后端;
    • 43. 发明公开
    • 공작물 내경 가공 6축 씨엔씨 복합 가공기
    • 组合式数控加工机用于手工微型直径的6轴加工
    • KR1020120138400A
    • 2012-12-26
    • KR1020110057852
    • 2011-06-15
    • 권오현
    • 권오현
    • B23P23/02B23P23/04B23B39/04B24B33/02
    • B23P23/02B23B39/04B23P23/04B24B33/02
    • PURPOSE: A 6-axis CNC(Computer Numerical Control) complex machine for processing an internal side of a work piece is provided to concurrently process massive work pieces and to accurately control the rotation of tools by a servo motor. CONSTITUTION: A 6-axis CNC(Computer Numerical Control) complex machine for processing an internal side of a work piece comprises servo motors(6,3) for rotating and transferring a honing tool, a servo motor(4) for controlling a grindstone of the honing tool, X and Y servo motors(9,10), and a finishing grindstone(14). The X, and Y servo motors transfer slides adhered to a horning tool(8), and screw tool holders for milling, grinding, and boring are fixed by the X and Y servo motors. The auxiliary milling, grinding, and polishing are performed by the servo motor for tool rotation. [Reference numerals] (AA) Diagrams for (1)-(8); (BB) Rough machined grindstone; (CC) Attaching 2,3,4,5,6,7 on a 1 shaft; (DD) Grindstones is pushed out through a ball screw of (2) by rotation of (3); (EE) Grindstones is pushed out through a ball screw of (5) by rotation of (4); (FF) Tool of (8) is rotated by rotation of (6); (GG) Electricity, hydraulic pressure, and pneumatic are supplied to a supply device by the rotation of (7); (HH) Horning tool main body; (II) Circular linear interpolation controlling principle CNC3 axis
    • 目的:提供用于处理工件内侧的6轴CNC(计算机数控)复合机,以同时处理大量工件,并通过伺服电机精确控制工具的旋转。 构成:用于处理工件内侧的6轴CNC(计算机数控)复合机包括用于旋转和传送珩磨工具的伺服电动机(6,3),用于控制珩磨工具的磨石的伺服电动机(4) 珩磨工具,X和Y伺服电机(9,10)和精加工磨石(14)。 X和Y伺服电机将滑块粘贴到珩磨工具(8),用于铣削,磨削和镗孔的螺丝刀架由X和Y伺服电机固定。 辅助铣削,磨削和抛光由伺服电机进行,用于刀具旋转。 (附图标记)(AA)(1) - (8)的图; (BB)粗加工磨石; (CC)在1轴上安装2,3,4,5,6,7; (DD)通过(3)的旋转通过(2)的滚珠丝杠将砂轮推出; (EE)通过(4)的旋转将砂轮通过(5)的滚珠丝杠推出; (FF)(8)的刀具通过(6)的旋转而旋转; (GG)通过旋转(7)将电力,液压和气动供给到供应装置; (HH)Horning工具主体; (二)圆弧线性插补控制原理CNC3轴
    • 44. 发明公开
    • 고강성 복합가공기
    • 高刚性多用途制造设备
    • KR1020120084909A
    • 2012-07-31
    • KR1020110006225
    • 2011-01-21
    • 두산공작기계 주식회사
    • 하현표
    • B23Q1/01B23B3/06B23P23/02B23B5/00B23C3/00B23Q1/70B23Q11/00
    • B23Q1/017B23B3/065B23P23/02B23B5/00B23C3/00B23Q1/70B23Q11/0032
    • PURPOSE: A high-rigidity multipurpose manufacturing apparatus is provided to increase overall rigidity by having a shape in which an end part locating in a bed and a saddle is gradually increased as goes to the rear end. CONSTITUTION: A high-rigidity multipurpose manufacturing apparatus comprises a bed(400), a saddle(300), a column(100), and a machining shaft(200). Z-axial guide ways(Z1,Z2) are arranged on the bed in a longitudinal direction. The saddle laterally comprises Y-axial guide ways(Y1,Y2) vertical to the longitudinal direction. The saddle transfers along the Z-axial guide ways to the longitudinal direction of the bed. The column vertically comprises X-axial guide ways(X1,X2) vertical to the longitudinal direction. The column is installed on the saddle and transfers along the Y-axial guide ways to the lateral direction. The machining shaft is arranged in the front of the column and ascends and descends along the X-axial guide ways.
    • 目的:提供一种高刚性多用途制造装置,通过具有如下形状来提高总体刚度,其中定位在床和鞍座中的端部朝向后端逐渐增加。 构成:高刚性多用途制造装置包括床(400),鞍座(300),柱(100)和加工轴(200)。 Z轴导向(Z1,Z2)沿纵向布置在床上。 鞍座横向包括垂直于纵向的Y轴导向(Y1,Y2)。 鞍座沿着Z轴导向方向转移到床的纵向。 该柱垂直地包括垂直于纵向方向的X轴导向(X1,X2)。 柱安装在鞍座上,并沿Y轴导向方向向横向传送。 加工轴设置在立柱的前部,并沿X轴导向上升和下降。
    • 45. 发明授权
    • 금형의 내측면을 가공할 수 있는 금형가공장치
    • 工作内部加工设备
    • KR101167844B1
    • 2012-07-24
    • KR1020110015407
    • 2011-02-22
    • 한국생산기술연구원
    • 고현준박균명이상철김성규
    • B23P23/02B23P15/00B23C1/10B23Q17/24
    • B23B47/26B23P23/02B23Q17/2409
    • PURPOSE: A mold machining apparatus for processing the inside of a mold is provided to freely process the inner side of the mold into the desirable shape as the inner side of an object is processed by a sub machining unit coupled to the side of a main machining unit. CONSTITUTION: A mold machining apparatus(100) for processing the inside of a mold comprises a main machining unit(110) and one or more sub machining units(120). The main machining unit comprises a constant length in one direction. A tool(200) for processing the mold is mounted to one end of the main machining unit. The tool for processing the mold is mounted to one end of the sub machining unit. The sub machining unit is rotated around the other end of the sub machining unit and processes the inner surface of the mold. A groove is formed on the side of the main machining unit and the sub machining unit is inserted into the groove. The main and sub machining units are inserted inside the mold and the inner surface of the mold is processed.
    • 目的:提供一种用于加工模具内部的模具加工装置,用于将模具的内侧自由地处理成期望的形状,因为物体的内侧由连接到主加工侧的副加工单元 单元。 构成:用于处理模具内部的模具加工装置(100)包括主加工单元(110)和一个或多个副加工单元(120)。 主加工单元在一个方向上具有恒定的长度。 用于加工模具的工具(200)安装在主加工单元的一端。 用于加工模具的工具安装在副加工单元的一端。 辅助加工单元围绕副加工单元的另一端旋转并处理模具的内表面。 在主加工单元的侧面上形成有凹槽,并且将子加工单元插入凹槽中。 将主加工单元和副加工单元插入模具内,并对模具的内表面进行加工。
    • 48. 发明授权
    • 대형 선박의 엔진용 구조물을 가공하기 위한 가공방법
    • 大型船舶发动机结构方法
    • KR100819429B1
    • 2008-04-04
    • KR1020060125282
    • 2006-12-11
    • 일진기계(주)
    • 전영도박인규
    • B23P13/00B23P15/00
    • B23P23/02B60K5/12
    • A method for processing a structure for an engine for a large ship is provided to employ a set-up fixture member such that a bed plate is vertically installed when processing a frame box. A bed plate(120) is set in a first table(211) of a horizontal boring machine(210) such that a bottom surface(121) of the bed plate is vertical to the ground. A block is inserted into a cylinder of the bed plate in order to prevent the bed plate from sagging. The bed plate is subject to a face milling process or a hole forming process by using the horizontal boring machine. The bed plate is rotated by using a moving unit, so that the bottom surface of the bed plate faces to the second table of a planer miller. All surfaces of the bed plate are processed by using the planer miller except for the bottom surface of the bed plate.
    • 提供一种用于处理大型船用发动机的结构的方法,以采用设置固定构件,使得在处理框架框时垂直安装床板。 床板(120)设置在卧式镗床(210)的第一台(211)中,使得床板的底表面(121)垂直于地面。 将块插入床板的圆筒中以防止床板下垂。 通过使用卧式镗床对床板进行面铣加工或孔加工。 床板通过使用移动单元旋转,使得床板的底表面面对刨机的第二台。 床板的所有表面均采用平面铣刀加工,除了床板底面以外。
    • 49. 发明公开
    • 차량용 패널의 언더컷 가공장치
    • 用于车辆面板的切割制造系统
    • KR1020070004210A
    • 2007-01-09
    • KR1020050059621
    • 2005-07-04
    • 기아자동차주식회사
    • 전인석
    • B23P13/00B23P15/00
    • B23P23/02B30B13/00
    • An under-cut manufacturing system for a panel of a vehicle is provided to simplify manufacturing process and reduce a manufacturing cost by performing two under cut process at the same time in one manufacturing system. In an under-cut manufacturing system for a panel of a vehicle, a base frame(10) is at the bottom of the system. A first under-cut manufacturing apparatus(14) fabricates a first under-cut on a panel and is mounted on an upper part of the base frame. A second under-cut manufacturing apparatus(16) fabricates a second under-cut on a panel and is mounted on a lower part of the base frame.
    • 提供了一种用于车辆面板的切割制造系统,以通过在一个制造系统中同时执行两个切割过程来简化制造过程并降低制造成本。 在用于车辆面板的切割下制造系统中,基架(10)位于系统的底部。 第一下切制造装置(14)在面板上制造第一次切割并安装在基架的上部。 第二底切制造装置(16)在面板上制造第二下切,并安装在基架的下部。
    • 50. 发明公开
    • 랙바가공시스템
    • 加工机架系统
    • KR1020000026134A
    • 2000-05-15
    • KR1019980043519
    • 1998-10-17
    • 주식회사 한라홀딩스
    • 이상은
    • B23P23/00
    • B23P23/02B23P13/02B23P2700/50
    • PURPOSE: A system is provided to process the air hole of a rack bar and to remove burrs when processing the slot groove of the rack bar. CONSTITUTION: A system installs a frame assay(12) for supporting each device on the upper part of a bas assay(10) equipping with many racks in the lower part, a carrier assay(14) loading and transferring a rack bar(100) on the upper part, and a tooling assay(20) for processing the drill hole of the rack bar in the side of the carrier assay. The rack bar forms a slot then both sides of the slot remains burrs. A deburring assay(18) removes burrs of the slot by installing a double cutter(44) in the lower part of a column(42). Also, the front part of the rack bar installs a stopper assay to sense the inner hole. An air cylinder installed in the upper part of a stopper base, pushes a pusher.
    • 目的:提供一种系统来处理齿条的气孔,并在处理齿条的槽槽时消除毛刺。 规定:系统安装框架测定(12),用于支撑在下部配备许多机架的基础测定(10)的上部的每个设备,载体测定(14)装载和传送齿条(100) 以及用于在载体测定侧处理齿条的钻孔的工具测定(20)。 齿条形成槽,然后槽的两侧保持毛刺。 去毛刺测定(18)通过在柱(42)的下部安装双切割器(44)来消除槽的毛刺。 另外,机架杆的前部安装一个塞子测试法来感测内孔。 安装在止动器基座的上部的气缸推动推动器。