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公开(公告)号:KR1020150028129A
公开(公告)日:2015-03-13
申请号:KR1020130106831
申请日:2013-09-05
Applicant: 조남규
Inventor: 조남규
CPC classification number: D06F57/06 , D06F53/02 , D06F57/122 , F16F1/00
Abstract: 본 발명에 따라 안내홈(13)이 형성된 가로틀(11)과 가로틀(11)을 상하로 지지하는 세로틀(12)을 구비하는 프레임(10); 가로틀(11)의 안내홈(13)에 좌우 이동 가능하게 장착되는 개폐대(20); 개폐대(20)와 일측의 세로틀(12) 사이에 가로틀(11)의 안내홈(13)을 따라 좌우 이동 및 회전 가능하게 장착되는 권취봉(30); 일측의 세로틀(12)과 권취봉(30)의 사이 및 권취봉(30)과 개폐대(20) 사이에 결속하고, 개폐대(20)의 좌우 이동에 따라 권취봉(30)에 대해 감기고 풀림으로써 걷고 펼쳐지는, 세탁물을 널기 위한 빨랫줄(40); 빨랫줄(40)이 권취봉(30)에 감기는 쪽으로 권취봉(30)에 회전력을 가하는 권취스프링(50); 및 개폐대(20)를 타측의 세로틀(12)에 구속하여 빨랫줄(40)이 펼쳐져 있는 상태를 유지하는 잠금기구(60); 를 포함하며, 실내에서의 점유공간을 줄일 수 있고, 사용하고자 할 때에는 빨랫줄을 풀어 펼쳐서 세탁물을 널 수 있으면서 사용하지 않을 때에는 빨랫줄을 감아서 걷어 놓을 수 있는, 개폐식 세탁물 건조대(1)가 제공된다.
Abstract translation: 本发明提供一种打开和关闭型衣物干燥架(1),其包括具有水平框架(11)的框架(10),所述框架具有引导槽(13),垂直框架(12)垂直地支撑水平框架 ); 安装在所述水平框架(11)的所述引导槽(13)上以可向左和向右移动的打开和关闭杆(20); 绕组杆(30),其安装成能够左右移动并沿着开闭杆(20)和一个垂直框架(12)之间的水平框架(11)的引导槽(13)旋转; 固定在一个垂直框架(12)和卷绕杆(30)之间的衣物的干燥衣物(40),以及卷绕条(30)和打开和关闭杆(20),并缠绕并卷绕在绕组 杆(30)在打开和关闭杆(20)的左右运动时被折叠或展开; 卷绕弹簧(50),其向卷绕条(30)施加旋转力朝向卷绕晾衣绳(40)的方向; 以及锁定装置(60),其将所述开闭杆(20)紧固到另一侧的垂直框架(12),并且保持未展开的晾衣绳(40)的状态。 因此,本发明提供一种打开和关闭型衣物干燥架(1),其能够减少室内的占用空间,并且当干燥架使用时通过展开晾衣绳来干燥衣物,并通过卷绕来折叠架子 干衣架不使用时的晾衣绳。
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公开(公告)号:KR100855759B1
公开(公告)日:2008-09-01
申请号:KR1020070026578
申请日:2007-03-19
Applicant: 조남규
Inventor: 조남규
CPC classification number: Y02W30/62 , B29B17/02 , B02C23/14 , B29B17/04 , B29B2017/0224 , B29B2017/0272 , B29B2017/0416 , B29B2017/0468
Abstract: A cooling pulverization apparatus is provided to prevent frost from being formed on the surface of a cooler by making the cooler in the triple vacuum insulation structure and to minimize the loss of cold air. In a cooling pulverization apparatus for cutting waste polymer resin, cooling down the cut waste polymer resin(13) by liquid nitrogen in a cooler(11) having a screw(17), pulverizing the waste polymer resin by a pulverizer(18), and separating the pulverized waste polymer resin and metal, the cooler having each vacuum space triply formed between cylindrical pipes is installed in multiple stages. A discharge port(16) is formed at one side of the multiple-stage cooler. The cut polymer resin transferred and dropped by the screw is pulverized in the pulverizer. And then, polymer resin powder and metal are separated in a separator(19).
Abstract translation: 提供一种冷却粉碎装置,通过在三重真空绝热结构中制造冷却器并防止冷空气的损失,来防止在冷却器的表面上形成结霜。 在用于切割废聚合物树脂的冷却粉碎装置中,通过液氮在具有螺杆(17)的冷却器(11)中冷却切割的废聚合物树脂(13),通过粉碎机(18)粉碎废聚合物树脂,以及 分离粉碎的废聚合物树脂和金属,在多个阶段之间安装具有在圆柱形管之间形成的每个真空空间的冷却器。 排出口(16)形成在多级冷却器的一侧。 通过螺杆转移和滴落的切割的聚合物树脂在粉碎机中粉碎。 然后,在分离器(19)中分离聚合物树脂粉末和金属。
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公开(公告)号:KR1020020072925A
公开(公告)日:2002-09-19
申请号:KR1020010012989
申请日:2001-03-13
IPC: B24B1/00
Abstract: PURPOSE: A mold finishing automation apparatus is provided to process a complicated mold surface by adding three location freedom degrees and controlling two location freedom degrees and one force freedom degree. CONSTITUTION: A housing(40) includes a main shaft(11), a first driver(10), and a second driver(25). The main shaft(11) is rotatively fixed and connected to a computer numerical control machine tool. The main shaft(11) is mounted and connected to a collet chuck of a computer numerical control machine tool. The first driver(10) is connected to the main shaft(11) through a first connector(12). The first connector(12) includes a belt. One side of the belt is connected to the main shaft(11) and another side of the belt is connected to a rotating shaft(10a). The belt rotates the housing(40) by an operation of the first driver(10). The second driver(25) is connected to a polishing tool(30) through a second connector(20) and rotates the polishing tool(30) at a plane perpendicular to a working surface.
Abstract translation: 目的:提供一种模具精加工自动化设备,通过添加三个位置自由度并控制两个位置自由度和一个自由度来处理复杂的模具表面。 构成:壳体(40)包括主轴(11),第一驱动器(10)和第二驱动器(25)。 主轴(11)旋转固定并连接到计算机数控机床上。 主轴(11)安装并连接到计算机数控机床的夹头卡盘。 第一驱动器(10)通过第一连接器(12)连接到主轴(11)。 第一连接器(12)包括带。 带的一侧连接到主轴(11),带的另一侧连接到旋转轴(10a)。 带通过第一驱动器(10)的操作旋转壳体(40)。 第二驱动器(25)通过第二连接器(20)连接到抛光工具(30),并且在垂直于工作表面的平面上旋转抛光工具(30)。
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Patent Agency Ranking
公开(公告)号:KR100417642B1
公开(公告)日:2004-02-05
申请号:KR1020010012989
申请日:2001-03-13
IPC: B24B1/00
Abstract: PURPOSE: A mold finishing automation apparatus is provided to process a complicated mold surface by adding three location freedom degrees and controlling two location freedom degrees and one force freedom degree. CONSTITUTION: A housing(40) includes a main shaft(11), a first driver(10), and a second driver(25). The main shaft(11) is rotatively fixed and connected to a computer numerical control machine tool. The main shaft(11) is mounted and connected to a collet chuck of a computer numerical control machine tool. The first driver(10) is connected to the main shaft(11) through a first connector(12). The first connector(12) includes a belt. One side of the belt is connected to the main shaft(11) and another side of the belt is connected to a rotating shaft(10a). The belt rotates the housing(40) by an operation of the first driver(10). The second driver(25) is connected to a polishing tool(30) through a second connector(20) and rotates the polishing tool(30) at a plane perpendicular to a working surface.
Abstract translation: 目的:提供一种模具精加工自动化设备,通过增加三个位置自由度并控制两个位置自由度和一个力自由度来处理复杂的模具表面。 构成:壳体(40)包括主轴(11),第一驱动器(10)和第二驱动器(25)。 主轴(11)旋转固定并与计算机数控机床连接。 主轴(11)安装并连接到计算机数控机床的夹头卡盘上。 第一驱动器(10)通过第一连接器(12)连接到主轴(11)。 第一连接器(12)包括带。 皮带的一侧连接到主轴(11),皮带的另一侧连接到旋转轴(10a)。 带通过第一驱动器(10)的操作使壳体(40)旋转。 第二驱动器(25)通过第二连接器(20)连接到抛光工具(30)并且在垂直于工作表面的平面处旋转抛光工具(30)。
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公开(公告)号:KR100401692B1
公开(公告)日:2003-10-17
申请号:KR1020010012991
申请日:2001-03-13
IPC: B24B49/00
Abstract: PURPOSE: A mold polishing monitoring method is provided to indirectly confirm an approximate surface roughness at present. CONSTITUTION: A user inputs variables in an optimal processing condition of a processed object in a mold polishing controller(S110). An optimal processing condition is obtained according to an optimization algorithm and the obtained polishing processing condition is guided to the user(S120). A surface roughness estimated when the processed object is processed is guided to the user(S130). A polishing process condition which the user has presented is approved(S140). When the polishing process condition which the user has presented is approved, a mold polishing process starts by the presented processing condition(S150). A current process state is displayed(S160). When the polishing process condition which the user has presented is not approved, the user directly selects a polishing processing condition(S170). An estimate value of the surface roughness according to a process state is guided to the user according to the polishing process condition selected by the user(S180).
Abstract translation: 目的:提供一种模具抛光监测方法,以间接确认目前的近似表面粗糙度。 组成:用户在模具抛光控制器中输入处理对象的最佳处理条件中的变量(S110)。 根据优化算法获得最佳处理条件,并将获得的抛光处理条件引导至用户(S120)。 当处理加工对象时估计的表面粗糙度被引导给用户(S130)。 用户已经呈现的抛光处理条件被批准(S140)。 当用户已经呈现的抛光处理条件被批准时,通过所呈现的处理条件开始模具抛光处理(S150)。 显示当前的过程状态(S160)。 当用户所呈现的抛光处理条件未被批准时,用户直接选择抛光处理条件(S170)。 根据用户选择的抛光处理条件将根据处理状态的表面粗糙度的估计值引导给用户(S180)。
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公开(公告)号:KR1020020072927A
公开(公告)日:2002-09-19
申请号:KR1020010012991
申请日:2001-03-13
IPC: B24B49/00
Abstract: PURPOSE: A mold polishing monitoring method is provided to indirectly confirm an approximate surface roughness at present. CONSTITUTION: A user inputs variables in an optimal processing condition of a processed object in a mold polishing controller(S110). An optimal processing condition is obtained according to an optimization algorithm and the obtained polishing processing condition is guided to the user(S120). A surface roughness estimated when the processed object is processed is guided to the user(S130). A polishing process condition which the user has presented is approved(S140). When the polishing process condition which the user has presented is approved, a mold polishing process starts by the presented processing condition(S150). A current process state is displayed(S160). When the polishing process condition which the user has presented is not approved, the user directly selects a polishing processing condition(S170). An estimate value of the surface roughness according to a process state is guided to the user according to the polishing process condition selected by the user(S180).
Abstract translation: 目的:提供模具抛光监测方法,以间接证实目前的近似表面粗糙度。 构成:用户在模具抛光控制器中处理对象的最佳处理条件下输入变量(S110)。 根据优化算法获得最佳处理条件,并将获得的抛光处理条件引导至用户(S120)。 将被处理物体处理时估计出的表面粗糙度引导到用户(S130)。 用户已经呈现的抛光工艺条件被批准(S140)。 当用户提出的抛光工艺条件被批准时,模具抛光过程从呈现的处理状态开始(S150)。 显示当前进程状态(S160)。 当用户提出的抛光处理条件未被批准时,用户直接选择抛光处理条件(S170)。 根据用户所选择的抛光处理条件,将根据处理状态的表面粗糙度的估计值引导到用户(S180)。
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公开(公告)号:KR1020020072926A
公开(公告)日:2002-09-19
申请号:KR1020010012990
申请日:2001-03-13
IPC: B23Q3/155
Abstract: PURPOSE: An automatic exchange apparatus of a mold polishing tool is provided to save wastes of an unnecessary time and a human strength required in an exchange of a polishing tool by automatically exchanging a polishing tool. CONSTITUTION: A plurality of polishing tool receiving portions is formed at a magazine(10). The magazine includes a lower plate, a side plate, a drive plate, and upper plates. The lower plate includes a support member(14a) and an intercepting plate(15). The intercepting plate(15) is fixed to an upper portion of the support member(14a). A driver opens and closes opening portions of polishing tool receiving portions. An upper portion of an adapter(20) is fixed to a rotating shaft of a computer numerical control machine tool. The computer numerical control machine tool rotates a polishing tool(30). The polishing tool(30) is connected to a lower portion of the adapter(20). An upper end of the polishing tool(30) is inserted into the adapter(20) and a polishing portion(40) is detachably formed at a lower end of the polishing tool(30).
Abstract translation: 目的:提供一种模具抛光工具的自动更换装置,用于通过自动更换抛光工具来节省交换抛光工具所需的不必要的时间和人力的浪费。 构成:在料盒(10)上形成有多个研磨工具接收部。 盒子包括下板,侧板,驱动板和上板。 下板包括支撑构件(14a)和拦截板(15)。 拦截板(15)固定在支撑部件(14a)的上部。 驱动器打开和关闭抛光工具接收部分的开口部分。 适配器(20)的上部固定在计算机数控机床的旋转轴上。 计算机数控机床旋转抛光工具(30)。 抛光工具(30)连接到适配器(20)的下部。 抛光工具(30)的上端插入适配器(20)中,抛光部分(40)可拆卸地形成在抛光工具(30)的下端。
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