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    • 3. 发明授权
    • 스틸밴드의 디버링 장치
    • KR101776031B1
    • 2017-09-08
    • KR1020150163410
    • 2015-11-20
    • 삼환강업주식회사
    • 이선중
    • B23D79/00B23D79/02B23D79/10
    • 본발명은스틸밴드의디버링장치에관한것이다. 본발명은이를위해가변형고정다이(110); 가변형고정다이(110)의상단에구비되며, 프레임(120)과플레이트(130)의사이에일정간격으로복수개설치되어스틸밴드(100)의버(burr)를제거하는버제거수단(140); 및가변형고정다이(110)와플레이트(130)의사이에구비되며, 공간활용을위해프레임(120)과플레이트(130)의각도를조절하는버제거수단간격조절부(150);가포함된다. 상기와같이구성된본 발명은금속절단가공물인스틸밴드(steel band)의버(burr)나날카로운모서리또는이물(칩)을간단하게제거하여작업자의상해위험을미연에방지하고, 상품품질의향상을꾀할수 있도록하며, 이로인해제품의품질과신뢰성을대폭향상시키므로사용자인작업자들의다양한욕구(니즈)를충족시켜좋은이미지를심어줄수 있도록한 것이다.
    • 4. 发明公开
    • 스틸밴드의 디버링 장치
    • 钢带去毛刺装置
    • KR1020170059532A
    • 2017-05-31
    • KR1020150163410
    • 2015-11-20
    • 삼환강업주식회사
    • 이선중
    • B23D79/00B23D79/02B23D79/10
    • 본발명은스틸밴드의디버링장치에관한것이다. 본발명은이를위해가변형고정다이(110); 가변형고정다이(110)의상단에구비되며, 프레임(120)과플레이트(130)의사이에일정간격으로복수개설치되어스틸밴드(100)의버(burr)를제거하는버제거수단(140); 및가변형고정다이(110)와플레이트(130)의사이에구비되며, 공간활용을위해프레임(120)과플레이트(130)의각도를조절하는버제거수단간격조절부(150);가포함된다. 상기와같이구성된본 발명은금속절단가공물인스틸밴드(steel band)의버(burr)나날카로운모서리또는이물(칩)을간단하게제거하여작업자의상해위험을미연에방지하고, 상품품질의향상을꾀할수 있도록하며, 이로인해제품의품질과신뢰성을대폭향상시키므로사용자인작업자들의다양한욕구(니즈)를충족시켜좋은이미지를심어줄수 있도록한 것이다.
    • 钢带去毛刺装置技术领域本发明涉及一种钢带去毛刺装置。 本发明为此提供了可变固定模具110; 毛刺去除装置140,设置在可变固定模具110的上端并且以多个间隔安装在框架120与棘爪130之间以去除钢带100的毛刺; 毛刺去除装置间隙调节部分150设置在可动固定模具110和格栅130之间并且调节框架120和板130的角度以用于空间利用。 具有上述结构的本发明能够容易地去除作为金属切削工件的钢带的毛刺,尖角或水(切屑),从而防止操作者受伤的风险, 这极大地提高了产品的质量和可靠性,从而满足了作为用户的用户的各种需求,从而提供了良好的形象。
    • 7. 发明公开
    • 딤플 패턴 생성용 공구홀더 및 이를 포함하는 공구홀더 조립체
    • 用于制造尺寸图和工具夹具的工具夹具包括其中
    • KR1020140103585A
    • 2014-08-27
    • KR1020130017140
    • 2013-02-18
    • 영남대학교 산학협력단
    • 고태조쿠르니아완렌디
    • B23B29/04B23B29/12B23D79/00
    • B23B29/125B23B2260/108B23B2265/16
    • A tool holder for forming a dimple pattern is disclosed. According to the present invention, the tool holder for forming a dimple pattern is used for machining workpieces through two-dimensional vibration formed by first and second piezoelectric elements crossing each other at right angles. The tool holder comprises a first hinge part coupled to the first piezoelectric element; a second hinge part coupled to the second piezoelectric element; a rear hinge part connected to the first hinge part by a first connection part in a direction crossing at right angles in a direction where the first hinge part is coupled to the first piezoelectric element, and connected to the second hinge part by a second connection part in a direction where the second hinge part is coupled to the second piezoelectric element; and a front hinge part positioned in the opposite side of the rear hinge part, connected to the second hinge part by a fourth connection part while being connected to the first hinge part by the third connection part, and having one side to which a cutting tool is coupled. The first hinge part, the second hinge part, the rear hinge part, and the front hinge part are positioned on the same plane. The diameter of the first, second, third, and fourth connection parts is continuously decreased and then increased. The present invention can provide the tool holder appropriate to dimple machining by increasing the whole displacement of the tool holder in the cutting tool while maintaining the whole stiffness of the tool holder using the displacement occurred in the first, second, third, and fourth connection parts in a cutting process.
    • 公开了一种用于形成凹坑图案的工具架。 根据本发明,用于形成凹坑图案的工具保持器用于通过由直角相交的第一和第二压电元件形成的二维振动来加工工件。 工具架包括联接到第一压电元件的第一铰链部分; 耦合到所述第二压电元件的第二铰链部分; 后铰链部分通过第一连接部分沿与第一铰链部分联接到第一压电元件的方向成直角交叉的方向连接到第一铰链部分,并且通过第二连接部分连接到第二铰链部分 在所述第二铰链部分联接到所述第二压电元件的方向上; 以及前铰链部,其位于所述后铰链部的相对侧,通过第四连接部连接到所述第二铰链部,同时通过所述第三连接部连接到所述第一铰链部,并且具有一侧,切削工具 被耦合。 第一铰链部分,第二铰链部分,后铰链部分和前铰链部分位于同一平面上。 第一,第二,第三和第四连接部分的直径连续地减小然后增加。 本发明可以通过增加刀具在切削工具中的整体位移来提供适合于凹坑加工的刀架,同时使用在第一,第二,第三和第四连接部分中发生的位移来保持刀架的整体刚度 在切割过程中。
    • 9. 发明公开
    • 아연 도금 강판의 저항용접 방법, 아연 도금 강판 저항용접용 전극 팁의 재생 방법
    • 电镀钢板的电阻焊接方法,电镀钢丝的电极焊接及其方法
    • KR1020130066953A
    • 2013-06-21
    • KR1020110133742
    • 2011-12-13
    • 주식회사 케이씨디유겐가이샤 티엔이가부시키가이샤 티앤티테크노 야규 가부시키가이샤
    • 마츠오카마사노리
    • B23K11/16B23K11/30B24B9/04B23D79/00
    • PURPOSE: A resistance welding method of a galvanized steel sheet and a regenerating method of an electrode tip for the galvanized steel sheet resistance welding are provided to form into a canonical shape without polishing or removing a deformation part or a rubbed-off part of the electrode tip; thereby preventing the lifetime of the resistance welding of the electrode tip being shortened. CONSTITUTION: A resistance welding method of a galvanized steel sheet and a regenerating method of an electrode tip for the galvanized steel sheet resistance welding comprise the following steps. A CU-ZN alloy thin layer is formed on a front end surface of a pair of electrode tip. An end unit outer periphery surface and an end surface of each electrode tip, which is entered into each shaping chamber, is formed into a canonical shape. A CU-ZN alloy film formed on the end surface is adjusted into a fixed film thickness. By a pair of electrode tip in which the film thickness of the CU-ZN alloy film had been adjusted, the overlapped galvanized steel sheet is resistance-welded by the applied current in a status of supporting with the fixed pressure. The end surface of each electrode tip is entered into the shaping chamber of an electrode tip regenerating inlet. The end unit outer periphery surface of each electrode tip is formed into the canonical shape, and at the same time, a Zn-Fe alloy pellicle formed on the Cu-ZN alloy film is adjusted to have a fixed film thickness. After the adjustment of the Zn-Fe alloy pellicle by the Zn-Fe alloy pellicle thickness adjusting process, the resistance welding processes is reactivated and the resistance welding of the galvanized steel sheet is continued. [Reference numerals] (AA) Activated carbon electrode chip installation; (BB) Copper-zinc alloy film formation process; (CC) Copper-zinc alloy film thickness control process; (DD) Resistance welding process; (EE) Zinc-iron alloy film thickness control process
    • 目的:提供镀锌钢板的电阻焊接方法和镀锌钢板电阻焊接用电极头的再生方法,以形成规范形状,而不会抛光或去除电极的变形部分或擦去部分 小费; 从而防止电极头的电阻焊接的寿命缩短。 构成:镀锌钢板的电阻焊接方法和镀锌钢板电阻焊接用电极头的再生方法包括以下步骤。 在一对电极头的前端面形成有Cu-ZN合金薄层。 进入每个成形室的端部单元外周表面和每个电极头的端面形成为规范形状。 将形成在端面上的CU-ZN合金膜调整为固定膜厚。 通过调整Cu-ZN合金膜的膜厚的一对电极头,通过施加的电流以叠层的固定压力的状态对叠层的镀锌钢板进行电阻焊接。 每个电极尖端的端面进入电极头再生入口的成形室。 将各电极头的端部外周面形成为规范形状,同时将形成在Cu-ZN合金膜上的Zn-Fe合金防护薄膜调整为固定膜厚。 在Zn-Fe合金防护薄膜组件厚度调整工序调整Zn-Fe合金防护薄膜后,再次进行电阻焊接工序,继续进行镀锌钢板的电阻焊接。 (附图标记)(AA)活性碳电极芯片安装; (BB)铜 - 锌合金成膜工艺; (CC)铜锌合金膜厚度控制工艺; (DD)电阻焊接工艺; (EE)锌铁合金膜厚度控制工艺
    • 10. 发明授权
    • Minute machining apparatus of roll using cam
    • CAM的分钟加工设备
    • KR101170531B1
    • 2012-08-01
    • KR20090053430
    • 2009-06-16
    • B23D79/02B21D17/00B23D79/00B23D79/06
    • 캠을 이용한 롤의 미세 가공 장치에 대하여 개시한다.
      본 발명에 따른 롤의 미세 가공 장치는 모터에 의해 회전하는 캠(CAM); 상기 캠의 표면 굴곡에 대응하는 진폭으로 진동하는 캠 팔로우어(CAM FOLLOWER); 상기 캠 팔로우어가 배치되는 서포터(SUPPORTER)에 배치되어, 상기 캠 팔로우어와 동일한 진폭으로 진동하는 푸싱 롤러; 및 전면에 롤을 가공하기 위한 가공용 바이트가 배치되고, 상기 푸싱 롤러의 진동에 의해 전진하고, 실린더에 의해 후진하는 가공부;를 포함하여, 상기 가공부에 배치된 가공용 바이트가 전후진을 반복하는 진동을 하면서 롤을 가공하는 것을 특징으로 한다.
      본 발명에 따른 롤의 미세 가공 장치는 캠과 캠 팔로우어의 적절한 레버 비의 조절을 통하여 광학 필름 제조용 롤에 미세한 패턴을 형성할 수 있는 장점이 있다.