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    • 5. 发明公开
    • 대면적 사출금형 복합 플라즈마 표면처리 장비
    • 使用等离子体处理大面积喷射模具的表面处理装置
    • KR1020140000523A
    • 2014-01-03
    • KR1020120067716
    • 2012-06-25
    • 주식회사 한국몰드
    • 고일주최규남이하용이영민
    • C23C8/26C23C16/50B29C33/70
    • B29C33/56C23C8/36C23C16/26
    • The present invention relates to an apparatus for treating the surface of large area injection molded complex plasma capable of stably placing a large and high weight injection mold, treating a surface, evenly maintaining the dispersion of temperature in a process chamber by responding to the large and high weight injection mold, optimizing the injection of gas and the location of a pump in order to evenly disperse gas in the process chamber, and having the optimal and uniform effect of surface treatment by controlling micro pulse power. The present invention includes: a base frame; a process chamber which is installed in the upper part of the base frame, is hollow, has an opening on one end part, and has a rail for a jig formed therein in the lengthwise direction; a base rail installed on the bottom in the opening of the process chamber; a moving frame moving in the upper part of the base rail along a rail; a cover which is installed in the upper part of the moving frame and is formed so as to open and close the opening of the process chamber; and a jig which has one end fixated to the cover and has a workpiece installed on the upper part by having a roller placed on the rail for a jig in the lower part of the other end.
    • 本发明涉及一种用于处理大面积注塑复合等离子体表面的装置,其能够稳定地放置大型和高重量注射模具,处理表面,均匀地保持处理室中的温度分散, 高重量注射模具,优化气体注入和泵的位置,以均匀分散气体到处理室,并通过控制微脉冲功率具有最佳和均匀的表面处理效果。 本发明包括:基架; 安装在基架的上部的处理室是中空的,在一个端部具有开口,并且在长度方向上具有用于夹具的导轨, 安装在处理室开口底部的基轨; 移动框架沿着轨道在所述基轨的上部中移动; 安装在移动框架的上部并形成为打开和关闭处理室的开口的盖子; 以及夹具,其一端固定在盖上,并且通过在另一端的下部具有放置在轨道上的夹具用于安装在上部上的工件。
    • 6. 发明授权
    • 강화플라스틱 성형용 금형장치 및 강화플라스틱의 성형방법
    • 用于增强塑料的成型模具和加固塑料的成型方法
    • KR100831289B1
    • 2008-05-22
    • KR1020070013390
    • 2007-02-08
    • 주식회사 한국몰드
    • 고일주최규남
    • B29C33/10
    • B29C33/10B29C33/0038B29C70/44
    • A forming mold and a method for manufacturing reinforced plastics are provided to prevent air bubbles from being generated in the plastics by forming the forming mold into a vacuum state. A forming mold comprises a sealing part(40) and a vacuum part(60). The sealing part is installed at a portion, in which an upper mold(10) and a lower mold(12) are in contact with each other, to prevent air from flowing into an inner space(20) between the upper mold and the lower mold. The vacuum part draws in air contained in the inner space, which is sealed by the sealing part, to the outside. The vacuum part includes a pipe member(64), which has a pipe disposed in the lower mold, and a pump member(76) connected to the pipe member.
    • 提供一种成型模具和用于制造增强塑料的方法,以通过将成型模具形成真空状态来防止在塑料中产生气泡。 成形模具包括密封部分(40)和真空部分(60)。 密封部安装在上模(10)和下模(12)彼此接触的部分,以防止空气流入上模和下模之间的内部空间(20) 模子。 真空部分将包含在由密封部分密封的内部空间中的空气吸入外部。 真空部包括管构件(64),其具有设置在下模具中的管和连接到管构件的泵构件(76)。
    • 7. 发明公开
    • 나사결합부 성형장치
    • 螺纹部分的加工设备
    • KR1020070092905A
    • 2007-09-14
    • KR1020060022338
    • 2006-03-09
    • 주식회사 한국몰드
    • 고일주
    • B29C49/00B29C49/28B29C49/36B29C49/70
    • A threaded part forming system is provided to decrease the operational process thereof and to prevent the leakage of fuel surely. A threaded part forming system comprises a thread metallic mold(100), a connector(200), and a power supply unit. The thread metallic mold is combined with one metallic mold and formed with the female thread corresponded to a threaded part. The connector is connected with the thread metallic mold and projected outside of the metallic mold. The end portion of the connector is fastened with a slave sprocket(201) to rotate about the metallic mold. The power supply unit is connected with the slave sprocket by a chain to transfer torque.
    • 提供螺纹部件成形系统以减少其操作过程并防止燃料泄漏。 螺纹部件形成系统包括螺纹金属模具(100),连接器(200)和电源单元。 螺纹金属模具与一个金属模具组合,并且形成有与螺纹部件相对应的内螺纹。 连接器与螺纹金属模具连接并突出到金属模具的外侧。 连接器的端部用从动链轮(201)固定以围绕金属模具旋转。 电源单元通过链条与从动链轮连接以传递扭矩。
    • 8. 发明公开
    • 대면적 사출금형 표면 고경도 저마찰 부여 표면처리 방법
    • 高表面处理注射模具表面的方法
    • KR1020130134057A
    • 2013-12-10
    • KR1020120057301
    • 2012-05-30
    • 주식회사 한국몰드
    • 고일주최규남이하용이영민
    • C23C8/80C23C8/24B29C33/56
    • C23C28/046B29C33/56C23C8/02C23C8/36C23C16/0272C23C16/26
    • The present invention relates to a method for treating the surface of an injection mold having large surface area to obtain high hardness and low friction. The present invention can obtain excellent wear resistance, excellent liquidity of plastic during an injection process, and excellent releasability of the plastic after the injection process. Also, the present invention can obtain an injection mold capable of facilitating repair, remodeling, and design change and, especially, the surface of the injection mold which can be welded. The present invention comprises the steps of: inserting the injection mold into a furnace and making the furnace in a vacuum state; glow-discharging the surface of the injection mold under an argon and hydrogen gas atmosphere; plasma-nitriding the surface of the injection mold by forming plasma on the surface of the injection mold under a nitrogen and hydrogen gas atmosphere; forming an SiO2 intermediate layer on the ionnitrided surface of the injection mold by supplying silicon precursors into a chamber using a bubbler; forming a diamond-like carbon (DLC) coating layer by laminating activated carbons among the plasma formed under a methane and hydrogen gas atmosphere on the nitrided surface of the injection mold. [Reference numerals] (S1) Mold forming step;(S2) Oil removing step;(S3) Inserting and vacuum exhausting step;(S4) Glow discharging step;(S5) Ionnitriding step;(S6) SiO2 intermediate layer forming step;(S7) DLC coating step;(S8) Cooling and discharging step
    • 本发明涉及一种用于处理具有大表面积的注射模具的表面以获得高硬度和低摩擦力的方法。 本发明可以获得优异的耐磨性,在注射过程中具有优异的塑性流动性,以及在注塑过程之后塑料的脱模性优异。 此外,本发明还可以获得能够促进修理,改造和设计变化的注射模具,特别是能够被焊接的注射模具的表面。 本发明包括以下步骤:将注射模具插入炉中并使炉子处于真空状态; 在氩气和氢气气氛下对喷射模具的表面进行辉光放电; 通过在氮气和氢气气氛下在注射模具的表面上形成等离子体来等离子体渗透注塑模具的表面; 通过使用起泡器将硅前体供给到室中,在注射模的离子氮化表面上形成SiO 2中间层; 通过在喷射模具的氮化表面上在甲烷和氢气气氛下形成的等离子体之间层压活性炭,形成类金刚石(DLC)涂层。 (S1)成型工序;(S2)除油工序;(S3)插入和真空排气工序;(S4)发光放电工序;(S5)离子氮化工序;(S6)SiO2中间层形成工序; S7)DLC涂层步骤;(S8)冷却和放电步骤
    • 9. 发明公开
    • 대면형 냉각 채널
    • 具有表面接触部分的冷却通道系统
    • KR1020090112828A
    • 2009-10-29
    • KR1020080038548
    • 2008-04-25
    • 한국생산기술연구원주식회사 한국몰드
    • 차백순이상용박형필김미애고일주김종섭
    • B29C45/74B29C45/72B29C45/73
    • B29C45/7312B29C2045/7362
    • PURPOSE: A cooling channel for conveniently forming the cooling channel of a three dimensional form is provided to reduce a manufacturing time comparing with a cooling channel using a laminate fabrication method. CONSTITUTION: A cooling channel for conveniently forming the cooling channel of a three dimensional form includes a channel-forming space unit(3), a cooling water inlet unit(5), a cooling water outlet unit, and a channel wall unit(7). The channel-forming space unit is formed in the lower part of the opposing part. The cooling water inlet unit is formed in one or more inlet port. The channel wall unit is parallel formed from the cooling water inlet portion along the cooling water outlet unit.
    • 目的:提供一种用于方便地形成三维形式的冷却通道的冷却通道,以减少与使用层压制造方法的冷却通道相比的制造时间。 构成:用于方便地形成三维形式的冷却通道的冷却通道包括通道形成空间单元(3),冷却水入口单元(5),冷却水出口单元和通道壁单元(7) 。 通道形成空间单元形成在相对部分的下部。 冷却水入口单元形成在一个或多个入口端口中。 通道壁单元从冷却水入口部分沿着冷却水出口单元平行地形成。
    • 10. 发明公开
    • 사출금형 재활용을 위한 표면코팅막 제거 방법
    • 去除涂层以重新注射模具的方法
    • KR1020140000522A
    • 2014-01-03
    • KR1020120067715
    • 2012-06-25
    • 주식회사 한국몰드
    • 고일주최규남이하용이영민
    • B29C33/74C23C16/50
    • The present invention relates to a method for removing a surface coated layer to reuse an injection mold which makes reuse possible by easily removing a diamond like carbon (DLC) coated layer using temperature rising and plasma gas without influencing a base material. The method for removing a surface coated layer to reuse the injection mold comprises the steps of: charging the injection mold into a furnace and forming a vacuum state; performing a glow discharge on the surface of the injection mold under argon gas and hydrogen gas condition; performing a plasma nitriding by forming plasmas on the surface of the injection mold under nitrogen gas and hydrogen gas condition; forming the plasmas under methane gas and hydrogen gas condition and making activated carbons among the plasmas evaporate onto the nitrided surface of the injection mold in order to form a DLC coated layer; and removing the DLC coated layer for surface reprocessing to reuse the injection mold and evaporating under oxygen and argon gas condition and removing the DLC coated layer formed on the surface of the injection mold using the plasma gas and pulsed power. [Reference numerals] (AA) Repeat; (S1) Mold forming step; (S2) Oil removing step; (S3) Inserting and vacuum exhausting step; (S4,S10) Glow discharging step; (S5) Ionnitriding step; (S6) DLC coating step; (S7) Cooling and discharging step; (S8) DLC coating layer removing step; (S9) Surface reprocessing step
    • 本发明涉及一种用于去除表面涂层以重新使用注射模具的方法,其通过使用升温和等离子体气体容易地去除类金刚石碳(DLC)涂层而不影响基底材料而使得可重复使用。 用于去除表面涂层以重新使用注射模具的方法包括以下步骤:将注射模具装入炉中并形成真空状态; 在氩气和氢气条件下在注射模具表面进行辉光放电; 通过在氮气和氢气条件下在注射模具的表面上形成等离子体来进行等离子体氮化; 在甲烷气体和氢气条件下形成等离子体并使等离子体中的活性炭蒸发到注射模具的氮化表面上,以形成DLC涂层; 并除去用于表面再处理的DLC涂层以重新使用注塑模具并在氧气和氩气条件下蒸发,并使用等离子体气体和脉冲功率去除在注塑模具表面上形成的DLC涂层。 (标号)(AA)重复; (S1)成型步骤; (S2)除油步骤; (S3)插入和真空排气步骤; (S4,S10)发光放电步骤; (S5)离子氮化步骤; (S6)DLC涂布步骤; (S7)冷却和排放步骤; (S8)DLC涂层除去工序; (S9)表面再加工步骤