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1. 发明公开

KR1020020015542A 고체함침렌즈와 슬라이더 일체형 광학유닛 失效
标题翻译：具有固体浸没镜头的光学单元与滑块集成
公开(公告)号：KR1020020015542A
公开(公告)日：2002-02-28
申请号：KR1020000048672
申请日：2000-08-22
申请人： 강신일 , 김동묵 , 문수동 , 김대은
发明人： 강신일 , 김동묵 , 문수동 , 김대은
IPC分类号： G11B7/09
摘要： PURPOSE: An optical unit having an SIL(Solid Immersion Lens) integral with a slider is provided to simplify the structure of an optical slider by manufacturing a slider and an optical system such as an SIL integrally with transparent material, and to remove the tolerance of an assembly line. CONSTITUTION: An optical unit(4) having an optical system integrated with a slider(9) is positioned on a disk substrate(7). The optical system consists of SILs. The bottom of the optical unit is apart from the disk substrate with specific flying height(6). At the tip thereof, a head disk interface having a suspension(8) is formed. In the optical unit, an optical pickup consisting of the SILs is mounted at the end of the slider. To obtain the optical characteristics of an SIL, the highest part of a lens is distant from the lowest part. The bottom of the SILs is agreed with the bottom of the slider with the disk substrate as a base line. A specific critical angle is formed between the SILs to project beam from the SILs smoothly. The tolerance in an assembly line is removed as the optical unit meets all of notices to be considered.
摘要翻译：目的：提供具有与滑块一体的SIL（固体浸没透镜）的光学单元，以通过制造滑块和诸如SIL的光学系统与透明材料一体制造来简化光学滑块的结构，并且消除一条装配线。构成：具有与滑块（9）一体化的光学系统的光学单元（4）位于盘基片（7）上。光学系统由SILs组成。光学单元的底部与具有特定飞行高度的盘基板分离（6）。在其顶端形成有具有悬架（8）的头盘接口。在光学单元中，由SIL组成的光学拾取器安装在滑块的端部。为了获得SIL的光学特性，透镜的最高部分远离最低部分。 SIL的底部与滑块的底部一致，盘基底为基线。在SIL之间形成一个特定的临界角，从而平稳地投射SIL的光束。当光学单元满足要考虑的所有通知时，装配线中的公差被移除。

2. 发明授权

KR100372257B1 고체함침렌즈와 슬라이더 일체형 광학유닛 失效
标题翻译： 고체함침렌즈와슬라이더일체형광학유닛
公开(公告)号：KR100372257B1
公开(公告)日：2003-02-19
申请号：KR1020000048672
申请日：2000-08-22
申请人： 강신일 , 김동묵 , 문수동 , 김대은
发明人： 강신일 , 김동묵 , 문수동 , 김대은
IPC分类号： G11B7/09
摘要： PURPOSE: An optical unit having an SIL(Solid Immersion Lens) integral with a slider is provided to simplify the structure of an optical slider by manufacturing a slider and an optical system such as an SIL integrally with transparent material, and to remove the tolerance of an assembly line. CONSTITUTION: An optical unit(4) having an optical system integrated with a slider(9) is positioned on a disk substrate(7). The optical system consists of SILs. The bottom of the optical unit is apart from the disk substrate with specific flying height(6). At the tip thereof, a head disk interface having a suspension(8) is formed. In the optical unit, an optical pickup consisting of the SILs is mounted at the end of the slider. To obtain the optical characteristics of an SIL, the highest part of a lens is distant from the lowest part. The bottom of the SILs is agreed with the bottom of the slider with the disk substrate as a base line. A specific critical angle is formed between the SILs to project beam from the SILs smoothly. The tolerance in an assembly line is removed as the optical unit meets all of notices to be considered.
摘要翻译：目的：提供具有与滑动件一体的SIL（固体浸没透镜）的光学单元，以通过与透明材料一体地制造滑动件和诸如SIL的光学系统来简化光学滑动件的结构，并且消除一条装配线。构成：具有与滑块（9）集成的光学系统的光学单元（4）位于光盘基片（7）上。光学系统由SIL组成。光学单元的底部与特定飞行高度（6）的光盘基板分开。在其尖端形成具有悬架（8）的磁头盘接口。在光学单元中，由SIL组成的光学拾取器安装在滑块的末端。为了获得SIL的光学特性，镜头的最高部分远离最低部分。 SIL的底部与磁盘基底作为基线的滑块底部一致。 SIL之间形成一个特定的临界角，以顺利地从SIL投射光束。随着光学单元满足所有要考虑的通知，装配线上的公差将被删除。

3. 发明授权

KR100354864B1 미세방전가공용 방전전극의 제조방법 失效
标题翻译：精密放电加工用放电电极的制造方法
公开(公告)号：KR100354864B1
公开(公告)日：2002-10-05
申请号：KR1020000048671
申请日：2000-08-22
申请人： 강신일 , 문수동
发明人： 강신일 , 문수동
IPC分类号： B23H7/00
摘要： 본 발명은 마이크로 또는 서브마이크로 단위의 미세구조물을 방전가공 하기 위한 마이크로 방전가공용 전극을 미세 흑연분말을 압축성형하여 제작하는 것과 이를 이용한 미세방전 가공방법에 관한 것이다.
본 발명의 미세방전가공용 방전전극의 제조방법은, 미세분말상의 흑연을 흑연전극으로 압축성형하기 위하여 준비된 정량의 미세흑연분말을 압축성형기에 장착된 몰드의 캐비티내에 균일하게 도포하고 몰드에 다소간의 진동을 주어 캐비티내에서의 분말을 균일하고 밀도있게 유지한 상태로 압축성형용 몰드의 상하판을 닫고 예압을 주는 단계와; 상기 몰드의 상하판에 설치된 전기저항발열체를 가열하여 정해진 온도까지 상승하면 상하판에 압력을 가해 미세흑연분말에 압축압력을 가하는 단계와; 상기 단계를 통해 압축압력을 가한 뒤 몰드의 가열을 종료하고 몰드내에 설치된 냉각라인을 통해 냉각하고 동시에 미세흑연분말의 수축에 따른 치수 변화를 막기위하여 압력을 풀지않고 보압을 주는 단계와; 상기 단계에서 일정 온도 이하로 몰드가 냉각되었을 때 압력을 서서히 낮추고 제품 취출시 변형되지 않을 정도의 강도를 가지는 온도에서 압축성형된 흑연제품을 취출하는 단계와; 취출된 흑연제품을 후가공을 통해 가공하여 흑연전극을 제조하는 단계로 이루어지는 것을 특징으로 한다.
이에 따라 미세부품을 가공하기 위한 미세압축성형 금형을 방전가공으로 가공하고, 그 방전전극은 미세부품가공에 적합한 방전전극 구조를 만든다.

4. 发明授权

KR100404024B1 마이크로렌즈 제조방법 失效
标题翻译： 마이크로렌즈제조방법
公开(公告)号：KR100404024B1
公开(公告)日：2003-11-01
申请号：KR1020000049265
申请日：2000-08-24
申请人： 강신일 , 문수동
发明人： 강신일 , 문수동
IPC分类号： G02B3/00
摘要： PURPOSE: A method for fabricating a micro lens is provided, which fabricates the micro lens easily with a stable operation and reduces a size of the micro lens with a low cost and a high controllability. CONSTITUTION: According to the method, a photo resist(2) is projected on an upper surface of a charged coupled device(1). Then, the upper surface of the charged coupled device is reflowed to form a photo resist(2a) having a curvature through a reflow process. And a metallic insert(4) is electrically cast on an upper part of the photo resist of the charge coupled device through an electrical casting process, and a seed metal layer(3) is formed along a boundary between the photo resist and the metallic insert. Then, a micro lens(5) is formed through the metallic insert in a micro lens molding process.
摘要翻译：目的：提供一种制造微透镜的方法，其以稳定的操作容易地制造微透镜并且以低成本和高可控性来减小微透镜的尺寸。构成：根据该方法，将光致抗蚀剂（2）投影在电荷耦合器件（1）的上表面上。然后，电荷耦合器件的上表面回流以通过回流工艺形成具有曲率的光刻胶（2a）。然后通过电铸工艺在电荷耦合器件的光致抗蚀剂的上部电铸一金属插入物（4），沿着光致抗蚀剂和金属插入物之间的边界形成种金属层（3）。然后，在微透镜成型工艺中通过金属插件形成微透镜（5）。

5. 发明公开

KR1020020015541A 미세방전가공용 방전전극의 제조방법 失效
标题翻译：放电电极的制备方法
公开(公告)号：KR1020020015541A
公开(公告)日：2002-02-28
申请号：KR1020000048671
申请日：2000-08-22
申请人： 강신일 , 문수동
发明人： 강신일 , 문수동
IPC分类号： B23H7/00
摘要： PURPOSE: A method for preparing a discharge electrode for microdischarge is provided, to obtain an electrode for microdischarge for discharge-processing the micro or submicro structured body by compression molding fine graphite powder, with improved precision and easier size control. CONSTITUTION: The method comprises the steps of coating fine graphite powder into the cavity of a mold installed in a compression molder uniformly, vibrating the mold to maintain the powder uniformly, closing the upper and under plates of the mold, and giving the pre-pressure; heating the electric resistance heating element installed in the upper and under plates of the mold and giving the pressure to the plates to compress the graphite powder; cooling the mold with a cooling line and giving the holding pressure to the mold to prevent the size change of the graphite powder due to the contraction; lowering the pressure slowly and blowing the compressed graphite at a temperature where the strength is maintained not to allow the product to be varied during the opening process; and post-processing the graphite product to obtain a graphite electrode.
摘要翻译：目的：提供一种用于制备用于微放电的放电电极的方法，以获得用于通过压缩微细石墨粉末的微型或亚微米结构体进行微放电的电极，具有改进的精度和更容易的尺寸控制。方法：该方法包括以下步骤：将细石墨粉均匀地涂布在压模机中安装的模具的腔内，振动模具以均匀地保持粉末，封闭模具的上下板，并给予预压 ; 加热安装在模具的上下板中的电阻加热元件，并向板压力以压缩石墨粉末; 用冷却管线冷却模具并给模具提供保持压力，以防止由于收缩引起的石墨粉末的尺寸变化; 缓慢降低压力，并在保持强度的温度下吹制压缩石墨，使得在打开过程中不改变产品; 并对石墨产品进行后处理以获得石墨电极。

6. 发明公开

KR1020020016113A 마이크로렌즈 제조방법 失效
标题翻译：微型镜头的制作方法
公开(公告)号：KR1020020016113A
公开(公告)日：2002-03-04
申请号：KR1020000049265
申请日：2000-08-24
申请人： 강신일 , 문수동
发明人： 강신일 , 문수동
IPC分类号： G02B3/00
摘要： PURPOSE: A method for fabricating a micro lens is provided, which fabricates the micro lens easily with a stable operation and reduces a size of the micro lens with a low cost and a high controllability. CONSTITUTION: According to the method, a photo resist(2) is projected on an upper surface of a charged coupled device(1). Then, the upper surface of the charged coupled device is reflowed to form a photo resist(2a) having a curvature through a reflow process. And a metallic insert(4) is electrically cast on an upper part of the photo resist of the charge coupled device through an electrical casting process, and a seed metal layer(3) is formed along a boundary between the photo resist and the metallic insert. Then, a micro lens(5) is formed through the metallic insert in a micro lens molding process.
摘要翻译：目的：提供一种制造微透镜的方法，其以稳定的操作容易地制造微透镜，并以低成本和高可控性降低微透镜的尺寸。构成：根据该方法，将光致抗蚀剂（2）投影在带电耦合器件（1）的上表面上。然后，充电的耦合器件的上表面被回流以形成通过回流工艺具有曲率的光致抗蚀剂（2a）。并且金属插入件（4）通过电铸工艺在电荷耦合器件的光致抗蚀剂的上部电铸，并且沿着光致抗蚀剂和金属插入物之间的边界形成种子金属层（3）。然后，在微透镜成型工艺中通过金属插入件形成微透镜（5）。

7. 发明公开

KR1020020012016A 미세구조물의 가공방법 및 그의 미세 압축성형 금형 失效
标题翻译：用于加工精细结构和精细压缩成型模具的方法
公开(公告)号：KR1020020012016A
公开(公告)日：2002-02-15
申请号：KR1020000045422
申请日：2000-08-05
申请人： 강신일 , 문수동
发明人： 강신일 , 문수동
IPC分类号： B22F3/12
摘要： PURPOSE: A technology for processing a fine structure is provided which is suitable for the mass production using a low priced equipment not depending on a high priced equipment or a small amount of production in processing fine components. CONSTITUTION: In a method for processing a fine structure using dies, the method comprises the steps of mounting the prepared dies on a compression molding machine by preparing fine compression molding dies, and uniformly coating a fixed amount of fine powder which are already prepared into a cavity of dies mounted on the compression molding machine(S30,S31); vibrating the dies with an excitation source so that the fine powder coated into the cavity of the dies forms a coating surface which is uniform and has a density(S32); applying a pressure to the fine powder with being contacted with a heating die by closing upper and lower plates of the dies for compression molding when settlement of the fine powder in the cavity of the dies is stabilized so that a temperature of a raw material is swiftly reached to the processing temperature zone(S33); compression molding the material by pressing the upper and lower plates of the dies as uniformly heating the upper and lower plates of the dies to a glass transition temperature or more by electrical-resistance heating elements after passing through the pressing step(S34); finishing heating of the dies after applying a compression pressure on the upper and lower plates of the dies, cooling the resulting material through a cooling line inside a mold, and maintaining a pressure without releasing the pressure so as to prevent dimensional changes according to shrinkage of a product in the cooling process(S35,36); cutting the product in a single process in the dies by cutting and perforating the product after releasing a cutter from the die surface as slowly lowering the pressure when the dies are cooled to a standard temperature or less in the cooling and pressure maintenance step(S37); and discharging the product in the temperature zone that deformation of the product is prevented by continuously cooling the product(S38,S39).
摘要翻译：目的：提供一种加工精细结构的技术，适用于使用价格低廉的设备，不依赖于高价位设备或少量加工精密部件的生产而进行批量生产。构成：在使用模具加工精细结构的方法中，该方法包括以下步骤：通过制备精细的压缩模具将制备的模具安装在压缩成型机上，并将已经制备的固定量的细粉均匀地涂覆在安装在压缩成型机上的模具腔（S30，S31）; 用激发源对模具进行振动，使得涂覆在模具的腔体中的细粉末形成均匀且具有密度的涂层表面（S32）; 通过在模具的空腔中的细粉末的沉降稳定的情况下，通过关闭用于压缩成型的模具的上板和下板来与加热模具接触来施加压力，使得原料的温度迅速达到加工温度区（S33）; 通过压制工序后的电阻加热元件将模具的上板和下板均匀加热至玻璃化转变温度以上，通过压制模具的上板和下板来压缩模制材料（S34）; 在模具的上下板上施加压缩压力后对模具进行加热，通过模具内部的冷却线冷却所得到的材料，并且在不释放压力的情况下保持压力，以防止尺寸根据收缩率的尺寸变化冷却过程中的产品（S35,36）; 在冷却和压力维持步骤（S37）中，当将模具冷却至标准温度或更低时，缓慢降低压力，通过在从模具表面释放切割器之后切割并穿孔产品，在单个工艺中切割产品， ; 并且通过连续地冷却产品，在产品的变形防止温度区域中排出产品（S38，S39）。

8. 发明授权

KR100372256B1 미세구조물의 가공방법 및 그의 미세 압축성형 금형 失效
标题翻译：美丽구조물의가공방법및그의미세압축성형금형
公开(公告)号：KR100372256B1
公开(公告)日：2003-02-17
申请号：KR1020000045422
申请日：2000-08-05
申请人： 강신일 , 문수동
发明人： 강신일 , 문수동
IPC分类号： B22F3/12
摘要： PURPOSE: A technology for processing a fine structure is provided which is suitable for the mass production using a low priced equipment not depending on a high priced equipment or a small amount of production in processing fine components. CONSTITUTION: In a method for processing a fine structure using dies, the method comprises the steps of mounting the prepared dies on a compression molding machine by preparing fine compression molding dies, and uniformly coating a fixed amount of fine powder which are already prepared into a cavity of dies mounted on the compression molding machine(S30,S31); vibrating the dies with an excitation source so that the fine powder coated into the cavity of the dies forms a coating surface which is uniform and has a density(S32); applying a pressure to the fine powder with being contacted with a heating die by closing upper and lower plates of the dies for compression molding when settlement of the fine powder in the cavity of the dies is stabilized so that a temperature of a raw material is swiftly reached to the processing temperature zone(S33); compression molding the material by pressing the upper and lower plates of the dies as uniformly heating the upper and lower plates of the dies to a glass transition temperature or more by electrical-resistance heating elements after passing through the pressing step(S34); finishing heating of the dies after applying a compression pressure on the upper and lower plates of the dies, cooling the resulting material through a cooling line inside a mold, and maintaining a pressure without releasing the pressure so as to prevent dimensional changes according to shrinkage of a product in the cooling process(S35,36); cutting the product in a single process in the dies by cutting and perforating the product after releasing a cutter from the die surface as slowly lowering the pressure when the dies are cooled to a standard temperature or less in the cooling and pressure maintenance step(S37); and discharging the product in the temperature zone that deformation of the product is prevented by continuously cooling the product(S38,S39).
摘要翻译：目的：提供一种精细结构加工技术，适用于使用低价设备的批量生产，而不依赖于高价设备或少量精细部件的生产。在利用模具加工精细结构的方法中，所述方法包括以下步骤：通过制备精细压缩模具将制备的模具安装在压缩模塑机上，并将已经制备好的固定量的细粉均匀地涂覆到安装在压缩模塑机上的模具腔（S30，S31）; 用激发源振动模具，使得涂覆到模具腔体中的细粉末形成均匀且具有密度（S32）的涂覆表面; 当模具型腔中的细粉的沉降稳定时，通过关闭模具的上，下板以闭合模具的上板和下板，通过与加热模具接触而对细粉施加压力，使得原材料的温度迅速到达处理温度区（S33）; 在通过压制步骤（S34）之后，通过挤压模具的上板和下板，通过电阻加热元件将模具的上板和下板均匀地加热至玻璃化转变温度或更高温度来压缩模制材料; 在对模具的上板和下板施加压缩压力之后，完成对模具的加热，通过模具内的冷却管线冷却所得材料，并且在不释放压力的情况下保持压力，以防止尺寸根据冷却过程中的产品（S35,36）; 在冷却和压力保持步骤（S37）中，当模具被冷却到标准温度或更低时，缓慢降低压力，通过在从模具表面释放切割器之后切割和穿孔产品来在模具中的单个过程中切割产品， ; 并通过连续冷却产品来防止在产品变形的温度区域排出产品（S38，S39）。

9. 发明公开

KR1020010091735A 증착법을 이용한 금형벽면 급속 가열 시스템 无效
标题翻译：使用蒸气沉积的快速模具加热系统
公开(公告)号：KR1020010091735A
公开(公告)日：2001-10-23
申请号：KR1020000013723
申请日：2000-03-17
申请人： 강신일 , 문수동 , 이희봉
发明人： 강신일 , 이희봉 , 문수동
IPC分类号： B29C45/76
CPC分类号： B29C33/56 , B29C45/561 , B29C45/78 , B29C2945/7604 , B29C2945/76254 , B29C2945/76939 , B29C2945/76973
摘要： PURPOSE: A heating system for rapid heating of a mold wall using vapor deposition is provided to improve the quality of a molded product by setting up the temperature of a mold over the glass transition temperature during an injection process and a dwelling-compressing process. CONSTITUTION: A heating system is for accomplishing rapid temperature response by coating a heat supply source to the wall face of an injection mold. The heat supply source is heated by the electrical resistant heat of a power supply unit. As the heat supply source, a heating source deposited by vapor deposition for a desired temperature gradient. Vapor deposition method offers excellent hardness and even surface of the deposited face. By minimizing the thickness of the heat supply source coat, heating and cooling is realized in a short time. An insulating material is coated on the surface of the cavity of the mold to insulate the heat supply source from the mold. By controlling the temperature of the mold, fluidity of resin and the quality of an injected product are improved. As the product is released after being sufficiently cooled, bending deformation is restrained. Moreover, prompt temperature change economizes a molding process.
摘要翻译：目的：提供使用气相沉积快速加热模具壁的加热系统，以通过在注射过程和住宅压缩过程中将模具的温度设置在玻璃化转变温度以上来提高模制产品的质量。构成：加热系统用于通过将注射模具的壁面上的供热源涂覆来实现快速的温度响应。供热源通过电源单元的电阻加热而加热。作为供热源，通过蒸镀沉积所需温度梯度的加热源。气相沉积法提供优异的硬度和均匀的表面。通过最小化供热源涂层的厚度，可以在短时间内实现加热和冷却。在模具的空腔的表面上涂覆绝缘材料以使供热源与模具绝缘。通过控制模具的温度，提高了树脂的流动性和注入产品的质量。随着产品在充分冷却后释放，可以抑制弯曲变形。此外，即时的温度变化节省了成型过程。

10. 发明授权

KR102028926B1 층고를 최소화한 확장형 캠핑카 시스템 有权
公开(公告)号：KR102028926B1
公开(公告)日：2019-10-07
申请号：KR1020170147429
申请日：2017-11-07
申请人： 문수동
发明人： 문수동
IPC分类号： B60P3/34 , B60P1/52 , B60P1/36 , F16H19/04

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