会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Microwave-excited plasma processing apparatus
    • 微波激发等离子体处理装置
    • US5162633A
    • 1992-11-10
    • US372716
    • 1989-06-27
    • Tadasi SonobeKazuo SuzukiTakuya FukudaMichio Ohue
    • Tadasi SonobeKazuo SuzukiTakuya FukudaMichio Ohue
    • C23C14/34C23C16/511C23F4/00H01J37/32H01L21/205H01L21/302H01L21/3065H01L21/31H05B6/80
    • H01J37/32678H01J37/32192H01J37/32238H01J37/32697H05B6/80
    • The present invention relates to a plasma treatment apparatus for making plasma surface processing of a specimen such as thin-film formation, etching, sputtering or plasma oxidation by use of plasma produced through microwave discharge. In a specimen chamber provided with a specimen table for holding at least one specimen thereon, a microwave is introduced from a direction intersecting a magnetic line of force so as to propagate in the longitudinal direction of an ECR region or in a direction along the plane of the ECR region. Since the microwave is introduced from the transverse direction of the specimen chamber, the provision of a microwave introducing window at an upper portion of the specimen chamber is not required and hence a counter electrode for applying an electric field to the specimen can be disposed at the upper portion of the specimen chamber, thereby making it possible to apply a uniform electric field to the specimen so that the specimen is subjected to a uniform treatment.
    • 本发明涉及一种等离子体处理装置,其用于通过使用通过微波放电产生的等离子体来进行诸如薄膜形成,蚀刻,溅射或等离子体氧化等试样的等离子体表面处理。 在设置有用于保持至少一个样本的样本台的样本室中,从与磁力线相交的方向引入微波,以沿ECR区域的纵向方向或沿着ECR区域的平面的方向传播微波 ECR地区。 由于微波从试样室的横向导入,因此不需要在试样室的上部设置微波导入窗,因此可以在试样室的上部设置用于向试样施加电场的对电极 从而能够对试样施加均匀的电场,使样品经受均匀的处理。
    • 6. 发明授权
    • Microwave plasma processing apparatus
    • 微波等离子体处理装置
    • US5243259A
    • 1993-09-07
    • US798901
    • 1991-11-27
    • Junji SatoKazuo SuzukiShunichi HiroseTakuya FukudaSatoru Todoroki
    • Junji SatoKazuo SuzukiShunichi HiroseTakuya FukudaSatoru Todoroki
    • H01L21/302H01J37/32H01L21/205H01L21/3065
    • H01J37/32834H01J37/32192H01J37/32458H01J37/32678
    • The present invention relates to a microwave plasma processing apparatus for processing such as thin film formation, etching, sputtering, and plasma oxidation, etc., on a surface of a processing object by utilizing a high density plasma generated by electron cyclotron resonance. A vacuum vessel of the apparatus, in which a microwave transmitted by a microwave guide is utilized for converting gas supplied to the vacuum vessel to plasma for the plasma processing of the processing object placed in the vacuum vessel, is formed in, such manner that the interior space of the vacuum vessel extends beyond the outer periphery of magnetic field generating coils, and the extended portion of the vessel is provided with a gas outlet for connection with an evacuation apparatus to evacuate the interior of the vacuum vessel to a desired vacuum degree. Accordingly, preferable evacuating characteristics can be obtained even in a case when a large amount of the reaction gas is supplied to the vacuum vessel in order to process a large size processing object, because the vacuum vessel in which the processing object is placed can be connected with the evacuation apparatus through a space and the same effect as if the evacuation apparatus is directly connected with the vacuum vessel is realized.
    • 微波等离子体处理装置技术领域本发明涉及利用电子回旋共振产生的高密度等离子体,在加工对象的表面上进行薄膜形成,蚀刻,溅射,等离子体氧化等处理的微波等离子体处理装置。 该装置的真空容器用微波导流器传输的微波用于将供给真空容器的气体转化为等离子体,用于放置在真空容器中的处理物体的等离子体处理,使得 真空容器的内部空间延伸超过磁场产生线圈的外周,并且容器的延伸部分设置有气体出口,用于与排气装置连接以将真空容器的内部抽空至期望的真空度。 因此,即使在将大量的反应气体供给到真空容器中以处理大型加工对象的情况下也可以获得优选的排气特性,因为可以连接处理对象物的真空容器 通过空间排出装置,实现与抽真空装置直接与真空容器连接的效果相同的效果。
    • 7. 发明授权
    • Airtight compact case
    • 气密小巧的情况
    • US5353818A
    • 1994-10-11
    • US172729
    • 1993-12-27
    • Kazuo SuzukiMasahiro SumiseKazuo Suzuki
    • Kazuo SuzukiMasahiro SumiseKazuo Suzuki
    • A45C13/00A45D40/22A45D33/24
    • A45C13/008A45D40/22A45D2200/051
    • A cover is pivotably attached to a case body. Male thread portions of a multiple thread and unthreaded portions are alternately formed on a peripheral wall of a cosmetic container section of the case body. A ring is rotatably attached to the cover and externally fitted to the peripheral wall. The ring has female thread portions of a multiple thread intermittently formed. The female and male thread portions are engageable and disengageable. An inner cover made of an elastic material is attached to the lower portion of the cover so that the inner cover is brought into press contact with an open edge of the peripheral wall. A space is formed between the cover and the inner cover so that the inner cover is elastically deformed and expanded. When the female and the male thread portions are engaged with each other and the ring is rotated to a closed position, the cover approaches the case body so that the inner cover is brought into press contact with the open edge of the peripheral wall. When the temperature within the cosmetic container section is increased, the inner cover is elastically expanded upwards to increase the volume within the cosmetic container section. Thus, an increase in pressure within the cosmetic container section is suppressed.
    • 盖可枢转地附接到壳体。 多个螺纹和无螺纹部分的阳螺纹部分交替地形成在壳体的化妆品容器部分的周壁上。 环可旋转地附接到盖并且外部装配到周壁。 该环具有间断地形成的多根螺纹的阴螺纹部分。 阴螺纹和阴螺纹部分可接合和脱离。 由弹性材料制成的内盖附接到盖的下部,使得内盖与周壁的开口边缘压接。 在盖和内盖之间形成空间,使得内盖弹性变形和膨胀。 当阴和阳螺纹部分彼此接合并且环旋转到关闭位置时,盖接近壳体,使得内盖与周壁的开口边缘压接。 当化妆品容器部分内的温度升高时,内盖弹性膨胀向上,以增加化妆品容器部分内的体积。 因此,抑制了化妆品容器部内的压力的增加。