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    • 1. 发明授权
    • Disc unit with configuration for performing simultaneous inserting and ejecting operations for disc
    • 具有用于执行光盘同时插入和退出操作的配置的光盘单元
    • US06222811B1
    • 2001-04-24
    • US09265498
    • 1999-03-10
    • Toshihiro SakuraiKenji AbeTakashi Nakashima
    • Toshihiro SakuraiKenji AbeTakashi Nakashima
    • G11B3302
    • G11B17/0515
    • Conventional disc units each involve the problem that a new disc must be inserted into the disc unit after a disc already present in the disc unit is ejected and that therefore it takes time for disc replacement. In the disc unit of the present invention, to solve the above-mentioned problem, a new second disc which has been inserted into the disc unit through an insertion opening is carried from an insertion area to a disc driving section by a conveying means. On the other hand, a first disc already present in the disc unit prior to insertion of the second disc is ejected from an ejection area to the exterior of the disc unit by both first and second ejection members. The time required for disc replacement can be shortened by performing the disc inserting operation by the conveying means and the disc ejecting operation by the first and second ejection members both in a simultaneous manner.
    • 传统的盘单元每个都涉及在盘单元中已经存在的盘被弹出之后必须将新盘插入到盘单元中的问题,因此需要时间来更换盘。 在本发明的盘单元中,为了解决上述问题,通过输入装置从插入区域向盘驱动部分承载已经通过插入口插入到盘单元中的新的第二盘。 另一方面,在插入第二盘之前已经存在于盘单元中的第一盘通过第一和第二排出构件从喷射区域喷射到盘单元的外部。 可以通过执行传送装置的盘插入操作和由第一和第二排出构件以同时的方式弹出操作来缩短盘更换所需的时间。
    • 2. 发明授权
    • Disk apparatus
    • 磁盘设备
    • US06345030B1
    • 2002-02-05
    • US09199946
    • 1998-11-25
    • Toshihiro SakuraiTakashi Nakashima
    • Toshihiro SakuraiTakashi Nakashima
    • G11B1704
    • G11B17/0434G11B17/0285G11B17/0288G11B17/051
    • When a second disc is inserted, recording and/or reproducing operation of information on or from a first disc is stopped, and a moving member is moved in the X1-direction. This movement allows a clamp chassis to be moved upward and unclamped, and the second disc is carried into a disc apparatus by a transfer roller and is supported by disc guides. Then, the first and the second discs are supported by the disc guides and are moved upward and then, the first disc is carried out of an insertion opening by the transfer roller. In the course of the movement of the drive chassis to the upper position, the second disc is placed on a turntable, and is chucked and clamped by a clamper. Therefore, it is possible to exchange the second disc with the first disc only by inserting the second disc.
    • 当插入第二盘时,停止在第一盘上或从第一盘的信息的记录和/或再现操作,并且移动部件沿X1方向移动。 该移动允许夹具底盘向上移动并松开,并且第二盘通过转印辊被携带到盘装置中,并由盘引导件支撑。 然后,第一和第二盘由盘引导件支撑并向上移动,然后第一盘由转印辊从插入孔中移出。 在驱动机架移动到上部位置的过程中,第二个盘被放置在转台上,被夹持器卡住并夹紧。 因此,可以仅通过插入第二盘来将第二盘与第一盘交换。
    • 5. 发明授权
    • Gas sensor
    • 气体传感器
    • US07607340B2
    • 2009-10-27
    • US11832855
    • 2007-08-02
    • Takashi NakashimaYuichi Yamada
    • Takashi NakashimaYuichi Yamada
    • G01N9/00
    • G01N27/4077
    • In a protector (100) for protecting a detecting portion (11) of a sensor element (10) of a gas sensor (1), the opening area of individual inner introduction holes (130) and (140) formed in an inner protector (120) is 3.5 mm2 or less. In this manner, the amount and size of water droplets able to pass through the inner introduction holes (130) and (140) and to adhere to the sensor element (10) is restricted. In order to ensure good gas replaceability between the interior and the exterior of the inner protector (120) so as to attain quick gas response, the total opening area of the inner introduction holes (130) and (140) is 10 mm2 or more.
    • 在用于保护气体传感器(1)的传感器元件(10)的检测部分(11)的保护器(100)中,形成在内部保护器(1)中的各个内部引入孔(130)和(140) 120)为3.5mm 2以下。 以这种方式,可以限制能够穿过内部引入孔(130)和(140)并粘附到传感器元件(10)的水滴的量和尺寸。 为了确保内部保护器(120)的内部和外部之间的良好的气体可更换性,以便获得快速的气体响应,内部导入孔(130)和(140)的总开口面积为10mm 2以上。
    • 6. 发明授权
    • Gas sensor
    • 气体传感器
    • US07560012B2
    • 2009-07-14
    • US10525816
    • 2003-08-27
    • Takafumi ShichidaTakaya YoshikawaTakashi NakashimaSatoshi Ishikawa
    • Takafumi ShichidaTakaya YoshikawaTakashi NakashimaSatoshi Ishikawa
    • G01N27/407G01N27/406G01N27/26
    • G01N27/4077
    • A gas sensor is constructed as follows. A protector (4) covering around a gas sensing element (2) has an inner hollow-cylindrical portion (6) and an outer hollow-cylindrical portion (7) that is provided coaxially with the inner hollow-cylindrical portion (6) with an air space (8) in between. Outer-wall gas inlet openings (13) are formed in the outer hollow-cylindrical portion (7), and guiding bodies (10) extending inward are attached to the outer-wall gas inlet openings (13). Inner-wall gas inlet openings (11) are formed in the inner hollow-cylindrical portion (6) at positions nearer to the gas sensing element (2) than the outer-wall gas inlet openings (13). A side wall (9) face of the inner hollow-cylindrical portion (6) opposite the outer-wall gas inlet openings (13) is formed so as to be parallel to a side wall (12) of the outer-hollow cylindrical portion (7) or so as to have a slop-like shape with a diameter enlarging in the axial direction toward a bottom wall (17) of the protector (4). A discharge opening (15) for a gas to be measured is formed in the bottom wall (17).
    • 气体传感器的构造如下。 覆盖在气体感测元件(2)周围的保护器(4)具有内部中空圆柱形部分(6)和与内部中空圆柱形部分(6)同轴设置的外部中空圆柱形部分(7) 空中(8)之间。 外壁气体入口(13)形成在外中空圆柱形部分(7)中,并且向内延伸的引导体(10)附接到外壁气体入口(13)。 内壁气体入口(11)在外壁气体入口(13)的内中空圆筒部(6)的位置处形成在比气体检测元件(2)更靠近的位置处。 与外壁气体入口(13)相对的内部中空圆筒部分(6)的侧壁(9)的表面形成为平行于外部中空圆柱形部分的侧壁(12) 7),以具有朝向保护器(4)的底壁(17)在轴向方向上扩大的直径的倾斜形状。 在底壁(17)中形成用于待测气体的排出口(15)。
    • 7. 发明申请
    • Low alloy steel
    • 低合金钢
    • US20080156400A1
    • 2008-07-03
    • US12073324
    • 2008-03-04
    • Takashi NakashimaKaori KawanoMasaaki Igarashi
    • Takashi NakashimaKaori KawanoMasaaki Igarashi
    • C22C38/22
    • C21C7/0006C21C7/06C22C38/005C22C38/02C22C38/04C22C38/22
    • According to a low alloy steel of the present invention, compositional elements thereof are limited, and a metal structure thereof comprises bainite or martensite. Further, a proper amounts of Nd inclusions are formed by appropriately selecting timings of deoxidation and Nd addition in melting a steel. Consequently, compatibility between high-temperature creep strength and long-term creep ductility, which is hardly established in conventional steels, can be achieved even in hostile conditions. Accordingly, the low alloy steel of the present invention can be widely applied as the material for the heat-resistant structural member used for a long time under the high-temperature and high-pressure conditions such as power plant boilers, turbines, and nuclear power plants.
    • 根据本发明的低合金钢,其组成元素受到限制,其金属结构包括贝氏体或马氏体。 此外,通过在钢中熔融时适当选择脱氧和Nd添加的定时,形成适量的Nd夹杂物。 因此,即使在恶劣的条件下,也可以实现在常规钢中难以确定的高温蠕变强度与长期蠕变延展性之间的相容性。 因此,本发明的低合金钢可以广泛地用作在高温高压条件下长时间使用的耐火构件的材料,例如发电厂锅炉,涡轮机和核能 植物。
    • 10. 发明申请
    • Gas sensor
    • 气体传感器
    • US20050241937A1
    • 2005-11-03
    • US10525816
    • 2003-08-27
    • Takafumi ShichidaTakaya YoshikawaTakashi NakashimaSatoshi Ishikawa
    • Takafumi ShichidaTakaya YoshikawaTakashi NakashimaSatoshi Ishikawa
    • G01N27/407G01N27/26
    • G01N27/4077
    • A gas sensor is constructed as follows. A protector (4) covering around a gas sensing element (2) has an inner hollow-cylindrical portion (6) and an outer hollow-cylindrical portion (7) that is provided coaxially with the inner hollow-cylindrical portion (6) with an air space (8) in between. Outer-wall gas inlet openings (13) are formed in the outer hollow-cylindrical portion (7), and guiding bodies (10) extending inward are attached to the outer-wall gas inlet openings (13). Inner-wall gas inlet openings (11) are formed in the inner hollow-cylindrical portion (6) at positions nearer to the gas sensing element (2) than the outer-wall gas inlet openings (13). A side wall (9) face of the inner hollow-cylindrical portion (6) opposite the outer-wall gas inlet openings (13) is formed so as to be parallel to a side wall (12) of the outer-hollow cylindrical portion (7) or so as to have a slop-like shape with a diameter enlarging in the axial direction toward a bottom wall (17) of the protector (4). A discharge opening (15) for a gas to be measured is formed in the bottom wall (17).
    • 气体传感器的构造如下。 覆盖在气体感测元件(2)周围的保护器(4)具有内部中空圆柱形部分(6)和与内部中空圆柱形部分(6)同轴设置的外部中空圆柱形部分(7) 空中(8)之间。 外壁气体入口(13)形成在外中空圆柱形部分(7)中,并且向内延伸的引导体(10)附接到外壁气体入口(13)。 内壁气体入口(11)在外壁气体入口(13)的内中空圆筒部(6)的位置处形成在比气体检测元件(2)更靠近的位置处。 与外壁气体入口(13)相对的内部中空圆筒部分(6)的侧壁(9)的表面形成为平行于外部中空圆柱形部分的侧壁(12) 7),以具有朝向保护器(4)的底壁(17)在轴向方向上扩大的直径的倾斜形状。 在底壁(17)中形成用于待测气体的排出口(15)。