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    • 41. 发明申请
    • Image Forming Apparatus, Image Forming Method, and Image Forming System
    • 图像形成装置,图像形成方法和图像形成系统
    • US20070212088A1
    • 2007-09-13
    • US11678449
    • 2007-02-23
    • Naoki KoikeHiroshi KatoShinichi Kamoshida
    • Naoki KoikeHiroshi KatoShinichi Kamoshida
    • G03G15/08
    • G03G15/065G03G15/0266G03G15/0818
    • An image forming apparatus including: an image bearing member for bearing a latent image, a developer bearing member for transporting developer to an opposing position opposing the image bearing member by rotating with developer being borne thereon, the developer bearing member having regularly-disposed concave sections formed on a surface thereof, and an alternating voltage applying section for applying to the developer bearing member an alternating voltage that includes a first voltage for moving developer from the developer bearing member toward the image bearing member and a second voltage for moving developer from the image bearing member toward the developer bearing member in order to develop the latent image using the developer that has been transported to the opposing position, wherein a cycle period of the alternating voltage is smaller than or equal to a value obtained by dividing a minimum width of the concave section in a circumferential direction of the developer bearing member by a moving velocity of a surface of the developer bearing member during rotation of the developer bearing member.
    • 一种图像形成装置,包括:用于承载潜像的图像承载部件,用于将显影剂输送到与图像承载部件相对的相对位置的显影剂承载部件,其中显影剂被承载在其上的转动,所述显影剂承载部件具有规则设置的凹形部分 形成在其表面上的交流电压施加部分和用于向显影剂承载部件施加包括用于将显影剂从显影剂承载部件朝向图像承载部件移动的第一电压的交流电压和用于从显影剂移动显影剂的第二电压的交流电压施加部分 承载构件朝向显影剂承载构件,以便使用已经被输送到相对位置的显影剂来显影潜像,其中交流电压的周期周期小于或等于通过将最小宽度除以 显影剂轴承m的圆周方向的凹部 通过显影剂承载部件的旋转期间的显影剂承载部件的表面的移动速度来填充。
    • 45. 发明授权
    • Magnetic powder and isotropic bonded magnet
    • 磁粉和各向同性粘结磁铁
    • US06951625B2
    • 2005-10-04
    • US10337986
    • 2003-01-07
    • Akira AraiHiroshi Kato
    • Akira AraiHiroshi Kato
    • H01F1/08B22F1/00B22F9/10C22C38/00H01F1/057H01F1/06H01F1/04H01F1/26
    • B82Y25/00H01F1/0578H01F1/0579Y10S977/775Y10S977/838Y10S977/902
    • Disclosed herein is a magnetic powder which can provide magnet having excellent magnetic properties and having excellent reliability especially excellent heat stability. The magnetic powder is composed of an alloy composition represented by Rx(Fe1-aCoa)100-x-y-z-wByMz (where R is at least one kind of rare-earth element excepting Dy, M is at least one kind of element selected from Ti, Cr, Nb, V, Mo, Hf, W, Mn, Zr and Dy, x is 7.1-9.9at%, y is 4.6-8.0at%, z is 0.1-3.0at%, and a is 0-0.30), and the magnetic powder being constituted from a composite structure having a soft magnetic phase and a hard magnetic phase, wherein when the magnetic powder is mixed with a binding resin and then the mixture is subjected to injection molding or extrusion molding to form a bonded magnet having a density ρ[Mg/m3], the maximum magnetic energy product (BH)max[kJ/m3] of the bonded magnet at a room temperature satisfies the relationship represented by the formula (BH)max/ρ2[x10-9J·m3/g2] ≧ 2.10, and the intrinsic coercive force HCJ of the bonded magnet at the room temperature is in the range of 400-760 kA/m.
    • 本发明公开了一种磁粉,其能够提供具有优异的磁性能并且具有优异的可靠性,特别优异的热稳定性的磁体。 磁性粉末由以下组成:合金组合物,由以下组成:由R x 1(Fe 1-a),(C 1 -C 10) (其中R是除Dy之外的至少一种稀土元素,M是选自Ti,Cr中的至少一种元素, Nb,V,Mo,Hf,W,Mn,Zr和Dy,x为7.1-9.9at%,y为4.6-8.0at%,z为0.1-3.0at%,a为0-0.30) 磁性粉末由具有软磁性相和硬磁性相的复合结构构成,其中当将磁性粉末与粘合树脂混合后,将该混合物进行注射成型或挤出成型以形成密度为 rho [Mg / m 3],粘合磁体的最大磁能积(BH)最大值[kJ / m 3] 室温满足由公式(BH)表示的关系。最大值/最小值/最小值3 / g / SUP> 2> = 2.10,而内在的更强 在室温下,粘结磁体的力C C 在400-760kA / m的范围内。
    • 46. 发明授权
    • Magnetic powder, manufacturing method of magnetic powder and bonded magnets
    • 磁粉,磁粉和粘结磁铁的制造方法
    • US06896745B2
    • 2005-05-24
    • US09875789
    • 2001-06-06
    • Akira AraiHiroshi Kato
    • Akira AraiHiroshi Kato
    • B22F1/00C22C38/00H01F1/053H01F1/057H01F1/06
    • B82Y25/00H01F1/0578H01F1/0579
    • Disclosed herein is a magnetic powder which can provide magnets having excellent magnetic properties and having excellent reliability especially excellent heat stability. The magnetic powder is composed of an alloy composition represented by Rx(Fe1−aCoa)100−x−y−zByMz (where R is at least one kind of rare-earth element excepting Dy, M is at least one kind of element selected from Ti, Cr, Nb, V, Mo, Hf, W, Mn, Zr and Dy, x is 7.1-9.9 at %, y is 4.6-8.0 at %, z is 0.1-3.0 at %, and a is 0-0.30), and the magnetic powder being constituted from a composite structure having a soft magnetic phase and a hard magnetic phase, wherein when the magnetic powder is mixed with a binding resin and then the mixture is subjected to injection molding or extrusion molding to form a bonded magnet having a density ρ[Mg/m3], the maximum magnetic energy product (BH)max[kJ/m3] of the bonded magnet at a room temperature satisfies the relationship represented by the formula (BH)max/ρ2[×10−9J·m3/g2]≧2.10, and the intrinsic coercive force HCJ of the bonded magnet at a room temperature is in the range of 400-760 kA/m.
    • 本发明公开了一种磁粉,其可以提供具有优异磁性的磁体,并具有优异的可靠性,特别优异的热稳定性。 磁性粉末由以下组成:合金组合物,其由R x 1(Fe 1-a),(C 1 -C 10) (其中R是除Dy之外的至少一种稀土元素,M是选自Ti,Cr中的至少一种元素, Nb,V,Mo,Hf,W,Mn,Zr和Dy,x为7.1-9.9原子%,y为4.6-8.0原子%,z为0.1-3.0原子%,a为0-0.30) 磁性粉末由具有软磁性相和硬磁性相的复合结构构成,其中当将磁性粉末与粘合树脂混合后,将该混合物进行注射成型或挤出成型以形成密度为 rho [Mg / m 3],粘合磁体的最大磁能积(BH)最大值[kJ / m 3] 室温满足由公式(BH)表示的关系。最大/最大/最小二极管 /g2]=2.10和内在公司 粘结磁体在室温下的矫顽力H CJ 在400-760kA / m的范围内。
    • 47. 发明授权
    • Dimpling device
    • 凹坑装置
    • US06862790B2
    • 2005-03-08
    • US10209919
    • 2002-08-02
    • Hiroshi Kato
    • Hiroshi Kato
    • B21D22/04B21D53/92B21J15/38B30B12/00B23P19/04
    • B21D22/04B21J15/38Y10T29/5377Y10T29/53857Y10T29/53878Y10T29/53883Y10T29/53996
    • A dimpling device is provided with a slide rod, a first workpiece holder, and a second workpiece holder. The slide rod is slidably fitted around a center pin running through rivet holes. The first workpiece holder is slidably and detachably fitted around the slide rod. The second workpiece holder is detachably fixed to the center pin. The first and second workpiece holders have holding surfaces with curvatures that have been preselected to conform to the curvatures of the surfaces of workpieces. The slide rod has a punch and the second workpiece holder has a die. When the workpieces are held together by the holding surfaces, a nut is rotated to move the punch into a cooperative relationship with the die, thereby dimpling the surroundings of the rivet holes.
    • 凹坑装置设置有滑杆,第一工件保持器和第二工件保持器。 滑杆可滑动地安装在穿过铆钉孔的中心销上。 第一工件保持件可滑动地且可拆卸地安装在滑杆周围。 第二工件支架可拆卸地固定在中心销上。 第一和第二工件保持器具有具有预定的曲率的保持表面以符合工件表面的曲率。 滑杆具有冲头,并且第二工件保持器具有模具。 当工件通过保持表面保持在一起时,旋转螺母以将冲头移动到与模具的协作关系,从而使铆钉孔的周围变浅。
    • 48. 发明授权
    • Magnetic powder and isotropic bonded magnet
    • 磁粉和各向同性粘结磁铁
    • US06852246B2
    • 2005-02-08
    • US10266245
    • 2002-10-08
    • Akira AraiHiroshi Kato
    • Akira AraiHiroshi Kato
    • H01F1/20H01F1/057C04B35/04
    • B82Y25/00H01F1/0579Y10S977/775Y10S977/777Y10S977/838
    • Disclosed herein is magnetic powder which can provide a magnet having a high magnetic flux density and excellent magnetizability and reliability especially excellent heat resistance property (heat stability). The magnetic powder is composed of an alloy composition represented by Rx(Fe1-yCoy)100-x-z-wBzSiw (where R is at least one kind of rare-earth element, x is 8.1-9.4 at %, y is 0-0.30, z is 4.6-6.8 at %, and w is 0.2-3.0 at %), the magnetic powder being constituted from a composite structure having a soft magnetic phase and a hard magnetic phase, wherein the magnetic powder has characteristics in which, when the magnetic powder is formed into an isotropic bonded magnet by mixing with a binding resin and then molding it, the irreversible susceptibility (χirr which is measured by using an intersection of a demagnetization curve in the J-H diagram representing the magnetic characteristics at the room temperature and a straight line which passes the origin in the J-H diagram and has a gradient ×J/H of −3.8×10−6 H/m as a starting point is less than 5.0×10−7 H/m, and the intrinsic coercive force (HCJ) of the magnet at the room temperature is in the range of 406-717 kA/m.
    • 这里公开了可提供具有高磁通密度和优异的磁化性和可靠性,特别是优异的耐热性(热稳定性)的磁体的磁性粉末。 磁性粉末由Rx(Fe1-yCoy)100-xz-wBzSiw(其中R是至少一种稀土元素,x为8.1-9.4at%,y为0-0.30, z为4.6〜6.8原子%,w为0.2〜3.0原子%),磁性粉末由具有软磁性相和硬磁性相的复合结构构成,其特征在于, 粉末通过与粘合树脂混合然后成型而形成为各向同性粘结磁体,其不可逆磁化率(通过使用表示室温下的磁特性的JH图中的退磁曲线与直线 在JH图中通过原点并且具有-3.8×10 -6 H / m的梯度xJ / H作为起始点的线小于5​​.0×10 -7 H / m,并且固有矫顽力 HCJ)在室温下在406-717kA / m的范围内。
    • 49. 发明申请
    • Toroidal-type continuously variable transmission
    • 环形无级变速器
    • US20050014598A1
    • 2005-01-20
    • US10820787
    • 2004-04-09
    • Kouji IshikawaHiroshi KatoEiji InoueHiroki Nishii
    • Kouji IshikawaHiroshi KatoEiji InoueHiroki Nishii
    • F16C33/78F16H15/38F16H57/04
    • F16H57/043F16H15/38F16H57/049
    • A toroidal-type continuously variable transmission according to the present invention includes an input shaft, an input disk and an output disk, plural power rollers, a power roller bearing, an oil passage, and a mesh filter. The input and output disks are supported mutually concentrically with said input shaft and mutually independently rotatably. The plural power rollers are sandwiched between said input disk and said output disks. The power roller bearing rotatably supports said power rollers. The oil passage for leading lubricating oil to said power roller bearing. The mesh filter is provided in said oil passage. Accordingly, the toroidal-type continuously variable transmission can prevent an occurrence of biting-in of foreign substances at a power roller bearing, to thereby increase the life of the power roller bearing.
    • 根据本发明的环形无级变速器包括输入轴,输入盘和输出盘,多个动力辊,动力滚子轴承,油通道和网状过滤器。 输入和输出盘与所述输入轴相互同心地支撑并相互独立地可旋转。 多个动力辊夹在所述输入盘和所述输出盘之间。 动力滚子轴承可旋转地支撑所述动力辊。 用于将润滑油引导到所述动力滚子轴承的油路。 所述油路中设有网状过滤器。 因此,环形无级变速器能够防止在动力滚子轴承上产生异物侵入,从而延长动力滚子轴承的使用寿命。