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    • 1. 发明专利
    • Linear motion bearing with rotary bearing
    • 带旋转轴承的直线运动轴承
    • JP2010112554A
    • 2010-05-20
    • JP2009235211
    • 2009-10-09
    • Hiihaisuto Seiko Kkヒーハイスト精工株式会社
    • OZAKI FUMIHIKOOKAWARA TAKAKIKOSEKI EIICHI
    • F16C31/04F16C33/41F16C33/58
    • F16C31/04F16C33/41
    • PROBLEM TO BE SOLVED: To provide a linear motion bearing with a rotary bearing which can be manufactured easily and make the linear movement and/or the rotary movement of the axial body with a high degree of accuracy. SOLUTION: The linear motion bearing with a rotary bearing includes a linear motion bearing (13) which accommodates the axial body (12) in a cylinder (11) non-rotatably and non-slidably and a plurality of rotary bearings (14) installed with at intervals along the longitudinal direction of the cylinder around the cylinder. The diameter of the peripheral face of the above cylinder is constant in the longitudinal direction of the cylinder, and the above rolling bearing comprises a circumferential groove (11a) formed on the outer peripheral face of the cylinder, a plurality of rolling bodies (15) arranged on this circumferential groove, an annular rolling body retainer (16) rotatably retaining the rolling bodies with part of them projecting to the outer peripheral side, an annular body (17) equipped with a peripheral groove (17a) to accommodate the part of the rolling body part projecting from the retainer on an inner circumference face. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种可以容易地制造的旋转轴承的直线运动轴承,并且以高精度进行轴向体的线性运动和/或旋转运动。 解决方案:具有旋转轴承的直线运动轴承包括直线运动轴承(13),该直线运动轴承(13)以不可旋转和不可滑动的方式容纳圆柱体(11)中的轴向体(12)和多个旋转轴承(14) )沿圆柱体的圆柱体的纵向方向间隔地安装。 上述圆筒的圆周面的直径在圆筒的长度方向上是恒定的,并且上述滚动轴承包括形成在圆筒的外周面上的周向槽(11a),多个滚动体(15) 布置在该圆周槽上的环形滚动体保持器(16),其可旋转地保持滚动体的一部分突出到外周侧;环形体(17),其具有周向槽(17a),以容纳部分 滚动体部分从保持器在内周面上突出。 版权所有(C)2010,JPO&INPIT
    • 2. 发明专利
    • Positioning component
    • 定位组件
    • JP2012135839A
    • 2012-07-19
    • JP2010290340
    • 2010-12-27
    • Hiihaisuto Seiko Kkヒーハイスト精工株式会社
    • YAMADA MASAAKIOZAKI FUMIHIKO
    • B23Q1/44
    • PROBLEM TO BE SOLVED: To provide a positioning device capable of reducing the height of the device with a simple structure.SOLUTION: The positioning component includes: a first slide member 21 supported by a rail 12 extending on the surface of a base 11 and having a side 21b perpendicular to the rail; a first linear guide 31 provided on the side 21b of the first slide member; a second slide member 22 supported by the rail 12 and having a slanted surface 22a extending upward on a slant from a side 22b opposing to the side 21b of the first slide member; a second linear guide 32 provided slantwise along the slanted surface 22a on the second slide member 22; a wedge-like up-and-down moving member 23 supported to be movable up and down by the first linear guide 31 and the second linear guide 32; a slide member driving part 41 mutually connecting the base 11 and the first slide member 21; and a slide member-distance adjustment part 42 connecting the first slide member 21 and the second slide member 22 to enable the mutual distance to be adjusted.
    • 要解决的问题:提供一种能够以简单结构降低装置的高度的定位装置。 解决方案:定位部件包括:由轨道12支撑的第一滑动构件21,轨道12在基座11的表面上延伸并且具有垂直于轨道的侧面21b; 设置在第一滑动构件的侧面21b上的第一线性引导件31; 第二滑动构件22,由轨道12支撑,并且具有从与第一滑动构件的侧面21b相对的侧面22b沿倾斜向上延伸的倾斜表面22a; 沿着第二滑动构件22上的倾斜表面22a倾斜设置的第二线性引导件32; 通过第一直线引导件31和第二直线引导件32可上下移动的楔形上下移动构件23; 相互连接基座11和第一滑动构件21的滑动构件驱动部41; 以及连接第一滑动构件21和第二滑动构件22的滑动构件距离调整部42,以能够调整相互的距离。 版权所有(C)2012,JPO&INPIT
    • 3. 发明专利
    • Lineup device of very small component
    • 非常小的组件的线性设备
    • JP2009155080A
    • 2009-07-16
    • JP2007337402
    • 2007-12-27
    • Hiihaisuto Seiko KkProduce:Kkヒーハイスト精工株式会社株式会社プロデュース
    • TAKANO HIROSHINAGAI HIDEAKIOZAKI FUMIHIKOSHINDO SHIGEKI
    • B65G47/14
    • PROBLEM TO BE SOLVED: To provide a practical lineup device of very small components using the ultrasonic vibration. SOLUTION: The lineup device of very small components includes a lineup plate (12) in which a large number of through-holes (11) for storing very small components in the predetermined direction are lined up, a frame body (13) arranged above along a peripheral edge of the line-up plate, an elastic sheet (15) arranged below the lineup plate with a space therebetween and having through-holes (14) in which the very small components can be press-fitted at the position corresponding to each through-hole in the lineup plate, a supporting plate (16) arranged on a lower side of the elastic sheet, and an ultrasonic oscillator (17) fixed to an upper side of the line-up plate. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供使用超声波振动的非常小的组件的实用的阵容装置。 解决方案:非常小的组件的阵容装置包括一个阵列板(12),其中用于在预定方向上存储非常小的部件的大量通孔(11)排成一列,框体(13) 布置在所述阵列板的周缘上方的弹性片(15),所述弹性片(15)布置在所述阵列的下方,其间具有空间,并具有通孔(14),其中所述非常小的部件能够被压配在所述位置 对应于排列板中的每个通孔,布置在弹性片的下侧的支撑板(16)和固定到排列板的上侧的超声波振子(17)。 版权所有(C)2009,JPO&INPIT
    • 4. 发明专利
    • Elevating table
    • 电子表
    • JP2010153644A
    • 2010-07-08
    • JP2008331096
    • 2008-12-25
    • Hiihaisuto Seiko Kkヒーハイスト精工株式会社
    • IWAKIRI TAKESHIOZAKI KUSUYAOZAKI FUMIHIKO
    • H01L21/68B23Q1/44F16C23/08G01N21/84G01N21/956H01L21/027
    • PROBLEM TO BE SOLVED: To provide an elevating table in which the inclination and movement of surface of a table panel is inhibited. SOLUTION: The elevating table includes: a base mount (11); an elevating apparatus (12) which is installed on the base mount; a shaft body (14) in which a lower end is fixed to the elevating apparatus through a movable connection tool (41), and which supports a table panel (13) at an upper end; and a direct acting bearing (17) which is supported by a support (15) erected around the elevating apparatus on the base mount and has an outer case (16) which accommodates the shaft body so that it moves up and down. The movable connection tool consists of: a slide unit which has a support plate fixed to the elevating apparatus and a movable plate supported so as to be slidable on the support plate through a plurality of spheres; and a spherical bearing which has a housing which is fixed to the movable plate and has a spherical cavity which opens in upper part, a solid sphere accommodated in the cavity, and a support shaft which is provided in a top of the sphere and is fixed to the lower end of the shaft body through the opening of the housing. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种能够抑制台面的表面的倾斜和移动的升降台。 解决方案:升降台包括:基座(11); 安装在基座上的升降装置(12) 轴体,其中下端通过可移动连接工具(41)固定到升降装置,并且在上端支撑台面板(13); 以及直立式轴承(17),其由竖立在所述基座上的升降装置周围的支撑件(15)支撑,并且具有容纳所述轴体以使其上下移动的外壳(16)。 可移动连接工具包括:滑动单元,其具有固定到升降装置的支撑板和支撑成可通过多个球体在支撑板上滑动的可动板; 以及球面轴承,其具有固定到可动板并具有在上部开口的球形腔体的壳体,容纳在腔体中的实心球体和设置在球体的顶部中并固定的支撑轴 通过壳体的开口延伸到轴体的下端。 版权所有(C)2010,JPO&INPIT
    • 5. 发明专利
    • Minute component aligning device and aligning method
    • 分钟分配器件和校准方法
    • JP2009173415A
    • 2009-08-06
    • JP2008015312
    • 2008-01-25
    • Hiihaisuto Seiko KkProduce:Kkヒーハイスト精工株式会社株式会社プロデュース
    • TAKANO HIROSHINAGAI HIDEAKIOZAKI FUMIHIKOSHINDO SHIGEKI
    • B65G47/14
    • PROBLEM TO BE SOLVED: To provide a practical minute component aligning device using an ultrasonic transducer as a vibration source of an alignment plate.
      SOLUTION: This minute component aligning device includes an aligning plate 12, on which a large number of through-holes 11 capable of housing minute components in a predetermined direction are aligned, and which has an easy-to-exfoliate surface; a frame body 13 formed to extend upward from an peripheral edge of the aligning plate 12; an adhesive sheet 14 having adhesiveness on a top face arranged in contact with a bottom face of the aligning plate 12; a supporting plate 15 arranged in contact with the bottom face of the adhesive sheet 14; and ultrasonic transducers 16, 16 arranged on a bottom face of the supporting plate 15.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供使用超声波换能器作为对准板的振动源的实用的分钟对准装置。 解决方案:该微小零件对准装置包括对准板12,在该对准板12上,能够沿着预定方向容纳微小部件的多个通孔11在其上排列,并具有易于剥离的表面; 形成为从对准板12的周缘向上延伸的框体13; 在与对准板12的底面接触配置的顶面上具有粘合性的粘合片14; 布置成与粘合片14的底面接触的支撑板15; 和布置在支撑板15的底面上的超声波换能器16,16。版权所有(C)2009,JPO&INPIT
    • 6. 发明专利
    • Bearing
    • 轴承
    • JP2003083336A
    • 2003-03-19
    • JP2001277291
    • 2001-09-12
    • Hiihaisuto Seiko Kkヒーハイスト精工株式会社
    • OKAWARA TAKAKIOZAKI FUMIHIKO
    • F16C33/48F16C29/04
    • PROBLEM TO BE SOLVED: To provide a bearing easy to form and produce and capable of saving production cost.
      SOLUTION: A bearing cage 3 consists of a plurality of pieces 6 divided in axial direction. The piece 6 has a split hole 7s for each retaining hole 7 matching with the shape of the roller member 4 aligned with the butting face P of adjacent pieces 6 as the centerline. The retaining holes 7 are arranged in the vertical direction of the butting face P of the pieces 6. To assemble the cage with a plurality of pieces 6 to form a cylinder, the butting faces of piece 6 are adhered to each other with an appropriate adhesive agent and then reinforce them by winding a linear member 9 through an engaging groove 8 around the upper, lower and middle parts of the piece 6.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供易于形成和生产的轴承,并且能够节省生产成本。 解决方案:轴承保持架3由沿轴向分开的多个件6组成。 片6具有与相邻片6的对接面P对准的辊构件4的形状作为中心线的每个保持孔7的开口孔7s。 保持孔7沿着各个片6的对接面P的垂直方向配置。为了组装具有多个片6的保持器以形成圆筒,片6的对接面用适当的粘合剂彼此粘合 然后通过将片状构件9缠绕在构件6的上部,下部和中部的接合槽8来加固它们。
    • 7. 发明专利
    • Linear bearing
    • 线性轴承
    • JP2010276141A
    • 2010-12-09
    • JP2009130352
    • 2009-05-29
    • Hiihaisuto Seiko Kkヒーハイスト精工株式会社
    • OKAWARA TAKAKIOZAKI FUMIHIKOSHINDO SHIGEKIHASHIGUCHI IPPEI
    • F16C29/06
    • PROBLEM TO BE SOLVED: To provide a linear bearing capable of supporting a shaft body stably and precisely. SOLUTION: The linear bearing includes a bearing outer cylinder 14 consisting of a cylinder body 11 of a resin material in which linear spherical body holding holes 12 having a slit-like opening 12a holding a spherical body in a manner capable of poking to inside of an inner circumferential face of the cylinder body and linear spherical body passages 13 positioned between an inner circumferential face and an outer circumferential face of the cylinder body are alternately arranged in a circumferential direction of the cylinder body; an annular cover material provided with a plurality of spherical body turning grooves forming a spherical body circulating route by connecting a holding hole and its adjacent passage of the spherical body holding holes and the spherical body passage arranged for respective both end surfaces of the bearing outer cylinder are regarded as a set and connected with respective end parts of the holding hole and passage of each set; and a plurality of spherical bodies 18, 18, and so on arranged in respective spherical body circulation routes. In the linear bearing, linear grooves 14a extending between respective adjacent spherical holding hole 12 and spherical body passage 13 in the outer circumferential face of the bearing outer cylinder 14 in a longitudinal direction of the outer cylinder are formed. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够稳定且精确地支撑轴体的直线轴承。 线性轴承包括轴承外筒14,该轴承外筒14由树脂材料的筒体11构成,其中线状球体保持孔12具有狭缝状开口12a,该狭缝状开口12a以能够戳到 在筒体的内周面的内侧和位于筒体的内周面和外周面之间的直线状球体通路13沿圆筒体的周向交替配置, 一种环形覆盖材料,其具有形成球体主体循环路径的多个球体转动槽,该球形体转动槽通过连接保持孔及其相邻的球体保持孔的通道,以及为轴承外筒的两个端面设置的球体通道 被认为是一组并与每个组的保持孔和通道的相应端部连接; 以及布置在各个球体循环路径中的多个球体18,18等。 在直线轴承中,形成在外筒的纵向方向上在轴承外筒14的外周面中在相邻的球形保持孔12和球形体通道13之间延伸的直线槽14a。 版权所有(C)2011,JPO&INPIT
    • 8. 发明专利
    • Linear motion bearing
    • 线性运动轴承
    • JP2010031907A
    • 2010-02-12
    • JP2008192327
    • 2008-07-25
    • Hiihaisuto Seiko Kkヒーハイスト精工株式会社
    • OZAKI KUSUYAOKAWARA TAKAKIOZAKI FUMIHIKO
    • F16C29/04
    • PROBLEM TO BE SOLVED: To provide a linear motion bearing of a novel constitution superior in load resistance, and superior in straightly advancing performance of a shaft.
      SOLUTION: This linear motion bearing includes the nonrotatable sliding shaft (11) mutually forming three or more of grooves (11a-11i) respectively extending in the length direction at an interval in the peripheral direction on an outer peripheral surface, a cylindrical rolling element cage (13) having three or more of columnar rolling elements mutually arranged at an interval in the groove length direction in the respective grooves and respectively rollable along the grooves and a plurality of through-holes arranged around the shaft and rotatably storing and holding the respective rolling elements in a state of partially projecting to the inner peripheral surface side and the outer peripheral surface side, and a cylinder body (14) mutually fitted in a state of contacting with the respective rolling elements projected to the outer peripheral surface side of the cage around the rolling element cage. The linear motion bearing is characterized by arranging the three or more of grooves possessed by the shaft in the positional relationship of not mutually opposing optional two grooves among its grooves in the diametrical direction of the shaft.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种具有优异的负载电阻,轴的直线性能优异的新颖结构的直线运动轴承。 解决方案:该直线运动轴承包括不可旋转的滑动轴(11),其相互形成三个或更多个分别在外周面上沿圆周方向在长度方向上延伸的凹槽(11a-11i),圆柱形 滚动体保持架(13),其具有三个以上的在各个槽中沿槽长度方向间隔配置并分别沿着槽滚动的多个圆柱滚动元件和多个布置在该轴周围的通孔,并且可转动地保持和保持 各个滚动元件处于部分地向内周面侧和外周面侧突出的状态,以及在与向与外周面侧突出的外周面侧突出的各滚动元件接触的状态下相互配合的圆筒体(14) 围绕滚动体笼的笼子。 直线运动轴承的特征在于,在轴的直径方向上,在其槽中不可相互对置的两个槽的位置关系中布置由轴所具有的三个或更多个槽。 版权所有(C)2010,JPO&INPIT
    • 10. 发明专利
    • SPHERICAL SURFACE ROLLER
    • JP2002188645A
    • 2002-07-05
    • JP2000389929
    • 2000-12-22
    • HIIHAISUTO SEIKO KK
    • OZAKI KUSUYAOZAKI FUMIHIKO
    • F16C33/36
    • PROBLEM TO BE SOLVED: To provide a spherical surface roller which prevents breakage of a retainer, increases load capacity, eliminates skew, secures an aligning ability, and enables miniaturization. SOLUTION: The spherical surface roller is provided with a rolling part 11 which rolls around a rolling shaft O and has a rolling peripheral surface with a curvature radius of R, and a spherical surface rolling side part 12 with a curvature radius of r which is disposed on both sides in the direction of the rolling shaft O. The curvature radius R of the rolling peripheral surface in the rolling part 11 is longer than the curvature radius r of a rolling side part 12 on both sides in the direction of the rolling shaft O. A radius r1 in the direction orthogonal to the rolling shaft O is slightly shorter than the curvature radius r of the rolling side part 12. A midway part in a cross direction on the rolling peripheral surface has the maximum radius r1 of the rolling part 11.