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
    • 3. 发明授权
    • High-accuracy sliding bearing
    • 高精度滑动轴承
    • US07785013B2
    • 2010-08-31
    • US11596530
    • 2005-05-24
    • Masaki EgamiSeiji ShimizuTakeshi Tanimaru
    • Masaki EgamiSeiji ShimizuTakeshi Tanimaru
    • F16C33/24
    • F16C33/1065B29C45/14622B29C45/2708B29K2705/00F16C17/02F16C17/10F16C33/201
    • The present invention provides a high-accuracy sliding bearing which eliminates the need for treating a gate mark, has a high accuracy, is excellent in its mechanical strength, and is in its productivity. A sintered metal (2) is used as a bearing peripheral part. A resin material is molded at a sliding portion of the bearing peripheral part to form a resin layer (3). In the resin layer (3), a product of a coefficient of linear thermal expansion of the resin material and a thickness of the resin layer is not more than 0.15. The resin layer (3) is molded through tunnel gates. The resin layer comprises a plurality of axial grooves (4A) and (4B) on a bearing sliding surface thereof, and the tunnel gate marks (5) are alternately formed on a bottom of each of the grooves.
    • 本发明提供一种高精度滑动轴承,其不需要处理门标,具有高精度,机械强度优异,并且其生产率。 使用烧结金属(2)作为轴承周边部。 树脂材料在轴承周边部的滑动部分成型,形成树脂层(3)。 在树脂层(3)中,树脂材料的线性热膨胀系数与树脂层的厚度的乘积不大于0.15。 树脂层(3)通过隧道浇口模制。 树脂层在其轴承滑动面上包括多个轴向槽(4A)和(4B),并且隧道浇口标记(5)交替地形成在每个槽的底部上。
    • 4. 发明申请
    • High-accuracy sliding bearing
    • 高精度滑动轴承
    • US20070177833A1
    • 2007-08-02
    • US11596530
    • 2005-05-24
    • Masaki EgamiSeiji ShimizuTakeshi Tanimaru
    • Masaki EgamiSeiji ShimizuTakeshi Tanimaru
    • F16C33/02
    • F16C33/1065B29C45/14622B29C45/2708B29K2705/00F16C17/02F16C17/10F16C33/201
    • The present invention provides a high-accuracy sliding bearing which eliminates the need for treating a gate mark, has a high accuracy, is excellent in its mechanical strength, and is in its productivity. A sintered metal (2) is used as a bearing peripheral part. A resin material is molded at a sliding portion of the bearing peripheral part to form a resin layer (3). In the resin layer (3), a product of a coefficient of linear thermal expansion of the resin material and a thickness of the resin layer is not more than 0.15. The resin layer (3) is molded through tunnel gates. The resin layer comprises a plurality of axial grooves (4A) and (4B) on a bearing sliding surface thereof, and the tunnel gate marks (5) are alternately formed on a bottom of each of the grooves.
    • 本发明提供一种高精度滑动轴承,其不需要处理门标,具有高精度,机械强度优异,并且其生产率。 使用烧结金属(2)作为轴承周边部。 树脂材料在轴承周边部的滑动部分成型,形成树脂层(3)。 在树脂层(3)中,树脂材料的线性热膨胀系数与树脂层的厚度的乘积不大于0.15。 树脂层(3)通过隧道浇口模制。 树脂层在其轴承滑动面上包括多个轴向槽(4A)和(4B),并且隧道浇口标记(5)交替地形成在每个槽的底部上。
    • 5. 发明授权
    • Recording apparatus and controller used in recording apparatus
    • 在记录装置中使用的记录装置和控制器
    • US09016848B2
    • 2015-04-28
    • US13324919
    • 2011-12-13
    • Seiji Shimizu
    • Seiji Shimizu
    • B41J2/165B41J11/00
    • B41J2/16538B41J2/16585B41J11/002
    • A recording apparatus comprises a conveyor, a head including an ejection surface, a UV irradiator positioned downstream of the head in a conveyance direction, a wiper, a first shading member, and first and second controllers. The first shading member is movable in a cross direction crossing the ejection surface, and shades an opposed space being opposed to the ejection surface from ultraviolet light applied by the UV irradiator in a state where the first shading member is taking a protruding position. The first controller controls the first shading member to take the protruding position. The second controller controls the wiper to move relatively to the ejection surface while causing the wiper to contact the ejection surface in a state where the wiper is positioned in the opposed space and the first shading member is taking the protruding position, when the wiping is performed.
    • 记录装置包括传送器,包括喷射表面的头部,沿着输送方向位于头部下游的UV照射器,刮水器,第一遮光部件以及第一和第二控制器。 第一遮光构件能够在与喷射面交叉的方向上移动,并且在第一遮光构件处于突出位置的状态下,遮蔽与由UV照射器施加的紫外线相对的喷射面的相对的空间。 第一控制器控制第一遮光构件以取出突出位置。 第二控制器控制擦拭器相对于喷射表面移动,同时在刮擦器位于相对的空间中并且当第一遮光部件处于突出位置时,擦拭器与喷射表面接触,当执行擦拭时 。
    • 8. 发明申请
    • Method for Creating Trench in U Shape in Brittle Material Substrate, Method for Removing Process, Method for Hollowing Process and Chamfering Method Using Same
    • 用于在脆性材料基板中形成U形沟槽的方法,用于去除工艺的方法,用于中空过程的方法和使用其的倒角方法
    • US20100320179A1
    • 2010-12-23
    • US12526330
    • 2008-08-20
    • Hideki MoritaSeiji ShimizuKenji Fukuhara
    • Hideki MoritaSeiji ShimizuKenji Fukuhara
    • B23K26/00
    • B28D5/0011B23K26/066B23K26/40B23K2103/50C03B33/033C03B33/04C03B33/091Y02P40/57
    • A method for creating a trench in U shape according to which trenches in lines which are continuous or broken or curved in a plane can be easily created on the surface of a substrate, as well as a chamfering method using this, are provided.A trench in U shape is created by peeling part of a brittle material substrate from the surface of the substrate by rapidly heating the substrate with conditions for irradiation with a laser for creating a trench in U shape which include the laser power as found in advance, the area to be irradiated with a laser, and the scanning speed, in accordance with the substrate material, which is the object to be processed, and the width, depth and form of the trench in U shape to be created. A chamfered surface is made of a trench surface which is part of a trench in U shape created between an end surface and a surface of the substrate, which are separated along a line along which the substrate is to be divided, between a start end and a finish end of said line along which the substrate is to be divided at the bottom of the created trench in U shape in accordance with a method for scribing a substrate by expanding a crack with a laser, a scribing method using a cutter wheel or the like.
    • 提供了一种用于形成U形沟槽的方法,根据该沟槽可以容易地在基板的表面上产生在平面中连续或断开或弯曲的线中的沟槽以及使用其的倒角方法。 通过用激光照射的条件快速加热基板的表面,从基板的表面剥离脆性材料基板的一部分,形成U形的沟槽,该激光用于产生包括如先前所述的激光功率的U形沟槽, 用激光照射的区域,以及根据作为被处理物体的基板材料的扫描速度以及要形成的U形的沟槽的宽度,深度和形式。 倒角表面由沟槽表面制成,该沟槽表面是U形的一部分,其形成在基板的端面和表面之间,沿着衬底被划分的线在起始端和 根据通过用激光器扩张裂纹来划分基板的方法,使用切割轮的划线方法或者使用切割轮的划线方法,将所述基板在所形成的沟槽的底部分割成U形, 喜欢。
    • 9. 发明授权
    • Inkjet printer head and inkjet printer
    • 喷墨打印头和喷墨打印机
    • US07690754B2
    • 2010-04-06
    • US11823342
    • 2007-06-27
    • Hirotake NakamuraSeiji Shimizu
    • Hirotake NakamuraSeiji Shimizu
    • B41J2/015
    • B41J2/17513B41J2202/14
    • An inkjet printer head including: (a) a front head unit having (a-i) an outside surface which is to be opposed to a print media, (a-ii) an inside surface opposite to the outside surface, (a-iii) a plurality of nozzles opening in the outside surface and arranged in row, and (a-iv) an ink inlet opening in the inside surface; (b) an ink-channel defining unit supplying an ink into the front head unit through the ink inlet; (c) a head holder holding the front head unit; and (d) a reinforcement member fixed to the inside surface of the front head unit. The front head unit and the head holder are fixed to each other, with the reinforcement member being interposed therebetween. The ink-channel defining unit is fixed to one of opposite side surfaces of the reinforcement member that is remote from the front head unit. Also disclosed is an inkjet printer including the above-described inkjet printer head, a carriage, a heat dissipater and a bubble discharger, wherein the heat dissipater, bubble discharger and front head unit are mounted on the carriage, and are arranged in a direction of movement of the carriage.
    • 一种喷墨打印头,包括:(a)具有(ai)与打印介质相对的外表面的前头单元,(a-ii)与所述外表面相对的内表面,(a-iii)a 多个喷嘴,其在外表面上开口并排成一行,(a-iv)内表面中的墨入口; (b)油墨通道限定单元,通过所述油墨入口将油墨供应到所述前头单元中; (c)保持前头单元的头架; 和(d)固定在前头单元的内表面上的加强件。 前头单元和头保持器彼此固定,加强构件插入其间。 油墨通道限定单元固定到远离前头单元的加强构件的相对侧表面之一。 还公开了一种喷墨打印机,其包括上述喷墨打印机头,滑架,散热器和气泡排出器,其中散热器,气泡排出器和前头单元安装在滑架上,并且沿着 运动的运动。