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    • 1. 发明授权
      US09366327B2 Serially-connected ball screw pair and piezoelectric actuator macro-micro driving and guiding device 有权
    • Serially-connected ball screw pair and piezoelectric actuator macro-micro driving and guiding device
    • 串联滚珠丝杠对和压电执行机构宏微驱动引导装置
    • US09366327B2
    • 2016-06-14
    • US14001896
    • 2011-10-26
    • Yumei HuangHongyan LiuXingang YangYong Yang
    • Yumei HuangHongyan LiuXingang YangYong Yang
    • F16H25/22B23Q1/30B23Q5/40
    • F16H25/2204B23Q1/30B23Q5/40Y10T74/18656
    • A serially-connected ball screw pair and piezoelectric actuator macro-micro driving and guiding device includes, from the bottom to the top, a sliding seat (1), a ball screw pair, a sliding table guide rail pairs, a nut seat (6), a piezoelectric actuator (7), a micro-moving table, a nut seat guide rail pairs and a sliding table (1). The axis of a ball screw is symmetric with respect to two sliding table rail pairs, a nut (3) of the ball screw pair is fixedly mounted into the nut seat (6), one end of the piezoelectric actuator (7) is fixedly connected with the nut seat (6) and the other end thereof is fixedly connected with the micro-moving table (8), the axis of the piezoelectric actuator is symmetric relative to two sliding table rail pairs, an upper surface of the micro-moving table is fixedly mounted to a lower surface of the sliding table, and two nut rail pairs are symmetric relative to the axis of the ball screw. The ultra precision feeding in a long stroke within a full journey can be achieved; and the piezoelectric actuator only endures the driving force without enduring the driving torque generated by the driving force of the ball screw pair, thus, so that the piezoelectric actuator is in a good stressed status, which is applicable to a large-load ultra-precision feed system.
    • 一个串联连接的滚珠丝杠对和压电执行器宏观微型驱动和引导装置,包括从底部到顶部的滑动座(1),滚珠丝杠对,滑动台导轨对,螺母座(6 ),压电致动器(7),微移动台,螺母座导轨对和滑动台(1)。 滚珠丝杠的轴线相对于两个滑动台轨对对称,滚珠丝杠对的螺母(3)固定地安装在螺母座(6)中,压电致动器(7)的一端固定连接 与螺母座(6)的另一端与微动台(8)固定连接,压电致动器的轴线相对于两个滑台轨对,微动台的上表面对称 固定地安装在滑动台的下表面,两个螺母导轨对相对于滚珠丝杠的轴线对称。 可以在全程内实现长时间的超精密进给; 并且压电致动器仅承受驱动力而不会承受由滚珠丝杠对的驱动力产生的驱动力矩,使得压电致动器处于良好的应力状态,这适用于大负载超精度 饲料系统
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 2. 发明授权
      US09168623B2 Biaxial linear-motion micro drive apparatus 有权
    • Biaxial linear-motion micro drive apparatus
    • 双轴线性运动微驱动装置
    • US09168623B2
    • 2015-10-27
    • US13989850
    • 2011-10-13
    • Yumei HuangHongyan LiuXingang YangYong Yang
    • Yumei HuangHongyan LiuXingang YangYong Yang
    • G05G11/00B23Q5/22B23Q5/28
    • B23Q5/22B23Q5/28B23Q2210/002Y10T74/18992
    • A biaxial linear-motion micro drive apparatus includes: a mounting base A on an upper surface of a Z-direction sliding base; a Z-direction micro actuator fixed within the mounting base A and connected with a Z-direction micro-motion platform connected with an X-direction sliding base; Z-direction guide rail strips arranged on the Z-direction sliding; two Z-direction guide rail blocks provided on one Z-direction guide rail strip fixedly mounted on a lower surface of the X-direction sliding base; a mounting base B provided on an upper surface of the X-direction sliding base; an X-direction micro actuator in the mounting base B and connected with an X-direction micro-motion platform connected with an XZ biaxial motion platform; two X-direction guide rail strips arranged on the upper surface of the X-direction sliding base; two X-direction guide rail blocks provided on each X-direction guide rail strip mounted on a lower surface of the XZ biaxial motion platform.
    • 双轴直线运动微驱动装置包括:在Z方向滑动基座的上表面上的安装基座A; 固定在安装基座A内并与与X方向滑动基座连接的Z方向微动平台连接的Z方向微致动器; Z方向导轨条布置在Z方向滑动; 设置在固定安装在X方向滑动基座的下表面上的一个Z方向导轨条上的两个Z方向导轨块; 设置在X方向滑动基座的上表面上的安装基座B; 安装基座B上的X方向微型致动器,与XZ双轴运动平台连接的X方向微动平台连接; 两个X方向导轨条布置在X方向滑动底座的上表面上; 设置在安装在XZ双轴运动平台的下表面上的每个X方向导轨条上的两个X方向导轨块。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 3. 发明申请
      US20140053670A1 BIAXIAL LINEAR-MOTION MICRO DRIVE APPARATUS 有权
    • BIAXIAL LINEAR-MOTION MICRO DRIVE APPARATUS
    • 双向线性运动微型驱动装置
    • US20140053670A1
    • 2014-02-27
    • US13989850
    • 2011-10-13
    • Yumei HuangHongyan LiuXingang YangYong Yang
    • Yumei HuangHongyan LiuXingang YangYong Yang
    • B23Q5/22
    • B23Q5/22B23Q5/28B23Q2210/002Y10T74/18992
    • A biaxial linear-motion micro drive apparatus includes: a mounting base A on an upper surface of a Z-direction sliding base; a Z-direction micro actuator fixed within the mounting base A and connected with a Z-direction micro-motion platform connected with an X-direction sliding base; Z-direction guide rail strips arranged on the Z-direction sliding; two Z-direction guide rail blocks provided on one Z-direction guide rail strip fixedly mounted on a lower surface of the X-direction sliding base; a mounting base B provided on an upper surface of the X-direction sliding base; an X-direction micro actuator in the mounting base B and connected with an X-direction micro-motion platform connected with an XZ biaxial motion platform; two X-direction guide rail strips arranged on the upper surface of the X-direction sliding base; two X-direction guide rail blocks provided on each X-direction guide rail strip mounted on a lower surface of the XZ biaxial motion platform.
    • 双轴直线运动微驱动装置包括:在Z方向滑动基座的上表面上的安装基座A; 固定在安装基座A内并与与X方向滑动基座连接的Z方向微动平台连接的Z方向微致动器; Z方向导轨条布置在Z方向滑动; 设置在固定安装在X方向滑动基座的下表面上的一个Z方向导轨条上的两个Z方向导轨块; 设置在X方向滑动基座的上表面上的安装基座B; 安装基座B上的X方向微型致动器,与XZ双轴运动平台连接的X方向微动平台连接; 两个X方向导轨条布置在X方向滑动底座的上表面上; 设置在安装在XZ双轴运动平台的下表面上的每个X方向导轨条上的两个X方向导轨块。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 5. 发明授权
      US5351749A Process for cooling fluid solid particles 失效
    • Process for cooling fluid solid particles
    • 冷却流体固体颗粒的方法
    • US5351749A
    • 1994-10-04
    • US68988
    • 1993-05-27
    • Zhouping LaiHongyan LiuQiye YangZiliang Liu
    • Zhouping LaiHongyan LiuQiye YangZiliang Liu
    • B01J8/18B01J38/32F28C3/16
    • F28D13/00B01J38/32B01J8/1836B01J8/1881
    • An arrangement of apparatus and process thereof for cooling hot fluid solid particles, especially hot regenerated catalytic particles are disclosed. The apparatus comprises a substantially vertical, cylindrical and close ended heat removal vessel through the shell sid passage of which is passed the fluid solid particles that flow downwardly in the form of dense phase fluidized bed, and one or more seperate heat exchange tube units through the tube side passage of which the coolant is passed and evaporized, each of said heat exchange tube units comprising a supply coolant inlet tube, a supply coolant collecting chamber, one or more heat exchange tubes, a vapour collecting chamber and a resulting vapour discharge tube, all of which constitute a close type coolant-to-vapour circulation. The apparatus and process of the present invention is particularly adequate to be utilized in combination with a catalyst regeneration operation in a fluid catalytic cracking operation of heavy residual oil feedstock for the conversion thereof into lighter and more valuable products. (FIG. 1)
    • 公开了用于冷却热流体固体颗粒,特别是热再生催化颗粒的装置及其方法的布置。 该设备包括基本上垂直的,圆柱形和近端的除热容器,通过其通过壳体通道,使流体固体颗粒以密相流化床的形式向下流动,以及一个或多个单独的热交换管单元通过 每个所述热交换管单元包括供给冷却剂入口管,供应冷却剂收集室,一个或多个热交换管,蒸气收集室和由此产生的蒸气放电管,所述冷却剂通过并蒸发, 所有这些都构成了紧密型的冷却剂对蒸气循环。 本发明的装置和方法特别适合与重残油原料的流化催化裂化操作中的催化剂再生操作结合使用,以将其转化成更轻和更有价值的产物。 (图。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 7. 发明授权
      US08402249B1 System and method for mixed-mode SDRAM address mapping 有权
    • System and method for mixed-mode SDRAM address mapping
    • 混合模式SDRAM地址映射的系统和方法
    • US08402249B1
    • 2013-03-19
    • US12903055
    • 2010-10-12
    • Jun ZhuJoseph Jun CaoSamitinjoy PalHongyan LiuCan Ma
    • Jun ZhuJoseph Jun CaoSamitinjoy PalHongyan LiuCan Ma
    • G06F12/10
    • G06F12/0207G06F12/0292Y02D10/13
    • A method of mapping system addresses to physical addresses associated with a physical memory device receives memory requirements associated with an application, allocates a region of the physical memory device to the application (wherein the region is a contiguous portion of the physical addresses that does not overlap with any other region and is associated with a memory mapping mode), determines a memory mapping scheme for the region (wherein the memory mapping scheme defines the mapping between system addresses and the region and is based at least on the memory mapping mode) and modifies a mapping register to reflect the region. In one implementation, the method modifies the mapping register to reflect the memory mapping scheme. In another implementation, the memory requirements comprise an application type, and the memory mapping mode is determined based on the application type.
    • 将系统地址映射到与物理存储器设备相关联的物理地址的方法接收与应用相关联的存储器需求,将物理存储器设备的区域分配给应用(其中该区域是不重叠的物理地址的连续部分 与任何其他区域相关联并与存储器映射模式相关联),确定该区域的存储器映射方案(其中存储器映射方案定义系统地址与该区域之间的映射,并且至少基于存储器映射模式)并且修改 一个映射寄存器来反映该区域。 在一个实现中,该方法修改映射寄存器以反映存储器映射方案。 在另一实现中,存储器需求包括应用类型,并且基于应用类型来确定存储器映射模式。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 9. 发明授权
      US5242012A Apparatus and process for cooling fluid solid particles 失效
    • Apparatus and process for cooling fluid solid particles
    • 用于冷却流体固体颗粒的装置和方法
    • US5242012A
    • 1993-09-07
    • US658719
    • 1991-02-21
    • Zhouping LaiHongyan LiuQiye YangZiliang Liu
    • Zhouping LaiHongyan LiuQiye YangZiliang Liu
    • B01J8/18B01J38/32
    • F28D13/00B01J38/32B01J8/1836B01J8/1881
    • An arrangement of apparatus and process thereof for cooling hot fluid solid particles, especially hot regenerated catalytic particles are disclosed. The apparatus comprises a substantially vertical, cylindrical and close ended heat removal vessel through the shell side passage of which is passed the fluid solid particles that flow downwardly in the form of dense phase fluidized bed, and one or more separate heat exchange tube units through the tube side passage of which the coolant is passed and vaporized, each of said heat exchange tube units comprising a supply coolant inlet tube, a supply coolant collecting chamber, one or more heat exchange tubes, a vapour collecting chamber and a resulting vapour discharge tube, all of which constitute a close type coolant-to-vapour circulation. The apparatus and process of the present invention is particularly adequate to be utilized in combination with a catalyst regeneration operation in a fluid catalytic cracking operation of heavy residual oil feedstock for the conversion thereof into lighter and more valuable products.
    • 公开了用于冷却热流体固体颗粒,特别是热再生催化颗粒的装置及其方法的布置。 该设备包括基本上垂直的,圆柱形和近端的除热容器,其通过壳体侧通道通过流体固体颗粒,其以密相流化床的形式向下流动,并且一个或多个单独的热交换管单元通过 每个所述热交换管单元包括供给冷却剂入口管,供给冷却剂收集室,一个或多个热交换管,蒸气收集室和所得的蒸气放电管,其中,所述冷却剂通过并蒸发, 所有这些都构成了紧密型的冷却剂对蒸气循环。 本发明的装置和方法特别适合与重残油原料的流化催化裂化操作中的催化剂再生操作结合使用,以将其转化成更轻和更有价值的产物。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
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