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
    • 1. 发明申请
    • LINEAR MOVING CAPACITIVE SENSOR TWIN COLUMN ELECTRONIC HEIGHT GAUGE
    • 线性移动电容传感器双列电子高度计
    • WO2006072091A3
    • 2006-12-21
    • PCT/US2005047651
    • 2005-12-20
    • ZHANG YANCHEN
    • ZHANG YANCHEN
    • G01B7/16G01L1/04
    • G01B7/082
    • The invention is a height gauge which includes a first (5) and a second column (8), a display unit (3) with a cover, a measuring scriber (9), a fixed capacitance sensor and a linear moving capacitance sensor. The fixed capacitance sensor is located on a flat surface having a length equivalent to the length of column 1 , the linear moving capacitance sensor is located inside the display unit cover positioned to a face the fixed capacitance sensor. This sensor transfer system results in high accuracy of measurements. Als since the sensors do not make direct physical when the gauge is operating in upward movement, there is no wear and tear damage their component part, leading to a longer life of use with stability in accurate measurement and repeatability. Because the measuri system is comparatively simple, and easy to assemble and service and maintain compared to the existing rotary capacitive sensor electronics height gauge that exist on the market, the overall cost of production and maintenance is minimized. On the second column, a simple rack and gear system is added. These gears of column 2 are connected to a hand wheel located on the rear of the display unit.
    • 本发明是包括第一(5)和第二列(8)的高度计,具有盖的显示单元(3),测量划线器(9),固定电容传感器和线性移动电容传感器。 固定电容传感器位于具有与列1长度相等的长度的平坦表面上,线性移动电容传感器位于与固定电容传感器相对置的显示单元盖内。 该传感器传输系统产生高精度的测量。 Als,因为传感器在测量仪向上运动时不会直接物理,所以没有磨损和损坏其组成部分,导致使用寿命更长,在精确测量和重复性方面具有稳定性。 由于测量系统相对简单,易于组装和维护,与目前市场上存在的旋转电容式传感器电子高度计相比,生产和维护的总体成本最小化。 在第二列中,添加了一个简单的齿条和齿轮系统。 列2的这些齿轮连接到位于显示单元后部的手轮。
    • 5. 发明申请
    • LINEAR MOVING CAPACITIVE SENSOR TWIN COLUMN ELECTRONIC HEIGHT GAUGE
    • 线性移动电容传感器双列电子高度计
    • WO2006072091A2
    • 2006-07-06
    • PCT/US2005/047651
    • 2005-12-20
    • ZHANG, Yanchen
    • ZHANG, Yanchen
    • G01B7/082
    • The present invention is an electronic height gauge utilizing new technology and includes a first column (Column 1) and a second column (Column 2), a display unit with a cover, a measuring scriber, a fixed capacitance sensor and a linear moving capacitance sensor. The fixed capacitance sensor is located on a flat surface on Column 1, flat surface having a length equivalent to the length of Column 1. The linear moving capacitance sensor is located inside the display unit cover positioned to face the fixed capacitance sensor. The fixed capacitive sensor and linear moving capacitive sensors are facing toward each other only, and do not make direct physical contact with the fixed capacitor sensor when the height gauge is operating in upward and downward movements. The fixed and moving capacitive sensors are instead making only electrical contact with each other when the height gauge is making upward and downward movements. This linear direct data non­contact sensor transfer system results in high accuracy of measurements, which also ensures the repeatability of accurate measurements. Also, since the fixed capacitance sensor and the linear moving capacitance sensor have no physical contact with each other, there is no wear and tear damage on either component part, thereby leading to a longer life of use with stability in accurate measurements and repeatability. Because the measuring system is comparatively simple, and easy to assemble and service and maintain compared to the existing rotary capacitive sensor electronic height gauges that exist on the market, the overall cost of production and maintenance is minimized. On the second column (Column 2), a simple rack and gear system is added. These gears of column 2 are connected to a hand wheel located on the rear of the display unit. The handwheel is used for making upward and downward vertical movements. This rack and gear system of column 2 of the present invention is only used to aid the same in making upward and downward movements, and does not affect the measuring accuracy of the height gauge, as it did in the height gauges that have existed on the market.
    • 本发明是一种利用新技术的电子高度计,包括第一列(列1)和第二列(列2),具有盖的显示单元,测量划线器,固定电容传感器和线性移动电容传感器 。 固定电容传感器位于列1上的平坦表面上,平坦表面的长度等于列1的长度。线性移动电容传感器位于显示单元盖内,定位为面对固定电容传感器。 固定电容传感器和线性移动电容式传感器仅面向彼此,并且当高度计工作在上下运动时,不会与固定电容传感器直接物理接触。 固定和移动的电容式传感器在高度计正在向上和向下移动时相反地仅形成彼此的电接触。 这种线性直接数据非接触传感器传输系统导致测量的高精度,这也确保了精确测量的重复性。 此外,由于固定电容传感器和线性移动电容传感器彼此没有物理接触,因此在任何一个部件上都不会产生磨损和损伤,因此在精确测量和重复性方面具有更长的使用寿命。 由于测量系统比现有的旋转电容式传感器电子式高度计相对简单,易于组装和维护保养,因此生产和维护的整体成本最小化。 在第二列(第2列)中,添加了一个简单的齿条和齿轮系统。 列2的这些齿轮连接到位于显示单元后部的手轮。 手轮用于向上和向下垂直运动。 本发明的列2的该齿条和齿轮系仅用于上下运动,不影响高度计的测量精度,如同在 市场。