公开(公告)号：US06330146B1

公开(公告)日：2001-12-11

申请号：US09519159

申请日：2000-03-06

申请人： Mark Blitshteyn ,  Lisle R. Knight, Jr. ,  Petr Gefter ,  Scott J. S. Gehlke ,  Ira J. Pitel ,  Sean J. Quigley ,  Michael J. Leonard ,  John K. O'Reilly

发明人： Mark Blitshteyn ,  Lisle R. Knight, Jr. ,  Petr Gefter ,  Scott J. S. Gehlke ,  Ira J. Pitel ,  Sean J. Quigley ,  Michael J. Leonard ,  John K. O'Reilly

IPC分类号： H01H4700

CPC分类号： H05F3/04 ,  Y10T29/43

摘要： An ionizing bar assembly having a plastic housing with two individual ionizing electrode modules disposed on opposite sides. The ionizing electrode modules each include a plurality of printed circuit boards having signal traces thereon with ionizing electrodes or pins extending therefrom. The printed circuit boards are electrically coupled together by conductive rods or tubing positioned adjacent to the traces on the boards and soldered at various positions along the traces. The ionizing electrode modules are placed at opposing angles and are offset laterally from each other in such a way that the ionizing electrodes or pins extending from one module are located between the ionizing electrodes or pins extending from the opposite module, with the tips of each aligned along a common central linear axis.

摘要翻译： 一种具有塑料壳体的电离棒组件，其具有设置在相对侧上的两个单独的电离电极模块。 电离电极模块各自包括多个印刷电路板，其上具有电离电极或从其延伸的销的信号迹线。 印刷电路板通过与板上的迹线相邻定位的导电棒或管电耦合在一起，并沿着迹线在不同位置焊接。 电离电极模块以相对的角度放置并且以这样的方式横向偏移，使得从一个模块延伸的电离电极或引线位于从相对模块延伸的电离电极或引脚之间， 沿着共同的中心线性轴。

公开(公告)号：US4774472A

公开(公告)日：1988-09-27

申请号：US843140

申请日：1986-03-24

申请人： Mark Blitshteyn ,  William S. Wright

发明人： Mark Blitshteyn ,  William S. Wright

IPC分类号： G01N27/62 ,  G01N27/70

CPC分类号： G01N27/70 ,  G01N27/62

摘要： A method and apparatus for determining ion flow imbalance. High-magnitude positive and negative potential sources, each having a high-magnitude potential output terminal, are provided. Two electrodes are adapted for positioning adjacent the location of ions, the electrodes having areas for exposure to the ions. A supply of operating potential is provided for the high-magnitude potential sources. The operating potential supply is switched to supply operating potential alternately between the high-magnitude potential sources. Neutral terminals are provided on each of the high-magnitude potential sources and the current flows from the neutral terminals of the high-magnitude potential sources to reference potential are sensed to determine the current flows to the electrodes.

摘要翻译： 一种用于确定离子流不平衡的方法和装置。 提供了具有高电位输出端子的高幅度正和负电位源。 两个电极适于邻近离子位置定位，电极具有用于暴露于离子的区域。 为高电平电位源提供了工作电位供应。 工作电位电源切换到高电平电位之间交替提供工作电位。 中性端子设置在每个高幅度电位源上，并且感测从高幅度电位源的中性端子到参考电位的电流流动以确定电流流向电极。

公开(公告)号：US20130008584A1

公开(公告)日：2013-01-10

申请号：US13635215

申请日：2010-05-05

申请人： Mark Blitshteyn ,  Edward Anthony Oldynski

发明人： Mark Blitshteyn ,  Edward Anthony Oldynski

IPC分类号： B29C65/14

CPC分类号： B41J2/41

摘要： Electrostatic charging performance may be improved by determining a satiation charging current for objects/products passing through a charging system and then applying the determined satiation charging current the objects/products. Charging performance may be improved in either or both of discontinuous product train applications or continuous web applications.

摘要翻译： 通过确定通过充电系统的物体/产品的饱和充电电流，然后将所确定的饱和充电电流施加到对象/产品，可以改善静电充电性能。 在不连续产品列车应用或连续网络应用中的任一者或两者中，可以提高充电性能。

公开(公告)号：US5017876A

公开(公告)日：1991-05-21

申请号：US428604

申请日：1989-10-30

申请人： William S. Wright ,  Mark Blitshteyn

发明人： William S. Wright ,  Mark Blitshteyn

IPC分类号： G01R19/00

CPC分类号： G01R19/0061

摘要： Apparatus for measuring corona current in high voltage A.C. ionizers uses an electrical sensor adjacently spaced from at least one of the discharge electrodes and coupled to electronic circuitry for separating capacitive current from the corona current. In one mode, the capacitive current component is measured directly by a first sensor adjacently spaced from one discharge electrode whose corona current flow to such electrode is either obstructed or squelched entirely while a second sensor monitors total current. The signals from the two sensors are electrically subtracted when applied to opposing inputs of a differential amplifier to provide an output signal proportional to just corona current. In a second mode, a measure of corona current is again provided by electrically subtracting from a total current signal input to a differential amplifier a signal equal to the capacitive current component. However, while the total current signal in this case is again obtained by a single sensor adjacently spaced with respect to one electrode, the capacitive current signal is generated independently of a sensor through electronic circuitry coupled to the A.C. line voltage. In a third mode, a signal from a single sensor adjacently spaced from a single discharging electrode is applied to phase discriminator circuitry that passes only selected portions of the sensor-generated signal which contain equal positive and negative segments of the capacitive current component so that the average capacitive current signal thereof is equal to zero, whereby upon filtering the capacitive current signal will cancel out and leave remaining only that component proportional to corona current.

摘要翻译： 用于测量高电压交流电离器中的电晕电流的装置使用与至少一个放电电极相邻间隔开的电传感器，并耦合到用于将电容电流与电晕电流分离的电子电路。 在一种模式中，电容电流分量由与一个放电电极相邻间隔开的第一传感器直接测量，其电晕电流流到这种电极被完全阻塞或压扁，而第二传感器监测总电流。 当施加到差分放大器的相对输入端时，来自两个传感器的信号被电扣减，以提供与正电晕电流成比例的输出信号。 在第二模式中，通过从输入到差分放大器的总电流信号中减去等于电容电流分量的信号，再次提供电晕电流的测量。 然而，尽管在这种情况下的总电流信号通过相对于一个电极相邻间隔的单个传感器再次获得，但是通过耦合到交流线电压的电子电路，独立于传感器产生电容电流信号。 在第三模式中，来自与单个放电电极相邻间隔的单个传感器的信号被施加到相位鉴别器电路，该鉴相器电路仅传递包含电容电流分量的相等正和负段的传感器产生的信号的选定部分， 其平均电容电流信号等于零，由此在滤波时，电容电流信号将抵消并且仅保留与电晕电流成比例的分量。

公开(公告)号：US4716371A

公开(公告)日：1987-12-29

申请号：US757652

申请日：1985-07-22

申请人： Mark Blitshteyn ,  William S. Wright

发明人： Mark Blitshteyn ,  William S. Wright

IPC分类号： G01R29/12

CPC分类号： G01R29/12

摘要： An instrument for non-contact measurement of electrostatic fields and related parameters, such as electrostatic potential, voltage and charge density of a charged object, includes a sensor for sensing the electrostatic field produced by the object and for producing an electrical signal, a display for producing a visual readout related to the electrical signal and a range scaling circuit for coupling the sensor to the display. The range scaling circuit is coupled to logic which switches the range scaling circuit and the display back and forth between two ranges, one for relatively higher strength field measurements and one for relatively lower strength field measurements. Because the distance at which the instrument is held from the charged object to achieve an accurate reading depends upon the strength of the field, the range scaling circuit is also coupled to circuitry which indicates the appropriate distance from the charged object at which the instrument must be held to provide an accurate measurement.

摘要翻译： 用于非接触测量静电场和相关参数的仪器，例如带电物体的静电电位，电压和电荷密度，包括用于感测由物体产生的静电场和用于产生电信号的传感器，用于产生电信号的显示器 产生与电信号相关的视觉读数和用于将传感器耦合到显示器的范围缩放电路。 距离缩放电路耦合到逻辑，逻辑在两个范围之间来回切换范围缩放电路和显示，一个用于相对较高强度的场测量，一个用于相对较低强度的场测量。 因为仪器从被充电物体保持以实现精确读数的距离取决于场强度，所以距离缩放电路还耦合到电路，该电路指示与仪器必须在其上的带电对象的适当距离 举行提供准确的测量。

公开(公告)号：US06259591B1

公开(公告)日：2001-07-10

申请号：US09590193

申请日：2000-06-08

申请人： Ira J. Pitel ,  Mark Blitshteyn

发明人： Ira J. Pitel ,  Mark Blitshteyn

IPC分类号： H05F306

CPC分类号： H01T23/00 ,  H05F3/04

摘要： The total of the ion current leaving electrodes of one polarity and the ion current flowing to those electrodes, is measured as the current in the ground return path of the corresponding generator. For a brand-new ionizer, the value of that total ion current for electrodes of each polarity under normal operating conditions will substantially be the maximum ion current the positive and negative electrodes are capable of generating. The changes in the current in the ground return path reflect changes in the ionizing efficiency of the electrodes caused among other factors, by contamination. The values of the currents may be scaled up or down to the arbitrary unit. Using this scaling allows to have a signal that is normalized regardless of the length of the ionizer and number of the ionizing electrodes.

摘要翻译： 测量一个极性的离子电流和流到这些电极的离子电流的总和作为相应发电机的接地返回路径中的电流。 对于全新的电离器，正常工作条件下各极性的电极总离子电流的值将基本上是正极和负极能够产生的最大离子电流。 接地回路中的电流变化反映出由于污染而引起的其他因素引起的电极电离效率的变化。 电流的值可以按比例放大或缩小到任意单位。 使用该缩放允许具有标准化的信号，而不管离子发生器的长度和电离电极的数量。

公开(公告)号：US5268733A

公开(公告)日：1993-12-07

申请号：US964217

申请日：1992-10-21

申请人： Richard Wright ,  Mark Blitshteyn

发明人： Richard Wright ,  Mark Blitshteyn

IPC分类号： G01B11/26 ,  G01N13/02

CPC分类号： G01N13/02 ,  G01B11/26 ,  G01N2013/0208 ,  G01N2013/0241

摘要： A method and apparatus for determining the contact angle of a droplet of test liquid on a substrate surface. The apparatus includes a test article support plate, a pipette for depositing a droplet of test liquid onto a substrate surface of the test article, and a lamp for projecting an image of the deposited droplet onto a projection screen with a base line of the image positioned on a horizontal axis line of the screen. The screen further has a protractor scale calibrated to read twice the normal angular value, and a rotatable reference line which upon positioning through a contact point of the droplet with the substrate surface and an apex point of the droplet farthest removed from the substrate surface directly indicates the value of the contact angle of the on the protractor scale.

摘要翻译： 一种用于确定测试液体在衬底表面上的液滴的接触角的方法和装置。 该装置包括测试物品支撑板，用于将测试液体液滴沉积到测试物品的基底表面上的移液管，以及用于将沉积的液滴的图像投射到投影屏幕上并将图像的基线定位 在屏幕的水平轴线上。 屏幕进一步具有校准为读取正常角度值两倍的量角器刻度，以及可旋转的参考线，其在通过液滴的接触点与基底表面定位并且从基底表面最远移除的液滴的顶点直接指示 量角器刻度上接触角的值。

公开(公告)号：US4529940A

公开(公告)日：1985-07-16

申请号：US449405

申请日：1982-12-13

申请人： Mark Blitshteyn

发明人： Mark Blitshteyn

IPC分类号： G01R29/12

CPC分类号： G01R29/12

摘要： A panoramic electrostatic field sensor includes a central monitoring electrode for detecting an electrostatic field oriented about a 360.degree. arc peripheral thereto. An apertured housing is concentrically arranged about the monitoring electrode, the housing having circumferentially spaced windows through which the central electrode can "see" any electrostatic field radially disposed with respect to the sensor. A cylindrical shielding cap is rotated in the annular space between the monitoring electrode and the housing, the cap incorporating at least one slot to expose the monitoring electrode periodically to any fields viewed through the housing windows. Electronic means for measuring the voltage in response to the field detected is adapted to activate a static neutralizer for emission of positive and negative ions into the field or to actuate a variety of peripheral indicating or triggering devices which provide signals, alarms or readout functions.

摘要翻译： 全景静电场传感器包括用于检测围绕其围绕360°弧定向的静电场的中央监控电极。 一个有孔的壳体围绕监测电极同心地布置，壳体具有周向隔开的窗户，中心电极可以通过该窗口“看到”相对于传感器径向设置的任何静电场。 圆筒形屏蔽盖在监测电极和壳体之间的环形空间中旋转，该盖结合至少一个槽，以将监测电极周期性地暴露于通过壳体窗观察的任何场。 用于响应于所检测的场测量电压的电子装置适于启动静态中和器，用于将正离子和负离子发射到现场或致动提供信号，报警或读出功能的各种外围指示或触发装置。

公开(公告)号：US20100186892A1

公开(公告)日：2010-07-29

申请号：US12451445

申请日：2008-05-14

申请人： Mark Blitshteyn

发明人： Mark Blitshteyn

IPC分类号： B29C65/00 ,  B29C65/14

CPC分类号： B29C31/008 ,  B29C45/14008 ,  B29C2045/14057

摘要： The disclosure describes the use of electrostatics to in-mold labeling wherein a label is secured to a mandrel with an axis-defining body, a first end, a distal end, a set of ionizing electrodes disposed about the body, near the distal end, and in a plane perpendicular to the axis. When the mandrel is positioned in a mold cavity, the label is released and a varying voltage applied to the electrodes to form a substantially uniform and ring-like source of ionizing current. The ionizing current progressively pins the label against the die as the mandrel is withdrawn from the die until substantially the entire label is pinned. The ionizing current may then be ended and the mandrel removed so that an article may then be formed into the label.

摘要翻译： 本公开描述了使用静电来进行模内标签，其中标签被固定到具有轴定义主体的心轴，第一端，远端，围绕身体设置在远端附近的一组电离电极， 并在垂直于轴线的平面内。 当心轴位于模腔中时，标签被释放并且施加到电极的变化的电压以形成基本均匀的和环状的电离电流源。 当心轴从模具中取出时，电离电流逐渐地将标签对准模具，直到基本上整个标签被钉扎。 然后可以结束电离电流并且去除心轴，使得制品随后可以形成标签。

公开(公告)号：US06674630B1

公开(公告)日：2004-01-06

申请号：US09948269

申请日：2001-09-06

申请人： Peter Gefter ,  Mark Blitshteyn

发明人： Peter Gefter ,  Mark Blitshteyn

IPC分类号： H05F300

CPC分类号： H05F3/04 ,  B05D3/14

摘要： Simultaneous neutralization and monitoring of charge on a moving dielectric material is achieved with ionizing devices that supply ions in proximity to the material to thereby substantially neutralize charge on the material, and with circuitry that senses the ion currents flowing from the ionizing devices to the material. A controller can be utilized to control the ionizing devices and/or calculate various parameters (such as charge densities on the web, efficiency, etc.) based on the sensed ion currents.

摘要翻译： 利用电离装置在离开材料附近提供离子，从而基本上中和材料上的电荷以及检测从电离装置流向材料的离子电流的电路，实现对移动电介质材料的电荷的同时中和和监测。 可以利用控制器来控制电离装置和/或基于感测到的离子电流来计算各种参数（诸如网上的电荷密度，效率等）。