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公开(公告)号:US07295418B2
公开(公告)日:2007-11-13
申请号:US11037408
申请日:2005-01-18
申请人: Gregory Vernitsky , Dennis Leri , Peter Gefter
发明人: Gregory Vernitsky , Dennis Leri , Peter Gefter
IPC分类号: H01T23/00
摘要: An air ion collimator is added to ionizers with integrated fans that are used to remove static charge. Three mechanisms minimize air ion losses through recombination. Hence, the collimator increases the air ions that are available for charge removal. First, reducing turbulence slows air ion mixing. Second, air entrainment into fast moving air ion zones further slows the rate of air ion losses by dilution. The rate of recombination reaction slows with decreasing ion density. Third, vanes within the collimator delay mixing. In addition to conserving air ions, the collimator directs more ions to the target. Air ions lost to grounding are reduced. Again, more air ions are available to remove static charge from the target.
摘要翻译: 将空气离子准直仪添加到具有用于去除静电荷的集成风扇的电离器。 三种机制通过重组使空气离子损失最小化。 因此,准直仪增加了可用于去除电荷的空气离子。 首先减少湍流减慢空气中的离子混合。 第二,空气夹带进入快速移动的空气离子区进一步减缓空气离子损失的速率通过稀释。 复合反应速率随着离子密度的降低而减慢。 三,准直器内的叶片延迟混合。 除了保存空气离子之外,准直仪将更多的离子引导到靶。 空气离子对接地的损失减少。 再次,更多的空气离子可用于从靶中去除静电荷。
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公开(公告)号:US20060158819A1
公开(公告)日:2006-07-20
申请号:US11037408
申请日:2005-01-18
申请人: Gregory Vernitsky , Dennis Leri , Peter Gefter
发明人: Gregory Vernitsky , Dennis Leri , Peter Gefter
IPC分类号: H05F3/00
摘要: An air ion collimator is added to ionizers with integrated fans that are used to remove static charge. Three mechanisms minimize air ion losses through recombination. Hence, the collimator increases the air ions that are available for charge removal. First, reducing turbulence slows air ion mixing. Second, air entrainment into fast moving air ion zones further slows the rate of air ion losses by dilution. The rate of recombination reaction slows with decreasing ion density. Third, vanes within the collimator delay mixing. In addition to conserving air ions, the collimator directs more ions to the target. Air ions lost to grounding are reduced. Again, more air ions are available to remove static charge from the target.
摘要翻译: 将空气离子准直仪添加到具有用于去除静电荷的集成风扇的电离器。 三种机制通过重组使空气离子损失最小化。 因此,准直仪增加了可用于去除电荷的空气离子。 首先减少湍流减慢空气中的离子混合。 第二,空气夹带进入快速移动的空气离子区进一步减缓空气离子损失的速率通过稀释。 复合反应速率随着离子密度的降低而减慢。 三,准直器内的叶片延迟混合。 除了保存空气离子之外,准直仪将更多的离子引导到靶。 空气离子对接地的损失减少。 再次,更多的空气离子可用于从靶中去除静电荷。
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公开(公告)号:US07408759B2
公开(公告)日:2008-08-05
申请号:US11739173
申请日:2007-04-24
申请人: Peter Gefter , Gregory Vernitsky , Scott Gehlke
发明人: Peter Gefter , Gregory Vernitsky , Scott Gehlke
CPC分类号: H01T23/00
摘要: A module for generating ions in a flowing air stream includes a support structure having a central region adapted to pass a flowing air stream therethrough, and including a plurality of supports for positioning a filamentary ion-generating electrode in a polygonal configuration within the central region. The supports and filament are relatively moveable to wipe the surface of the filament at each support for removing accumulated contaminants on the filament.
摘要翻译: 用于在流动空气流中产生离子的模块包括支撑结构,其具有适于使流动空气流通过的中心区域,并且包括用于将长丝状离子产生电极定位在中心区域内的多边形构造的多个支撑件。 支撑件和长丝相对移动以在每个支撑件处擦拭细丝的表面以除去细丝上的积聚的污染物。
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公开(公告)号:US20070235661A1
公开(公告)日:2007-10-11
申请号:US11739173
申请日:2007-04-24
申请人: Peter Gefter , Gregory Vernitsky , Scott Gehlke
发明人: Peter Gefter , Gregory Vernitsky , Scott Gehlke
IPC分类号: H01J27/00
CPC分类号: H01T23/00
摘要: A module for generating ions in a flowing air stream includes a support structure having a central region adapted to pass a flowing air stream therethrough, and including a plurality of supports for positioning a filamentary ion-generating electrode in a polygonal configuration within the central region. The supports and filament are relatively moveable to wipe the surface of the filament at each support for removing accumulated contaminants on the filament.
摘要翻译: 用于在流动空气流中产生离子的模块包括支撑结构,其具有适于使流动空气流通过的中心区域,并且包括用于将长丝状离子产生电极定位在中心区域内的多边形构造的多个支撑件。 支撑件和长丝相对移动以在每个支撑件处擦拭细丝的表面以除去细丝上的积聚的污染物。
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公开(公告)号:US06807044B1
公开(公告)日:2004-10-19
申请号:US10428363
申请日:2003-05-01
申请人: Gregory Vernitsky , Scott Gehlke , Peter Gefter , Dennis A. Leri
发明人: Gregory Vernitsky , Scott Gehlke , Peter Gefter , Dennis A. Leri
IPC分类号: H01T2300
CPC分类号: H01T23/00
摘要: An ionizer bar includes upper and lower housings having aerodynamically-shaped exterior surfaces to support laminar air flow over the structure. The upper housing forms an upper interior chamber for electrical circuitry isolated from a lower chamber within the lower housing that confines fluid under pressure therein. Outlets spaced along the length of the structure include ionizing electrodes that are disposed within fluid conduits and that are connected to a source of ionizing voltage mounted in the upper chamber. Fluid passages at the outlets release fluid under pressure within the lower chamber around associated ionizing electrodes mounted at the outlets.
摘要翻译: 电离杆包括具有空气动力学形状的外表面的上部和下部壳体,以支撑结构上的层流气流。 上壳体形成用于与下壳体内的下室隔离的电路的上部内部室,其将流体压力限制在其中。 沿着结构长度间隔开的出口包括设置在流体管道内并且连接到安装在上部室中的电离电压源的电离电极。 出口处的流体通道在安装在出口处的相关电离电极周围的下腔室内的压力下释放流体。
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公开(公告)号:US20050105242A1
公开(公告)日:2005-05-19
申请号:US10713330
申请日:2003-11-17
CPC分类号: H01T23/00
摘要: An improvement for a self-balancing shielded bipolar ionizer (U.S. Pat. No. 6,002,573), which uses pressurized air or nitrogen to increase performance, extend the operating distance range, and reduce cleaning frequency. An air assist assembly is inserted into the ion generation cavity, which directs pressurized air or nitrogen past the electrodes. In applications where little natural airflow exists, air assist technology is particularly useful. Ions are blown toward the target. This directs the ions to where they are needed, and delivers ions faster. Useful operating distances are increased. Faster delivery minimizes ion losses due to recombination. Furthermore, pure pressurized air protects the electrodes from impurities in the environmental air. Less chemical growth affects electrode performance. Hence, the ionizer exhibits more stable performance, plus the need for electrode cleaning is minimized.
摘要翻译: 自平衡屏蔽双极型电离器(美国专利No.6,002,573)的改进,其使用加压空气或氮气来提高性能,延长了操作距离范围,并降低了清洗频率。 空气辅助组件插入到离子产生腔中,其引导加压空气或氮气通过电极。 在自然气流很少的应用中,空气辅助技术特别有用。 离子被吹向目标。 这将离子引导到需要的位置,并且更快地释放离子。 有效的操作距离增加。 更快的交付使由于重组导致的离子损失最小化。 此外,纯压缩空气保护电极免受环境空气中的杂质。 较少的化学成长影响电极性能。 因此,电离器表现出更稳定的性能,并且电极清洁的需要最小化。
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公开(公告)号:US07042694B2
公开(公告)日:2006-05-09
申请号:US10713330
申请日:2003-11-17
IPC分类号: H05F3/06
CPC分类号: H01T23/00
摘要: An improvement for a self-balancing shielded bipolar ionizer (U.S. Pat. No. 6,002,573), which uses pressurized air or nitrogen to increase performance, extend the operating distance range, and reduce cleaning frequency. An air assist assembly is inserted into the ion generation cavity, which directs pressurized air or nitrogen past the electrodes. In applications where little natural airflow exists, air assist technology is particularly useful. Ions are blown toward the target. This directs the ions to where they are needed, and delivers ions faster. Useful operating distances are increased. Faster delivery minimizes ion losses due to recombination. Furthermore, pure pressurized air protects the electrodes from impurities in the environmental air. Less chemical growth affects electrode performance. Hence, the ionizer exhibits more stable performance, plus the need for electrode cleaning is minimized.
摘要翻译: 自平衡屏蔽双极型电离器(美国专利No.6,002,573)的改进,其使用加压空气或氮气来提高性能,延长了操作距离范围,并降低了清洗频率。 空气辅助组件插入到离子产生腔中,其引导加压空气或氮气通过电极。 在自然气流很少的应用中,空气辅助技术特别有用。 离子被吹向目标。 这将离子引导到需要的位置,并且更快地释放离子。 有效的操作距离增加。 更快的交付使由于重组导致的离子损失最小化。 此外,纯压缩空气保护电极免受环境空气中的杂质。 较少的化学成长影响电极性能。 因此,电离器表现出更稳定的性能,并且电极清洁的需要最小化。
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