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. 发明授权
    • Cleaning system
    • 清洁系统
    • US09182183B2
    • 2015-11-10
    • US13876789
    • 2010-10-01
    • Kok Heng Alex Chow
    • Kok Heng Alex Chow
    • F28G1/12B08B9/055B08B9/057F16L55/46F28G9/00F28G15/00
    • F28G1/12B08B9/055B08B9/057F16L55/46F28G9/00F28G15/00
    • Fluid is circulated through a heat exchange system for heat exchange to occur at a bundle of tubes making up a portion of the heat exchange system. Heat exchange efficiency at the bundle of tubes requires debris and fouling deposits accumulated therewithin to be substantially removed. Taking the heat exchange system off-line for physical flushing is not only ineffective but also disallow use of the heat exchange system for the duration it remains off-line. Described herein is an embodiment of a cleaning system which uses a displacement system for displacing cleaning balls carried in fluid into the bundle of tubes for cleaning thereof. A flow diverting system is configured and operable for introducing the cleaning balls to the bundle of tubes when in a first operating mode and for retrieving the cleaning balls from the plurality of tubes when in a second operating mode.
    • 流体循环通过热交换系统进行热交换,发生在构成热交换系统的一部分的管束上。 在管束处的热交换效率需要积聚在其中的碎屑和结垢沉积物基本上被除去。 将热交换系统离线进行物理冲洗不仅无效,而且不允许在离开热交换系统的时间内使用热交换系统。 这里描述的清洁系统的一个实施例,其使用位移系统来将流体中携带的清洁球移动到管束中以进行清洁。 分流系统被构造和操作用于当处于第一操作模式时将清洁球引导到管束,并且当处于第二操作模式时,用于从多个管中取出清洁球。
    • 3. 发明申请
    • CLEANING SYSTEM
    • 清洁系统
    • US20130219638A1
    • 2013-08-29
    • US13876789
    • 2010-10-01
    • Kok Heng Alex Chow
    • Kok Heng Alex Chow
    • F28G1/12
    • F28G1/12B08B9/055B08B9/057F16L55/46F28G9/00F28G15/00
    • Fluid is circulated through a heat exchange system for heat exchange to occur at a bundle of tubes making up a portion of the heat exchange system. Heat exchange efficiency at the bundle of tubes requires debris and fouling deposits accumulated therewithin to be substantially removed. Taking the heat exchange system off-line for physical flushing is not only ineffective but also disallow use of the heat exchange system for the duration it remains off-line. Described herein is an embodiment of a cleaning system which uses a displacement system for displacing cleaning balls carried in fluid into the bundle of tubes for cleaning thereof. A flow diverting system is configured and operable for introducing the cleaning balls to the bundle of tubes when in a first operating mode and for retrieving the cleaning balls from the plurality of tubes when in a second operating mode.
    • 流体循环通过热交换系统进行热交换,发生在构成热交换系统的一部分的管束上。 在管束处的热交换效率需要积聚在其中的碎屑和结垢沉积物基本上被除去。 将热交换系统离线进行物理冲洗不仅无效,而且不允许在离开热交换系统的时间内使用热交换系统。 这里描述的清洁系统的一个实施例,其使用位移系统来将流体中携带的清洁球移动到管束中以进行清洁。 分流系统被构造和操作用于当处于第一操作模式时将清洁球引导到管束,并且当处于第二操作模式时,用于从多个管中取出清洁球。
    • 5. 发明授权
    • System and apparatus for non-powered cleaning of tubular heat exchange systems
    • 用于非动力清洁管式热交换系统的系统和设备
    • US07735545B2
    • 2010-06-15
    • US11572208
    • 2005-07-17
    • Kok Heng Alex Chow
    • Kok Heng Alex Chow
    • F28G1/12
    • F28G1/12
    • In the present invention, a dual hull cyclone is incorporated into a non-powered cleaning system using balls for tubular heat exchange systems. The dual hull cyclone separates balls which are smaller than a predetermined diameter so that they can be disposed of and replaced. The dual hull cyclone also serves to separate debris from fluid in the tubular heat exchange system and also debris that may have accumulated on the balls. The cleaning system in accordance with the present invention comprises a plurality of balls circulating in the fluid of the heat exchange system, a ball inlet, a ball outlet, and a dual hull cyclone. The balls in the fluid are generally of a predetermined diameter suitable for cleaning the tubes in the heat exchange unit. While the balls may be made of a variety of elastomeric materials, almost any resilient material may be utilized. Furthermore, the balls used in the present invention utilize a asymmetrical weighted core to increase the specific gravity of the balls.
    • 在本发明中,使用用于管式热交换系统的球的非动力清洁系统中并入双重壳体旋风分离器。 双壳旋风分离器分离小于预定直径的球,使得它们可以被处理和更换。 双壳体旋风还用于将管道热交换系统中的碎屑与可能积聚在球上的碎屑分开。 根据本发明的清洁系统包括在热交换系统的流体中循环的多个球,球入口,球出口和双壳体旋风分离器。 流体中的球通常具有适于清洁热交换单元中的管的预定直径。 虽然球可以由各种弹性体材料制成,但是几乎可以使用任何弹性材料。 此外,本发明中使用的球使用不对称加权芯来增加球的比重。
    • 8. 发明申请
    • DIVERSITY PROXIMITY COMMUNICATION
    • 多样性接近通信
    • US20090279571A1
    • 2009-11-12
    • US12115772
    • 2008-05-06
    • Alex ChowR. David HopkinsRobert J. Drost
    • Alex ChowR. David HopkinsRobert J. Drost
    • H04J1/00H04J15/00H04J13/00H04J3/00
    • H04B5/0012H01L25/0657H01L2225/06513H01L2225/06531H01L2924/0002H04B7/04H01L2924/00
    • A diversity proximity communication system formed on two juxtaposed chips, one having a two-dimensional array of transmit elements, the other having a two-dimensional array of receive elements. The receive and transmit elements need not be aligned and may have nominal alignment of one transmit element overlapping the corners of four receive elements. The elements may be electrical pads capacitively coupled across the interface. Signals of four different multiplexing groups, e.g., time-multiplexed, are supplied to transmitting elements in a 2×2 array. Signals from four receive elements in a 2×2 array are amplified, combined, and demultiplexed for the selected multiplexing group. The gains for the four signals to be combined are differentially controlled to increase the signal-to-noise ratio. The amplification may be determined by the overlap between each of the receive elements and the transmit element of the selected multiplexing group.
    • 在两个并置芯片上形成的分集接近通信系统,一个具有发射元件的二维阵列,另一个具有接收元件的二维阵列。 接收和发送元件不需要对齐,并且可以具有与四个接收元件的角重叠的一个发射元件的标称对准。 元件可以是跨接口电容耦合的电焊盘。 四个不同复用组的信号,例如时分复用,被提供给2x2阵列中的发射元件。 来自2x2阵列中的四个接收元件的信号被放大,组合和解复用用于所选择的复用组。 要组合的四个信号的增益被差分控制以增加信噪比。 可以通过每个接收元件与所选多路复用组的发送元件之间的重叠来确定放大。
    • 9. 发明申请
    • Steering fabric that facilitates reducing power use for proximity communication
    • 有助于减少接近通讯用电的转向结构
    • US20090205850A1
    • 2009-08-20
    • US12317659
    • 2008-12-24
    • Alex ChowRobert J. DrostRonald HoArlene ProebstingRobert Proebsting
    • Alex ChowRobert J. DrostRonald HoArlene ProebstingRobert Proebsting
    • H01B5/00
    • H01L23/48H01L2225/06527H01L2924/0002H01L2924/00
    • One embodiment of the present invention provides a system that facilitates reducing the power needed for proximity communication. This system includes an integrated circuit with an array of transmission pads that transmit signals using proximity communication. This array is comprised of a set of macropads, where each given macropad is comprised of a set of micropads that can be configured to transmit a signal. A steering fabric routes signals to and within macropads, such that a subset of the micropads in the array can be configured to transmit the signal to a receiving component. Each macropad receives a limited number of input signals, with the steering fabric routing input signals to the micropads of the macropads. By limiting the number of input signals that are routed to the micropads of the macropads, the steering fabric eliminates redundant steering configurations for the array and reduces the power needed to transmit the signal.
    • 本发明的一个实施例提供一种有助于减少邻近通信所需的功率的系统。 该系统包括具有使用接近通信传输信号的传输焊盘阵列的集成电路。 该阵列由一组宏阵列组成,其中每个给定的宏阵列由可配置为传输信号的一组微阵列组成。 转向结构将信号路由到宏阵列内并在宏阵中传送,使得阵列中的微阵列的子集可被配置为将信号发送到接收组件。 每个macropad都接收到有限数量的输入信号,其中转向结构将输入信号输入到macropads的微型麦克风。 通过限制输入信号的数量,路由到巨型阵列的微阵列,转向结构消除了阵列的冗余转向配置,并减少传输信号所需的功率。
    • 10. 发明申请
    • RECONFIGURABLE CIRCUITS
    • 可重新连接的电路
    • US20080228951A1
    • 2008-09-18
    • US12047488
    • 2008-03-13
    • Alex ChowWilliam S. CoatesRobert D. Hopkins
    • Alex ChowWilliam S. CoatesRobert D. Hopkins
    • G06F3/00
    • H03K19/1733
    • The present disclosure involves reconfigurable circuits that include an asynchronous data path with asynchronous control and at least one logic element coupled with the asynchronous data path that allows the circuit to be configured to more than one logical implementation through data and control token. In one particular example, the asynchronous data path with asynchronous control includes an interconnection of memory elements, such as latches, with each memory element including a corresponding asynchronous control element, such as a GasP element. One or more logical elements are coupled at one or more points of the data path, such coupling may involve feed-back, feed-forward, or combinations of both, and may include external data connections. Through distribution of data items and control tokens to the asynchronous data path with asynchronous control, the fixed logical coupling to the data path may be reconfigured to provide various logical arrangements.
    • 本公开涉及包括具有异步控制的异步数据路径和与异步数据路径耦合的至少一个逻辑元件的可重配置电路,其允许电路通过数据和控制令牌被配置为多于一个的逻辑实现。 在一个特定示例中,具有异步控制的异步数据路径包括存储器元件(例如锁存器)的互连,其中每个存储器元件包括相应的异步控制元件,例如GasP元件。 一个或多个逻辑元件在数据路径的一个或多个点处耦合,这样的耦合可以涉及反馈,前馈或两者的组合,并且可以包括外部数据连接。 通过使用异步控制将数据项分发和异步数据路径控制令牌,可以重新配置到数据路径的固定逻辑耦合以提供各种逻辑布置。