公开(公告)号：US20120102988A1

公开(公告)日：2012-05-03

申请号：US12968644

申请日：2010-12-15

Applicant: Zong-Ji Chen ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Ming Sun ,  Chi-Bin Wu

Inventor： Zong-Ji Chen ,  Zhan-Yi Lin ,  Ting-Kuan Li ,  Yu-Ming Sun ,  Chi-Bin Wu

IPC: F25B15/00

CPC classification number: F25B49/046

Abstract: The present invention discloses a method for controlling an adsorption air conditioning equipment. To execute consecutive programs, the adsorption air conditioning equipment performs the steps of: selecting one of a plurality of operation programs according to an execution sequence such that the selected operation program acts as an executable operation program; enabling at least two adsorption beds to operate in response to an executed operation program; switching to the next operation program in the execution sequence according to the operation time of the executed operation program such that the next operation program acts as the next executable operation program; controlling the switching of a plurality of valves according to the executed operation program; enabling the adsorption beds to operate in response to the executed operation program; and switching and executing the operation programs repeatedly until all the operation programs in the execution sequence are completely executed.

Abstract translation: 本发明公开了一种吸附空调设备的控制方法。 为了执行连续的程序，吸附空气调节装置执行以下步骤：根据执行顺序选择多个操作程序中的一个，使得所选择的操作程序作为可执行操作程序; 使至少两个吸附床响应于执行的操作程序而操作; 根据执行的操作程序的操作时间切换到执行序列中的下一个操作程序，使得下一个操作程序充当下一个可执行操作程序; 根据执行的操作程序控制多个阀的切换; 使吸附床响应于执行的操作程序而操作; 并且重复地切换和执行操作程序，直到执行序列中的所有操作程序被完全执行。

公开(公告)号：US20110265981A1

公开(公告)日：2011-11-03

申请号：US12792760

申请日：2010-06-03

Applicant: Zong-Ji Chen ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Zhan-Yi Lin ,  Chi-Bin Wu

Inventor： Zong-Ji Chen ,  Ting-Kuan Li ,  Yu-Jen Chen ,  Zhan-Yi Lin ,  Chi-Bin Wu

IPC: F28F27/00 ,  F28D15/00

CPC classification number: H01M8/04723 ,  H01M8/04029 ,  H01M2250/405 ,  Y02B90/16

Abstract: The present invention discloses a system for recycling thermal energy generated from a fuel cell module. The system includes the fuel cell module, a thermal module, a heat-recycle module, and a control module. The thermal module includes a heat transfer apparatus. In addition, the thermal module connects with the fuel cell module, and the heat-recycle module connects with the heat transfer apparatus. The control module detects a starting signal of the fuel cell module and controls the thermal module and the heat-recycle module. Thereby, the thermal energy generated from the fuel cell module is transferred to the heat-recycle module.

Abstract translation: 本发明公开了一种用于再循环由燃料电池模块产生的热能的系统。 该系统包括燃料电池模块，热模块，热循环模块和控制模块。 热模块包括传热装置。 另外，热模块与燃料电池模块连接，热再循环模块与传热装置连接。 控制模块检测燃料电池模块的启动信号并控制热模块和热循环模块。 由此，从燃料电池模块产生的热能转移到热再循环模块。

公开(公告)号：US20110160928A1

公开(公告)日：2011-06-30

申请号：US12779074

申请日：2010-05-13

Applicant: Yu-Jen Chen ,  Chen-Kun Chou ,  Yueh-Lin Wu ,  Zong-Ji Chen ,  Chi-Bin Wu

Inventor： Yu-Jen Chen ,  Chen-Kun Chou ,  Yueh-Lin Wu ,  Zong-Ji Chen ,  Chi-Bin Wu

IPC: G06F1/28

CPC classification number: H01M8/04589 ,  H01M8/04917 ,  H01M8/04992

Abstract: The present invention discloses a random controlled fuel cell power module. The random controlled fuel cell power module includes a power module system, a current detection unit, and a random control unit. The power module system is composed of at least two parallel-connected DC/DC converters, for providing the power for a load. The current detection unit detects a load current value of the load. The random control unit reads the load current value and randomly assigns a control mode to activate the DC/DC converters according to the load current value, so that the DC/DC converters can be equally used. Therefore, the failure rate of the DC/DC converters is reduced, the life of the power module system is relatively prolonged, and the stability of the power module system is simultaneously increased.

Abstract translation: 本发明公开了一种随机控制的燃料电池功率模块。 随机控制的燃料电池功率模块包括电源模块系统，电流检测单元和随机控制单元。 电源模块系统由至少两个并联的DC / DC转换器组成，用于为负载提供电力。 电流检测单元检测负载的负载电流值。 随机控制单元读取负载电流值，并随机分配控制模式，根据负载电流值激活DC / DC转换器，从而可以平等使用DC / DC转换器。 因此，DC / DC转换器的故障率降低，电源模块系统的使用寿命相对延长，同时提高了电源模块系统的稳定性。