公开(公告)号：US07131872B1

公开(公告)日：2006-11-07

申请号：US11254493

申请日：2005-10-20

Applicant: Chih-Peng Lee ,  Kai-Hsiang Chang

Inventor： Chih-Peng Lee ,  Kai-Hsiang Chang

IPC: H01R13/64

CPC classification number: H01R13/645 ,  H01R24/62

Abstract: A modular jack connector has an anti-mismating element for preventing incorrect insertion of smaller sized plug connectors. The modular jack connector includes all insulating housing, an insulating terminal seat disposed in the insulating housing, a plurality of contacts disposed in the insulating terminal seat, and two metal anti-mismating elements. One end of each anti-mismating element is fixed to the insulating terminal seat, and the other end is bifurcated with an inner bifurcation bent downward and vertically to form a stopper and an outer bifurcation extending forward and downward to form an inclined guide. The distance between the two stoppers of the two anti-mismating elements is smaller than that between the two inclined guides and equals the width of the smaller sized plug connector. A smaller sized plug connector cannot contact the inclined guides and are blocked by two stoppers to avoid incorrect insertion while it is inserted.

Abstract translation: 模块化插座连接器具有防错误元件，用于防止小尺寸插头连接器的错误插入。 模块化插座连接器包括所有绝缘壳体，设置在绝缘壳体中的绝缘端子座，布置在绝缘端子座中的多个触点和两个金属防错误元件。 每个防错误元件的一端固定在绝缘端子座上，另一端被分叉并且向内和向下弯曲的内分叉形成一个止动器和一个向前和向下延伸的外分叉形成一个倾斜的引导件。 两个防错误元件的两个挡块之间的距离小于两个倾斜导轨之间的距离，并且等于较小尺寸的插头连接器的宽度。 较小尺寸的插头连接器不能接触倾斜导轨，并被两个塞子阻挡，以避免插入时插入不正确。

公开(公告)号：US07444827B2

公开(公告)日：2008-11-04

申请号：US11307009

申请日：2006-01-19

Applicant: Chih-Peng Lee ,  Tay-Jian Liu

Inventor： Chih-Peng Lee ,  Tay-Jian Liu

IPC: F25D23/12

CPC classification number: H01L23/473 ,  F25B39/028 ,  F28D15/0266 ,  F28F3/12 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A cooling device for multiple heat generating components is disclosed, which includes an evaporator (1), a condenser (3), a vapor conduit (6), a liquid conduit (5) and a diffluent member (19). The evaporator includes at least two cooling members (15) for thermally contacting the multiple heat-generating components, respectively. Each of the cooling members defines therein a fluid flow channel (22) for passage of a refrigerant fluid. The vapor and liquid conduits each are connected between the cooling member and the condenser. The diffluent member is in fluid communication with the liquid conduit and the fluid flow channel of each of the cooling members. The diffluent member functions to evenly distribute the refrigerant fluid into the cooling members so as to maintain the same heat removal capacity for the cooling members.

Abstract translation: 公开了一种用于多个发热部件的冷却装置，其包括蒸发器（1），冷凝器（3），蒸气导管（6），液体导管（5）和分流部件（19）。 蒸发器包括分别用于热接触多个发热部件的至少两个冷却部件（15）。 每个冷却构件中限定有用于制冷剂流体通过的流体流动通道（22）。 蒸汽和液体导管各自连接在冷却构件和冷凝器之间。 分流部件与液体管道和每个冷却部件的流体流动通道流体连通。 分流部件用于将制冷剂流体均匀地分配到冷却部件中，以保持与冷却部件相同的散热能力。

公开(公告)号：US20060272798A1

公开(公告)日：2006-12-07

申请号：US11308072

申请日：2006-03-05

Applicant: Tay-Jian Liu ,  Chao-Nien Tung ,  Chuen-Shu Hou ,  Chih-Peng Lee

Inventor： Tay-Jian Liu ,  Chao-Nien Tung ,  Chuen-Shu Hou ,  Chih-Peng Lee

IPC: H05K7/20

CPC classification number: H01L23/427 ,  F28D15/0266 ,  F28D15/046 ,  F28F9/026 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A loop-type heat exchange device (10) includes an evaporator (20), a vapor conduit (30), a condenser (50) and a liquid conduit (70). The evaporator contains therein a working fluid. The working fluid turns into vapor in the evaporator upon receiving heat from a heat-generating component. The condenser includes a housing member (52), a plurality of tube members (53) being in fluid communication with the housing member, and a fin member (54) maintained in thermal contact with the tube members. The vapor conduit and the liquid conduit are each connected between the evaporator and the condenser. The vapor conduit conveys the vapor generated in the evaporator to the tube members of the condenser. The vapor turns into condensate in the tube members upon releasing the heat to the fin member. The condensate is conveyed back to the evaporator by the liquid conduit.

Abstract translation: 环型热交换装置（10）包括蒸发器（20），蒸汽导管（30），冷凝器（50）和液体导管（70）。 蒸发器包含工作流体。 当从发热部件接收热量时，工作流体在蒸发器中变成蒸气。 冷凝器包括壳体构件（52），与壳体构件流体连通的多个管构件（53）和与管构件保持热接触的翼片构件（54）。 蒸气导管和液体导管各自连接在蒸发器和冷凝器之间。 蒸汽导管将蒸发器中产生的蒸气传送到冷凝器的管件。 在将热量释放到翅片构件上时，蒸汽在管构件中变成冷凝物。 冷凝液被液体导管输送回蒸发器。

公开(公告)号：US07472743B2

公开(公告)日：2009-01-06

申请号：US11308375

申请日：2006-03-20

Applicant: Tay-Jian Liu ,  Chih-Peng Lee

Inventor： Tay-Jian Liu ,  Chih-Peng Lee

IPC: H05K7/20

CPC classification number: G06F1/20 ,  H01L23/473 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A liquid cooling system (100) for removing heat from a heat-generating component is disclosed. The liquid cooling system includes a heat-absorbing member (20), a heat-dissipating member (30), a pump (50) and a mounting mechanism (10, 60). The heat-absorbing member defines therein a fluid flow channel (26) for passage of a coolant. The pump is in fluid communication with the heat-absorbing member and the heat-dissipating member for driving the coolant to circulate between the heat-absorbing member and the heat-dissipating member. The mounting mechanism includes a bottom portion (10) and a top portion (60) cooperating with the bottom portion to define therebetween a receiving space. The heat-absorbing member, heat-dissipating member and pump are received in the receiving space and are mounted to the mounting mechanism.

Abstract translation: 公开了一种用于从发热部件除去热量的液体冷却系统（100）。 液体冷却系统包括吸热构件（20），散热构件（30），泵（50）和安装机构（10,60）。 吸热构件在其中限定有用于冷却剂通过的流体流动通道（26）。 泵与吸热构件和散热构件流体连通，用于驱动冷却剂在吸热构件和散热构件之间循环。 安装机构包括底部（10）和与底部部分配合以在其间限定容纳空间的顶部（60）。 吸热构件，散热构件和泵容纳在容纳空间中并安装到安装机构。

公开(公告)号：US20060249278A1

公开(公告)日：2006-11-09

申请号：US11308375

申请日：2006-03-20

Applicant: Tay-Jian Liu ,  Chih-Peng Lee

Inventor： Tay-Jian Liu ,  Chih-Peng Lee

IPC: H05K7/20

CPC classification number: G06F1/20 ,  H01L23/473 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A liquid cooling system (100) for removing heat from a heat-generating component is disclosed. The liquid cooling system includes a heat-absorbing member (20), a heat-dissipating member (30), a pump (50) and a mounting mechanism (10, 60). The heat-absorbing member defines therein a fluid flow channel (26) for passage of a coolant. The pump is in fluid communication with the heat-absorbing member and the heat-dissipating member for driving the coolant to circulate between the heat-absorbing member and the heat-dissipating member. The mounting mechanism includes a bottom portion (10) and a top portion (60) cooperating with the bottom portion to define therebetween a receiving space. The heat-absorbing member, heat-dissipating member and pump are received in the receiving space and are mounted to the mounting mechanism.

Abstract translation: 公开了一种用于从发热部件除去热量的液体冷却系统（100）。 液体冷却系统包括吸热构件（20），散热构件（30），泵（50）和安装机构（10,60）。 吸热构件在其中限定有用于冷却剂通过的流体流动通道（26）。 泵与吸热构件和散热构件流体连通，用于驱动冷却剂在吸热构件和散热构件之间循环。 安装机构包括底部（10）和与底部部分配合以在其间限定容纳空间的顶部（60）。 吸热构件，散热构件和泵容纳在容纳空间中并安装到安装机构。

公开(公告)号：US20060218955A1

公开(公告)日：2006-10-05

申请号：US11094375

申请日：2005-03-30

Applicant: Tay-Jian Liu ,  Chih-Peng Lee

Inventor： Tay-Jian Liu ,  Chih-Peng Lee

IPC: F25D17/02 ,  F25D23/12

CPC classification number: F25D19/006 ,  H01L23/4006 ,  H01L23/427 ,  H01L23/4338 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A mounting assembly (30) for mounting an evaporator (21) of a refrigeration system (20) to an electronic component (10) includes a housing member (31) and a clamping member (32). The housing member defines a through hole (33) with the electronic component located therein. The evaporator is received in the through hole and located in axial alignment with the electronic component. The evaporator defines therein a fluid flow channel (25) for passage of a refrigerant fluid. The refrigeration system is in fluid communication with the fluid flow channel of the evaporator to supply refrigerant fluid thereto. The clamping member is attached to the housing member and has an abutting portion (84) integrally formed therefrom for exerting an uniform force to the evaporator to maintain the evaporator in thermal contact with the electronic component.

Abstract translation: 用于将制冷系统（20）的蒸发器（21）安装到电子部件（10）的安装组件（30）包括壳体构件（31）和夹紧构件（32）。 壳体构件限定了电子部件位于其中的通孔（33）。 蒸发器被容纳在通孔中并且与电子部件轴向对准。 蒸发器在其中限定用于制冷剂流体通过的流体流动通道（25）。 制冷系统与蒸发器的流体流动通道流体连通以向其供应制冷剂流体。 夹紧构件附接到壳体构件并且具有由其一体地形成的邻接部分（84），用于向蒸发器施加均匀的力以保持蒸发器与电子部件热接触。

公开(公告)号：US07743818B2

公开(公告)日：2010-06-29

申请号：US11308070

申请日：2006-03-05

Applicant: Tay-Jian Liu ,  Chih-Feng Fan ,  Chih-Peng Lee ,  Chao-Nien Tung

Inventor： Tay-Jian Liu ,  Chih-Feng Fan ,  Chih-Peng Lee ,  Chao-Nien Tung

IPC: F28D15/00

CPC classification number: H01L23/427 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A heat exchange module (1) includes a fan duct, an evaporator (22), a condenser (26) and an electric fan (50). The fan duct includes a lower portion (10) and an upper portion (30). The lower portion cooperates with the upper portion to define therebetween an air passage (90). The evaporator contains therein a working fluid. The condenser is in fluid communication with the evaporator. The evaporator and the condenser are received in the air passage defined by the fan duct. The working fluid turns into vapor in the evaporator upon receiving heat from a heat-generating component (70) and the vapor turns into condensate upon releasing the heat to the condenser. The electric fan is attached to the fan duct. The electric fan produces an airflow flowing through the air passage for removing the heat away from the condenser.

Abstract translation: 热交换模块（1）包括风扇管道，蒸发器（22），冷凝器（26）和电风扇（50）。 风扇导管包括下部（10）和上部（30）。 下部与上部配合以在其间限定空气通道（90）。 蒸发器包含工作流体。 冷凝器与蒸发器流体连通。 蒸发器和冷凝器容纳在由风扇管道限定的空气通道中。 当从发热部件（70）接收热量时，工作流体在蒸发器中变成蒸气，并且在将热量释放到冷凝器时，蒸汽变成冷凝物。 电风扇安装在风扇导管上。 电风扇产生流过空气通道的气流，用于从冷凝器中除去热量。

公开(公告)号：US07308802B2

公开(公告)日：2007-12-18

申请号：US11094375

申请日：2005-03-30

Applicant: Tay-Jian Liu ,  Chih-Peng Lee

Inventor： Tay-Jian Liu ,  Chih-Peng Lee

IPC: F25D23/12

CPC classification number: F25D19/006 ,  H01L23/4006 ,  H01L23/427 ,  H01L23/4338 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A mounting assembly (30) for mounting an evaporator (21) of a refrigeration system (20) to an electronic component (10) includes a housing member (31) and a clamping member (32). The housing member defines a through hole (33) with the electronic component located therein. The evaporator is received in the through hole and located in axial alignment with the electronic component. The evaporator defines therein a fluid flow channel (25) for passage of a refrigerant fluid. The refrigeration system is in fluid communication with the fluid flow channel of the evaporator to supply refrigerant fluid thereto. The clamping member is attached to the housing member and has an abutting portion (84) integrally formed therefrom for exerting an uniform force to the evaporator to maintain the evaporator in thermal contact with the electronic component.

Abstract translation: 用于将制冷系统（20）的蒸发器（21）安装到电子部件（10）的安装组件（30）包括壳体构件（31）和夹紧构件（32）。 壳体构件限定了电子部件位于其中的通孔（33）。 蒸发器被容纳在通孔中并且与电子部件轴向对准。 蒸发器在其中限定用于制冷剂流体通过的流体流动通道（25）。 制冷系统与蒸发器的流体流动通道流体连通以向其供应制冷剂流体。 夹紧构件附接到壳体构件并且具有由其一体地形成的邻接部分（84），用于向蒸发器施加均匀的力以保持蒸发器与电子部件热接触。

公开(公告)号：US08804336B2

公开(公告)日：2014-08-12

申请号：US13217300

申请日：2011-08-25

Applicant: Chih-Peng Lee

Inventor： Chih-Peng Lee

IPC: H05K7/20 ,  F28D15/04 ,  H01L23/427 ,  F28D15/02 ,  H01L23/467

CPC classification number: H01L23/427 ,  F28D15/0233 ,  F28D15/0266 ,  F28D15/0275 ,  H01L23/467 ,  H01L2924/0002 ,  H05K7/2029 ,  H05K7/20336 ,  H01L2924/00

Abstract: A heat dissipating apparatus includes a centrifugal fan, a heat sink and a heat pipe. The centrifugal fan includes a frame and an air outlet defined on the frame. The heat sink is arranged adjacent to the air outlet of the centrifugal fan. The heat pipe includes an evaporation section and a condensation section extending from the evaporation section. The condensation section is connected to the heat sink. The evaporation section is for absorbing heat from a first and second heat generating component. The frame includes an elastic plate abutting to the evaporation section of the heat pipe and applying a force to the evaporation section of the heat pipe. An electronic device equipped with the heat dissipating apparatus is also provided.

Abstract translation: 散热装置包括离心风扇，散热器和热管。 离心风扇包括框架和限定在框架上的空气出口。 散热器靠近离心风机的出风口排列。 热管包括蒸发部和从蒸发部延伸的冷凝部。 冷凝部分连接到散热器。 蒸发部分用于从第一和第二发热部件吸收热量。 框架包括与热管的蒸发部分邻接并向热管的蒸发部施加力的弹性板。 还提供了配备有散热装置的电子设备。

公开(公告)号：US07565923B2

公开(公告)日：2009-07-28

申请号：US11211908

申请日：2005-08-25

Applicant: Tay-Jian Liu ,  Shu-Cheng Yang ,  Chih-Peng Lee

Inventor： Tay-Jian Liu ,  Shu-Cheng Yang ,  Chih-Peng Lee

IPC: F28D19/04

CPC classification number: F28D15/0275 ,  F23L15/02 ,  F24F3/1423 ,  F24F2203/1012 ,  F24F2203/102 ,  F24F2203/1032 ,  F24F2203/1068 ,  F24F2203/1084 ,  F28D19/04 ,  Y02E20/348

Abstract: A rotary total heat exchange apparatus includes at least an air-providing member, a first air passage and a second air passage, a sensible heat exchanger (21), and a total heat exchange wheel (1). The air-providing member provides a first airflow from outdoors and a second airflow from indoors into the rotary total heat exchange apparatus. The first and second air passages isolate from each other for guiding the first and second airflows respectively passing through. The sensible heat exchanger spans across the first and second air passages simultaneously for conducting a sensible heat exchange between the first and second airflows. The total heat exchange wheel is capable of rotating through the first and second air passages for conducting a total heat exchange between the first and second airflows.

Abstract translation: 旋转式全热交换装置至少包括空气供给构件，第一空气通道和第二空气通道，显热交换器（21）和总热交换器（1）。 空气提供构件提供来自室外的第一气流和从室内到旋转式全热交换装置的第二气流。 第一和第二空气通道彼此隔离以引导分别通过的第一和第二气流。 显热交换器跨越第一和第二空气通道跨越第一和第二气流之间的显热交换。 总热交换轮能够通过第一和第二空气通道旋转，以在第一和第二气流之间进行总的热交换。