公开(公告)号：US20060012890A1

公开(公告)日：2006-01-19

申请号：US10710347

申请日：2004-07-02

Applicant: Cheng-Yu Huang ,  Shyan-Mun Wang ,  Chiao-Hsiang Chen

Inventor： Cheng-Yu Huang ,  Shyan-Mun Wang ,  Chiao-Hsiang Chen

IPC: G02B9/00

CPC classification number: G02B7/02

Abstract: An optical lens is described. The optical lens comprises a barrel, a first lens and a second lens. The barrel has a light incident opening, and a receiving space, wherein the receiving space is successive to the light incident opening. Additionally, the first lens is disposed in the receiving space, and the first lens is partially exposed by the light incident opening, wherein the first lens has a first annular conical surface at the outer rim of the first lens. Further, the second lens is disposed in the receiving space, and embedded with the first lens. The second lens has a second annular conical surface on outer rim of the second lens, and the first annular conical surface is embedded with the second annular conical surface. Accordingly, the optical lens has better alignment accuracy and assembly performance.

Abstract translation: 描述光学透镜。 光学透镜包括镜筒，第一透镜和第二透镜。 枪管具有光入射开口和接收空间，其中接收空间与光入射开口连续。 此外，第一透镜设置在接收空间中，并且第一透镜被光入射开口部分地曝光，其中第一透镜在第一透镜的外缘处具有第一环形锥形表面。 此外，第二透镜设置在接收空间中，并且嵌入第一透镜。 第二透镜在第二透镜的外缘上具有第二环形锥形表面，并且第一环形锥形表面嵌入第二环形锥形表面。 因此，光学透镜具有更好的对准精度和组装性能。

公开(公告)号：US08119961B2

公开(公告)日：2012-02-21

申请号：US12254747

申请日：2008-10-20

Applicant: Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang ,  Chi-Yin Lin

Inventor： Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang ,  Chi-Yin Lin

IPC: F24J2/38 ,  H01J3/14

CPC classification number: G01S3/7861 ,  F24S50/20 ,  Y02E10/47

Abstract: A solar tracking device for solar panel includes a barrel body, a light transmitting unit, a projecting unit, a photosensor unit, and a lens. The light transmitting unit is disposed at a first end of the barrel body oriented toward the sun. The light transmitting unit has a light-transmittable crossing point provided at a center thereof. The projecting unit is an opaque member arranged between the first end and a second end of the barrel body. The photosensor unit is arranged to one side of the projecting unit, so that the projecting unit is located between the light transmitting unit and the photosensor unit. The photosensor unit has a locating center preset at a center of the projecting unit. The lens is arranged between the projecting unit and the photosensor unit. The barrel body is a telescopic barrel enabling the solar tracking device to switch between different operating angle modes.

Abstract translation: 一种用于太阳能面板的太阳能跟踪装置包括筒体，透光单元，投影单元，光电传感器单元和透镜。 光传输单元设置在朝向太阳的筒体的第一端。 光发射单元在其中心处具有可透光交叉点。 突出单元是布置在筒身的第一端和第二端之间的不透明构件。 光传感器单元布置在投影单元的一侧，使得投影单元位于光传输单元和光传感器单元之间。 光传感器单元具有预设在投影单元的中心的定位中心。 透镜布置在投影单元和光电传感器单元之间。 枪管体是一个伸缩筒，使得太阳能跟踪装置能够在不同的操作角度模式之间切换。

公开(公告)号：US20100095954A1

公开(公告)日：2010-04-22

申请号：US12254747

申请日：2008-10-20

Applicant: Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang ,  Chi-Yin Lin

Inventor： Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang ,  Chi-Yin Lin

IPC: F24J2/38

CPC classification number: G01S3/7861 ,  F24S50/20 ,  Y02E10/47

Abstract: A solar tracking device for solar panel includes a barrel body, a light transmitting unit, a projecting unit, a photosensor unit, and a lens. The light transmitting unit is disposed at a first end of the barrel body oriented toward the sun. The light transmitting unit has a light-transmittable crossing point provided at a center thereof. The projecting unit is an opaque member arranged between the first end and a second end of the barrel body. The photosensor unit is arranged to one side of the projecting unit, so that the projecting unit is located between the light transmitting unit and the photosensor unit. The photosensor unit has a locating center preset at a center of the projecting unit. The lens is arranged between the projecting unit and the photosensor unit. The barrel body is a telescopic barrel enabling the solar tracking device to switch between different operating angle modes.

Abstract translation: 一种用于太阳能面板的太阳能跟踪装置包括筒体，透光单元，投影单元，光电传感器单元和透镜。 光传输单元设置在朝向太阳的筒体的第一端。 光发射单元在其中心处具有可透光交叉点。 突出单元是布置在筒身的第一端和第二端之间的不透明构件。 光传感器单元布置在投影单元的一侧，使得投影单元位于光传输单元和光传感器单元之间。 光传感器单元具有预设在投影单元的中心的定位中心。 透镜布置在投影单元和光电传感器单元之间。 枪管体是一个伸缩筒，使得太阳能跟踪装置能够在不同的操作角度模式之间切换。

公开(公告)号：US20060082693A1

公开(公告)日：2006-04-20

申请号：US11293587

申请日：2005-12-01

Applicant: Cheng-Yu Huang ,  Yi-Wei Liu ,  Po-Liang Chiang

Inventor： Cheng-Yu Huang ,  Yi-Wei Liu ,  Po-Liang Chiang

IPC: G02F1/1335

CPC classification number: G02F1/133621 ,  G02B27/1026 ,  G02B27/142 ,  G02F1/136277 ,  H04N9/3105

Abstract: A bevel gradient dichroic film for an off-axis liquid crystal on silicon display device is provided. The bevel gradient dichroic film includes a dichroic film, the dichroic film having a film characteristic, and the film characteristic of the dichroic film including a gradient direction. The gradient direction is dependent on an incident angle of an incident light so that a light spot of the incident light on the dichroic film has a light characteristic being uniformly distributed.

Abstract translation: 提供了一种用于硅显示装置上的离轴液晶的倾斜梯度二向色膜。 斜面梯度二向色膜包括二向色膜，二色性膜具有膜特性，以及二向色膜的膜特性包括梯度方向。 梯度方向取决于入射光的入射角，使得二向色膜上的入射光的光斑具有均匀分布的光特性。

公开(公告)号：US08081388B2

公开(公告)日：2011-12-20

申请号：US12760058

申请日：2010-04-14

Applicant: Chien-Feng Lin ,  Cheng-Yu Huang ,  Chi-Yin Lin ,  Chi-Cheng Chiou

Inventor： Chien-Feng Lin ,  Cheng-Yu Huang ,  Chi-Yin Lin ,  Chi-Cheng Chiou

IPC: G02B27/00

CPC classification number: B29D11/00807 ,  B29D11/0073 ,  G02B3/0018 ,  G02B3/0056 ,  Y10T156/1002

Abstract: A photoelectric lens module is utilized to focus a light source. A fabrication method comprises steps of providing a first substrate; positioning a plurality of gap units on the first substrate, and forming a plurality of gap regions amongst the gap units on the first substrate; providing a second substrate comprising a plurality of photoelectric lens units, in which the positions of the photoelectric lens units are corresponding to the locations of the gap regions; and filling a transparent rubber in the gap regions in such that the first substrate and the second substrate are adhered closely.

Abstract translation: 光电透镜模块用于聚焦光源。 一种制造方法包括以下步骤：提供第一衬底; 将多个间隙单元定位在第一基板上，并且在第一基板上的间隙单元之间形成多个间隙区域; 提供包括多个光电透镜单元的第二基板，其中所述光电透镜单元的位置对应于所述间隙区域的位置; 并且在所述间隙区域中填充透明橡胶，使得所述第一基板和所述第二基板被紧密地粘合。

公开(公告)号：US20110253194A1

公开(公告)日：2011-10-20

申请号：US12760000

申请日：2010-04-14

Applicant: Chien-Feng LIN ,  Cheng-Yu Huang ,  Te-Kai Ku ,  Chuan-Yi Lin

Inventor： Chien-Feng LIN ,  Cheng-Yu Huang ,  Te-Kai Ku ,  Chuan-Yi Lin

IPC: H01L31/052

CPC classification number: H01L31/052 ,  H01L31/048 ,  H01L31/0543 ,  H02S40/42 ,  Y02E10/52

Abstract: A photoelectric conversion is capable of converting the light energy into electrical power, comprising a tempered glass layer, a lens module, a substrate and a heat sink unit, wherein the lens module is formed from a plurality of lens units, which locate at one side of the tempered glass layer. A gap is formed via a plurality of protruding poles located between the lens units and the tempered glass layer. The gap is filled with transparent rubbers. A plurality of receiving units is located one side of the substrate for dissipating heat energy from the receiving units. The light energy is converted through the receiving units into the electrical energy by focusing the light to the receiving units via the tempered glass layer and the lens module.

Abstract translation: 光电转换能够将光能转换成电力，包括钢化玻璃层，透镜模块，基板和散热单元，其中透镜模块由位于一侧的多个透镜单元形成 的钢化玻璃层。 通过位于透镜单元和强化玻璃层之间的多个突出极形成间隙。 间隙充满透明橡胶。 多个接收单元位于基板的一侧，用于从接收单元散发热能。 通过经由强化玻璃层和透镜模块将光聚焦到接​​收单元，将光能量通过接收单元转换成电能。

公开(公告)号：US20090310366A1

公开(公告)日：2009-12-17

申请号：US12137864

申请日：2008-06-12

Applicant: Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang

Inventor： Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang

IPC: F21V7/04

CPC classification number: F21V19/0055 ,  F21V5/04 ,  F21V7/0041 ,  F21V13/04 ,  F21V17/06 ,  F21V17/12 ,  F21V17/14 ,  F21V19/001 ,  F21V19/045 ,  F21Y2115/10

Abstract: A light emitting diode lens structure includes a lens having an upper section and a lower section. The lower section is provided with a light emitting diode accommodation part. The upper section is coated with a specular reflection layer to form a reflecting surface facing the light emitting diode accommodation part. An illumination apparatus with the light emitting diode lens structure includes a lampshade, a locking module, an electrode module, and a light emitting diode. The lampshade has a reflecting light surface and an aperture. The locking module is coupled on the lampshade and has a through hole corresponding to the aperture. The electrode module is coupled on the locking module and corresponds to the through hole. This design provides a significant reduction in glare to reduce eyestrain.

Abstract translation: 发光二极管透镜结构包括具有上部和下部的透镜。 下部设有发光二极管容纳部。 上部涂有镜面反射层，以形成面向发光二极管容纳部分的反射表面。 具有发光二极管透镜结构的照明装置包括灯罩，锁定模块，电极模块和发光二极管。 灯罩具有反光面和光圈。 锁定模块耦合在灯罩上，并且具有与孔相对应的通孔。 电极模块耦合在锁定模块上并对应于通孔。 这种设计大大降低了眩光以减少眼睛疲劳。

公开(公告)号：US07862212B2

公开(公告)日：2011-01-04

申请号：US12137864

申请日：2008-06-12

Applicant: Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang

Inventor： Cheng-Yu Huang ,  Te-Kai Ku ,  Hsin-Kai Wang

IPC: F21V7/00

CPC classification number: F21V19/0055 ,  F21V5/04 ,  F21V7/0041 ,  F21V13/04 ,  F21V17/06 ,  F21V17/12 ,  F21V17/14 ,  F21V19/001 ,  F21V19/045 ,  F21Y2115/10

Abstract: A light emitting diode lens structure includes a lens having an upper section and a lower section. The lower section is provided with a light emitting diode accommodation part. The upper section is coated with a specular reflection layer to form a reflecting surface facing the light emitting diode accommodation part. An illumination apparatus with the light emitting diode lens structure includes a lampshade, a locking module, an electrode module, and a light emitting diode. The lampshade has a reflecting light surface and an aperture. The locking module is coupled on the lampshade and has a through hole corresponding to the aperture. The electrode module is coupled on the locking module and corresponds to the through hole. This design provides a significant reduction in glare to reduce eyestrain.

Abstract translation: 发光二极管透镜结构包括具有上部和下部的透镜。 下部设有发光二极管容纳部。 上部涂有镜面反射层，以形成面向发光二极管容纳部分的反射表面。 具有发光二极管透镜结构的照明装置包括灯罩，锁定模块，电极模块和发光二极管。 灯罩具有反光面和光圈。 锁定模块耦合在灯罩上，并且具有与孔相对应的通孔。 电极模块耦合在锁定模块上并对应于通孔。 这种设计大大降低了眩光以减少眼睛疲劳。

公开(公告)号：US07042659B2

公开(公告)日：2006-05-09

申请号：US10710347

申请日：2004-07-02

Applicant: Cheng-Yu Huang ,  Shyan-Mun Wang ,  Chiao-Hsiang Chen

Inventor： Cheng-Yu Huang ,  Shyan-Mun Wang ,  Chiao-Hsiang Chen

IPC: G02B9/00 ,  G02B9/04

CPC classification number: G02B7/02

Abstract: An optical lens is described. The optical lens comprises a barrel, a first lens and a second lens. The barrel has a light incident opening, and a receiving space, wherein the receiving space is successive to the light incident opening. Additionally, the first lens is disposed in the receiving space, and the first lens is partially exposed by the light incident opening, wherein the first lens has a first annular conical surface at the outer rim of the first lens. Further, the second lens is disposed in the receiving space, and embedded with the first lens. The second lens has a second annular conical surface on outer rim of the second lens, and the first annular conical surface is embedded with the second annular conical surface. Accordingly, the optical lens has better alignment accuracy and assembly performance.

Abstract translation: 描述光学透镜。 光学透镜包括镜筒，第一透镜和第二透镜。 枪管具有光入射开口和接收空间，其中接收空间与光入射开口连续。 此外，第一透镜设置在接收空间中，并且第一透镜被光入射开口部分地曝光，其中第一透镜在第一透镜的外缘处具有第一环形锥形表面。 此外，第二透镜设置在接收空间中，并且嵌入第一透镜。 第二透镜在第二透镜的外缘上具有第二环形锥形表面，并且第一环形锥形表面嵌入第二环形锥形表面。 因此，光学透镜具有更好的对准精度和组装性能。

公开(公告)号：US06330528B1

公开(公告)日：2001-12-11

申请号：US09216630

申请日：1998-12-16

Applicant: Cheng-Yu Huang ,  Siddhesh Jere ,  Jeffrey D. Merrick ,  Sudesh Saoji

Inventor： Cheng-Yu Huang ,  Siddhesh Jere ,  Jeffrey D. Merrick ,  Sudesh Saoji

IPC: G06F945

CPC classification number: G06F9/4843 ,  G06F9/45537

Abstract: An operating system is simulated to run in conjunction with a native operating system, allowing processes, particularly multi-threaded processes, originally developed for the simulated operating system to be ported to the environment of the native operating system with a minimum of effort. In their natural environment the processes being ported have the capability of requesting that other processes be terminated. This capability is provided in the simulated system and in a multi-threaded environment of the simulated system. Processes executing in the simulated system, even if multi-threaded, also have the capability of protecting against being stopped when executing critical code.

Abstract translation: 操作系统被模拟为与本地操作系统一起运行，允许最初为模拟操作系统开发的进程，特别是多线程进程以最小的努力移植到本地操作系统的环境。 在其自然环境中，移植的进程具有请求其他进程终止的能力。 这种能力在模拟系统和模拟系统的多线程环境中提供。 即使是多线程，在仿真系统中执行的进程也具有在执行关键代码时防止停止的能力。