公开(公告)号：US07450095B2

公开(公告)日：2008-11-11

申请号：US11087554

申请日：2005-03-24

Applicant: Te-Cheng Yu ,  Shang-Che Sun ,  Chih-Wei Lai ,  Huang-Ta Chiu ,  Wan-Chih Lin ,  Hao-Fan Liao ,  Ming-Chu Hsu

Inventor： Te-Cheng Yu ,  Shang-Che Sun ,  Chih-Wei Lai ,  Huang-Ta Chiu ,  Wan-Chih Lin ,  Hao-Fan Liao ,  Ming-Chu Hsu

IPC: G09G3/32

CPC classification number: G09G3/32 ,  G09G3/2011 ,  G09G2310/027

Abstract: A single-cluster lamp drive device makes use of a controller to receive video data from a control system and then divides the video data into three sub video data. Next, these three sub video data are simultaneously and repetitively outputted to a digital-to-analog converter in every fixed time interval. Subsequently, the digital-to-analog converter converts these three sub video data to three analog voltages outputted to a voltage-to-current converter. Finally, the voltage-to-current converter converts these three analog voltages to three analog currents for driving light emitting devices to emit light, hence accomplishing voltage-in-current-out driving. The drive device drives a single-cluster lamp composed of one LED or several LEDs to adjust their brightness through current change, thereby coordinating with the control system to produce various color and pattern variations.

Abstract translation: 单簇灯驱动装置利用控制器从控制系统接收视频数据，然后将视频数据分成三个子视频数据。 接下来，这三个副视频数据在每个固定的时间间隔中被同时且重复地输出到数模转换器。 随后，数模转换器将这三个子视频数据转换成输出到电压 - 电流转换器的三个模拟电压。 最后，电压 - 电流转换器将这三个模拟电压转换为三个模拟电流，用于驱动发光器件发光，从而实现电流输出驱动。 驱动装置驱动由一个LED或多个LED组成的单个集群灯，以通过电流变化来调节其亮度，从而与控制系统协调以产生各种颜色和图案变化。

公开(公告)号：US20120106162A1

公开(公告)日：2012-05-03

申请号：US12965128

申请日：2010-12-10

Applicant: WAN-CHIH LIN ,  YI-MING TAI ,  CHENG-WEI YANG ,  CHIA-WEN WU ,  SHUN-CHIH CHEN

Inventor： WAN-CHIH LIN ,  YI-MING TAI ,  CHENG-WEI YANG ,  CHIA-WEN WU ,  SHUN-CHIH CHEN

IPC: F21V29/00

CPC classification number: F21S8/086 ,  F21V21/116 ,  F21V23/008 ,  F21V29/763 ,  F21W2131/103

Abstract: The present invention relates to a light-emitting diode (LED) streetlight structure, which comprises a light-emitting module, a power module, and a lamppost. The light-emitting module is disposed on side of the power module; the lamppost is disposed on the other side of the power module and corresponds to the light-emitting module. A heat-dissipating structure is disposed on the surface of a housing of the power module. The heat-dissipating structure corresponds to a power supply in the power module, and can dissipate the heat generated by the power supply and reduce the temperature thereof. Accordingly, heat dissipation of the power supply is enhanced, and hence increasing its lifetime.

Abstract translation: 本发明涉及一种发光二极管（LED）路灯结构，其包括发光模块，电源模块和灯柱。 发光模块设置在功率模块的一侧; 灯杆配置在功率模块的另一侧，对应于发光模块。 散热结构设置在电源模块的壳体的表面上。 散热结构对应于功率模块中的电源，并且可以消散由电源产生的热量并降低其温度。 因此，电源的散热得到增强，从而增加了其寿命。

公开(公告)号：US08100596B2

公开(公告)日：2012-01-24

申请号：US12232121

申请日：2008-09-11

Applicant: Wei-Ting Hsu ,  Li-Chung Liu ,  Wan-Chih Lin

Inventor： Wei-Ting Hsu ,  Li-Chung Liu ,  Wan-Chih Lin

IPC: B41J11/00

CPC classification number: B41J11/20

Abstract: A thermal sublimation imaging apparatus and a thermal sublimation printer using the same are described. A print head of the thermal sublimation imaging apparatus is fixed, a platen capable of contacting or separating from the fixed print head is lifted up to contact the fixed print head, and an elastic component is used in conjunction to provide a pressure for printing. The platen lays flat in paper feed/reverse mode, and presses downwardly to drive a paper pickup plate to fetch paper. These actions are achieved by a stepper motor together with a sensor through a worm shaft, a worm gear, and at least a gear. Therefore, the number and the cost of the gears are reduced, and the time for switching the printing action is greatly reduced since the switching can be implemented within a very small rotation angle.

Abstract translation: 描述了使用其的热升华成像装置和热升华打印机。 热升华成像装置的打印头被固定，能够与固定打印头接触或分离的压板被提升以接触固定打印头，并且联合使用弹性部件以提供打印压力。 压纸机在进纸/反向模式下平放，向下按压以驱动纸张拾纸板取纸。 这些动作通过步进电动机与传感器一起通过蜗杆轴，蜗轮和至少一个齿轮实现。 因此，减少齿轮的数量和成本，并且由于可以在非常小的旋转角度内实现切换，因此大大降低了切换打印动作的时间。