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
    • 5. 发明授权
    • High brightness dense wavelength multiplexing laser
    • 高亮度密集波长复用激光器
    • US09596034B2
    • 2017-03-14
    • US15172166
    • 2016-06-03
    • TRUMPF Laser GmbH
    • Hagen ZimerAlexander KilliChristoph TillkornSteffen Ried
    • H04B10/572H04J14/02H01S3/06H01S5/14H01S3/08H01S5/024H01S5/40G02B7/18H01S3/04
    • H04B10/572G02B5/1861G02B7/1815H01S3/0401H01S3/0805H01S5/02438H01S5/142H01S5/143H01S5/4012H01S5/4062H01S5/4087H04J14/02
    • The present disclosure describes systems and methods for beam wavelength stabilization and output beam combining in dense wavelength multiplexing (DWM) systems. Systems and methods are described for performing beam wavelength stabilization and output beam combining in DWM systems while achieving increased wall-plug efficiency and enhanced beam quality. Interferometric external resonator configurations can be used to greatly increase the brightness of DWM system output beams by stabilizing the wavelengths of the beams emitted by the emitters of the DWM laser source. The resonant cavities described by the present disclosure provide advantages over the prior art in the form of decreased cost, increased wall plug efficiency and increased output beam quality. Particular implementations of the disclosure achieve increased wall plug efficiency and increased output beam quality through a combination of innovative cavity designs and the utilization of reflection diffraction elements for beam combining.
    • 本公开描述了在密集波长复用(DWM)系统中用于波束稳定和输出波束组合的系统和方法。 描述了用于在DWM系统中执行波束稳定和输出波束组合的系统和方法,同时实现增加的壁插塞效率和增强的波束质量。 通过稳定由DWM激光源的发射器​​发射的光束的波长,可以使用干涉外部谐振器配置来大大增加DWM系统输出光束的亮度。 本公开描述的谐振腔以降低的成本,增加的壁插塞效率和增加的输出光束质量的形式提供优于现有技术的优点。 本公开的具体实施方式通过创新的空腔设计和利用反射衍射元件用于光束组合来实现增加的壁插头效率和增加的输出光束质量。
    • 6. 发明申请
    • LASER APPARATUS HAVING TEMPERATURE CONTROL FUNCTION FOR MAINTENANCE WORK
    • 具有维护工作温度控制功能的激光装置
    • US20170063017A1
    • 2017-03-02
    • US15240002
    • 2016-08-18
    • FANUC CORPORATION
    • Atsushi Mori
    • H01S3/04
    • H01S3/0407H01S3/0401H01S3/1028
    • A laser apparatus able to prevent the formation of condensation at the time of maintenance work. The laser apparatus includes a housing having an openable sealed structure, an optical system set inside the housing, a temperature regulation mechanism maintaining the optical system at a predetermined temperature, and a preparatory step controller controlling a preparatory step performed before opening the housing. The temperature regulation mechanism is configured to maintain the optical system at a first temperature during operation of the laser apparatus and to maintain the optical system at a second temperature of the first temperature or more when the preparatory step is started.
    • 能够防止在维护工作时形成冷凝的激光装置。 激光装置包括具有可开封密封结构的壳体,设在壳体内部的光学系统,将光学系统保持在预定温度的温度调节机构,以及控制在打开壳体之前执行的预备步骤的预备步骤控制器。 温度调节机构被配置为在激光装置的操作期间将光学系统保持在第一温度,并且当准备步骤开始时将光学系统保持在第一温度或更高的第二温度。
    • 7. 发明申请
    • SYSTEM AND METHOD FOR INCREASING POWER EMITTED FROM A FIBER LASER
    • 用于增加从光纤激光器发射的功率的系统和方法
    • US20160294150A1
    • 2016-10-06
    • US15090118
    • 2016-04-04
    • BAE SYSTEMS INFORMATION AND ELECTRONIC SYSTEMS INTEGRATION INC.
    • Benjamin R. Johnson
    • H01S3/102H01S3/094H01S3/0941H01S3/04H01S3/067
    • H01S3/0675G02B6/00H01S3/0401H01S3/0405H01S3/06704H01S3/094003H01S3/09415H01S3/1053
    • A fiber laser having a thermal controller operatively connected to one or more fiber Bragg gratings is provided. The thermal controller does not impart much or imparts very little mechanical stress or strain to the optical fiber in which the FBGs reside because such forces can alter the FBG performance. Rather, the thermal controller utilizes a thermally conductive semi-solid or non-Newtonian fluid to submerge/suspend a portion of the optical fiber in which FBG resides. Temperature control logic controls whether a thermoelectric heater and cooler should be directed to increase or decrease its temperature. The thermoelectric heater and cooler imparts or removes thermal energy from the FBG to efficiently control its performance without the application of mechanical stress. The fiber laser having a thermal controller generally is able to increase laser output power greater than two times the amount of output power of a similarly fabricated fiber laser free of the thermal controller(s).
    • 提供了具有可操作地连接到一个或多个光纤布拉格光栅的热控制器的光纤激光器。 热控制器对FBG所在的光纤不施加太大的力或非常小的机械应力或应变,因为这样的力可以改变FBG性能。 相反,热控制器利用导热半固体或非牛顿流体来淹没/悬挂FBG所在的光纤的一部分。 温度控制逻辑控制是否应引导热电加热器和冷却器来增加或降低其温度。 热电加热器和冷却器从FBG施加或去除热能,以有效地控制其性能而不施加机械应力。 具有热控制器的光纤激光器通常能够增加大于不含热控制器的类似制造的光纤激光器的输出功率的两倍的激光输出功率。