公开(公告)号：WO2016077058A1

公开(公告)日：2016-05-19

申请号：PCT/US2015/057216

申请日：2015-10-23

Applicant: SURNA INC.

Inventor： KEEN, Stephen ,  WHITAKER, Todd ,  JOHNSON, Jordan ,  PEARSON, Chris ,  SCHULTZ, Brady

IPC: F21V29/503 ,  F21V29/507 ,  F21V29/60

CPC classification number: F21V29/503 ,  A01G9/26 ,  F21V29/507 ,  F21V29/60 ,  H01J61/34 ,  H01J61/50 ,  H01J61/52 ,  H01J61/82 ,  Y02A40/274

Abstract: Provided herein is a high intensity discharge light source having a thermally insulative and optically transparent sleeve for maintaining or enhancing a spectral performance parameter. The configuration of the sleeve provides an insulative volume that allows an elevated steady state operating temperature to be reached, even when the light source is cooled. The sleeve is also configured to withstand a bulb failure event, thereby protecting the surrounding environment from falling debris. Also provided herein are methods for dissipating heat from the light source without adversely affecting the bulb operating temperature or the enhanced spectral performance parameter.

Abstract translation: 本文提供了一种高强度放电光源，其具有用于维持或增强光谱性能参数的绝热和光学透明的套筒。 即使当光源被冷却时，套筒的构造提供允许达到升高的稳态工作温度的绝缘体积。 套筒还被配置为经受灯泡故障事件，从而保护周围环境免于掉落的碎屑。 本文还提供了用于从光源散发热量而不会不利地影响灯泡工作温度或增强的光谱性能参数的方法。

公开(公告)号：WO2015168559A1

公开(公告)日：2015-11-05

申请号：PCT/US2015/028803

申请日：2015-05-01

Applicant: SURNA, INC.

Inventor： JOHNSON, Jordan ,  KEEN, Stephen ,  PEARSON, Chris ,  WHITAKER, Todd

IPC: F21V7/00

CPC classification number: A01G7/045 ,  A01G9/26 ,  A01G22/00 ,  F21V7/00 ,  F21V7/0025 ,  F21V7/005 ,  F21V7/08 ,  F21V17/104 ,  F21V29/15 ,  F21V29/503 ,  F21V29/505 ,  F21V29/56 ,  F21V29/58 ,  F21V29/67 ,  F21V29/673 ,  F21V29/74 ,  F21V29/763 ,  F21V29/83 ,  F21Y2103/00 ,  G02B19/0019 ,  G02B19/0023 ,  G02B19/0066 ,  Y02A40/274

Abstract: Provided herein are optical reflectors having a plurality of specially designed reflective surfaces and geometrical arrangement to provide improved illumination of a target area. Also provided are related methods for growing plants with the optical reflectors described herein. The reflective surfaces provde substantially normally aligned light over the entire target area, thereby minimizing shading issues of conventional optical reflectors. Also disclosed herein are efficient cooling by air and/or fluid that can substantially reduce cooling requirements by conventional air conditioning with attendant power savings.

Abstract translation: 本文提供了具有多个特别设计的反射表面和几何布置以提供目标区域的改进照明的光学反射器。 还提供了用本文所述的光反射器生长植物的相关方法。 反射表面在整个目标区域上基本上正常对准光，从而最小化常规光学反射器的阴影问题。 本文还公开了通过空气和/或流体的有效冷却，其可以显着地减少通过常规空调的冷却需求，同时节省功率。