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    • 11. 发明授权
    • 시설재배용 이산화탄소 분리, 저장 및 공급 장치
    • 二氧化碳分离,储存和供应设备结构下的培养
    • KR101156480B1
    • 2012-06-14
    • KR1020110105749
    • 2011-10-17
    • 감동환정규철
    • 김진경
    • A01G9/18A01G7/02F24F11/00
    • Y02A40/264Y02C10/04Y02P60/24A01G9/18A01G7/02F24F2110/70Y02C10/10
    • PURPOSE: A carbon dioxide separation, storage, and supply apparatus for the crop cultivation using a facility is provided to supply carbon dioxide collected from air to a crop cultivation room. CONSTITUTION: A carbon dioxide separation, storage, and supply apparatus for the crop cultivation using a facility comprises the following: an internal air inflow unit(10A) inflowing internal air from the inside of a cultivation room; an external air inflow unit(10B) inflowing external air from the outside of the cultivation room; an air exhausting unit(20) exhausting the internal air or the external air; a carbon dioxide collecting device(30) separating carbon dioxide from the air exhausted from the air exhausting unit; a carbon dioxide storage tank(44) storing the collected carbon dioxide; a carbon dioxide supplying device(50) supplying the stored carbon dioxide to crops inside the cultivation room; a controller(60) controlling the storage and the supply of the carbon dioxide; and a compressor compressing the air exhausted from the air exhausting unit into 0.2-1MPa.
    • 目的:提供用于使用设施进行作物种植的二氧化碳分离,储存和供应装置,以将从空气收集的二氧化碳供应给作物种植室。 构成:使用设备的作物栽培的二氧化碳分离,储存和供应装置包括:从培养室内部流入内部空气的内部空气流入单元(10A) 外部空气流入单元(10B)从培养室的外部流入外部空气; 排出内部空气或外部空气的排气单元(20); 二氧化碳收集装置(30),从排气单元排出的空气中分离二氧化碳; 存储收集的二氧化碳的二氧化碳储存箱(44) 二氧化碳供应装置(50),将储存的二氧化碳供应到耕作室内的作物; 控制器(60),控制二氧化碳的储存和供应; 以及压缩从排气单元排出的空气为0.2-1MPa的压缩机。
    • 12. 发明公开
    • 폐쇄형 육묘 시스템을 이용한 딸기 묘 육묘 방법
    • 使用封闭式运输生产系统的草莓传播方法
    • KR1020120040926A
    • 2012-04-30
    • KR1020100102443
    • 2010-10-20
    • 서울대학교산학협력단
    • 전창후박선우정연우김성겸고관달
    • A01G9/00A01G7/00A01G7/04A01G7/02A01G9/18
    • A01G9/00A01G7/00A01G7/02A01G7/045A01G9/18
    • PURPOSE: A cultivating method of strawberry saplings using an enclosed type cultivating system is provided to offer the proper cultivation environment for the strawberry saplings by offering excellent thermal insulation. CONSTITUTION: A cultivating method of strawberry saplings using an enclosed type cultivating system comprises the following steps: selecting a first disseminule from a stock plant, and generating a runner from the first disseminule to obtain a runner tip for growing a runner plant; separating the runner plant as a second disseminule from the stock plant when the runner plant has two leaves; separating the second disseminule from the stock plant as a third disseminule when the runner plant generated from the second disseminule has two leaves; and cultivating the first, second, and third disseminules to have 6-7 leaves before storing at -2-5 deg C.
    • 目的:提供使用封闭式栽培系统的草莓树苗的栽培方法,为草莓树苗提供良好的保温保育环境。 构成:使用封闭式栽培系统的草莓树苗的栽培方法包括以下步骤:从原种植物中选择第一散布物,并从第一散布物产生流道以获得用于生长转轮植物的转轮尖; 当跑步植物有两片叶子时,将来自植物的第二种传播物分离出来; 当第二传播物产生的转轮植物具有两片叶子时,将第二种传播物与原种植物分离为第三种传播方式; 并培养第一,第二和第三种传播物,以在2-5℃储存之前具有6-7个叶子。
    • 13. 发明公开
    • 식물 재배 장치 및 이를 사용하는 식물 재배 시스템
    • 植物培养装置和植物培养系统
    • KR1020120026743A
    • 2012-03-20
    • KR1020100088826
    • 2010-09-10
    • 주식회사 엘지씨엔에스
    • 김장우양승걸김민욱송종석조동규
    • A01G9/14A01G7/00A01G7/02A01G7/04A01G31/06
    • Y02P60/216A01G9/143A01G7/00A01G7/02A01G7/045A01G9/1423A01G31/06
    • PURPOSE: A plant cultivating apparatus capable of maximizing productivity, and plant cultivating system using thereof are provided to enable users to control the environment condition of the apparatus by the growth of plants. CONSTITUTION: A plant cultivating apparatus comprises the following: plural storing units(12) with different sizes by the growth of plants, including a first storing unit(12a) for a first growth stage(P1) of the plants, a second storing unit(12b) for a second growth stage(P2) of the plants, and a third storing unit(12c) for a third growth stage(P3) of the plants; a cultivation box(14) located among the storing units; a piping unit supplying a nutrient solution or soil into the cultivation box; a lighting unit(16) supplying light to the plants by being installed on the upper side of the storing units; a temperature controller controlling the temperature inside the cultivating apparatus; and a gas supplier controlling the CO2 condition inside the cultivation apparatus.
    • 目的:提供能够最大限度提高生产力的植物栽培装置及其使用的植物栽培系统,使用户能够通过植物生长来控制装置的环境状况。 构成:植物栽培装置包括:通过植物生长具有不同尺寸的多个储存单元(12),包括用于植物的第一生长阶段(P1)的第一储存单元(12a),第二储存单元 12b)和植物的第三生长期(P3)的第三储存单元(12c); 位于所述存储单元之间的栽培箱(14) 将营养液或土壤供给到培养箱中的管道单元; 照明单元(16),其通过安装在所述存储单元的上侧而向所述植物提供光; 控制培养装置内的温度的温度控制器; 以及控制培养装置内的CO 2条件的气体供给装置。
    • 17. 实用新型
    • 탄산가스 공급장치
    • 二氧化碳供应
    • KR2020080004664U
    • 2008-10-15
    • KR2020080004804
    • 2008-04-11
    • 강민구
    • 강민구
    • A01G9/18A01G7/02
    • A01G9/18A01G7/02Y02C10/12
    • 본 고안은 탄산가스 공급장치에 관한 것으로, 이 탄산가스 공급장치(100)는, 열에 의하여 탄산가스를 배출하는 탄산가스 발생기(124)를 담고 있는 탄산가스 생성기(120)와; 상기 탄산가스 생성기(120)로부터 발생된 탄산가스를 공급받아 이를 정화하는 정화기(140)와; 상기 탄산가스 생성기(120)와 이에 연결된 상기 정화기(140)로부터 탄산가스가 포함된 에어를 강제 흡입하기 위하여 전기적으로 동작하는 에어펌프(160)와; 각부를 제어하기 위한 콘트롤 패널(180)과; 상기 에어펌프(160)에 의해 흡입된 탄산가스가 포함된 에어를 공급받아 배출하기 위한 탄산가스 배출배관(190)을 포함한다. 이에 따라, 에어 펌프에 의해 탄산가스가 용이하게 시설 내로 강제 순환될 수 있게 하며, 탄산가스 내에 함유되어 있을 수 있는 암모니아를 비롯한 먼지, 세균 등을 정화한 깨끗한 탄산가스를 공급할 수 있어, 시설 내의 작업 환경이 쾌적하게 만들 수 있는 등의 장점을 제공한다.
      탄산가스, 비닐하우스, 원예
    • 18. 发明授权
    • 생물육성장치
    • 生物生长装置
    • KR1019890000998B1
    • 1989-04-18
    • KR1019860002046
    • 1986-03-19
    • 모리게이
    • 모리게이
    • A01G9/00A01K63/00
    • A01G7/02A01G7/045A01G18/00A01K61/10Y02A40/81Y02P60/146Y02P60/64Y10S47/06
    • A bioreactor for culturing plants and fish was constructed by incorporating a multitude of fiber-optic light radiator within the culture container. The sun was used as the main light source, and xenon lamps were used as a supplement. Chromatic aberration in Fresnel lenses removed much of the IR and UV wavelengths from the light as it was focused into fiber-optic cables for transmission to the remotely located bioreactor container. The diminution of heat radiation allowed many well-distributed radiators to be placed in the container without heating difficulties so that uniform light dissemination was possible.
    • 通过在培养容器内并入大量的光纤散热器,构建了用于培养植物和鱼的生物反应器。 太阳用作主要光源,氙气灯被用作补充。 菲涅尔透镜中的色差从光中去除了大部分IR和UV波长,因为它被聚焦到光纤电缆中,用于传输到远程位置的生物反应器容器。 热辐射的减少允许许多分布良好的散热器被放置在容器中而没有加热困难,使得可以均匀的光散射成为可能。