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    • 1. 发明授权
    • 수분장력식 물공급장치
    • 水张力供水系统
    • KR101796896B1
    • 2017-11-13
    • KR1020170061152
    • 2017-05-17
    • 경상북도(농업기술원)
    • 서영진김종수김덕영이현석
    • A01G25/16A01G27/00G01N33/24
    • A01G25/167A01G27/003A01G27/005A01G27/008G01N33/246
    • 본발명은수분장력식물공급장치에관한것으로, 더욱구체적으로는토양수분의장력을간편하고정확하게측정하여토양의수분부족시에적정량의물을자동으로공급할수 있도록한 수분장력식물공급장치에관한것이다. 즉, 본발명은수분장력계에의해토양의수분장력을측정하여관수공급부를통해토양에적정한수분공급이이루어지도록하되상기수분장력계는; 투명체로구비되고수위측정눈금자가구비되어있는측정관과, 상기측정관의하부일측에연통되게설치되고신축성을가진측정수공급포켓과, 상기측정관의수분장력을측정하기위한수위감지센서와, 상기측정관의상부일측에일정길이로연결되어토양의수분장력측정지점에삽입되는호스와, 상기호스의끝단에구비되어삼투압효과를발생시키는다공성부재로이루어진수분장력식물공급장치를특징으로한다.
    • 更具体地说,本发明涉及一种通过容易且准确地测量土壤水的张力而能够在土壤不足时自动且准确地提供适量水的水力张力植物喂养装置。 即,本发明通过水张力计测量土壤的水张力,从而通过供水单元向土壤提供适当的水,其中水张力计包括: 水位传感器,用于测量测量管的水压;水位传感器,用于测量水位测量管的水压; 特征在于水分张力植物供给由软管被连接到在测量管的上侧以预定长度被插入到水张力在土壤中的测量点,其在所述软管的端部所提供的多孔构件产生的渗透效果。
    • 5. 发明公开
    • 다수의 논/밭 토양 채취원으로부터 동시에 온실가스를 채취하여 분석하는 다중채널 온실가스 분석시스템
    • 来自耕地的温室气体多通道分析系统
    • KR1020120063015A
    • 2012-06-15
    • KR1020100124008
    • 2010-12-07
    • 경상북도(농업기술원)주식회사 케이엔알
    • 서영진박준홍권태영최성용박소득심창현김종환이수형신우진김태익
    • G01N30/02G01N30/04G01N1/22G01N35/00
    • PURPOSE: A multi-channel greenhouse gas analyzing system is provided to preserve and maintain the performance of collected gas and to maintain the reproducibility of analysis with respect to the gas. CONSTITUTION: A multi-channel greenhouse gas analyzing system includes a plurality of chambers(10), a plurality of reference sample collecting units, a first flow path selecting unit(40), a first manifold, a plurality of greenhouse gas sample collecting unit, a second flow path selecting unit(40'), a cooling chamber, a second manifold, a sucking pump, and a compressor, a third flow path selecting unit(60), a controller, and a gas analyzing unit. The chambers include covers which are equipped at rice paddy/field soil collecting sources. The reference sampling collecting units are in connection with the chambers. The first flow path selecting unit is in connection with the reference sample collecting units through a first 3-way valve. The first manifold is in connection with the first 3-way valve. The greenhouse gas sample collecting units are in connection with a branched unit through a second 2-way valve. The second flow path selecting unit is in connection with the greenhouse gas sampling collecting units through a second 3-way valve. The second manifold is in connection with the second 3-way valve. The sucking pump and the compressor are in connection with one side of the manifolds. The third flow selecting unit is in connection with the first flow selecting unit and the second flow selecting unit. The gas analyzing unit is in connection with the third flow selecting unit.
    • 目的:提供多通道温室气体分析系统,以保持和维持收集的气体的性能,并保持相对于气体的分析的重现性。 构成:多通道温室气体分析系统包括多个室(10),多个参考样品收集单元,第一流路选择单元(40),第一歧管,多个温室气体样品采集单元, 第二流路选择单元(40'),冷却室,第二歧管,吸入泵和压缩机,第三流路选择单元(60),控制器和气体分析单元。 这些房间包括在稻田/田间土壤收集源上配备的盖子。 参考采样收集单元与室连接。 第一流路选择单元通过第一三通阀与参考样品收集单元连接。 第一个歧管与第一个三通阀相连。 温室气体样品收集单元通过第二二通阀与分支单元连接。 第二流路选择单元通过第二三通阀与温室气体采样收集单元连接。 第二歧管与第二三通阀连接。 抽吸泵和压缩机与歧管的一侧连接。 第三流量选择单元与第一流量选择单元和第二流量选择单元连接。 气体分析单元与第三流动选择单元连接。
    • 7. 发明公开
    • 광대노린재 방제용 유인제 조성물
    • 诱导剂组合物,用于治疗眼部炎症
    • KR1020160043707A
    • 2016-04-22
    • KR1020140138216
    • 2014-10-14
    • 경상북도(농업기술원)
    • 서영진김종수김민기
    • A01N37/14A01N65/00A01P19/00
    • A01N37/14A01N65/00
    • 본발명은광대노린재방제용유인제조성물에관한것으로, 더욱상세하게는보닐아세테이트정유가함유되는것을특징으로하며, 보닐아세테이트정유외에도베타피넨정유및 리모넨정유로이루어진그룹에서선택된하나이상이더 함유될수 있다. 상기의성분으로이루어진광대노린재방제용유인제조성물은오미자에갑작스럽게발생하여피해를입히는광대노린재를유인하는효과가우수하여우수한방제효과를나타내며, 천연의재료로만이루어져친환경적인효과를나타낸다.
    • 本发明涉及一种用于控制Poecilocoris splendidulus Esaki的引诱剂组合物。 更具体地说,引诱剂组合物含有乙酸苄酯精油,并且还可以含有选自由β-蒎烯精油和柠檬烯精油组成的组中的至少一种,不同于乙酸苄酯精油。 引诱剂组合物,用于控制禾本科植物,由组分组成,具有优异的吸引Poecilocoris splendidulus Esaki的效果,突然出现并对五味子B.造成损害,仅由天然成分制成, 友善。
    • 9. 发明公开
    • 참당귀 잎으로부터 데쿠시놀안젤레이트 함유 추출물을 제조하는 방법
    • 一种制备含有十二烷基硫酸钠的提取物的方法,其含有提取物的组合物
    • KR1020140040413A
    • 2014-04-03
    • KR1020120107013
    • 2012-09-26
    • 경상북도(농업기술원)
    • 서영진장원철김재철손형락이종필김민기박준홍
    • A61K31/37A61K31/35A61K36/232A61P35/00
    • The present invention relates to a method for extracting decursinol angelate from Angelca gigas radix leaves and a composition containing the decursinol angelate extracted thereby. The method comprises: 1) a step for washing the leaves of Angelica gigas radix with water to remove foreign substances and drying the leaves to contain 0.1-5% (w/W) of water, and grinding the leaves; 2) a step for removing fat-soluble ingredients by repeating processes following as: adding normal hexane to the ground leaves, 5-15 times as much as the weight of the ground leaves, and stirring at room temperature for 1-4 hours, then sonicating a mixture for 10-40 minutes, 2-4 times; 3) a step for adding ethanol having more than 95% purity to the processed mixture, 10-30 times as much as the weight of the leaves and stirring for 1-2 hours, then sonicating for 10-40 minutes and filtrating; and 4) a step for obtaining an extract containing the decursinol angelate by vacuum concentrating the filtrated mixture in decompressive condition or drying the filtrated mixture at 50-100°C. According to the present invention, the extract containing plenty of dedursin as well as the decursinol angelate can be obtained from the Angelca gigas radix leaves, which are by-products for producing roots of the Angelca gigas radix so which have not been useful so far. The extract containing the decursinol angelate can be used as various kinds of functional compositions, especially a medicinal composition, a food composition, and a cosmetic composition for anticancer, antioxidant, anti-allergic, improving blood circulation, or whitening, thereby being very useful in the relevant fields. [Reference numerals] (AA) Step for washing, drying, and grinding Angelca gigas radix leaves; (BB) Step for extracting fat-soluble ingredients; (CC) Step for ethanol extracting; (DD) Step for vacuum concentrating or drying
    • 本发明涉及一种从天竺葵叶提取前胡必醇的方法,以及含有由此提取的当归酸前胡烯醇的组合物。 该方法包括:1)用水清洗当归叶子以除去异物,干燥叶片以含有0.1-5%(w / W)的水,并研磨叶片的步骤; 2)通过重复以下步骤除去脂溶性成分的步骤:将正常己烷加入到研磨叶中,为​​研磨叶重量的5-15倍,并在室温下搅拌1-4小时,然后 将混合物超声处理10-40分钟2-4次; 3)向加工的混合物中加入纯度高于95%的乙醇的步骤,为叶片重量的10-30倍,搅拌1-2小时,然后超声处理10-40分钟并过滤; 和4)通过真空浓缩过滤混合物在减压条件下或在50-100℃干燥过滤的混合物来获得含有前胡萝卜素的提取物的步骤。 根据本发明,可以从天竺葵根中获得含有大量红细胞素的提取物以及前胡萝卜素,这是迄今为止尚未有用的用于产生安格拉斯吉哥根的根的副产物。 含有前胡萝卜素的提取物可以用作各种功能性组合物,特别是药物组合物,食品组合物和抗癌,抗氧化,抗过敏,改善血液循环或美白的化妆品组合物,因此非常有用 相关领域。 (AA)用于洗涤,干燥和研磨天竺葵叶的步骤; (BB)提取脂溶性成分的步骤; (CC)乙醇提取步骤 (DD)真空浓缩或干燥步骤