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    • 1. 发明申请
    • PLANT CONTAINER IRRIGATION APPARATUS
    • 植物容器灌溉设备
    • WO2017163056A1
    • 2017-09-28
    • PCT/GB2017/050795
    • 2017-03-21
    • GROWELL HYDROPONICS AND PLANT LIGHTING LTD.
    • GRADY, Alexander
    • A01G25/16A01G27/00
    • A01G27/005A01G25/165A01G25/167A01G27/003
    • Plant container irrigation apparatus (10) includes a master controller (12) for controlling irrigation of a plant container (14). The apparatus (10) includes an irrigation liquid transport arrangement (16) for transporting irrigation liquid (18) from an irrigation liquid supply (20) to, in use, the plant container (14). The transport arrangement (16) includes a flow controller (22) for controlling the flow of the irrigation liquid (18) to the plant container (14), the flow controller (22) being movable between a flow condition, in which the flow controller (22) permits the irrigation liquid (18) to flow to the plant container (14), and a non-flow condition, in which the flow controller (22) does not permit flow of the irrigation liquid (18) to the plant container (14). The apparatus (10) includes a run-off detector (24) which, in use, detects irrigation liquid run-off (26) from the plant container (14) and provides a run-off detection signal (28) to the master controller (12). The master controller (12) is arranged so that receipt of the run-off detection signal (28) causes the flow controller (22) to move from the flow condition to the non-flow condition.
    • 植物容器灌溉装置(10)包括用于控制植物容器(14)的灌溉的主控制器(12)。 设备(10)包括用于将灌溉液体(18)从灌溉液体供应(20)输送到使用中的植物容器(14)的灌溉液体输送装置(16)。 输送装置(16)包括用于控制灌溉液体(18)流向植物容器(14)的流量控制器(22),流量控制器(22)可在流量状态之间移动,其中流量控制器 (22)允许灌溉液体(18)流向植物容器(14);以及非流动状态,其中流动控制器(22)不允许灌溉液体(18)流向植物容器 (14)。 装置(10)包括在使用中检测来自植物容器(14)的灌溉液流出(26)并向主控制器提供流出检测信号(28)的流出检测器(24) (12)。 主控制器(12)被布置为使得接收到流失检测信号(28)使得流量控制器(22)从流动状态移动到非流动状态。
    • 2. 发明申请
    • MODULE DE CULTURE VÉGÉTALE AVEC PLENUM CENTRAL POUR MUR VÉGÉTALISÉ
    • 带植物墙中央平台的植物性蔬菜模块
    • WO2017118814A1
    • 2017-07-13
    • PCT/FR2017/050019
    • 2017-01-04
    • PELESZEZAK, Pascal
    • PELESZEZAK, Pascal
    • A01G9/02A01G25/16
    • A01G9/025A01G25/167Y02P60/244
    • Module (1) de culture végétale pour mur végétalisé, comprenant: -un casier (2)prévu pour recevoir intérieurement un substrat de culture végétale, et présentant des cadres avant et arrière (21) en vis-à-vis reliés par des traverses supérieures et inférieures (22, 23); et -un plenum (5) central de distribution d'air pourvu de deux cloisons centrales (50), ajourées ou grillagées, s'étendant à l'intérieur du casier de manière substantiellement parallèle aux faces avant et arrière, lesdites cloisons centrales étant situées à distance des deux cadres et délimitant entre elles un espace central (51) de circulation d'air prévu pour être raccordé à au moins un conduit d'amené d'air pulsé, chaque cloison centrale présentant deux bordures latérales (52) et deux bordures longitudinales respectivement inférieure et supérieure (54), ces cloisons centrales (50) étant supportées par les traverses inférieures et supérieures du casier.
    • 模块(1)培养v E Gé故事墙v E Gé达丽斯é;,包括:存储(2)PRé看出接收INTË吸收的敷料培养基材vé 并呈现由上部和下部导轨(22,23)明显连接的前部和后部框架(21); 以及设有两个向外延伸的中央隔板(50)的中央空气分配增压室(5),所述中央隔板(50)开放或烤架状; 所述机架的内部基本上平行于所述前表面和后表面,所述中央隔板位于所述机壳的前部和后部; 所述两个框架之间的距离并限定它们之间的中央空气循环空间(51),所述中央空气循环空间(51)预定为与其连接; À 至少一个供应管道 每个中央隔板具有两个侧边(52)和两个分别位于下部和上部的纵向边缘(54),这些中央隔板(50)由 底部和顶部的枕木。

    • 4. 发明申请
    • SYSTEM AND METHOD FOR AN INTERNET OF THINGS (IOT) MOISTURE SENSOR
    • 用于互联网(IOT)水分传感器的系统和方法
    • WO2016196552A1
    • 2016-12-08
    • PCT/US2016/035159
    • 2016-06-01
    • AFERO, INC.
    • BRITT, JoeZAKARIA, OmarSTORRIE-LOMBARDI, Alec
    • A01G25/16G01N33/18G01R27/08G05D11/00H04W4/00
    • A01G25/167G01N27/048G01N33/24G05B15/02
    • An apparatus and method are described for a moisture sensor. For example, one embodiment of an loT device comprises: An Internet of Things (loT) device comprising: a moisture sensor to detect a moisture level; an loT communication interface and/or radio to wirelessly connect the loT device to a network; a set of pins, pads, and/or probes to electrically couple the moisture sensor to conductive elements of one or more moisture sensor attachments; and an enclosure surrounding the moisture sensor and loT communication interface and/or radio, the enclosure having one or more connection elements formed thereon to fixedly couple one or more moisture sensor attachments to the enclosure, thereby electrically coupling the set of pins, pads, and/or probes of the moisture sensor to the conductive elements of the moisture sensor attachments.
    • 对于湿度传感器描述了一种装置和方法。 例如,loT设备的一个实施例包括:物联网(loT)设备,包括:水分传感器,用于检测湿度水平; 用于将所述loT设备无线地连接到网络的loT通信接口和/或无线电; 一组引脚,焊盘和/或探针,以将湿度传感器电耦合到一个或多个水分传感器附件的导电元件; 以及围绕湿度传感器和loT通信接口和/或无线电的外壳,所述外壳具有形成在其上的一个或多个连接元件,以将一个或多个湿度传感器附件固定地耦合到外壳,从而将所述一组引脚,焊盘和 /或湿度传感器的探头到湿度传感器附件的导电元件。
    • 6. 发明申请
    • SYSTEMS, METHODS, AND DEVICES FOR WIRELESS IRRIGATION CONTROL
    • 用于无线灌溉控制的系统,方法和设备
    • WO2016112136A2
    • 2016-07-14
    • PCT/US2016012388
    • 2016-01-06
    • SKYDROP HOLDINGS LLC
    • ROMNEY MATTHEINER JOSHENDRIZZI CLARK
    • A01G25/16G05B19/042
    • A01G25/16A01G25/167G05B19/042G05B2219/2625
    • The disclosure extends to apparatuses, methods, systems, and computer program products for optimizing water usage in irrigation. The disclosure also extends to apparatuses, methods, systems, and computer program implemented products for regulating the use of water over a computer network by generating irrigation protocols and sending those protocols wirelessly over the computer network. An irrigation controller includes a first radio, a control unit, and a second radio. The first radio is configured to wirelessly communicate with a wireless node to receive irrigation data for a location or an account corresponding to the irrigation controller. The control unit is configured to issue instructions to control flow of water through an irrigation system based on the irrigation data received via the first radio. The second radio is configured to communicate wirelessly with one or more remote irrigation adapters or sensors, wherein the second radio is configured for long range communication.
    • 本公开扩展到用于优化灌溉中的用水量的设备,方法,系统和计算机程序产品。 本公开还扩展到用于通过产生灌溉协议并通过计算机网络无线地发送那些协议来调节计算机网络上的水的使用的设备,方法,系统和计算机程序实现的产品。 灌溉控制器包括第一收音机,控制单元和第二收音机。 第一无线电被配置为与无线节点无线通信以接收与灌溉控制器相对应的位置或帐户的灌溉数据。 控制单元被配置为基于经由第一无线电装置接收的灌溉数据发布指令以控制通过灌溉系统的水流。 第二无线电被配置为与一个或多个远程灌溉适配器或传感器无线通信,其中第二无线电被配置用于长距离通信。
    • 7. 发明申请
    • TENSIOMETER FOR DETERMINING MOISTURE LEVELS FOR FIELD OR LANDSCAPE IRRIGATION
    • 用于确定田间或景观灌溉水分含量的测量仪
    • WO2016059629A2
    • 2016-04-21
    • PCT/IL2015/051013
    • 2015-10-11
    • KOROL, Oleg
    • VEITSMAN, George
    • G01N11/10
    • A01G25/167
    • A water-filled tensiometer designed to produce more accurate readings and reduced manual maintenance by means of; limiting water evaporation and dissolved air release from surface of the water inside the tensiometer achieved by the use of a floating barrier on said surface of the water and also by means of preventing the underground part of the tensiometer from heating up above the temperature of the surrounding soil. Said barrier can be in the form of a floating oil layer or a layer of floating granules or a solid float slidably fitting into the inner chamber of the tensiometer. The heat transfer prevention from the above ground to tensiometer's under ground part is accomplished by using a ring insert connecting the above ground part of the tensiometer with the underground part of the tensiometer, with said ring featuring very low heat conductivity or having the entire underground part of tensiometer made of low heat conductivity material(s).
    • 一种充满水的张力计,旨在产生更准确的读数,并通过以下方式减少手动维护: 通过在水面上使用浮动屏障,还可以通过防止地下部分的张力计升温到周围温度以上,从而限制水分蒸发和释放张力仪内水面的溶解空气 泥。 所述阻挡层可以是浮动油层或浮动颗粒层或固定浮子的形式,其可滑动地装配到张力计的内腔中。 通过使用将张力计的上述地面部分与张力计的地下部分连接的环形插入件来实现从地面到张力计的地下部分的传热防止,所述环具有非常低的导热性或具有整个地下部分 的低导热材料制成的张力计。
    • 10. 发明申请
    • DEVICE FOR MEASURING WATER POTENTIAL IN PLANT TISSUE
    • 用于测量植物组织中水势的装置
    • WO2015097699A1
    • 2015-07-02
    • PCT/IL2014/051120
    • 2014-12-23
    • SATURAS LTD
    • MERON, Moshe
    • G01N13/04A01G25/16
    • G01N33/0098A01G25/167B01D61/002B01D61/005B01D61/025B01D61/027G01N13/04G01N33/4833G01N2333/415
    • A device and a system for measuring fluid potential in a plant tissue by measuring pressure changes caused due to osmosis of the plant fluid. The measuring device includes a compartment having a ridged body configured for containing therein an osmoticum, wherein the compartment has at least one opening; at least one selective barrier such as a membrane positioned at least over the openings of the compartment; and at least one pressure sensor configured for detecting changes in pressure of fluid in the compartment. The selective barrier is located for selectively allowing water transfer between the plant fluid and the osmoticum in the compartment. The compartment is configured such that there is a direct contact between the plant fluid and the osmoticum therein via the selective barrier.
    • 一种用于通过测量由植物液体的渗透引起的压力变化来测量植物组织中的液体势的装置和系统。 测量装置包括具有被配置为容纳渗透液的脊状体的隔室,其中隔室具有至少一个开口; 至少一个选择性屏障,例如至少位于隔室开口上方的膜; 以及至少一个压力传感器,构造成用于检测隔室中的流体的压力变化。 选择性屏障位于选择性地允许植物液体和隔室中的渗透液之间的水分转移。 隔室被构造成使得植物液体和其中的渗透物经由选择性屏障直接接触。