| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 一种防霜冻烟雾发生装置 | CN201510496589.3 | 2015-08-07 | CN105052638A | 2015-11-18 | 马海俊; 孙克智 |
| 本发明公开了一种防霜冻烟雾发生装置,包括放置有发烟燃料的桶体、桶盖、点火器;桶盖套接在烟雾器桶体的出口处,控制器安装在烟雾器桶体的外,还包括控制器、支架、电机,控制器与点火器电连接,所述桶体上设有凹腔,电机的输出轴伸入到桶体上的凹腔中与桶体固定为一体,支架上设有环形的让位孔,所述控制器通过导线或红外信号与电机电性连接。本发明不但在霜冻到来时能有效的减少土壤热辐射的散失,而且还可以使烟雾的利用率获得提高。 | ||||||
| 22 | 一种电子保温被装置 | CN201310690097.9 | 2013-12-16 | CN104705126A | 2015-06-17 | 陶小玉 |
| 本发明一种电子保温被装置,其特征在于它包括:塑料袋体(1)、电热丝(2)、温度探测器装置(3)、电源插头(4)。把本发明一种电子保温被装置套在花盆上,电源插头(4)接家庭电源把温度控制器(5)调到合适温度,当温度探测器(6)测到塑料袋体(1)里面的温度低于设定的温度时,温度控制器(5)会停止供电,当温度探测器(6)测到塑料袋体(1)里面的温度高于设定的温度时,温度控制器(5)会启动电源供电。这样就保证了种植的花草过上一个温暖的冬季,提高了种花在冬季的成活率。采用上述技术方案,本发明具有以下优点:本发明外观小巧,结构简单,利于推广使用。 | ||||||
| 23 | 蔬菜大棚驱赶蔬菜虫的方法 | CN201410644082.3 | 2014-11-14 | CN104429737A | 2015-03-25 | 邓兵 |
| 本发明提供一种蔬菜大棚驱赶蔬菜虫的方法,属于蔬菜病虫害治理技术领域,驱虫方法包括以下步骤:(1)观察、记录蔬菜的种类及与蔬菜相对应的病虫;(2)选择烟熏物,烟熏物包括辣椒、孜然及植物茎秆末;(3)选择蔬菜,并在种植蔬菜的大棚内每3—7m2放一容器;(4)以大棚两端的棚门的中心连线为参照线,将容器以参照线为对称线呈多段弧线状排列在参照线的两侧;(5)在容器内将烟熏物和草墩混合、燃烧,燃烧为没有明火、只有浓烟的闷烧,燃烧时间为1—3h;(6)燃烧1—3h后,打开大棚其中一端的棚门,20—40分钟后再关上棚门。本发明,其优点是:不用接触蔬菜达到清除病虫害,对蔬菜安全,对环境无污染。 | ||||||
| 24 | JPS613452B2 - | JP920575 | 1975-01-21 | JPS613452B2 | 1986-02-01 | JAN RAN DARU; MOORISU DEYUMON; ANDORE FURUSHII; EME FUREISHU; ANDORE GUJII |
| 1488574 Installation for plant cultivation COMMISSARIAT A L'ENERGIE ATOMIQUE 7 Jan 1975 [21 Jan 1974 23 Dec 1974] 620/75 Heading A1E An installation for heating or cooling soil for plant cultivation therein comprises an elongated, thin-walled, imperforate, flat, flexible, rubber or plastics hose 2 resting on the soil 6, and a constant-level feed-tank 3, to supply hot or cold water 8 to hose 2. The hose 2 is either a single large flattened tube, which may have its walls fused here and there, and may have openings 10, with welded sides, through which plants grow so as to be simultaneously heated and mulched, or may have a hollow bead 52, Fig. 9, for trapping released gas, or the hose may comprise several smaller parallel ducts, Fig. 8. Several hoses may be arranged in parallel and are interconnected by manifolds 16, 18, the latter manifold enabling recycling of liquid 8. Hot industrial waste water or a heat pump 20 supplies water at 25‹-45‹C to feed-tank 3 which maintains a low, 10 cm., head of water. The installation may be used in greenhouses and may be used for air-conditioning to cool during the day by using a valve system to by-pass the heat-pump and to heat during the night. | ||||||
| 25 | JPS60501987A - | JP50305384 | 1984-07-25 | JPS60501987A | 1985-11-21 | |
| 26 | 植物体冷却装置 | JP2017523096 | 2016-05-20 | JPWO2016199357A1 | 2017-12-21 | 石渡 正紀; 正紀 石渡; 田尾本 昭; 昭 田尾本 |
| 本発明の目的は、植物体の冷却効果を向上できる植物体冷却装置を提供することである。本発明に係る植物体冷却装置(1)はミスト発生部(10)と風供給部(20)とを備える。ミスト発生部(10)は、植物体(70)が栽培される圃場(50)の上方に配置されている。ミスト発生部(10)は、ノズル部(12)からミストを発生する。風供給部(20)は、ミスト発生部(10)から落下してくるミストに、重力方向と交差する方向の風を送る。 | ||||||
| 27 | Portable aerosol spray device which is light-driven | JP2010522989 | 2008-07-07 | JP2011502740A | 2011-01-27 | コラルッソ,ジョセフ,トマス; クラレンス ピアース,ロバート; ピエール ボッシュ−デベゼ,ウィリアム; レイ ローハイム,ジョン |
| 【課題】
【解決手段】ポータブルで光にて駆動する霧吹きシステムは、直流電源、周囲光のセンサ、光センサから受信した電気信号を評価して、「黄昏」又は「夜明け」の光状態が存在するか否かを判断する電子回路;所望の濃度の処理流体の容器;感知した光状態によって決定された適切な時間に駆動されるモータ及びポンプ、ポンプが作動したときには、何時でも処理流体を含む霧を噴霧する少なくとも1つのスプレーノズル、及び所定の間隔後にポンプをオフにし、霧吹きサイクルを停止させるタイマーを具えている。 本発明のシステムの好ましい用途は、一般に黄昏及び夜明け当たりに生じる昆虫の著しい活動期間中に殺虫剤又は防虫剤の希釈溶液を噴霧することである。 RF受信ユニットが遠隔送信器を用いて付随的に作動するものとして開示されている。 【選択図】図1 |
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| 28 | JPS50129341A - | JP920575 | 1975-01-21 | JPS50129341A | 1975-10-13 | |
| 1488574 Installation for plant cultivation COMMISSARIAT A L'ENERGIE ATOMIQUE 7 Jan 1975 [21 Jan 1974 23 Dec 1974] 620/75 Heading A1E An installation for heating or cooling soil for plant cultivation therein comprises an elongated, thin-walled, imperforate, flat, flexible, rubber or plastics hose 2 resting on the soil 6, and a constant-level feed-tank 3, to supply hot or cold water 8 to hose 2. The hose 2 is either a single large flattened tube, which may have its walls fused here and there, and may have openings 10, with welded sides, through which plants grow so as to be simultaneously heated and mulched, or may have a hollow bead 52, Fig. 9, for trapping released gas, or the hose may comprise several smaller parallel ducts, Fig. 8. Several hoses may be arranged in parallel and are interconnected by manifolds 16, 18, the latter manifold enabling recycling of liquid 8. Hot industrial waste water or a heat pump 20 supplies water at 25‹-45‹C to feed-tank 3 which maintains a low, 10 cm., head of water. The installation may be used in greenhouses and may be used for air-conditioning to cool during the day by using a valve system to by-pass the heat-pump and to heat during the night. | ||||||
| 29 | JPS4826520A - | JP7905572 | 1972-08-07 | JPS4826520A | 1973-04-07 | |
| 30 | Machine pour la production et la diffusion d'air chaud dans les cultures en plein champ | EP14152084.1 | 2014-01-22 | EP2898767B1 | 2016-12-21 | Magnetto, Patrice |
| 31 | Machine pour la production et la diffusion d'air chaud dans les cultures en plein champ | EP14152084.1 | 2014-01-22 | EP2898767A1 | 2015-07-29 | Magnetto, Patrice |
Machine pour la production et la diffusion de flux d'air chaud dans les cultures agricoles en plein champ comprend au moins une soufflante (2) associée à un échangeur thermique (3) intégrant au moins une source de chaleur (4). La soufflante, disposée en aval de l'échangeur de chaleur à pour but d'une part à forcer le passage d'un flux d'air à chauffer au travers de l'échangeur (3) et d'autre par à délivrer un flux d'air chaud aux plantations à protéger du gel. La machine est remarquable en ce qu'une partie du flux d'air chaud délivré par la soufflante (2) est prélevé et est utilisé en tant qu'air comburant pour l'alimentation d'un bruleur (5) que comporte la source de chaleur (4).
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| 32 | Method and apparatus for frost control in agriculture and fruit production | EP97120681.8 | 1997-11-26 | EP0845204A2 | 1998-06-03 | Lazo Barra, Florencio |
A method to produce heating for use in agriculture uses a stream of hot air produced by a centrifugal ventilator fan. Heat exits or air vents are used to discharge the air. Mobility is provided by mounting the fan to an agricultural tractor. |
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| 33 | Field heater | EP82100079 | 1982-01-08 | EP0059300A3 | 1983-02-23 | Berger, Cornelia |
| 34 | VERFAHREN UND VORRICHTUNG ZUM FROSTSCHUTZ BEI WEINREBEN | EP15752934.8 | 2015-07-23 | EP3171688A1 | 2017-05-31 | Eymann, Uli |
| The invention relates to a method for protecting vines (17) from frost, comprising the following steps: ● - providing a distributor system consisting of at least one main line (3), branch lines (5) to the vines (17) and a return line (7), ● - arranging the branch lines (5) of the distributor system around, or along, a row of vines (17), wherein the distributor system, depending on the meteorological conditions, is supplied, at least temporarily, with warm or hot water, which is directed from the main line (3), through the branch lines (5), to the return line (7) of the distributor system, wherein the branch lines (5) of the distributor system are designed such that, over their surface, heat is emitted to the ambient air. The invention also covers an apparatus for protecting vines (17) from frost. | ||||||
| 35 | LIGHT-ACTIVATED PORTABLE AEROSOL MIST SPRAYER DEVICE | EP08781431 | 2008-07-07 | EP2182793A4 | 2016-12-07 | BOESCH-DEVEZE WILLIAM PIERRE; PEARCE ROBERT CLARENCE III; COLARUSSO JOSEPH THOMAS; ROHEIM JOHN RAY |
| A portable, light-activated, mist sprayer system comprising direct current power supply, an ambient light sensor, electronic circuitry that evaluates an electrical signal received from the light sensor to determine whether a "dusk" or "dawn" light condition exists; a container of treating fluid at a desired concentration; a motor and pump that are activated at the appropriate time as determined by the sensed light condition; at least one sprayer nozzle that will dispense a mist containing the treating fluid whenever the pump is operating; and a timer that turns off the pump after a preset interval to terminate the spraying cycle. A preferred utility for the system of the invention is spraying dilute solutions of insecticide or insect repellent during the periods of significant insect activity that typically occur around dusk and dawn. An RF receiving unit is also disclosed for optional activation using a remote transmitter. | ||||||
| 36 | THERMAL PLANT TREATMENT AND A MACHINE TO APPLY THE TREATMENT | EP13767438 | 2013-03-22 | EP2827700A4 | 2015-12-02 | DAWSON ART; FISHER MARTIN |
| The invention relates to a method of impacting the fruit production of a plant or crop by applying short-duration thermal shock streams of hot air to the plant periodically to impact the flavonoid biosynthetic pathway mechanisms in a plant thereby improving its fruit. The method includes the steps of (1) passing by the plant in a row at a speed of 1-5 mph in an improved Thermal Plant Treatment (TPT) machine, (2) ejecting from the TPT machine at least one hot stream of air in the direction of the unit plant area for no more than 15 seconds per unit plant area per pass, (3) optionally measuring the thermal shock profile that the plant is subjected with thermal sensors, and (4) repeating the thermal shock profile treatment steps (1) and (2) at pre-determined regular intervals over at least a fraction of the crop year. | ||||||
| 37 | SYSTEM AND APPARATUS FOR PREVENTING FREEZING OF CROPS | EP08832861.2 | 2008-09-26 | EP2206408A2 | 2010-07-14 | FARIA, Lawrence, E.; PERROTTI, Emmanuel, J.; SAR, David, R. |
| A system for preventing freezing of crops within a volume includes a plurality of RF radiators configured to radiate RF energy into the volume. A height, a spacing, an output power, a vertical beam angle, a vertical beam width, and a horizontal beam width of each one of the plurality of RF radiators is selected to result in an average RF power density taken about three dimensions within the volume sufficient to prevent freezing of a substantial portion of the crops, and also to result in a peak-to-peak variation of RF power density taken about two dimensions in a horizontal plane within the volume and at heights below a predetermined height to be less than a predetermined percentage of an average RF power density taken about the two dimensions. | ||||||
| 38 | DISPOSITIF DE PROTECTION CONTRE LE GEL ET SES APPLICATIONS | EP06778836.4 | 2006-07-06 | EP1908157A1 | 2008-04-09 | Sekrane, Gérard |
| The invention concerns a device for protecting elements against frost comprising an adaptable multilayer band comprising at least: means for fixing on the elements, at least one protective surface layer (1) against bad weather conditions on each side of the band and between said two surface layers: a) a heating layer (3) including heating means, said heating means being distributed into modules electrically powered independently of one another, b) a structural layer (2) to provide mechanical resistance to prevent the band from being pulled off or torn. | ||||||
| 39 | Method for avoiding frost damage in crops and/or for improving the fructification at low temperatures and device applied with such a method | EP07075193.8 | 2007-03-14 | EP1834520A2 | 2007-09-19 | Polleunis, Marc Guy |
Method for avoiding frost damage in crops (35) and/or for improving the fructification at low temperatures, characterized in that it consists in periodically heating and cooling the air on the site of the crops (35) between a minimum and a maximum temperature with a minimal temperature variation of 0.2°C.
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| 40 | Heating system for a wind machine | EP00311788.4 | 2000-12-29 | EP1149525A1 | 2001-10-31 | Hill, Daryl G |
A heating system (8) for a tower mounted wind machine (10) is provided. The heating system (8) includes a burner (20) that is rotatably mounted on the tower (13), in the air stream (12) of the wind machine (10). The burner (20) receives a combustible fuel (50) conducted through a rotatable manifold (30) on the central tower (13). The wind machine (10) is a conventional type, generating the air stream (12) by the rotation of a propeller (15). The wind machine (10) is received on the top of a central tower (13). The manifold (30) also mounts to the central tower (13), proximate the wind machine (10). The manifold (30) has an inner ring (36) and an outer ring (37). The inner ring (36) mounts in a fixed position to the central tower (13), and the outer ring (37) circumferentially mounts on the inner ring (36). The outer ring (37) is rotatable relative to the inner ring (36). The inner ring (36) includes a fuel inlet (39), and the outer ring (37) includes a fuel outlet (44). The burner (20) combusts the fuel (50) that is conducted through the manifold (30) to heat the air stream (12). The outer ring (37) is cooperatively rotatable about the wind machine (10) with respect to the central tower (13) and is maintained in a synchronous position with respect to the wind machine (10). |
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