子分类:
- A01G13/02: .植物的保护性覆盖物;{地面的覆盖物;}铺设{或去除}覆盖物的装置{覆盖材料入A01G9/1438)}
- A01G13/06: .在花园、果园或树林里产生热、烟或雾的装置,例如防止霜害的装置({蜜蜂熏蒸器入A01K55/00;昆虫的熏蒸器入A01M13/006;用于灭鼠的入A01M17/004}; 产生烟或雾的化学方法入C06D3/00;加热装置一般见相应的类,例如F24)
- A01G13/08: .用于空气循环的机械设备
- A01G13/10: .防止动物、鸟类或其他有害动物的装置{ (幼苗的保护性遮蔽物入A01G13/0243)}(诱捕入A01M23/00;{惊吓或驱赶设备入A01M29/00};农药入A01N)
- A01G2013/002: .挡风的装置
- A01G2013/004: .液体覆盖物
- A01G2013/006: .具有穿孔
- A01G2013/008: .利用麦秆
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Biological-chemical film-coating cryoprotectant for plants | US893574 | 1992-06-04 | US5252118A | 1993-10-12 | Paul W. Brown |
| The present invention relates to a method for producing a cryoprotectant for plants. The method for producing a cryoprotectant for plants includes the steps of, mixing citrus pectin in boiling distilled water, cooling the solution of the mixing step, diluting phosphoric acid (H.sub.3 PO.sub.4) in distilled water, mixing the solution of the cooling step with the solution of the diluting step, reacting the solution of the mixing step, combining calcium phosphate (CaH(PO.sub.4) with the solution of the reacting step, and adding calcium hydroxide to the solution of the combining step mixing and adding a nutrient solution to complete the formulation of the cryoprotectant. | ||||||
| 42 | Planting structure and method of planting seeds | US40576064 | 1964-10-22 | US3331155A | 1967-07-18 | CHANCELLOR WILLIAM J |
| 43 | Process of conditioning plants and product | US22537262 | 1962-09-21 | US3171231A | 1965-03-02 | FORREST THOMAS W W |
| 44 | Wrapping device | US35293453 | 1953-05-04 | US2707845A | 1955-05-10 | KUBACKI LOUIS E |
| 45 | Means for treating plants for disease known as pineapple wilt or lahaina | US39296220 | 1920-06-30 | US1449606A | 1923-03-27 | HORNER JR ALBERT |
| 46 | VERPACKUNGSELEMENT, INSBESONDERE FÜR SCHNITTBLUMEN UND BLUMEN IN TÖPFEN | EP16001201.9 | 2016-05-27 | EP3098183A1 | 2016-11-30 | JAHN, Klaus |
Die Erfindung betrifft ein Verpackungselement umfassend ein trapezförmiges Vorderteil (1) und ein trapezförmiges Rückenteil (2), wobei Vorderteil (1) und Rückenteil (2) jeweils ein erstes Paar von zwei einander gegenüberliegenden parallelen Grundseiten (1a, 1b, 2a, 2b) und ein zweites Paar von zwei je an beide Grundseiten (1a, 1b, 2a, 2b) angrenzenden nicht parallelen Schenkel (1c, 2c) aufweisen und wobei Vorderteil (2) und Rückenteil (1) im Bereich ihrer Schenkel miteinander verbunden sind, bevorzugt im Randbereich ihrer jeweiligen übereinanderliegenden Schenkel (1 c) miteinander derart verbunden sind, dass eine zum Rückenteil (1) weisende innere Randfläche des Vorderteils (2) verklebt ist mit einer zum Vorteil (2) weisenden inneren Randfläche des Rückenteils (1) und wobei zwischen Vorderteil (2) und Rückenteil (1) durch Beabstandung der Teile voneinander ein Bereich zur Aufnahme einer Ware, insbesondere konischen Ware, bevorzugt eines Blumentopfes oder Blumenstraußes ausbildbar ist, wofür zumindest zwischen den oben angeordneten langen Grundseiten eine Öffnung ausgebildet ist, wobei am Vorderteil (1) oberhalb einer zwischen den Schenkeln (1 c, 2c), bevorzugt parallel zu den Grundseiten (1a, 1 b) des Vorderteiles (1) verlaufenden, im Vorderteil (1) angeordneten Schwächungslinie (3) eine Handhabe (4), insbesondere eine manuell ergreifbare Lasche (4) befestigt ist, mittels der ein oberhalb der Schwächungslinie (3) liegender Bereich (1d) des Vorderteiles (1) vom unterhalb der Schwächungslinie (3) liegender Bereich (1e) des Vorderteiles (1) trennbar ist.
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| 47 | System and method for coating plant seedlings | EP13191010.1 | 2013-10-31 | EP2868194A1 | 2015-05-06 | Wirth, Silvio |
A system for coating at least a portion of a plant seedling stem with a coating substance, comprising a plurality of spaced apart containers (30) for the coating substance, wherein the system comprises an industrial robot (10) with an end effector (11) comprising a support (21) with a plurality of spaced apart grippers (22) for gripping a plurality of spaced apart plant seedlings (29). The system further comprises a seedling stem aligning device (23) for positioning the seedling stems to be gripped in a common plane. The end effector (11) with the grippers (22) is movable between a picking position, a coating position and a discharge position. Disclosed is also a method for performing such coating.
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| 48 | PLANT CRYOPROTECTANT COMPOSITIONS AND METHODS OF USE | EP08771280 | 2008-06-17 | EP2157848A4 | 2013-11-06 | FRANCKO DAVID A; WILSON KENNETH G; LI QUINN; EQUIZA ALEJANDRA |
| 49 | DEVICE FOR SUPPORT OF A PLANT, OBJECT OR SHEET MATERIAL | EP10807565.6 | 2010-11-10 | EP2498592A2 | 2012-09-19 | Morgan, Wayne |
| A device (2) for securely anchoring a plant protection structure is provided wherein a support system includes an anchoring post and a support section. The anchoring post presents a post section and an anchor section (16), wherein each anchor section is configured to angle away from the longitudinal axis as the anchoring post receives a force that drives the anchor section into the ground. The anchoring post is topped by a support module that may include one or more arms (28A-28D) that support and/or help protect at least a portion of a plant or object. The arms are configurable to enable the device to help secure or protect plants or objects in a variety of embodiments as best suited to the needs of the object. The anchoring post may include solid or hollow continuous elongate elements (4A, 4B) that form both the post section and the anchor section. | ||||||
| 50 | METHOD FOR ENHANCED SUPERCOOLING OF PLANTS TO PROVIDE FROST PROTECTION | EP00961804.2 | 2000-09-12 | EP1235479A1 | 2002-09-04 | GLENN, David, Michael; WISNIEWSKI, Michael; PUTERKA, Gary J.; SEKUTOWSKI, Dennis |
| In one embodiment, the present invention relates to a method for enhancing supercooling of a plant to temperatures below about -2° C., involving preventing the formation of ice crystals adjacent the plant by forming a substantially continuous hydrophobic membrane of particulate materials on portions of the plant capable of supporting droplets of water, the particulate material having a particle size distribution wherein up to about 90% by weight of the particles have a particle size of about 100 mum or less, and the substantially continuous hydrophobic membrane has a thickness from about 1 mum to about 1,000 mum. | ||||||
| 51 | DETOXIFICATION OF SOIL | EP91915298.3 | 1991-08-21 | EP0544759B1 | 1997-07-30 | YAMASHITA, Thomas T. |
| Compositions for and method of degrading organic chemicals in soil. The composition is a nutrient medium serving as a substrate for microorganisms in the soil, preferably containing a major proportion of a source of carbon skeleton and energy, a macronutrient component preferably including nitrogen and other macronutrients, and a micronutrient component, preferably also a complexing agent and a vitamin/co-factor component. This nutrient material is added to soil, e.g. soil contaminated by a pesticide, to cause proliferation of microorganisms which are effective, or which develop effectiveness to degrade the organic chemicals. Preferably the microorganisms are those naturally present in the soil but useful microorganisms may be added with the nutrient medium. | ||||||
| 52 | DETOXIFICATION OF SOIL | EP91915298 | 1991-08-21 | EP0544759A4 | 1994-06-01 | YAMASHITA THOMAS T |
| Compositions for and method of degrading organic chemicals in soil. The composition is a nutrient medium serving as a substrate for microorganisms in the soil, preferably containing a major proportion of a source of carbon skeleton and energy, a macronutrient component preferably including nitrogen and other macronutrients, and a micronutrient component, preferably also a complexing agent and a vitamin/co-factor component. This nutrient material is added to soil, e.g. soil contaminated by a pesticide, to cause proliferation of microorganisms which are effective, or which develop effectiveness to degrade the organic chemicals. Preferably the microorganisms are those naturally present in the soil but useful microorganisms may be added with the nutrient medium. | ||||||
| 53 | DETOXIFICATION OF SOIL | EP91915298.0 | 1991-08-21 | EP0544759A1 | 1993-06-09 | YAMASHITA, Thomas T. |
| Compositions et procédés permettant d'éliminer des produits chimiques organiques se trouvant dans le sol. La composition constitue une milieu nutritif servant de substrat pour des micro-organismes se trouvant dans le sol, ladite composition étant constituée de préférence, en majeure partie, d'une source de squelette carboné et d'énergie, d'un composant macronutritif contenant de préférence de l'azote et d'autres macronutritifs, d'un composant micronutritif, et, de préférence, également d'un agent complexant et d'un composant vitaminé/cofacteur. Cette matière nutritive est introduite dans le sol, par exemple un sol contaminé par un pesticide, afin d'entraîner la prolifération de micro-organismes efficaces ou développant une efficacité pour éliminer les produits chimiques organiques. Lesdits micro-organismes sont des micro-organismes naturellement présents dans le sol mais on peut ajouter des micro-organismes utiles avec le milieu nutritif. | ||||||
| 54 | PROTECTION OF PLANTS AGAINST FROST INJURY USING ICE NUCLEATION-INHIBITING SPECIES-SPECIFIC BACTERIOPHAGES | EP84900456.0 | 1983-12-19 | EP0128954A1 | 1984-12-27 | KOZLOFF, Lloyd, M.; SCHNELL, Russell, C. |
| On protège des plantes sensibles au gel contre les dégâts causés par le gel par une application topique de bactériophages virulants non phytotoxiques qui sont spécifiques pour l'espèce aux bactéries formant des cristaux de glace présentes normalement sur les plantes. Les bactériophages attaquent sélectivement des bactéries formant des cristaux de glace et inhibent leur activité de formation de cristaux de glace, abaissant de la sorte la température à laquelle surviennent des dégâts causés par le gel. | ||||||
| 55 | PROTECTION OF PLANTS AGAINST FROST INJURY. | EP82902765 | 1982-08-09 | EP0085707A4 | 1984-10-29 | KOZLOFF LLOYD M; SCHNELL RUSSELL C |
| 56 | Automated wide-ranging (large-scale) anti-hail protection method and a network | US15350531 | 2016-11-14 | US10130049B2 | 2018-11-20 | Artashes Arakelyan |
| The present invention relates to hail warning and prevention.An automated method of wide-ranging anti-hail protection including reception of sky proper radiothermal emission in M sites, its comparison with corresponding thresholds, generation command signals to detonate combustible gas and to direct shock waves upwardly to the sky, generation and transmission alert signals, reception of transmitted alert signals in each M sites, comparison with proper code-signals of that site and setting alert operational mode of sonic generator.An automated network of anti-hail protection including M hail preventing sonic set in M sites of anti-hail protection area any of which comprises an antenna, a radiometric receiver, a controlled compensation device, a controlled multi-channel threshold system, a warner a transmitter, a receiver, a code-signal comparison device, a first controlling switcher, a controlled single-channel thresholder and a second controlling switcher.It is enhanced operation efficiency and is automated exploitation of an anti-hail protection network. | ||||||
| 57 | PLANTING SYSTEM FOR OPTIMIZATION OF PLANT GROWTH | US15808629 | 2017-11-09 | US20180132431A1 | 2018-05-17 | Kristopher Ryan Kaminski; Ryan Eric Martinage |
| A planting system includes a pot having a bottom floor with at least one drainage opening, a spray ring implanted in the planting medium in an upper portion of the pot and configured to inject pressurized water downwardly into the planting medium, and a grid disposed below the planting medium. The grid includes a plate spaced above the bottom floor of the pot. The plate includes apertures configured to allow roots to pass through the plate. Slats formed on the underside of the plate define a plurality of compartments configured to prevent the roots from spiraling. The grid also allows oxygen to circulate under and around the roots. | ||||||
| 58 | WAXED FLOWER BULB, METHOD AND DEVICE FOR WAXING A FLOWER BULB | US15810225 | 2017-11-13 | US20180132426A1 | 2018-05-17 | Petrus Johannes Cornelus HIJDRA |
| The invention relates to a flower bulb, a method, as well as device for providing flower bulbs with a layer of sealant, such as a paraffin of wax layer, wherein the bulb is grabbed, i.e. engaged by a suction cup, which bulb is brought into immersion of sealant such that at least the seized part of the bulb remains free of sealant. The immersion device is provided with a turning mechanism wherein one or more suction cups have been included for receiving flower bulbs, which suction cups are contained in, and connected to one or more of hollow carriers, which device further comprises an air pump for evacuating the suction cups, said suction cups for this purpose are via said hollow container included in pneumatic communication with an air pump, and which compound comprises a swivel coupling for pneumatically connecting via a conduit or holder part, the hollow container with a fixed central pneumatic line connected to an air pump. | ||||||
| 59 | Packing element particularly for cut flowers and potted plants | US15168123 | 2016-05-30 | US09936648B2 | 2018-04-10 | Klaus Jahn |
| A packing element having a trapezoidal front panel (1) and trapezoidal rear panel (2), wherein the front panel (1) and the rear panel (2) each have a first pair of two opposite, parallel base edges (1a, 1b, 2a, 2b), and a second pair of nonparallel side edges (1c, 2c) bridging ends of the two base edges (1a, 1b, 2a, 2b), and wherein the front panel (2) and the rear panel (1) are connected to each other at their side edges, preferably in the edge region of their overlapping side edges (1c) such that an inner edge face of the front panel (2) facing the rear panel (1) is glued to an inner edge face of the rear panel (1) facing the front panel (2) and a space for receiving an article, preferably a conical article, preferably a flower pot or a flower bouquet, can be formed between the front panel (2) and the rear panel (1) by moving the panels away from each other, thereby forming an opening at least between the long base edges at the top, characterized in that a grab formation (4), particularly a strap (4) that can be gripped by hand, is provided on the front panel (1) above a tear line (3) provided in the front panel (1) between the side edges (1c, 2c), preferably running parallel to the base edges (1a, 1b) of the front panel (1) so that an upper region (1d) of the front panel (1) above the tear line (3) can be separated from a lower region (1e) of the front panel (1) below the tear line (3). | ||||||
| 60 | In-line modular air filtering system for ductwork | US14677255 | 2015-04-02 | US09744491B2 | 2017-08-29 | Eric A. Cordova |
| An in-line modular air filtering system for ductwork. A housing formed as a body and one or more caps has an intake opening at a first end and an outflow opening at a second end. The cap and body may attach to one another at a junction containing a seal with a stepped cross-sectional configuration. A set of retaining clamps may be used to secure the cap on the body. One or more replaceable filter assemblies may be retained in the housing for filtering air passed therethough. A filter assembly may include a seal having the stepped cross-sectional configuration for securing in the housing and sealing the cap and body junction. Filter assemblies may have differing porosities and/or different filtering mechanisms and may be stacked for applying multiple treatments. | ||||||
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