WO2022070182A1 - Kit de treillage modulaire pour un dispositif de plantation - Google Patents

Kit de treillage modulaire pour un dispositif de plantation Download PDF

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Publication number
WO2022070182A1
WO2022070182A1 PCT/IL2021/051167 IL2021051167W WO2022070182A1 WO 2022070182 A1 WO2022070182 A1 WO 2022070182A1 IL 2021051167 W IL2021051167 W IL 2021051167W WO 2022070182 A1 WO2022070182 A1 WO 2022070182A1
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WO
WIPO (PCT)
Prior art keywords
lattice
components
kit
ribs
trellising
Prior art date
Application number
PCT/IL2021/051167
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English (en)
Inventor
Israel Twito
Original Assignee
Israel Twito
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Israel Twito filed Critical Israel Twito
Publication of WO2022070182A1 publication Critical patent/WO2022070182A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G9/00Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
    • A01G9/12Supports for plants; Trellis for strawberries or the like
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G17/00Cultivation of hops, vines, fruit trees, or like trees
    • A01G17/04Supports for hops, vines, or trees
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G17/00Cultivation of hops, vines, fruit trees, or like trees
    • A01G17/04Supports for hops, vines, or trees
    • A01G17/06Trellis-work

Definitions

  • the various embodiments described herein generally relate to the field of means used for gardening and growing plants - pots, planters and greenhouses, especially in the field of these means intended for the household market - gardening enthusiasts as opposed to horticulturalists.
  • Trellising provides support for climbing plants in order to form them in a spatial structure that provides easy access to them, creating shade while the plant intertwines during its growth, and improves the plant's climatic conditions (protecting it from the ravages of wind and excessive heat).
  • Trellising requires the use of an auxiliary device that is mounted on the planter (or flower pot), and provides the plant support while its branches wrap around it.
  • auxiliary device that is mounted on the planter (or flower pot), and provides the plant support while its branches wrap around it.
  • devices such as fixed netting or spread netting, support pegs and connecting clasps.
  • Such well-known devices require improvisation on the part of the grower and need to be frequently replaced according to the growth of the plant and the growers’ attempts to monitor the plant growth and adjust suitable support for it.
  • kits and embodiments are directed to a modular trellising kit for a planter (and potted plants), which upon assembly can be flexibly adjusted to the varying growth needs of the plant, comprises a relatively small number of components, involves relatively low production costs because the kit components can be manufactured by injection of a polymer raw material into molds (i.e. - mass production using a known technology), the kit can be packaged and shipped economically (as a kit comprising of relatively small and separate lightweight components), and marketable as a DIY (Do-It-Yourself) kit, since its assembly for a trellising device does not require special professional skills, and it is simple, quick and can be done at the site of the planter or flower pot, by the hobbyist gardener.
  • a modular trellising kit for a planter comprises a plurality of longitudinal multi-ribbed lattice components spanning from one (first) end, which once the kit is assembled face the growth substrate in the planter, to the other (second) end, which face far from the growth substrate in the planter, once the kit is assembled.
  • Each of the lattice components is formed at the first end with an array of multiple anchoring or connecting ribs that protrude from it and are adapted to be staked into the growth substrate of a planter as a means of anchoring the kit to the substrate or for use as the male elements in a male/female type of connector for connecting one lattice component to the other in a column, one on top of the other.
  • Each of the lattice components is formed along its longitudinal ribs with an array of brackets that protrude from it and are adapted for use as the female element in a male/female type of connector for connecting one lattice component to the other in a column, one on top of the other.
  • Each of the lattice components is formed at the second end with transverse ribs that connect between the longitudinal ribs, while they are formed with ends that protrude from both sides of the longitudinal ribs that they connect.
  • the kit according to the invention also comprise a plurality of spread bushing components that are formed with a pair of openings that are adapted to contain the protruding ends of transverse ribs of two lattice components in creating an angle between the two lattice components to form a bipod configuration, and with a bracket opening that is fitted for use as the female element in a male/female type of connector for connecting lattice components in a column above the two lattice components included in the pair of openings, while creating an angle between them to form a bipod configuration.
  • each of the lattice components is additionally formed along the longitudinal ribs, with openings arrays, and in addition, the kit comprises a plurality of interim step elements, each of which is formed with protrusions that are adapted to connect with the openings in male/female type of connectors for providing additional transverse connection between the longitudinal ribs of the lattice components.
  • each of the transverse ribs that connect between the longitudinal ribs, while they are formed with ends that protrude from both sides of the longitudinal ribs they connect are each formed at one protruding end with a protrusion and at the other protruding end with an opening, and the protrusion and opening are adapted to serve as male and female elements in a connector
  • each of the lattice components is also formed with a removable rib that bridges between the longitudinal ribs that one transverse rib connects and the longitudinal ribs that a second transverse rib connects, in a way that allows (upon removal of the rib) for splitting the lattice in two.
  • a modular trellising kit for a planter according to the invention is embodied in a trellising device that is assembled from the kit components (all or some).
  • Fig. 1 depicts in a perspective view an exemplary trellising device that comprises components of a modular trellising kit according to the invention, when mounted (assembled) in a planter.
  • Fig. 2 depicts a perspective view of the trellising device illustrated in Fig. 1, wherein it consists of the components of a modular trellising kit according to the invention, before it is mounted in a planter.
  • Fig. 3 depicts an “exploded” perspective view of components of the modular trellising kit according to the invention that serve for mounting the trellising device illustrated in Figs. 1 and
  • Figs. 4 and 4a depict perspective views from two different angles of a multi-ribbed lattice component, several of which are in the modular trellising kit according to the invention.
  • Fig. 5 depicts a perspective view of a multi-ribbed lattice component and of interim- step components that are adapted for mounting on it, several of which are included in the modular trellising kit illustrated in Fig. 3.
  • Fig. 6 depicts a perspective view of a multi-ribbed lattice component with interim- step components mounted on it, several of which are included in the modular trellising kit illustrated in Fig. 3.
  • Fig. 7 depicts in a perspective and close-up view the mode of forming the trellising device in a bipod configuration at the bottom, as illustrated in Figs. 1 and 2, by mounting it with spread bushing components.
  • Figs. 8 and 8a depict a spread bushing component in a perspective view, from two different angles, several like it are included in the modular trellising kit whose components are illustrated in Fig. 3.
  • Fig. 9 depicts in a side- sectional view (cross- section a-a- in Fig. 2) and in close-up, the mode of forming the trellising device in a bipod configuration at the bottom, as illustrated in Figs. 1- 2, by mounting it with spread bushing components.
  • Fig. 10 depicts in a side- sectional view (cross-section b- in Fig. 2) and close-up view the mode of mounting a lattice component to form a bipod configuration of the trellising device, as illustrated in Figs. 1-2, by means of spread bushing components.
  • Fig. 11 depicts in a perspective and close-up view the mode of mounting two lattice components (several like them are included in the modular trellising kit whose components are illustrated in Fig. 3), to each other, in a column, one on top of the other.
  • Fig. 12 depicts in a perspective view another embodiment of a trellising device assembled from the components of the modular trellising kit that is illustrated in Fig. 3 (an embodiment that leans the device against a wall).
  • Fig. 13 depicts in a perspective view another embodiment of a trellising device assembled from the components of the modular trellising kit illustrated in Fig. 3 (a three-dimensional embodiment (volumetric)).
  • Fig. 14 depicts in a perspective view the separation of a lattice component into two separate elements, as a preliminary step that is required before forming the trellising device illustrated in Fig. 13.
  • kits for planters (and potted plants), which can be flexibly adapted to the varying growth needs of the plant, comprises a relatively small number of components, involves relatively low production costs because the kit components can be manufactured by injection of a polymer raw material into molds (i.e. - mass production by a known technology), the kit can be packaged and shipped economically (as a kit consisting of relatively compact and separate lightweight components), and marketable as a DIY (Do-It- Yourself) kit, since its assembly into a trellising device does not require special professional skills, and it is simple, quick and can be done at the site of the planter or flower pot, by the hobbyist gardener.
  • FIG. 1 shows in a perspective view an exemplary trellising device 5 that is comprised of components of modular trellising kit 10 according to the invention, when mounted (assembled) in planter 15 (illustrated with segmented lines).
  • Fig. 2 shows a perspective view of trellising device 5 when assembled (before mounting in the planter).
  • Fig. 3 depicts an “exploded” perspective view of components of modular trellising kit 10.
  • modular trellising kit 10 comprises four lattice components 20.
  • Eattice component 20 is formed as a lattice with a plurality of longitudinal ribs 25 - four according to the illustrated example of the lattice.
  • Each longitudinal rib 25 spans from one (first) end 30 of the lattice, which once the kit is assembled faces planter growth substrate 15, to the other (second) end 35 of the lattice, which once the kit is assembled is at a distance from planter growth substrate 15.
  • Kit 10 additionally comprises four spread bushing components.
  • assembling trellising device 5 with spread bushings 70 enables creating an angle between two lattice components 20 to form trellising device 5 with a bipod configuration at the bottom (see in Figs. 1 and 2 - the bipod-like configuration has two legs, each of which is lattice component 20, with an a angle between them).
  • kit 10 additionally comprises twelve interim-step components 90, which as to be elaborated below (in reference to Figs. 5 - 6), are adapted to connect with lattice components 20 in male/female type of connectors in order to create additional transverse connections between longitudinal ribs 25 of lattice component 20.
  • FIGs. 4 and 4a depict perspective views taken from two different angles of lattice component 20 that is multi-ribbed 25, wherein, as stated, according to the illustrated example in Figs. 1-3, four like it are found in modular trellising kit 10.
  • lattice component 20 is formed in a flat configuration with each of ribs 25 formed in a typical rectangular cross-sectional configuration. Also according to the illustrated example, each of ribs 25 is formed on one side with a pair of longitudinal stiffening ribs 26 (forming the rib cross-section into a U-shaped configuration).
  • a lattice component in a kit according to the invention does not have to be in a flat configuration or in a rectangular cross-section configuration and without stiffening ribs.
  • Each of lattice components 20 is formed at one (first) end 30 with multi-ribbed array 40.
  • multi-ribbed array 40 comprises four ribs 45, which are formed parallel to each other and spaced apart. Ribs 45 form an integral part of longitudinal ribs 25 and are formed to protrude from lattice 20. Each of ribs 45 is formed in a smaller width than rib 25 in a manner that forms shoulder 47 at the point of interface between them. Like ribs 25, each of ribs 45 is also formed in a flat configuration with a typical rectangular- section configuration, but a skilled person will understand that the design of ribs 45 in lattice component 20 may be formed in another configuration that does not necessarily have a flat configuration or a rectangular section configuration. The ends (tips) of ribs 45 may be formed in a pointed or rounded configuration to facilitate their use as detailed below.
  • Ribs 45 are dual-purpose. Once kit 10 is assembled, ribs 45 may be used as anchoring ribs that are adapted (see Figs. 1- 2) to be staked into planter growth substrate 15, and in this way be used as a means for anchoring trellising device 5 in a planter. Ribs 45 may also be used for a second purpose in kit 10 as connecting ribs between lattices 20, i.e. as the male elements in male/f emale type connectors that are used to connect one lattice component 20 to another in a column, one above the other (see Figs. 1-2).
  • ribs 45 can be deformed by bending in a manner that enables, as illustrated, adapting assembled trellising device 5 to the given dimensions of the planter or pot in which they are designated to serve as anchoring ribs that are staked into the growth substrate inside a planter (see Fig. 1). Moreover, this ability of shaping ribs 45 by bending them enables forming the assembled trellising device in another and different configuration than the one illustrated in Figs. 1 and 2.
  • the designated bending location in the interface area between rib 45 and rib 25
  • the bending itself can be done manually, depending on the characteristic of the raw material (e.g. a polymer material) from which the lattice is made, to complete its plastic deformation, as required.
  • Each of lattice 20 components is formed on one side, along longitudinal ribs 25, with brackets array 50 that protrude from it, and each bracket is formed with opening 52 that is adapted in its dimensions to receive rib 45 inside it.
  • each of lattice 20 components is formed with an array of four pairs of brackets 50, which are formed in alignment among them and in relation to the other pairs. Openings 53 are formed into openings 52 in a way that facilitates the manufacture of the lattice by injection molding.
  • Brackets 50 are used as the female element in male/f emale type connectors for the purpose of connecting lattice component 20 to the other in a column, one after the other. We will expand on this subject below (in reference to Fig. 11).
  • Each lattice 20 component is formed at the other (second) end 35 with transverse ribs 55, forming an integral part of the lattice.
  • Each of the 55 ribs is formed in a typical rectangular cross- section configuration.
  • each of transverse ribs 55 is formed with arcuate protrusion 56 in the area of bracket 50 (in a manner that provides additional support to the lattice component which, as stated, may be connected to the other, in a column, one after another. We will also expand on this later (in reference to Fig. 11)).
  • the design of the transverse ribs in lattice component 20 may not necessarily be in a flat configuration, nor in a rectangular cross-section configuration and without arcuate protrusions.
  • lattice component 20 is formed with two transverse ribs 55, while each of transverse ribs 55 is connected to a pair of longitudinal ribs 25.
  • Each of transverse ribs 55 is formed with ends 60 and 65, protruding from both sides of a pair of longitudinal ribs 25 with which rib 55 connects.
  • the tips of the two ends of each of transverse ribs 55 are formed one with arrowhead- shaped protrusion 67 and the other with opening 69, whereby lattice component 20 is formed with a protrusion on one side and an opening on the other.
  • Protrusion 67 and opening 69 are adapted to be used as the male and female elements in a male/female type connector. As we will expand below (in reference to Figs.
  • protrusion 67 and opening 69 take part in shaping a trellising device according to the invention once mounted (assembled) in a three- dimensional (volumetric) configuration.
  • protrusion 67 and opening 69 allow for anchoring trellising devices that were assembled from modular kits according to the invention, side by side (in tandem).
  • lattice component 20 is additionally formed along longitudinal ribs 25 with opening arrays 85.
  • each of lattice components 20 is formed along its ribs with an array of four groups of three openings 85.
  • Each group of three openings 85 is formed in alignment with each other and relative to the other, wherein, as to be expanded below (in reference to Figs. 5 - 6), openings 85 are adapted to connect with interim-step components 90 for forming additional transverse connections between longitudinal ribs 25 of lattice component 20.
  • Each lattice component 20 is formed with removable rib 68 that forms an integral part of the lattice. Rib 68 bridges between the longitudinal ribs that one transverse rib 55 connects and the longitudinal ribs that a second transverse rib 55 connects, in a manner that allows, once rib 68 is removed (e.g. by cutting), splitting lattice component 20 into two. As we will expand further on (in reference to Figs. 13 - 14), splitting the lattices enables the formation of a trellising device in a three-dimensional (volumetric) configuration.
  • Fig. 5 depicts a perspective view of lattice component 20 and a group of three interim- step components 90 that are adapted for mounting on it.
  • Fig. 6 shows a perspective view of lattice component 20 with the group of three interim- step components 90 mounted on it.
  • each lattice component 20 is additionally formed along its longitudinal ribs 25 with opening arrays 85 and kit 10, comprises in addition, interimstep components 90.
  • the interim-step component is formed as a flat rib having a typical rectangular cross-section configuration, but a skilled person will understand that interim-step components may also be formed in another configuration that does not necessarily have a flat configuration or a rectangular cross-section configuration.
  • Interim-step component 90 is formed with protrusions 92 at both of its ends. Protrusions 92 are adapted to be connected with openings 85 by insertion into the openings, and thereby create a male/female type connectors. Once interim-step components 90 are mounted, they form additional transverse connections between longitudinal ribs 25 of lattice component 20.
  • the optional mounting feature of interim-step components in the trellising device gives the user flexibility in adapting the device to the naturally dynamic growth rates of the plant the user wishes to support by means of the device. At the same time, mounting interim-step components stiffens the device structure.
  • Fig. 7 depicts in a perspective and close-up view the mode of forming trellising device 5 in a bipod configuration at the bottom by mounting it with spread bushing components 70.
  • Figs. 8 and 8a depict spread bushing component 70 in a perspective view, from two different angles, four like it are included in modular trellising kit 10.
  • Fig. 9 depicts in a side- sectional view (cross-section a-a- in Fig. 2) and in a close-up view the mode of forming trellising device 5 in a bipod configuration at the bottom by mounting it with spreading bushing components 70.
  • Fig. 10 depicts in a side- sectional view (section b-b in Fig. 2) and in close-up view the mode of mounting lattice component 20 for a bipod configuration by means of spread bushing components 70.
  • Spread bushing 70 four of which, according to the illustrated example, are included in kit 10, are formed as disk 710 with protrusion 712 on it.
  • Pair of openings 75 and 77 are formed on disk 710, each of which in an elongated opening configuration, with each tilted in relation to the other in a a angle (see also Figs. 1 and 2 - a angle).
  • the length of the openings correspond with the cross-sectional dimensions of protruding ends 60 and 65 of transverse ribs 55 (see Fig. 4).
  • Bracket opening 80 is formed in protrusion 712, wherein it extends in the direction of a bisector angle.
  • the length of bracket opening 80 corresponds with the cross-sectional dimensions of rib 45 of lattice component 20 (see Fig. 4).
  • Bracket opening 80 is adapted to be used as the female element in a male/female type connector - inserting rib 45 into bracket opening 80 until shoulder 47 (the interface between rib 45 and rib 25) comes into contact with protrusion 712 and brings about the connection of lattice component 20 above the two lattice components 20 (which, as illustrated, incorporates in the pair of openings 75 and 77 of spread bushing 70, while creating an a angle between them to form a bipod configuration).
  • Opening 714 which is formed in disk 710 in the continuation of opening 80, facilitates the forming of bushing 70 by injection molding.
  • Fig. 11 depicts in a perspective view and in close-up view the mode of mounting two lattice components 20 to each other in a column, one above the other.
  • each lattice component 20 is formed along longitudinal ribs 25 with an array of brackets 50 that protrude from it, and each are formed with opening 52 that is adapted in its dimensions to receive rib 45 inside it.
  • Brackets 50 serve as the female element in male-female connectors. Inserting rib 45 into opening 52 until it comes into contact with shoulder 47 (the interface between rib 45 and rib 25), allows for connecting lattice component 20 to the other, in a column, one after the other.
  • Fig. 12 depicts in a perspective view another embodiment of trellising device 125, which comprises components of modular trellising kit 10 (an embodiment that leans the device against wall 127).
  • Trellising devices comprising components of a modular trellising kit according to the invention may be formed in other and different configurations than the configuration of trellising device 5 (described above in reference to Figs 1 and 2).
  • the bending capability of ribs 45 in lattice components 20 may be utilized, for example and as illustrated, for adjusting the trellising device to lean against wall 127.
  • first tier 129 of the device is formed from lattice component 20, which is located above the bipod configuration of device 125 and is connected to the bipod configuration not by means of spread bushing elements, but rather by connection to brackets 50 of one of the bipod lattices, in a manner that angles the lattice to tilt towards wall 127 (a similar angular tilt can be achieved by connecting the lattice to the spread bushings and bending its ribs 45).
  • Second tier 1211 of device 125 is formed from lattice component 20, which is tilted by bending ribs 45 to extend parallel to wall 127.
  • Trellising devices which are assembled from components of a modular trellising kit according to the invention, may be formed in configurations without a bipod at the bottom (i.e. other and different configurations from the configurations of devices 5 and 125 (as described above in reference to Figures 1, 2, and 12)).
  • Fig. 13 depicts in a perspective view another embodiment of trellising device 1305, which is assembled from components of the modular trellising kit illustrated in Fig. 3 (a three-dimensional (volumetric) configuration)).
  • Fig. 14 depicts in a perspective view the separation of lattice component 20 into two discrete components - 20 'and 20 ", and this is a requisite preliminary step before forming trellising device 1035.
  • each lattice component 20 upon removing rib 68 that bridges between longitudinal ribs 25 that connect one transverse rib 55 and the longitudinal ribs that connect a second transverse rib 55 in two lattice components 20, enabling each lattice component 20 to be split (divided) in two (20 'and 20 ") and to form (as illustrated) trellising device 1305, which has a three-dimensional (volumetric) square- section configuration, while half of lattice component 20 (that was split) makes up one of its sides.
  • the sides of trellising device 1305 are connected to each other by male/female type connectors created between protrusions 67 and openings 69, which we have pointed to above in reference to Fig. 4.
  • trellising devices may be formed using components of a modular trellising kit according to the invention.
  • lattice component 20 that was not split
  • additional tiers of split lattices 20 on top of the illustrated split lattices or on top of undivided lattices
  • lattice component 20 that was not split
  • An array of a plurality of trellising devices could be formed from the components of a plurality of modular trellising kits according to the invention, with the devices anchored side by side (in tandem) (in connecting them to each other by means of male/female type connectors between protrusions 67 and openings 69, as indicated above in reference to Fig. 4.
  • a modular kit according to the invention may comprise different and other pluralities of lattice components, spread bushings and interim- steps, and not necessarily the numbers of components as depicted in Fig. 3.
  • the lattice components, spread bushings and interim steps may be formed in other and different configurations from those described above in reference to the accompanying figures (e.g. in terms of the plurality of ribs in the lattice components, their relative location and direction, the cross-section configuration of the lattice ribs (not necessarily rectangular), the number of connectors and their type (e.g. snap-fit connectors and not necessarily just male/female type of connectors).
  • this is a modular trellising kit for planters (and for pot plants), which provide for trellising devices that can be flexibly adjusted to the annual growing needs of the plant (including - by way of forming it in three-dimensional (volumetric) configurations, adding interim steps, and elevating it as needed (adding lattices)).
  • a kit that comprises a relatively small number of types of components (lattices, spread bushings and optionally also interim steps).
  • kits that can be packaged and shipped economically (as a kit of lightweight components, separated from each other, that are relatively compact).
  • a kit where the assembly of its components into an entire trellising device does not require special technical skills on the part of the user (as these are elementary steps of threading, insertion bending, and cutting that can be easily learned by referring to a rather simple assembly instructions page).
  • a modular trellising kit for planter according to the invention appropriately meets the demand described above in the background to the invention chapter for DIY kits that will enable trellising of growing decorative plants, spices and vegetables by oneself.
  • a modular trellising kit according to the invention embodies a design scalable for mass production, with a minimum of components, relatively inexpensive, and utilizes existing and proven technologies (e.g. mass production of plastic injection molding components).
  • a modular trellising kit for planter also enables packaging, shipping, storage and marketing a compact kit (as a dismounted kit) and its simple and quick assembly on-site by the end customer on the balcony of his apartment in a residential high-rise or in the yard of a single-story home (and does not require technicians or other professionals).

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  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Botany (AREA)
  • Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)

Abstract

La présente invention concerne un kit de treillage modulaire pour un dispositif de plantation qui comprend une pluralité de composants de treillis à multiples nervures longitudinales, chacun formé d'une rangée de multiples nervures d'ancrage adaptées pour le piquetage dans le substrat de croissance d'un dispositif de plantation ou pour l'utilisation comme éléments mâles dans un connecteur de type mâle/femelle pour la connexion d'un composant de treillis à l'autre dans une colonne, l'un au-dessus de l'autre ; et avec une rangée de crochets adaptée pour l'utilisation comme élément femelle dans le connecteur de type mâle/femelle pour la connexion d'un composant de treillis, et avec des nervures transversales qui se connectent entre les nervures longitudinales, et une pluralité de bagues d'écartement qui sont adaptées pour contenir les extrémités faisant saillie des nervures transversales en créant un angle entre deux composants de treillis pour former une configuration de bipode.
PCT/IL2021/051167 2020-09-29 2021-09-26 Kit de treillage modulaire pour un dispositif de plantation WO2022070182A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
IL277674A IL277674B2 (en) 2020-09-29 2020-09-29 Dahlia modular planter kit
IL277674 2020-09-29

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WO2022070182A1 true WO2022070182A1 (fr) 2022-04-07

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6378245B1 (en) * 2000-11-14 2002-04-30 James Lee Summers Versatile trellis kit
US20160324081A1 (en) * 2015-05-04 2016-11-10 Russell A. Johnson Plant support apparatus and related methods
US10085389B1 (en) * 2016-05-03 2018-10-02 Brenda Banaszek Modular plant support system
US20190059240A1 (en) * 2017-08-31 2019-02-28 JAK Projects, LLC Modular plant growth tray and support fencing assembly and method for supporting plant extremities during growth

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6378245B1 (en) * 2000-11-14 2002-04-30 James Lee Summers Versatile trellis kit
US20160324081A1 (en) * 2015-05-04 2016-11-10 Russell A. Johnson Plant support apparatus and related methods
US10085389B1 (en) * 2016-05-03 2018-10-02 Brenda Banaszek Modular plant support system
US20190059240A1 (en) * 2017-08-31 2019-02-28 JAK Projects, LLC Modular plant growth tray and support fencing assembly and method for supporting plant extremities during growth

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IL277674B2 (en) 2024-05-01
IL277674A (en) 2022-04-01

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