A seed and/or plant system contains a strand-shaped seed and/or plant carrier suspended on a mounting. The seed and/or plant carrier contains several seed and/or plant locations with seeds and/or plants arranged spaced apart from each other in its longitudinal extension. The seeds and/or the plants are supplied with a liquid via a supply tube. In order for the seed and/or plant locations in the seed and/or plant system to be provided at a distance from one another definable by the manufacturer of the seed and/or plant system in a simple manner, a sleeve is provided on each of the seed and/or plant locations, from which a substrate with the seed and/or the plant is received or receivable and/or which at least partially forms a substrate for the seed and/or the plant, wherein the sleeve is formed from the or around the seed and/or plant carrier.

A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.

A rollable five-device-in-one flower container and umbrella stand comprises: a container having multiple walls and a bottom, water-regulating channels formed in the bottom, two wheel wells formed in the bottom, anti-rolling claws formed in the bottom for digging into the ground on a slope to prevent the five-device-in-one flower container and umbrella stand from sliding down the slope, an umbrella-pole receiver screwed on the bottom, U-shaped and J-shaped spring clamps hooked on the umbrella-pole receiver for creating a clamping force therebetween, two wheels partially hidden in the two wheel wells, a tubular double-wall water reservoir having spiral water-distributing tubes and spiral water-regulating foams for spirally and timely discharging the water, and spiral water-circulating slides spirally welded or molded to the walls for spirally creating multiple spiral tractions, multiple spiral layers, multiple spiral travel distances for soil and water to create multiple spiral root growths and multiple spiral nutrition absorptions.

A rollable five-device-in-one flower container and umbrella stand comprises: a container having multiple walls and a bottom, water-regulating channels formed in the bottom, two wheel wells formed in the bottom, anti-rolling claws formed in the bottom for digging into the ground on a slope to prevent the five-device-in-one flower container and umbrella stand from sliding down the slope, an umbrella-pole receiver screwed on the bottom, U-shaped and J-shaped spring clamps hooked on the umbrella-pole receiver for creating a clamping force therebetween, two wheels partially hidden in the two wheel wells, a tubular double-wall water reservoir having spiral water-distributing tubes and spiral water-regulating foams for spirally and timely discharging the water, and spiral water-circulating slides spirally welded or molded to the walls for spirally creating multiple spiral tractions, multiple spiral layers, multiple spiral travel distances for soil and water to create multiple spiral root growths and multiple spiral nutrition absorptions.

A free-standing vertical structure is described including at least one wall structure having a plurality of live plants removably secured thereto. The wall structures may also include non-botanic media in combination with the plurality of plants such as traditional media, to form a new mixed media format for conveying information, herein referred to as botanic media. The plurality of plants may be configured to surround the non-botanic media to create a frame or border. The plants may also be arranged and configured to display information themselves. The non-botanic media and/or plants are configured on the wall structure to convey information readily perceivable by a passerby. The plants are preferably hydroponically-fed with nutrients and water from an irrigation system.

The present invention relates to an apparatus for mass cultivation of plants, which enables plants to be cultivated in the entire area of a greenhouse when the plants are cultivated in the greenhouse, thus enabling mass production of plants. The apparatus for mass cultivation of plants according to one embodiment of the present invention, comprises: a driving means installed in the truss, which horizontally crosses the upper portion of the greenhouse; a movable member arranged below the truss such that the moving direction of the movable member changes according to the driving direction of the driving means; multiple elevating members arranged at predetermined spaces beneath the truss such that a right part of the elevating member descends when a left part of the elevating member ascends and the right part of the elevating member ascends when the left part of the elevating member descends according to the moving direction of the movable member; and multiple cultivation gutters hanging from the respective left ends and right ends of the elevating members.

The present invention relates to an apparatus for mass cultivation of plants, which enables plants to be cultivated in the entire area of a greenhouse when the plants are cultivated in the greenhouse, thus enabling mass production of plants. The apparatus for mass cultivation of plants according to one embodiment of the present invention, comprises: a driving means installed in the truss, which horizontally crosses the upper portion of the greenhouse; a movable member arranged below the truss such that the moving direction of the movable member changes according to the driving direction of the driving means; multiple elevating members arranged at predetermined spaces beneath the truss such that a right part of the elevating member descends when a left part of the elevating member ascends and the right part of the elevating member ascends when the left part of the elevating member descends according to the moving direction of the movable member; and multiple cultivation gutters hanging from the respective left ends and right ends of the elevating members.

A window planter includes a first compartment including a first sidewall and a second sidewall. The first compartment is configured to house a first group of plants. A second compartment is slidably coupled to the first compartment. The first compartment includes a first outer sidewall. The second compartment is configured to house a second group of plants separated from the first group of plants by the first sidewall of the first compartment. A third compartment is slidably coupled to the first compartment. The third compartment includes a second outer sidewall. The third compartment is configured to house a third group of plants separated from the first group of plants by the second sidewall. At least the first compartment and the second compartment are configured to be secured to a window frame.

A method for introducing a substance into a plant, in particular a pot plant, includes the following steps: forming a hole into a stem of the plant to get access to a transportation system of the plant; filling the hole with a substance absorbing material; and allowing the substance absorbing material to absorb substance and to subsequently deliver the substance from the substance absorbing material to the transportation system of the plant.

A method for introducing a substance into a plant, in particular a pot plant, includes the following steps: forming a hole into a stem of the plant to get access to a transportation system of the plant; filling the hole with a substance absorbing material; and allowing the substance absorbing material to absorb substance and to subsequently deliver the substance from the substance absorbing material to the transportation system of the plant.