The present invention relates to a container for propagating growth of seedlings, having a main body comprising a base, a central wall extending vertically from the base. A first wall section and a second wall section are arranged to the main body. The first wall section and the second wall section are hingeably connected to the main body. The base, the central wall, the wall sections forms in the closed condition at least two cells being open at top. The base comprises a supporting structure at the lower part of the main body, wherein the main body is provided with supporting means for holding an irrigation mat. The present invention also relates to a tray designed for receive and carry one or more of said containers, a greenhouse including the tray and one or more of the mentioned containers, and a method for propagating growth of seedlings.

A plant pot 1 comprises a bounding wall 2 formed by a side wall 3 and a bottom 5 and includes a gel space 7 in which swellable gel grains 9 are accommodated filling the gel space in swollen state.

The plant pot further includes a substrate space 11 in which a substrate, for example, soil is accommodated. A bounding wall portion 2A, 2B bounds a part of the second space 11. Drainage openings 13 are located in the bottom 5 of this bounding wall portion 2B next to the gel space 7.

The first space 7 is partly bounded by a further bounding wall portion 2D, 2E of the bounding wall 2. Aeration openings 14 are located in this further bounding wall portion.

The gel grains 9 are contained in a pad which further includes a flexible separation sheet 15 which forms a root-permeable separation between the gel and soil during use.

A plant pot 1 comprises a bounding wall 2 formed by a side wall 3 and a bottom 5 and includes a gel space 7 in which swellable gel grains 9 are accommodated filling the gel space in swollen state.

The plant pot further includes a substrate space 11 in which a substrate, for example, soil is accommodated. A bounding wall portion 2A, 2B bounds a part of the second space 11. Drainage openings 13 are located in the bottom 5 of this bounding wall portion 2B next to the gel space 7.

The first space 7 is partly bounded by a further bounding wall portion 2D, 2E of the bounding wall 2. Aeration openings 14 are located in this further bounding wall portion.

The gel grains 9 are contained in a pad which further includes a flexible separation sheet 15 which forms a root-permeable separation between the gel and soil during use.

A self-watering portable greenhouse is disclosed having a tubular frame constructed of light-weight, water-tight tubular members which serves as a combined structural skeleton for external walls, a platform for plant containers, and a reservoir for liquid nutrients provided to plants in plant containers by self-watering through a wick connecting the reservoir and the plant containers.

Most of the time, the disclosed plant husbandry and food preparation apparatus encloses a garden plant, such that the plant is protected on all sides from animals. It may comprise a planter in which the plant is grown, a cage that is attached to the lip of the planter, and a dome containing apertures, which is seated atop the cage. The seated dome may be opened, while the dome is still attached to the cage, allowing the gardener to harvest produce. The opened dome is configured for use as a receptacle into which the harvested produce is deposited. The dome is also configured to be effortlessly detachable from the remainder of the apparatus, so that produce within it may be conveniently transported and rinsed. The dome may also be configured to serve as a strainer/steamer basket and as support for an auxiliary irrigation and/or animal deterrence system.

A planting container has a first basin and a second basin forming a yin-yang shape. The first basin is configured to contain soil, the second basin is configured to hold water and provided with a plastic floating board. The plastic floating board has a plurality of receiving holes with a planting basket. An inner side of the plastic floating board faces the first basin and has at least one opening allowing at least one fiber strip to pass through the opening and enter the second basin, and another end of the fiber strip passes behind the first and second basin and placed on or in the soil of the first basin.

A device and method for inserting a wick in a plant pot and retaining the wick in a desired position. A wick retainer is provided. This device very generally resembles a large nail, having a head at its first end and an elongated column extending therefrom. The far end of the column opens into a retention notch configured to secure a wick at any point along its length. A unidirectional latch is located proximate the head. The head also contains one or more receivers configured to retain the free ends of the wick.

An irrigation system comprises one or more waterlines coupled to one or more watering mechanisms for watering one or more areas. The watering mechanisms are fixed in place at the desired area by an adapter which removably couples the one or more watering systems in place. Water is supplied to each of the one or more watering mechanisms by traveling from the one or more waterlines and through one or more pressure compensators. The one or more pressure compensators regulate the water flow through the one or more watering mechanisms enabling the irrigation system to uniformly distribute water at a set and constant pressure value. The water is distributed by one or more valves which are used to control one or more zones of the irrigation system. In some embodiments, a controller controls the system based upon a signal received from one or more sensors of the system.

The present invention relates to a container in which one or more plants can be held. The invention relates in particular to a container in which plants and/or seeds are able to grow. The invention also relates to a method for growing plants. According to the invention, the container comprises a container base having a growth medium in which one or more plants can be grown, a container lid that is coupled to the container base, and a cutting member for cutting through the one or more plants. According to the invention, the cutting member can be actuated prior to or during an action of at least substantially breaking the coupling between the container lid and the container base.

A system, comprising: a housing comprising an elongated hollow body configured to be at least partially embedded in a soil environment adjacent a plant at a desired depth; a swellable element dimensioned to be disposed within the housing, the swellable element being configured to swell when absorbing moisture; a resiliently-compressible flexible tube configured to provide water to the soil environment, the flexible tube is laced transversely through tube openings of the housing, the flexible tube is disposed adjacent to the swellable element inside the housing such that a swelling or displacement of the swellable element compresses the flexible tube, thereby limiting or preventing water flow therethrough; and a moisture transfer adapter configured to communicate moisture along its length from a desired location within the soil environment to the swellable element, as well as methods of using the system.