A planter may include a housing configured to house one or more growth units, which are individual positions in the planter for growing an individual plant. The planter may include one or more liquid supply lines embedded in an upper portion of the housing, and a drain line embedded in a lower portion of the housing. A drain that is configured to remove liquid from the planter and supply the removed liquid to a pump via the drain line may also be provided. An upper surface of the housing of the planter may include, for each of the one or more growth units, a through hole that passes through the upper surface of the planter housing into the inner chamber of the growth unit.

Provided are systems and methods for vertical farming that reduce the deployment cost, operational costs of human labor, and overall use of energy intensive processes, such as lighting, heating and cooling, and ventilation, while increasing crop quality and yield. This reduction is achieved through a hybrid system that alternates natural light, temperature, and ventilation sources with system-controlled lighting, temperature, and ventilation means. The system includes a germination module that allows seeds to germinal on a horizontal substrate, a growth module that provides optimal growth conditions to the germinated seed on the substrate in a vertical position, and a dosing module that controls the micronutrient mixture supplied to the growing plants.

The plant cultivation device which workability of cutting of the leaves of the plant at the base portion thereof from the root portion of the plants. The plant cultivation device includes a culture medium holding portion in a cylindrical shape, accommodating and holding a seedling culture medium, arranged in the through-holes of the fluid passage member and absorbing the culture fluid into the seedling culture medium and a leaf supporting portion formed in a cylindrical shape, arranged at an upper side of the culture medium holding portion and supporting the leaves from around the leaves which are cultivated from the seeds. The culture medium holding portion and the leaf supporting portion are formed such that a cutting tool, used for separation between the seedling culture medium and the leaves, can be insertable from outside into a bordering portion between the culture medium holding portion and the leaf supporting portion.

Disclosed herein is a hydroponic system comprising a water container, a gas pump disposed within the water container, and an air chamber disposed around the gas pump. The hydroponic system also includes an air line extending into the air chamber to drive air into the air chamber water within the water container, and an air bell disposed within the water container to capture the air from the air line, wherein the air bell maximizes the surface area of the water with the captured air. Also disclosed is a system and a method for implementing the system.

The present application relates generally to plants, and specifically to a plant wall including a frame that is configured to secure to a surface and at least one panel that is configured to secure to the frame. The plant wall also includes at least one planter configured to secure to the at least one panel and at least one emitter positioned on the at least one planter, defining a passage therethrough. The plant wall further includes a pressure barrel that is filled with water. The water is transported from the pressure barrel through at least one hose, which contains at least one connector that connects to the at least one emitter between a first end and a second end of the hose, and into the at least one planter, which contains a plant and soil. A related method of watering a plant using a pressure barrel is also described.

A plant irrigation system and method of use, wherein the system accepts a fluid and releases it over time to one or more plants. The improved design has the following modifications: The float valve has been re-located to inside the stake to allow the valve to be more stabilized. The outlet valve at the bottom of the container has been relocated so the water exits from the stake via the flexible outlet irrigation tube rather than a valve that was at the bottom of the container. The Inlet flow tubs has been relocated so that it feeds water directly into the stake as opposed to feeding it into an inlet in the container. The fluid that is released through the valves attached to the flexible outlet irrigation tube will be released with stronger pressure. The system can be fed manually or via an irrigation network capable of feeding fluid to one or more containers. Fluid flow into each individual container is controlled via a float valve or level switch. Fluid exits the container and waters the plants through the flexible outlet irrigation tube with two or more adjustable valves, regulating the flow rate out of the container. The containers are above the ground, each mounted upon a stake, and utilize a flexible impermeable membrane.

Disclosed is a wall landscaping system for easy growth management with automatic watering and plant growth analysis, which creates a vertical garden on an interior or exterior wall of a structure, the system including: a main body (10) installed to cover the wall (W) to have a plant grown thereon; a watering part (20) disposed at an upper end of the main body (10) to supply water to the plant; a detector (30) disposed around the main body (10) to photograph the plant; and a controller (40) automatically checking and recording a growth state of the plant by analyzing an image photographed by the detector (30), and remotely notifying a manager according to the growth state of the plant, whereby it is possible to automatically supply water at a predetermined interval for each plant, and analyze the growth state of the plant and notify the same.

A watered tree stand system, which facilitates continual watering of a tree supported by the tree stand system, includes a base reservoir having a reservoir interior suitably configured to contain a supply of water and receive the trunk of a tree. The base reservoir is suitably configured to support a tree in an upward-standing position. A preferably see-through, water intake container is disposed in spaced-apart relationship to the base reservoir. The water intake container is suitably configured to contain a supply of refill water. An elongated water delivery conduit establishes fluid communication between the water intake container and the base reservoir.

A stain-proof gardening container having a cap brace including a plurality of grooves, each groove connects to a top edge of one of a corresponding vertically oriented left side panel member, right side panel member and back panel member, a front panel member including a handle, the front panel member attaches to the left side panel member, a floor panel including a well and a plurality of grooves, each groove connects to a bottom edge of one of a corresponding vertically oriented left side panel member, right side panel member and back panel member, a housing frame formed by the cap brace, left side panel member, right side panel member, back panel member, front panel member and floor panel, the housing frame including an interior cavity, a gardening collection receptacle for receiving and storing at least one gardening component, the gardening collection receptacle including an elastic headband located at its top region for installing the gardening collection receptacle in the interior cavity of the housing unit and a drainage aperture located at its bottom region for draining excess materials from the gardening collection receptacle and a drainage collection repository for receiving the excess materials drained from the gardening collection receptacle. The drainage collection repository including a handle for removing the drainage collection repository from the housing unit, and wherein the drainage collection repository is positioned within the well in the floor panel.

Air dispersing member adapted for use buried in soil and comprising annular portions defining a hollow annular member comprising an air flow conduit, there being a plurality of holes communicating between the air flow conduit to a location exterior of the hollow annular member for aerating soil, the air dispensing member preferably being combined with an irrigation system for providing an optimal amount of water to a plant or seed, comprising an inner pot having a porous bottom portion and adapted for containing soil for hosting the plant or seed, an outer pot adapted for containing a certain water level, the inner pot and the outer pot together defining a partially enclosed space, an inlet water pipe, an outlet water pipe, and a wicking pad adapted to be in fluid communication between water in the bottom portion of the outer pot and the porous bottom portion of the inner pot.