Self-contain plant watering apparatus system depicted in a shepherd's hook, whiskey barrel planter, wood post planter and trellis garden planter for the purpose of watering plants on a regulator bases while keeping the apparatus attractiveness in tack. Includes a quick disconnect fitting for easy hookup of any watering drip system is disclosed. It is an object of the present invention to provide an improved plant watering system which can be easily hook up and provide a regulator flow of water to any type of plant. It is another object of the present invention to provide an improved watering apparatus, which can be easily hookup to any type of irrigation system available, and keep the planter and/or plant hanger from corrosion and wear by keeping the water in a flexible hose threaded through the wood post and/or steel tubing structure. It is a further object of the present invention to provide an improved watering apparatus, which is simple and inexpensive in construction, which can be used indoor or outdoor for growing and displaying plants.

Block storage element and method for supplying liquid to a block storage element. The block storage clement has an overflow and the method includes introducing the liquid into an overflow distributor with a distributor limit. The liquid is throttled by at least one passageway arranged in the distributor limit and gets into a tub area of the block storage element, and the liquid that is not drained by way of the at least one passageway is discharged via. the overflow.

An automatic drip watering system comprises a waterline and one or more drip watering devices. The one or more drip watering devices each comprise a valve, which is configured to open and drip irrigate an area when weight is applied to the drip watering device. In some embodiments, the one or more watering devices comprise a clip which is configured to accept one or more hanging pots and/or baskets. The clip is pulled down by the weight the hanging pots and/or baskets and the valves open in order to drip irrigate the hanging pots and/or baskets through one or more drip lines.

A tray is provided for growing microgreens. The tray has a tray housing defining a fluid reservoir, and the tray has tray walls enclosing the fluid reservoir. The tray further has a tray floor defining a bottom of the fluid reservoir within the tray housing, and substantially parallel internal walls extending substantially vertically from the tray floor within the fluid reservoir. Each internal wall has an internal wall height smaller than a tray wall height of each of the tray walls. Internal reservoir gaps are provided between each end of each internal wall and an adjacent inner surface of a tray wall such that a segment of the tray floor separates each wall of the plurality of internal walls from the plurality of tray walls. Also provided is a kit for growing microgreens including the tray, a mat, and a lid.

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.

There is disclosed a water treatment apparatus for treating stormwater, the water treatment apparatus comprising a volume of filter media, a baffle and an inlet conduit. The baffle extends upwards from the volume of filter media and defines a pre-treatment zone on one side of the baffle and a treatment zone on an opposing side of the baffle. The inlet conduit opens into the pre-treatment zone and is separated from the treatment zone by the baffle. The baffle is configured to regulate a flow of stormwater received via the inlet conduit by controlling the passage of stormwater from the pre-treatment zone to the treatment zone.

A vertical wall display system for displaying potted plants includes trays that have a base portion and a back portion disposed at an acute angle with respect to each other. The base portion of the tray defines a plurality of niches in a linear array for receiving potted plants, each niche defines a reservoir capable of retaining a predetermined volume of a fluid. The back portion of the tray includes connecting elements for connecting the back portion of one tray with the back portion of a second tray so that the trays are substantially co-planar. Each of the trays define at least two sections that are joined so at to be separable into discrete sections that include different numbers of niches.

Divided jardiniére suspension and/or watering systems for vandaceous orchids. In some embodiments, the system may comprise two receptacle pieces that may be coupled together to define a complete receptacle for a vandaceous orchid. Some embodiments may further comprise one or more watering elements, such as a watering manifold that may deliver water through one or more outtake ports through water delivery members that may extend from the watering manifold and be wrapped around the roots of the vandaceous orchid to deliver water and/or nutrients continuously via capillary action.

A conveyor system (4, 5) moves vertical poles (2) in an agricultural facility between a growing area (20) and a workstation (W). Each pole carries plant growing containers (3) at multiple levels (H1-H9). An irrigation reservoir (30) may be mounted atop each pole. Irrigation lines (31-33) from the reservoir may be individually metered (35) at each level to compensate for differing water pressure with height. Sensors (40) in the reservoir and at each level of the poles may provide a controller (36) with data input. The controller may impose different growing conditions in different areas of the facility, including vertically different grow areas (20A, 20B), and controls pole movements and locations selectively to provide a sequence of poles at the workstation ready to harvest on a demand schedule. The workstation may have multiple heights (W1, W2, W3) for tall poles that increase plant density per facility footprint.

A modular hydroponic grow box including a self-contained air filtration system is disclosed herein. The system includes a processor. The processor can receive data from one or several components of the system and can provide control signals to one or several components of the system. The grow box can include a housing. The housing can include: a reservoir portion; and a greenhouse portion. The greenhouse portion can connect to the reservoir portion via a grow tray. A top of the reservoir portion and the greenhouse portion define an enclosed volume. The greenhouse portion can include an inlet aperture and an outlet aperture. The inlet aperture can be obstructed by an inlet filter such that air flowing into the greenhouse portion passes through the inlet filter, and the greenhouse portion can be connected to a fan that can propel air through the inlet aperture and out of the outlet aperture.