A Watering device incorporating a light source (5) consisting of at least one inner chamber (2) attached to the exterior surface of the reservoir (1), said inner chamber (2) projecting or extending inwardly, said reservoir (1) having a mouth (3) which is able to be screwed or attached easily to commonly available drip feed devices or watering spikes (4), the inner chamber (2) wall at the exterior surface of the reservoir or extending outwardly from the reservoir exterior surface having a hole to accommodate fully or partially a light source or light sources (5) within the chambers), said light sources providing illumination of the reservoir (1), the plant, and surroundings or part thereof.

An integrated stair planter to provide a plurality of levels for plants to be grown in areas where room is limited. Each of the levels enables various types of plants to be planted at any location. Each of the levels are in communication with one another for providing more efficient watering and drainage. The integrated planter includes side panels having a plurality of steps along an upper edge and a sloped lower edge, a plurality of risers to connect between associated risers of the side panels, a sloped floor to seal off an underside of the integrated planter and connect to the sloped lower edge of each of the side panels. A plurality of step planters are provided between associated treads of the side panels and abutting risers. An integrated opening is formed by the plurality of step planters as the step planters are connected to one another.

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.

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 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.

A plant container for greening walls has a main body defining a chamber to receive a growth medium for a plant. A draining pipe is coupled with the main body, extends along a back wall of the main body and has a top end, a bottom end and an opening in a wall of the draining pipe to allow water from inside the chamber to enter inside the draining pipe. The opening in the wall of the draining pipe extends from a bottom wall of the main body. A connecting conduit is configured to connect the bottom end of the draining pipe with a top end of the draining pipe of another plant container of the same type. A through hole extends along the whole length of the draining pipe.

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.

A multi-purpose system is disclosed which utilizes a lawn sprinkler in the shape of a fire hydrant to provide a stimulus to a dog. A remotely programmable portable water sprinkler is provided, which can be programmed to run for a period of time for normal watering of a lawn, and it can be programmed to trigger and spray when a series of dog barks are detected. This spraying of water is intended to be a stimulus to the dog.

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.

A nutrient hydroponic device has a pot body, a bottom plate, and a water dripping member. The pot body has an inner space, a water retaining recess, a water dripping hole, and multiple plant holes. The inner space has an opening and a bottom surface. The water retaining recess is annular and is defined in the bottom surface of the inner space. The water dripping hole is defined through the bottom surface of the inner space. The plant holes are defined through the side wall of the pot body. The bottom plate is securely attached to the bottom of the pot body. The water dripping member is mounted through the water dripping hole and the bottom plate and has a shank, a head, and a through hole. The through hole is axially defined through the shank and the head.