A flowerpot assembly is provided a support including a plurality of equally spaced openings from top to bottom; and a plurality of flowerpots each disposed on the opening and including a container and a conduit wherein the container includes a storing section for anchoring a plant and a water distribution device on a bottom of the storing section, the water distribution device including a coupling, a wall, an inlet, and an overflow exit; wherein a bottom of the conduit is connected to the water distribution device; wherein the inlet communicates the conduit with the storing section; wherein the wall is around the coupling; and wherein the overflow exit is between the water distribution device and the wall and extends out of the container.

The present invention is a plant cultivation device. The water tank supplies cultivation water to the cultivation tank via an irrigation conduit. The water tank also suctions cultivation water from the cultivation tank via a water-sucking pipe. The heat-collecting part receives sunlight, and the pressure of air that is heated inside the air-storage part presses the surface of the water inside the water tank. The water tank supplies cultivation water that has been pressed by said air to a culture medium material. The heat-collecting part raises the surface of the water inside the water tank as a result of the heated air being cooled by a decrease in the sunlight. The water tank suctions cultivation water from a bottom section of the cultivation tank.

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.

Systems and methods for providing and operating a modular garden are provided. Modular gardens of the present technology may be attached to an indoor or outdoor wall. Modular gardens of the present technology include modular planters having at least one panel, a watering system, and a garden computing system that monitors plant conditions, automatically waters plants in the modular garden, and may communicate with a user personal computing device.

A garden spring for supporting climbing plants, including a hollow pipe configured in a serpentine spiral between a first end and a second end, an anchor section at the second end of the pipe, and a fluid intake at the first end of the pipe, wherein the fluid intake is in fluid communication with an interior volume of the pipe.

An apparatus for facilitating cultivation of plants. The apparatus comprises a top enclosure, a bottom enclosure, a vertical column, a cover, a tray, sensors, environmental actuators, a nutrition container, and a processing device. Further, the top enclosure houses a first component. Further, the bottom enclosure houses a second component. Further, the vertical column is interspersed between the top enclosure and the bottom enclosure is forming an interior space therebetween. Further, the cover is interspersed between the top enclosure and the bottom enclosure, encloses the interior space and allows light to enter from a surrounding of the apparatus into the interior space. Further, the tray holds a plant. Further, the sensors generate sensor data representing variables. Further, the environmental actuators control environmental variables. Further, the nutrition container contains a nutritional medium. Further, the processing device controls the environmental actuators based on the sensor data.

A pot with integrated irrigation that is provided in a single pot embodiment or in a networked embodiment having a plurality of pots wherein the present invention provides an ability to provide automated watering of plants disposed within the interior volume of the pots. The present invention includes a pot having a body wherein the body includes an upper circumferential edge. A peripheral fluid tube member is integrally formed into the upper circumferential edge and is operable to have water flow therethrough. A plurality of fluid distribution tube members are operably coupled to the peripheral fluid tube member and are oriented so as to distribute water into the interior volume of the pot. The fluid distribution tube members have fluid ejection ports and can be present in various quantities. A reservoir is provided to store water and includes a pump to move the water to the pots via tubes.

An irrigation apparatus and feeding system for dispersing liquid through a plant growing medium are disclosed. The apparatus includes a geometrically shaped container of variable size. Container has an outer wall with an inner surface, an open top, and a base portion configured to cover the plant growing medium. Base portion is configured with a plurality of holes for receiving liquid therethrough. Container is configured with at least one center opening therethrough having an inner wall for receiving a plant. Center opening has at least one longitudinal opening extending therefrom to outer wall to allow placement of container on plant or to allow removal of container from plant. The plurality of holes have at least one dripper for receiving liquid extending therethrough base portion such that the at least one dripper feeds plant growing medium at variable flow rates and intervals and provides stability for apparatus to be secured in plant growing medium.

A planter includes a wall and a rim formed at an open end portion of the wall. A set of holes is formed through the wall and is disposed on a surface beneath the rim. The surface beneath the rim includes a shape to obscure a view of the hole below the rim.

The multi-stacking decorative flowerpot unit (1) comprising: a pole (2) extending vertically, a plurality of flowerpots (3) having a through hole (3a), which is formed in a bottom part of the flowerpot (3) in order to pass the pole (2) though the flowerpot (3), and a spacer (4) having a cylindrical shape and being placed between adjacent upper and lower flowerpots (3). And the pole (2), the flowerpot (3), and the spacer (4) are united by passing the through hole (3a) and the spacer (4) through the pole (2). This configuration makes it possible for many plants to be placed in a small space such as a room. And work efficiency and workability are improved, and the flexibility of its design and the quality of its display are enhanced by this invention.