A plant container assembly includes a first plant container, a second plant container, and at least one buckle. The first plant container has at least one first buckle part protruding from an outer wall surface of a container wall of the first plant container and located at a bottom section of the container wall of the first plant container. The second plant container has at least one second buckle part protruding from an outer wall surface of a container wall of the second plant container and located at a top section of the container wall of the second plant container. When the first plant container is stacked on top of the second plant container, the buckle could be engaged with both the first buckle part of the first plant container and the second buckle part of the second plant container, thereby enhancing the stacking strength of the plant containers.

Disclosed are a plant propagation pod, and an associated support structure, for growing a plant in the sea. The present invention also relates to associated assemblies and methods.

A self-watering tray device having an integral internal irrigation system, and a method of watering allowing water to be supplied by means of standard garden water hose and existing water faucet. A plurality of said self-watering trays capable of being daisy-chained in a serial configuration to allow a single source of water from a standard water faucet and standard garden water hoses to provide irrigation water to all of said plurality of self-watering trays and non-self-watering planters positioned thereon.

A capillary irrigation pot system (20), comprising a pot housing (22), a pot liner (24) configurable for receiving within said pot housing (22), wherein once received within the pot housing (22) gives rise to an irrigation liquid reservoir extending between an inside wall surface of the pot housing (22) and an outside wall surface of the pot liner (24), and a capillary assembly (100) comprising a capillary media (106) received within a substantially liquid impermeable sheathe (108), where a first end of the capillary media (106) projecting from a first end of the sheath (108) extends at a bottom portion of the irrigation liquid reservoir, and a second end of the capillary media (100) projecting from a second end of the sheath extends within a bottom portion of the pot liner (24), and where an intermediate portion of the capillary assembly (100) is configured to extend over a top portion of the pot liner (24).

The present invention discloses an ecological environmentally-friendly flowerpot for disposing garbage, including an outer liner and an inner liner, wherein the inner liner is sleeved inside the outer liner, the inner liner is fixed to the inner wall of the outer liner by a plurality of connecting poles, and a sandwich layer for growing plants is formed between the inner liner and the outer liner; and the side wall of the inner liner is provided with a plurality of meshes, and the inner liner is in communication with the bottom of the outer liner. The flowerpot of the present invention can save water resources, is beneficial to garbage decomposition, and also facilitates plants in absorbing nutrients, thereby being more ecological environmentally-friendly.

A security planter having a camera embedded in a planter to capture and transmit images is disclosed. In some implementations, the device may include a flowerpot having a side wall with an opening, the flowerpot configured to contain a plant and soil. In addition, the device may include a camera device encased within a first housing, the first housing integrally attached to an inner side of the side wall, the camera device configured to capture one or more images of objects disposed adjacent the flowerpot and viewed through the opening, the camera device having wireless transmission circuitry to transmit the one or more images of the captured object. The device may include a power supply disposed in a cavity between a bottom floor and a bottom panel of the flowerpot. Moreover, the device may include a wire extending along the inner side wall to electrically couple the power supply to the camera device.

A grow box comprises a box body and a cover which are matched with each other; a planting unit arranged on the grow box for planting plants; a nutrient solution supply unit comprising a nutrient solution storage chamber and an atomizer, and the nutrient solution is supplied to the roots of the plants under the condition that the plants lack nutrient solution, wherein the nutrient solution storage chamber is constructed as a part of box body space which is separated from the box body by a partition plate. The present invention further discloses a plant grower using the same grow box with a supporting device. In addition, various sensors are arranged in the grow box and the plant grower to perform automatic induction without the need of manual operation, so that the pleasure and the simplicity of planting are enhanced.

An insert for growing plants, including a plurality of receptacles, adapted for insertion into a container, wherein each of the receptacles is arranged for receiving a separate plant with a portion of gel for feeding the plant. The receptacles may be arranged to allow communication between the portions of gel in the receptacles to allow the plants to share a common feed reservoir of the gel.

An urn and planter combination provides a divided container that both holds the ashes resulting from cremation and a living plant or cut flowers.

A device and method that support and animate a plant disposed in an inner plant pot having an inner plant pot interior volume in such a way that the inner plant pot moves relative to an outer plant pot having an outer plant pot interior volume, and a gimbal mechanism disposed within the outer plant pot interior volume, controlling and instantiating, vertical longitudinal movement and rotational movement of the inner plant pot relative to the outer plant pot, programmable to provide physical response in the form of animation of the gimbal mechanism and the inner plant pot in response to receipt of predetermined data by the electronic processor control module from a plurality of sensors in communication with the electronic processor control module providing data collected by the plurality of sensors.