The presently disclosed subject matter refers to agro-photovoltaic modules (at times also referred to as agri voltaic modules) designed to increase the productivity use of available area. The agro-photovoltaic module can enable agricultural growth and the production of energy, e.g. by using photovoltaic cell(s), while using the same area (land space, lake, rooftop, etc.), therefore the agro-photovoltaic module can offer a good solution for this issue. This may help overcome legislations/rules in different countries, for example, where land can not be used solely for solar energy cultivation and must be integrated with agricultural purposes. The produced photovoltaic energy is either being used by components of the module or directed to an external electric power system.

The presently disclosed subject matter refers to agro-photovoltaic modules (at times also referred to as agri voltaic modules) designed to increase the productivity use of available area. The agro-photovoltaic module can enable agricultural growth and the production of energy, e.g. by using photovoltaic cell(s), while using the same area (land space, lake, rooftop, etc.), therefore the agro-photovoltaic module can offer a good solution for this issue. This may help overcome legislations/rules in different countries, for example, where land can not be used solely for solar energy cultivation and must be integrated with agricultural purposes. The produced photovoltaic energy is either being used by components of the module or directed to an external electric power system.

A plant support structure for accommodating plants is described. The plant support structure includes a framework in a vertically extending arrangement forming a plurality of geometric blocks and vertically extending channels formed at a periphery of the geometric blocks. The channels are configured to receive therein a porous material for carrying water from a top end of the plant support structure down the channels for irrigating plants in the channels. A system for accommodating and maintaining plants includes the plant support structure.

A plant support structure for accommodating plants is described. The plant support structure includes a framework in a vertically extending arrangement forming a plurality of geometric blocks and vertically extending channels formed at a periphery of the geometric blocks. The channels are configured to receive therein a porous material for carrying water from a top end of the plant support structure down the channels for irrigating plants in the channels. A system for accommodating and maintaining plants includes the plant support structure.

A lighting system for a vertical garden includes at least one light ring including a central hub member configured to be removably mounted to the vertical garden, an outer ring member, and a plurality of spoke members extending radially between the central hub member and the outer ring member, a plurality of light sources supported in the outer ring member, and a drive circuit for the plurality of light sources, a power supply, and at least one power connector connected between the drive circuit and the power supply.

An insertable planter system may include a container and an insert. A container may include a rim, an outer wall comprising an inner surface, a bottom portion comprising a floor, wherein the inner surface and floor may define a liquid reservoir. The floor may further include a positioning structure. An insert may include a lip, a sidewall, and a bottom. The sidewall and bottom may define a plant chamber. The insert may further include a complementary supporting structure, such that the container receives the insert so that the insert can be rotated into a suitable orientation where the complementary supporting structure of the insert engages the positioning structure of the container. A plant delivery method or system including such inserts, and a computer readable medium containing instructions for same.

An insertable planter system may include a container and an insert. A container may include a rim, an outer wall comprising an inner surface, a bottom portion comprising a floor, wherein the inner surface and floor may define a liquid reservoir. The floor may further include a positioning structure. An insert may include a lip, a sidewall, and a bottom. The sidewall and bottom may define a plant chamber. The insert may further include a complementary supporting structure, such that the container receives the insert so that the insert can be rotated into a suitable orientation where the complementary supporting structure of the insert engages the positioning structure of the container. A plant delivery method or system including such inserts, and a computer readable medium containing instructions for same.

A modular vertical plant cultivation wall system configured to produce minimal carbon footprint from fabrication through erection, to be built of sustainable material and to be installed rapidly by low skilled labor is provided. The modular vertical cultivation wall system includes at least two vertical posts, at least two planter shelves, at least two endcap walls, and at least one of: a pipe, a seed/plant root retaining matrix, and irrigation fluid. Further, a method of providing a modular vertical cultivation wall is provided.

A modular vertical plant cultivation wall system configured to produce minimal carbon footprint from fabrication through erection, to be built of sustainable material and to be installed rapidly by low skilled labor is provided. The modular vertical cultivation wall system includes at least two vertical posts, at least two planter shelves, at least two endcap walls, and at least one of: a pipe, a seed/plant root retaining matrix, and irrigation fluid. Further, a method of providing a modular vertical cultivation wall is provided.

This disclosure relates to a planter device, and in some implementations, a planter for providing water to a plant and its method of use. The planter device may optionally include a double-walled vessel comprising a plurality of supporting sidewalls. In some embodiments, the inner and outer supporting sidewalls may be connected to one another by a supporting bridge.