An indoor gardening appliance includes a liner defining a grow chamber and a grow module rotatably mounted within the grow chamber for receiving a plurality of plant pods. A drive assembly is provided for selectively rotating the grow module within the grow chamber, and includes a turntable assembly configured for receiving the grow module, a bi-directional motor assembly, and a clutch assembly mechanically coupling the motor assembly and the turntable assembly, the clutch assembly having a torque slip threshold beyond which the clutch assembly disengages the motor assembly from the turntable assembly.

A tessellated ceramic apparatus for plant growth is set forth devised to support germination and plant growth upon an exterior surface. Water moves under osmotic pressure from a water storage volume disposed in osmotic communication with the ceramic, through the ceramic to become available water at the exterior surface. A graduated cross-section regulates water flow from a water storage volume through to the exterior surface along a pressure gradient exerted by the water head. Plant growth is facilitated within a plurality of tessellated indentations disposed upon the exterior surface and growth may be restricted from areas of the exterior surface by application of gloss, glaze, sealants and/or other surface features that may blend design elements to augment and support a living design.

A system for automated farming of potted plants is disclosed and includes a closed-loop conveyor system configured to facilitate gradual cyclic mobility and storage of a plurality of potted plants. The system also includes at least one centralized processing zone disposed along the conveyor system and configured to perform at least one operation such as fertilization, irrigation, treatment, instrumentation, repotting, seeding, and inspection on each individual pot. The processing zone includes at least one sensor configured to detect at least one property of a potted plant. The system also includes a processing unit in communication with the at least one sensor, the processing unit configured to determine a state of each potted plant based on the at least one detected property. The state describes a physical state of the potted plant. The system also includes at least one loading station coupled to the conveyor system and configured to feed (input) potted plants to the conveyor system, and at least one unloading station coupled to the conveyor system and configured to unload (output) potted plants from the conveyor system.

A plant container may include a vertical wall surrounding a plant receiving recess and having vertically aligned slot sets. The plant container may have a bottom including a panel, and panel tabs extending from a periphery of the panel. The panel tabs are to be received by a lowermost vertically aligned slot set. The plant container may include a ring having ring tabs on an inner radial edge, and the ring tabs may be received by a respective vertically aligned slot set.

The present invention provides a fixing structure for collecting and assembling flower, especially used for collecting and placing potted plants such as potted orchids, mainly including a flower holder main body and a collecting sleeve assembly sleeved at a top end of the flower holder main body; a central accommodating slot and position limiting members annularly arranged along an inner edge are formed in the collecting sleeve assembly, two crossed adjacent abutting surfaces are respectively formed in the plurality of position limiting members, and an outer edge of central accommodating slot is formed with concave arc-shaped abutting surfaces at locations corresponding to the adjacent position limiting members, and the position limiting members is connected to a bottom edge of the central accommodating slot via a rib sheet, so that an accommodating slot zone is formed through each set of the three abutting surfaces.

A client subscription hydroponic system and method is provided that includes a growth module and a hydro-farm, where the growth module has a replaceable growth media element configured for growing a living plant in a growth module nutrient solution, where the growth module is assigned to a client according to a subscription software account hosted on a remote computer. The client is provided an option to order a growth media element and a genus of a replacement plant from a hydro-farm using a subscription software mail-order purchase process. The hydro-farm and growth media element nutrient solution physical parameters are matched prior to shipping the growth media element and the replacement plant from the hydro-farm. The ordered growth media element and the replacement plant are installed to the growth module, where the subscription account is updated according to activity of the subscription activity with the remote computer program.

A fastener device adapted for attaching at least one tag (or other identifier) to an object. The fastener device comprises a T-bar component, a paddle component, and a filament component flexibly attached to both the T-bar component on one end and the paddle component on the other end. In some embodiments, the fastener device is deployable via a fastener dispensing device comprising a needle designed to puncture a hole in at least one tag and the object while also inserting the T-bar component through the hole. Once inserted, the paddle component exerts a cantilever spring force against at least one tag holding the tag(s) securely against the object.

An elevated planter apparatus positioned above ground, includes a planter box with sides and a bottom, a plurality of aperture connectors connected to said bottom, each of said plurality of aperture connectors provides passageway therethrough, a plurality of tube connectors having a closed end, each of said plurality of tube connectors connected to one of said plurality of aperture connectors, a plurality of rods having a first rod end and a second rod end, said first rod end positioned in the ground and said second rod end inserted in one of said plurality of aperture connectors and one of said plurality of tube connectors, and thus that can be easily incorporated into existing landscaping without damaging, modifying, or changing the existing landscaping.

A tessellated ceramic apparatus for plant growth is set forth devised to support germination and plant growth upon an exterior surface. Water moves under osmotic pressure from a water storage volume disposed in osmotic communication with the ceramic, through the ceramic to become available water at the exterior surface. A graduated cross-section regulates water flow from a water storage volume through to the exterior surface along a pressure gradient exerted by the water head. Plant growth is facilitated within a plurality of tessellated indentations disposed upon the exterior surface and growth may be restricted from areas of the exterior surface by application of gloss, glaze, sealants and/or other surface features that may blend design elements to augment and support a living design.

Methods and systems are disclosed configured to control the planting, application of pesticides, and harvesting of greenhouse crops, such as herbs. The greenhouse may include a variety of sensors, such as moisture sensors, ph sensors, and/or CO2 sensors. Unmanned vehicles may be utilized to capture crop images, and a learning engine may be used to determine the size of greenhouse crops. Such sensor data may be used to predict crop availability. A predication engine may be utilized to predict demand for greenhouse crops using current and historical orders for greenhouse crops. Greenhouse crop production instructions may be generated and transmitted to a greenhouse computer system to cause crops to be sown or harvested. Pallet loading instructions may be generated regarding the loading of specified quantities of crop packs on respective pallets for shipment to a destination.