A cover member for an in-store greenhouse is disclosed, with which radiation exiting the in-store greenhouse can be influenced or modified, so that outgoing total radiation has a white color on the Planck curve.

In the soil cultivation system equipped with a solar panel, the space between ridges of a plurality of frame units supporting the solar panels is coupled with a roof member, furthermore, the perimeter surface thereof is integrally covered with a cover unit. In this way, a cultivation house in which the frame units are used as support columns is established. Then, in the solar panels, light transmitting regions are provided, a transmissive member is used as the roof member and thus agricultural plants are cultivated by light passing through the light transmitting regions and the roof member. Furthermore, the cultivation of the agricultural plants is performed in cultivation tanks in which a soil is put, and an appropriate cultivation nutrient solution is supplied through a supply means. In this way, the cultivation environment of the agricultural plants is managed, and thus the agricultural plants can be efficiently cultivated while the burden of an operator is reduced.

The system includes a pre-fabricated garden seedsheet, with seeds and soil embedded in water-soluble pods within a weed barrier fabric. Each water-soluble pod is fabricated from dissolvable material, which are affixed together to form cavities in which seeds and soil are applied. The pods are then affixed to the weed barrier matrix in an arrangement dictated by the plant algorithm. Upon contact with water, the pods rapidly dissolve, thereby beginning the germination process in which the seeds sprout and emerge through the aligned openings in the weed barrier fabric. The selection of plants and their physical arrangement within each seedsheet may be determined by a software-driven plant algorithm that extrapolates plant characteristics, environmental requirements, and companion benefits. The algorithm may be used both on the customer-facing software program, as well as the in-house design process to create pre-designed seed sheets.

A simulated tree trunk planter, comprising: a simulated tree trunk such that the simulated tree trunk includes a natural appearance located on an outer surface of the tree trunk; wherein a lower end of the trunk includes a stabilizing plate operatively connected at one side to the lower end of the tree trunk and a tree anchor operatively connected at one end to the other side of the stabilizing plate; wherein the upper end of the trunk includes a simulated tree trunk planter receptacle having receptacle retainers, a receptacle lattice operatively connected to the receptacle retainers, and foliage such that the foliage is retained in place by the receptacle retainers and the receptacle lattice; and a plurality of attachment panel systems located on a section of the tree trunk, wherein a plurality of trunk attachments is secured to the tree trunk through the use of the attachment panel systems.

A cultivation system moves containers between a growing area and a monitoring area. The containers hold cultivation beds for cultivating plants, and the cultivation system includes: a grow light emitting unit emitting grow light for growing the cultivated plants in the containers located in the growing area; an imaging unit capturing the cultivated plants in the containers located in the monitoring area; and a control unit causing the grow light emitting unit to stop emitting the grow light when the imaging unit captures the plants.

A cultivation system moves containers between a growing area and a monitoring area. The containers hold cultivation beds for cultivating plants, and the cultivation system includes: a grow light emitting unit emitting grow light for growing the cultivated plants in the containers located in the growing area; an imaging unit capturing the cultivated plants in the containers located in the monitoring area; and a control unit causing the grow light emitting unit to stop emitting the grow light when the imaging unit captures the plants.

A planting container has a first basin and a second basin forming a yin-yang shape. The first basin is configured to contain soil, the second basin is configured to hold water and provided with a plastic floating board. The plastic floating board has a plurality of receiving holes with a planting basket. An inner side of the plastic floating board faces the first basin and has at least one opening allowing at least one fiber strip to pass through the opening and enter the second basin, and another end of the fiber strip passes behind the first and second basin and placed on or in the soil of the first basin.

A foldable tubular construct/element with one rigid degree of freedom is of a tubular construction formed by a number of single layered annular units which are connected in sequence; each single layered annular unit is of a prism having N ridge lines; two adjacent prisms each having N sides are connected to each other by sharing a polygon with N sides formed on an intersection plane; each prism with N ridge lines is composed of N rigid planar quadrilateral facets; two adjacent single layered annular units comprise N spherical mechanisms formed by the intersections of only four planar quadrilateral facets at each apex; the polygon having N sides formed in the intersection plane of the two adjacent single layered annular units is a planar polygon with an arbitrary number of sides greater than for a triangle; the ridge lines of each prism having N ridge lines are parallel to each other; the connecting ridge lines of the tubular element are coplanar; when the polygon having N sides formed in the intersection plane of the two adjacent single layered annular units is a line-symmetric polygon of even number of sides with at least one diagonal symmetric axis, the plane in which connecting ridge lines of the tubular element are located is perpendicular to one diagonally symmetric axis.

A fodder growing apparatus includes an insulated housing having a draining floor, a door-closable open face, and a plurality of vertically-spaced platforms being supported in a position inclined downward between 3° and about 6°. The apparatus further includes pass-through irrigation system including spray nozzles supported over each of the platforms and supplied with water. An illumination system of the apparatus includes an LED equipped lighting assembly supported over each of the platforms. A ventilation system of the apparatus includes forced ventilation means. The apparatus further includes a programmable controller selected to deliver a time-variant program of at least irrigation and lighting, and temperature control means controlling the temperature within the housing.

A fodder growing apparatus includes an insulated housing having a draining floor, a door-closable open face, and a plurality of vertically-spaced platforms being supported in a position inclined downward between 3° and about 6°. The apparatus further includes pass-through irrigation system including spray nozzles supported over each of the platforms and supplied with water. An illumination system of the apparatus includes an LED equipped lighting assembly supported over each of the platforms. A ventilation system of the apparatus includes forced ventilation means. The apparatus further includes a programmable controller selected to deliver a time-variant program of at least irrigation and lighting, and temperature control means controlling the temperature within the housing.