A structure for growing plants comprising a main support, vertical supports along the perimeter of the foundation, a perimeter frame connected to the vertical supports, cables connected to the main support, vertical supports and perimeter frame, and an inner and outer shell formed from transmissive panels supported by the cables.

A structure for growing plants comprising a main support, vertical supports along the perimeter of the foundation, a perimeter frame connected to the vertical supports, cables connected to the main support, vertical supports and perimeter frame, and an inner and outer shell formed from transmissive panels supported by the cables.

A portable windbreak shelter assembly provides a combination shelter and windbreak which can be moved to a desired position using conventional vehicles typically available on a farm includes a shelter frame having a front, a back, a bottom face, a first lateral side face, and a second lateral side face. The first lateral side face and the second lateral side face extend upwardly from respective opposite edges of the bottom face and meet to define an apex of the shelter frame extending between the front and the back. A covering is coupled to the shelter frame wherein the covering and the shelter frame inhibit wind from passing through the shelter frame to define a sheltered interior space. The shelter frame is movable using conventional farm equipment.

The present invention provides an architecture for performing vertical farming. The embodiments of the present invention disclose an arrangement of a plurality of reflective surfaces to maximize the amount of most beneficial natural light that can be gathered. The pluralities of reflective surfaces are arranged strategically in the polygonal architecture to direct the available natural light to the furthest reach of the growing area. Additionally, the architecture provides spiral arrangement of one or more growing panels where each growing panel is at predetermined height from the preceding growing panel.

The present invention provides an architecture for performing vertical farming. The embodiments of the present invention disclose an arrangement of a plurality of reflective surfaces to maximize the amount of most beneficial natural light that can be gathered. The pluralities of reflective surfaces are arranged strategically in the polygonal architecture to direct the available natural light to the furthest reach of the growing area. Additionally, the architecture provides spiral arrangement of one or more growing panels where each growing panel is at predetermined height from the preceding growing panel.

A structural support beam having a top wall joined to a side wall at an angle substantially different from a right angle. When installed in a facility or machine with the side wall parallel to a vertical reference, no surface on the support beam is parallel to a horizontal reference, thereby providing for rapid and thorough draining of water deposited on any surface of the beam. Some beam embodiments place the top wall at an angle of about twenty degrees above a horizontal reference when the beam is installed. Alternatively, the top wall may be at an angle of about twenty degrees below the horizontal reference. Some beam embodiments have an open side. Alternatively, a bottom wall may be attached to a side wall to form a tubular support beam. A support beam may include a lower beam joined to an upper beam by a connector bar.

A structural support beam having a top wall joined to a side wall at an angle substantially different from a right angle. When installed in a facility or machine with the side wall parallel to a vertical reference, no surface on the support beam is parallel to a horizontal reference, thereby providing for rapid and thorough draining of water deposited on any surface of the beam. Some beam embodiments place the top wall at an angle of about twenty degrees above a horizontal reference when the beam is installed. Alternatively, the top wall may be at an angle of about twenty degrees below the horizontal reference. Some beam embodiments have an open side. Alternatively, a bottom wall may be attached to a side wall to form a tubular support beam. A support beam may include a lower beam joined to an upper beam by a connector bar.

The invention provides a farm from a box system and at least one container that includes all components and tools required to assist communities in being able to conduct agricultural activities in order to provide sufficient food for or for other off-grid localized food production, e.g., for schools, correctional facilities, etc. The at least one container is provided in a compact form for shipping to locations where needed and provides the necessary tools, agricultural supplies, power and irrigation to facilitate growth of sustainable crops. The invention also provides a method of use of the systems and containers described herein for assisting people in farming activities conducted outside of the containers, thus enabling the system owner to successfully and efficiently conduct organic and small scale farming.

A jack for lifting segments of a structure includes a pair of masts, a mast base, a mast cap, a hydraulic ram, a bottom bracket and a shuttle. The masts are identical and upright with a plurality of evenly spaced holes. The mast base supports the mast and the mast cap receives the upper ends of the masts and maintains the masts in a parallel, relationship. The hydraulic ram moves between a retracted position and an extended position with a stroke distance which is significantly less than the mast height. The bottom bracket is removably pinned to the masts and receives and supports the lower end of the hydraulic ram. The shuttle receives the upper end of the hydraulic ram. The bottom bracket and shuttle, when not pinned to the masts, can slide vertically up the masts. The shuttle includes features for connecting to a segment of a structure.

A jack for lifting segments of a structure includes a pair of masts, a mast base, a mast cap, a hydraulic ram, a bottom bracket and a shuttle. The masts are identical and upright with a plurality of evenly spaced holes. The mast base supports the mast and the mast cap receives the upper ends of the masts and maintains the masts in a parallel, relationship. The hydraulic ram moves between a retracted position and an extended position with a stroke distance which is significantly less than the mast height. The bottom bracket is removably pinned to the masts and receives and supports the lower end of the hydraulic ram. The shuttle receives the upper end of the hydraulic ram. The bottom bracket and shuttle, when not pinned to the masts, can slide vertically up the masts. The shuttle includes features for connecting to a segment of a structure.