The present invention relates to a device for growing mushrooms, including beds for holding compost and a shelving arranged for supporting the beds for holding compost. The beds are placed at a mutual distance above each other. The beds are movable between at least a first position, wherein a second bed supported above a first bed at least partially impedes the accessibility of the first bed in a direction perpendicular to the plane in which the first bed extends, and a second position in which at least a larger part of the first bed is free approachable from a direction perpendicular to the plane in which the first bed extends than in the first position. The shelving includes at least one portal. The portal includes at least two essentially vertical stands connected by at least one beam that extends from a first stand to the second stand. At least two beds are movably supported by the at least one beam.

Method for cultivating edible fungi on a commercial site, in which a cultivation takes place according to a cultivation cycle which successively comprises one or more preparatory phases and one or more harvesting phases, and in which the site comprises at least a set of cultivation cells (4), in which this set (4) comprises a first cultivation cell (1), a second cultivation cell (2) and a third GO cultivation cell (3) and the cultivation cycle is distributed over these at least three cultivation cells (1, 2, 3) by moving the cultivation from the first cultivation cell (1), in which at least one preparatory phase takes place, to the second cultivation cell (2), in which at least one harvesting phase takes place in the second cultivation cell, and then to the third cultivation cell (3), in which at least one harvesting phase takes place.

Method for cultivating edible fungi on a commercial site, in which a cultivation takes place according to a cultivation cycle which successively comprises one or more preparatory phases and one or more harvesting phases, and in which the site comprises at least a set of cultivation cells (4), in which this set (4) comprises a first cultivation cell (1), a second cultivation cell (2) and a third GO cultivation cell (3) and the cultivation cycle is distributed over these at least three cultivation cells (1, 2, 3) by moving the cultivation from the first cultivation cell (1), in which at least one preparatory phase takes place, to the second cultivation cell (2), in which at least one harvesting phase takes place in the second cultivation cell, and then to the third cultivation cell (3), in which at least one harvesting phase takes place.

The present invention relates to a device for discharging mushrooms from a conveyor, comprising a mushroom conveyor, in particular a conveyor belt and/or an endless conveyor, for conveying the mushrooms in a direction of conveyance; wherein the mushroom conveyor has a surface for carrying the mushrooms; and the mushroom conveyor being guided along a trajectory from a charging location such as a picking location to a discharging location, such as a filling station for mushroom containers, as well as a twister, located at the discharging location, for at least locally twisting a plane in which the surface of the mushroom conveyor lies.

An agricultural motor vehicle designed to receive various agricultural implements, having a monoblock chassis assembled over 44 traction wheels, with a vibrating screen inside the lower portion of the chassis and a rotating cleaning set assembled lengthwise above the vibrating screen. The front section of the chassis has a concentrating guiding roller assembled crosswise upon it, with a hydraulic set for activation and transmission assembled above, the set serving as a support platform for a cockpit made accessible via a passageway and stairs. At the end of the rotating cleaning set is assembled a ventilation box with a motor power set is located on its rear side, and two pulling sets for residue outlet. A gutter for collecting clean grain is located at the end of the vibrating screen, the edges of the collecting gutter interconnected to cup elevators which lead into a dumper.

An agricultural motor vehicle designed to receive various agricultural implements, having a monoblock chassis assembled over 44 traction wheels, with a vibrating screen inside the lower portion of the chassis and a rotating cleaning set assembled lengthwise above the vibrating screen. The front section of the chassis has a concentrating guiding roller assembled crosswise upon it, with a hydraulic set for activation and transmission assembled above, the set serving as a support platform for a cockpit made accessible via a passageway and stairs. At the end of the rotating cleaning set is assembled a ventilation box with a motor power set is located on its rear side, and two pulling sets for residue outlet. A gutter for collecting clean grain is located at the end of the vibrating screen, the edges of the collecting gutter interconnected to cup elevators which lead into a dumper.

An edible meat substitute product includes a fibrous mycelium mass in a range of 10 wt % to 100 wt %. The fibrous mycelium mass has a protein content greater than 40 wt % of a dry mass of the fibrous mycelium mass. The edible meat substitute product includes a water content in a range of 0 w % to 90 wt %.

An edible meat substitute product includes a fibrous mycelium mass in a range of 10 wt % to 100 wt %. The fibrous mycelium mass has a protein content greater than 40 wt % of a dry mass of the fibrous mycelium mass. The edible meat substitute product includes a water content in a range of 0 w % to 90 wt %.

Provided are a system, method(s), and apparatus for automatically harvesting mushrooms from a mushroom bed. The system, in one implementation, may be referred to herein as an automated harvester, having at least an apparatus/frame/body/structure for supporting and positioning the harvester on a mushroom bed, a vision system for scanning and identifying mushrooms in the mushroom bed, a picking system for harvesting the mushrooms from the bed, and a control system for directing the picking system according to data acquired by the vision system. Various other components, sub-systems, and connected systems may also be integrated into or coupled to the automated harvester.

Provided are a system, method(s), and apparatus for automatically harvesting mushrooms from a mushroom bed. The system, in one implementation, may be referred to herein as an automated harvester, having at least an apparatus/frame/body/structure for supporting and positioning the harvester on a mushroom bed, a vision system for scanning and identifying mushrooms in the mushroom bed, a picking system for harvesting the mushrooms from the bed, and a control system for directing the picking system according to data acquired by the vision system. Various other components, sub-systems, and connected systems may also be integrated into or coupled to the automated harvester.