A system for sampling of plant product is provided that comprises a mobile platform, at least one primary bin, and a harvesting subsystem connected to the mobile platform. The harvesting subsystem harvests the plant product as the system traverses a plot and projects it across the length of the primary bin(s) against a back wall of the primary bin(s), whereby the separated plant products collides with the back wall and falls into the primary bin. The system additionally includes at least one sample volumizer connected to the back wall of each primary bin. Each sample volumizer has a specified fixed volume and receives and collects a sample of the plant product, wherein each collected sample collected has the specified fixed volume. The system further includes at least one sample receiving subsystem structured and operable to receive and collect a sample from a respective sample volumizer.

A system and method for non-destructively determining characteristics of a vegetable or fruit may include processing an image of the vegetable or fruit to produce image analysis results; analyzing hyperspectral and/or Near Infrared (NIR) illumination reflected from the vegetable or fruit to produce reflection analysis results; and calculating at least one value that reflects at least one characteristic of the vegetable or fruit based on the image analysis results and based on the reflection analysis results.

An extractor fan for use in a sugarcane harvester is configured to generate a flow of air to separate debris from sugarcane billets produced by the sugarcane harvester. The extractor fan comprises an extractor fan blade configured to contribute to generation of the flow of air. The extractor fan blade comprises a wear indicator configured to indicate wear of the extractor fan blade.

An extractor fan for use in a sugarcane harvester is configured to generate a flow of air to separate debris from sugarcane billets produced by the sugarcane harvester. The extractor fan comprises an extractor fan blade configured to contribute to generation of the flow of air. The extractor fan blade comprises a wear indicator configured to indicate wear of the extractor fan blade.

Embodiments of the present invention relate to systems and methods of providing a large-scale farming apparatus that utilizes a helical design for continuous crop production and cultivation. The invention generally embodies a planting material suspended between two material transport assemblies, configured to move down a helical path. In some embodiments, a depositor may deposit soil, seeds, fertilizer, etc. onto the planting material at the top of the helical path. In some embodiments, a harvester may harvest the crops at the bottom of the helical path and discard the soil into a compost housing. The material transport assemblies may travel back to the top of the helical path, creating a continuous path upon which the planting material may travel. A compost transport system may receive the compost from the compost housing, transport the compost upwards to the depositor, and deliver the compost, as fertile soil, back to the depositor.

Embodiments of the present invention relate to systems and methods of providing a large-scale farming apparatus that utilizes a helical design for continuous crop production and cultivation. The invention generally embodies a planting material suspended between two material transport assemblies, configured to move down a helical path. In some embodiments, a depositor may deposit soil, seeds, fertilizer, etc. onto the planting material at the top of the helical path. In some embodiments, a harvester may harvest the crops at the bottom of the helical path and discard the soil into a compost housing. The material transport assemblies may travel back to the top of the helical path, creating a continuous path upon which the planting material may travel. A compost transport system may receive the compost from the compost housing, transport the compost upwards to the depositor, and deliver the compost, as fertile soil, back to the depositor.

A plant seed harvesting device comprises a multi-layer net unit; the multi-layer net unit comprises collecting net, intermediate layer net and bottom layer net; the collecting net, the intermediate layer net and the bottom layer net are all plate-like structure having a plurality of meshes; the peripheral edge of the plate-like structure is a net frame, area with the meshes is net face; The collecting net, the intermediate layer net and the bottom layer net are arranged closely in the axial direction to form the multi-layer net unit; mesh sizes on the collecting net, the intermediate layer net and the bottom layer net are configured to be successively and gradually decreased; plant seeds can pass through the meshes of the collecting net; air but not plant seeds can pass through the meshes of the bottom layer net.

A plant seed harvesting device comprises a multi-layer net unit; the multi-layer net unit comprises collecting net, intermediate layer net and bottom layer net; the collecting net, the intermediate layer net and the bottom layer net are all plate-like structure having a plurality of meshes; the peripheral edge of the plate-like structure is a net frame, area with the meshes is net face; The collecting net, the intermediate layer net and the bottom layer net are arranged closely in the axial direction to form the multi-layer net unit; mesh sizes on the collecting net, the intermediate layer net and the bottom layer net are configured to be successively and gradually decreased; plant seeds can pass through the meshes of the collecting net; air but not plant seeds can pass through the meshes of the bottom layer net.

An extractor fan for use in a sugarcane harvester is configured to generate a flow of air to separate debris from sugarcane billets produced by the sugarcane harvester. The extractor fan comprises an extractor fan blade configured to contribute to generation of the flow of air. The extractor fan blade comprises a wear indicator configured to indicate wear of the extractor fan blade.

An extractor fan for use in a sugarcane harvester is configured to generate a flow of air to separate debris from sugarcane billets produced by the sugarcane harvester. The extractor fan comprises an extractor fan blade configured to contribute to generation of the flow of air. The extractor fan blade comprises a wear indicator configured to indicate wear of the extractor fan blade.