Abstract
Enhancing process energy efficiency and increasing labor productivity in different areas including agriculture are first and foremost related to the use of robotic tools. This article presents a robotic tool based on a spiral motion system, highlighting the power supply elements of the tool, helix pitch distance and the speed of the structural elements. The paper also considers spiral system active drive options which use renewable power sources to supply power to the operating machine. The paper reviews the state of farming and considers ecological aspects of landscape farming. A spiral farming scheme has been developed geared towards small agricultural operations in different agribusiness segments, using unified wave-type equipment for robotic systems.
Highlights
Enhancing process energy efficiency and increasing labor productivity in different areas including agriculture are first and foremost related to the use of robotic tools
In Russia, a stepwise system of greening the economy has been adopted, so as to preserve and restore the environment [1], which presupposes the necessity to take into consideration the environmental regularities of joint functioning of plants, equipment and devices influencing the plant object when designing landscape farming systems
Multiple transformations of the land use system in the country have led to modern and largely privately-owned land structures characterized by internal isolation and rather remote location of operational structures in relation to one another
Summary
Enhancing process energy efficiency and increasing labor productivity in different areas including agriculture are first and foremost related to the use of robotic tools. The use of that technology provided ample opportunity to reduce labor costs, improve performed process quality, introduce automated production systems and master the precision farming technology.
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