Abstract: The present invention provides an irrigation system that includes a control system for determining whether to apply an applicant to an agricultural field. In an implementation, the control system includes memory operable to store one or more modules and a processor coupled to the memory. The processor is operable to execute the one or more modules to cause the processor to receive one or more signals representing a microbe characteristic from a soil sensor. The processor is also operable to determine whether to apply an applicant (i.e., water having a concentration of a biological or a microbe therein) to a soil based upon the microbe characteristics and to initiate operation of the irrigation assembly to apply the applicant to the soil in response when the soil requires the applicant.

Abstract: The present invention provides a pull-out force compensating gearbox mount for an irrigation machine. According to an exemplary preferred embodiment, the present invention provides a system to counteract pull-out forces by inducing camber into the wheel gearbox and thus the tire. According to a further preferred embodiment, the tire of the present invention preferably begins to camber as a result of excessive pull-out force, with the bottom of the tire moving outwards relative to the top of the tire. This camber action is preferably applied to mitigate the pull-out forces. According to a further preferred embodiment, when excessive pull-out forces are reduced, the tire is then returned to its original position.

Abstract: The present invention provides a system, method and apparatus for spraying the leaf and root areas of plants. According to an exemplary preferred embodiment, the present invention provides a foliar chemical application package which is designed specifically to deliver a chemical solution to the leaf area of plants in which the chemical will primary enter the plant through the foliar area rather than the root zone. According to a further preferred embodiment, the present invention teaches a system, method and apparatus for providing a specialized foliage spraying application in which water supply lines and chemical supply lines are individually controlled so that applicants, such as different chemicals received from different chemical tanks, may be simultaneously applied to a given crop.

Abstract: The present invention provides a remotely mounted gearbox breather for an irrigation machine. According to a preferred embodiment, the system of the present invention may preferably include a gearbox having a gearbox fill port and a breather line which is attached at a first end to the gearbox at the gearbox fill port using a connection assembly and at a second end to the breather assembly. According to a further preferred embodiment, the connection assembly of the present invention may preferably include a first street elbow connected at a first side to the gearbox; a first pipe extension connected to the first elbow and a second elbow; and a hose barb connected to the first end of breather line.

Abstract: The present invention provides a system and method which combines sensor inputs, control systems, field mapping, motor controls, and high speed and variable speed motor designs within an irrigation machine. According to a preferred embodiment, the present invention provides systems which are capable of full torque operation, even at speeds less than the rated speed of the motor. According to further preferred embodiments, the present invention utilizes a combination of motor types including Switch Reluctance, DC Permanent Magnet and AC Permanent Magnet motors in combination with Variable Frequency Drives.

Abstract: A post is provided which includes apertures on alternate sides of the post which, in use, receive and retain at least one cable therein, the same number of apertures are on each side of the post wherein each aperture: has a side opening in the form of a mouth, wherein the mouth is at a distal region thereof configured to have a top surface with an angle greater than the angle at a proximate region of the mouth so as to reduce the travel path of, and/or; any frictional contact with; the cable, during ejection from aperture following a collision.

Abstract: The present invention provides a system which allows users to mount multiple pieces of equipment to a tower and it has the unique capability to adjust a steel frame to level without additional equipment. In accordance with a first preferred embodiment, the present invention includes a duel locking system that includes a taper adjusting bolt to adjustably position the frame level with the earth. Further, the dual locking system of the present invention preferably further includes the use of retaining bolts to keep the assembly positioned correctly. According to a further aspect of the present invention, once the taper adjusting bolt is in its desired position, the retaining bolts are preferably tightened to lock the frame in place, with the taper adjusting bolt acting as a redundant measure to help maintain the level state.

Abstract: The present invention provides a system for aligning drive towers within an irrigation system. According to a preferred embodiment, the present invention relates generally to a system and method for alignment control of irrigation spans and, more particularly, to a system and method for GPS alignment of irrigation spans using real-time kinetics sent via power line carrier.

Abstract: A cross-bracing arrangement is provided for bracing between two hollow structural poles. The bracing arrangement provides for pivoting between the cross-brace and each of the hollow structural poles, for adjustment of the effective length of the cross-brace, and for angular adjustment of one end of the cross-brace relative to the other end of the cross-brace.

Abstract: The present invention provides a system which allows users to mount multiple pieces of equipment to a tower and it has the unique capability to adjust a steel frame to level without additional equipment. In accordance with a first preferred embodiment, the present invention includes a duel locking system that includes a taper adjusting bolt to adjustably position the frame level with the earth. Further, the dual locking system of the present invention preferably further includes the use of retaining bolts to keep the assembly positioned correctly. According to a further aspect of the present invention, once the taper adjusting bolt is in its desired position, the retaining bolts are preferably tightened to lock the frame in place, with the taper adjusting bolt acting as a redundant measure to help maintain the level state.

Abstract: The present invention provides a method and apparatus for energy absorption and vibrational dampening in a horizontal plane. According to a first preferred embodiment, the present invention discloses an apparatus for damping vibration of a pole which includes a housing with a horizontal floor having an inward curved surface for achieving vibration attenuation at a middle portion thereof to form an enclosed chamber. According to a further aspect of the first embodiment, at least one damping weight is preferably disposed in the inward curved surface and is preferably substantially spherical in shape. According to a further preferred embodiment, at least one dampening weight of the present may preferably include a hollow, inner cavity. According to further aspects of the present invention, the dampening weight preferably may further include a granular material located within the inner cavity.

Abstract: There is provided a utility pole assembly including a utility pole. The utility pole includes a plurality of pole segments. A first said pole segment includes a flange and an end portion extending outwards from the flange. A second said pole segment is shaped to fit about the end portion. The second said pole segment having a distal end and including a flange adjacent to said distal end of the second said pole segment. The assembly includes at least one longitudinally-extending guide pin connectable with a first one of the flanges. The guide pin is at least partially extendable through a second one of the flanges.

Abstract: The present invention provides a system and method for tracking chemical applications and providing warnings regarding chemical exposure times.

Abstract: The present invention provides a system for combining the use of near real-time and/or real-time data acquired from an array of single purpose or integrated sensors mounted on a mechanized irrigation machine. According to a preferred embodiment, the integrated sensor of the present invention preferably provides for the collection of a variety data. According to a further preferred embodiment, the integrated sensor suite of the present invention may preferably include internally mounted sensors within a common housing which preferably includes a spectrometer, a radiometer and sensors to measure temperature, rainfall, relative humidity and barometric pressure. According to a further preferred embodiment, the number of integrated sensors mounted on a mechanized irrigation machine may preferably be determined based on a detected number of management zones and/or a detected location.

Abstract: The present invention provides a system and method which includes a crop/soil analysis module which analyzes data collected and feeds the machine learning module, from one or more sources including imaging data from UAVs, satellites, span mounted crop sensors, in situ field and weather sensors. According to a further preferred embodiment, aerial data is combined and overlaid with span mounted sensor data in near real-time to generate irrigation management recommendations. According to a further preferred embodiment, the span mounted sensors may preferably provide field specific data of current field conditions and may preferably use the system's analytics to calculate crop water use and crop water stress index. According to a further preferred embodiment, vegetation indexes may preferably be calculated as checks against the values calculated from the aerial data and to provide information if cloud cover or other atmospheric interference is present.

Abstract: The present invention provides a remotely mounted gearbox breather for an irrigation machine. According to a preferred embodiment, the system of the present invention may preferably include a gearbox having a gearbox fill port and a breather line which is attached at a first end to the gearbox at the gearbox fill port using a connection assembly and at a second end to the breather assembly. According to a further preferred embodiment, the connection assembly of the present invention may preferably include a first street elbow connected at a first side to the gearbox; a first pipe extension connected to the first elbow and a second elbow; and a hose barb connected to the first end of breather line.

Abstract: The present invention discloses a system and method for irrigation management using VRI ray casting algorithms within irrigation machine workflows. According to an exemplary preferred embodiment, the present invention may preferably include: a position sensor which determines a position of the irrigation system; a memory system storing a prescribed watering plan for a field; and a variable rate mapping program using VRI ray casting algorithms.

Abstract: The present invention provides a system and method for providing drive shaft braking for an irrigation machine. According to an exemplary preferred embodiment, the present invention includes a system for providing drive shaft braking during the operation of an irrigation machine where the irrigation machine includes a drive system having a drive motor and a drive shaft. According to a preferred embodiment, the system in accordance with the present invention preferably includes a cam attached to the drive shaft, an extension arm having a first securing point, a securing arm having a second securing point and a spring attached between the first securing point and the second securing point. According to a further preferred embodiment, the system of the present invention preferably further includes a follower mechanism secured to the extension arm, which applies continual frictional pressure to the drive shaft in response to the force applied by the spring to the follower through the extension arm.

Abstract: The present invention provides a system and method which combines sensor inputs, control systems, field mapping, motor controls, and high speed and variable speed motor designs within an irrigation machine. According to a preferred embodiment, the present invention provides systems which are capable of full torque operation, even at speeds less than the rated speed of the motor. According to further preferred embodiments, the present invention utilizes a combination of motor types including Switch Reluctance, DC Permanent Magnet and AC Permanent Magnet motors in combination with Variable Frequency Drives.

Abstract: The present invention provides an electronic braking system for an irrigation machine. According to an exemplary preferred embodiment, the present invention includes a drive controller which includes a power supplying circuit which signals an ON condition when a motive power request is input into the drive controller and an OFF condition when motive power is not input into the system. According to a further preferred embodiment, the present invention further includes a 3-phase induction motor connected to apply torque to a drive shaft which is connected to a least one drive wheel. According to a further preferred embodiment, the power supplying circuit supplies 480V AC of motive power to the drive motor when the drive controller signals the ON condition and 10-80V DC of non-motive power to at least one phase of the motor when the drive controller signals the OFF condition.