A steam sprayer for delivering steam onto and beneath a field surface is provided. The steam sprayer comprises a support frame having a plurality of steam spraying nozzles mounted thereto and oriented substantially downwardly for spraying steam onto and beneath the field surface. At least a steam generator is connected to the steam spraying nozzles for providing steam thereto. A water heating tank is connected to each of the at least a steam generator for providing heated water at a substantially constant pressure thereto, Compressed air is provided to the water heating tank for pressurizing the water heating tank. Power is provided to the water heating tank and each of the at least a steam generator.

An implement for clipping weeds in a field, where the weeds are standing taller than the crop. The implement comprises a plurality of rotatable blades on a frame, with variable height adjustment means to elevate the frame and position the blades above the crop but at a level sufficient to clip the upper portions of the weeds, The blades are powered by PTO-driven shaft segments, the segments connected by U-joints, wherein the implement further comprises alignment means for aligning the U-joints so that the frame can be folded for transport without damaging the shafts or U-joints.

An implement for clipping weeds in a field, where the weeds are standing taller than the crop. The implement comprises a plurality of rotatable blades on a frame, with variable height adjustment means to elevate the frame and position the blades above the crop but at a level sufficient to clip the upper portions of the weeds, The blades are powered by PTO-driven shaft segments, the segments connected by U-joints, wherein the implement further comprises alignment means for aligning the U-joints so that the frame can be folded for transport without damaging the shafts or U-joints.

A system (1) for displaying an optical image (2) by means of unmanned autonomous vehicles. Each vehicle has a display for displaying at least a part of the image (2) by way of stored or transmitted image information as well as a control unit (9). The control unit (9) is configured to control the image information and to move the vehicle using a drive unit (11) by means of stored or transmitted positon information. At least two vehicles are configured as land crafts (5), wherein the displays (3) of the land crafts (5) are oriented in parallel to a substantially horizontal image plane (6) and configured as displays (3) accessible by a human person.

A cultivator for damaging undesirable plants in an agricultural setting is disclosed. Embodiments of the cultivator include one or more energy emitters that stress target biological material, and the energy emitters in particular embodiments stress plants in at least two different ways, such as imparting light at certain wavelengths that cause dual effect stressors to the plant, such as heat related stress and photochemical stress similar to a sunburn. Some embodiments include a focusing system that spreads out narrow light beams and/or brings multiple light beams together at a point that is outside the cultivator. Some focusing systems cause multiple light beams to initially diverge before converging. Some embodiments utilize unusually large mirrors to capture, for example, multiple light pathways, and direct them to the target. Advantages include the ability to accomplish weeding and/or thinning with very low overall power consumption while moving quickly through a field.

A cultivator for damaging undesirable plants in an agricultural setting is disclosed. Embodiments of the cultivator include one or more energy emitters that stress target biological material, and the energy emitters in particular embodiments stress plants in at least two different ways, such as imparting light at certain wavelengths that cause dual effect stressors to the plant, such as heat related stress and photochemical stress similar to a sunburn. Some embodiments include a focusing system that spreads out narrow light beams and/or brings multiple light beams together at a point that is outside the cultivator. Some focusing systems cause multiple light beams to initially diverge before converging. Some embodiments utilize unusually large mirrors to capture, for example, multiple light pathways, and direct them to the target. Advantages include the ability to accomplish weeding and/or thinning with very low overall power consumption while moving quickly through a field.

An implement for clipping weeds in a field, where the weeds are standing taller than the crop. The implement comprises a plurality of rotatable blades on a frame, with variable height adjustment means to elevate the frame and position the blades above the crop but at a level sufficient to clip the upper portions of the weeds, The blades are powered by PTO-driven shaft segments, the segments connected by U-joints, wherein the implement further comprises alignment means for aligning the U-joints so that the frame can be folded for transport without damaging the shafts or U-joints.

An implement for clipping weeds in a field, where the weeds are standing taller than the crop. The implement comprises a plurality of rotatable blades on a frame, with variable height adjustment means to elevate the frame and position the blades above the crop but at a level sufficient to clip the upper portions of the weeds, The blades are powered by PTO-driven shaft segments, the segments connected by U-joints, wherein the implement further comprises alignment means for aligning the U-joints so that the frame can be folded for transport without damaging the shafts or U-joints.

Methods and systems for monitoring a throughput of a crop cut from a field. The system may include, and the method may be performed at least in part using, a combine harvester including a feeder box, a main body, a threshing mechanism, and an organic material throughput sensor provided within the feeder box. The system may also include a data management system. The organic material throughput sensor senses organic material throughput data including at least one of a volume of the organic material, and a weight of the organic material, and the data management system outputs an organic material throughput map or other information based on the organic material throughput data. Using the organic material throughput data or the organic material throughput map, a producer or other operator can make a more informed planting or treatment decision for a field.

A grapevine soil-cleaning device and engineering machinery installed with the soil-cleaning device, comprising an air blower (4), an air vent direction reversal device, a soil-retaining device, an angular sensor (7) and a controller (19). The controller (19) is connected to the air blower (4), the angular sensor (7), the air vent direction reversal device and the soil-retaining device respectively. The present device achieves non-contact soil cleaning by blowing air, and has the advantages of no harmful impact on buds and branches, one-time cleaning, and highly efficient soil cleaning. The air vent direction reversal device may achieve a consistent air-blowing direction when the grapevine soil-cleaning device moves among rows of the grapevine. The soil-retaining device may hold back the blown soil and reduce the displacement distance of the blown soil. An auxiliary air pipe is provided below a main air pipe to assist soil-cleaning operations and avoid generating pits on a ridge due to concentrated wind power of the main air pipe. The air vent direction reversal, adjustment of the air power of the air blower and automated direction reversal of the soil-retaining device when moving among ridges are achieved by using the angular sensor (7) and the controller (19), thus achieving a high level of technological intelligence.