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WO2019091835A1 - Dispositif pulvérisateur agricole - Google Patents

Dispositif pulvérisateur agricole Download PDF

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Publication number
WO2019091835A1
WO2019091835A1 PCT/EP2018/079765 EP2018079765W WO2019091835A1 WO 2019091835 A1 WO2019091835 A1 WO 2019091835A1 EP 2018079765 W EP2018079765 W EP 2018079765W WO 2019091835 A1 WO2019091835 A1 WO 2019091835A1
Authority
WO
WIPO (PCT)
Prior art keywords
spray
liquid
agricultural
spray nozzle
treated
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/EP2018/079765
Other languages
German (de)
English (en)
Inventor
Olaf Ohlhafer
Hans-Arndt Freudigmann
Jochen Glasbrenner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Robert Bosch GmbH
Original Assignee
Robert Bosch GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Robert Bosch GmbH filed Critical Robert Bosch GmbH
Publication of WO2019091835A1 publication Critical patent/WO2019091835A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01MCATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
    • A01M7/00Special adaptations or arrangements of liquid-spraying apparatus for purposes covered by this subclass
    • A01M7/0089Regulating or controlling systems
    • A01M7/0096Testing of spray-patterns

Definitions

  • the invention relates to an agricultural spray device and a method for dispensing a liquid by means of the agricultural spray device according to the preamble of the independent claims.
  • the subject of the present invention is also a control device and a computer program.
  • a single flat jet nozzle has a spatially highly inhomogeneous quantity distribution. Only by spatial superimposition of the individual inhomogeneous spray profiles of the flat spray nozzles of the field spray takes place with the exception of the outer edge regions of the spray boom of the sprayer a substantially spatially homogeneous distribution of the spray mixture.
  • the spray nozzles known from the prior art and their arrangements of field sprayers are optimized for areal applications or single nozzle applications, depending on the application.
  • the desired spatial quantity distributions are achieved at a predetermined, defined distance of the nozzle to the ground. This distance is due to uneven floors, different plant heights or by a swinging sprayer boom below or exceeded, so there is sometimes a spatially highly inhomogeneous distribution of the spray on the agricultural area.
  • Plant protection product on an agricultural field with a spraying device This is to comply with distance requirements to a body of water
  • an agricultural spray device for dispensing a liquid furthermore a method for dispensing the liquid by means of the agricultural process
  • Spraying device further presented a control device and a computer program according to the main claims.
  • the approach presented here provides an agricultural spraying device with at least one spray nozzle unit for dispensing a liquid onto a region of an agricultural area to be treated, wherein the
  • Spray nozzle unit is formed, the liquid by means of at least two partially overlapping spray profiles for each a spatial single distribution of
  • Discharge liquid on each part of the agricultural area wherein the subregions partially overlap spatially and together form the area to be treated, so that a substantially spatially homogeneous overall distribution of the liquid results on the area of the agricultural area to be treated.
  • the approach presented here provides a method for dispensing a liquid onto a region of an agricultural area to be treated by means of an agricultural spraying device with at least one
  • each having a spatial individual distribution of the liquid is distributed to each subarea of the agricultural area such that the subregions partially overlap spatially and together form the area to be treated and a substantially spatially homogeneous overall distribution of the liquid on the area to be treated agricultural Area results.
  • the approach presented here creates a computer program, a machine-readable storage medium and a control device, which is set up to at least one spray nozzle unit of an agricultural spray device for dispensing a liquid onto a treatment to be treated
  • the spray device may be part of an agricultural
  • Field sprayer or a crop protection device or be designed as an agricultural sprayer or a crop protection device.
  • the spraying device can be arranged and / or arranged on or on a mobile unit.
  • the mobile unit may be designed as a land vehicle and / or aircraft and / or trailers.
  • the mobile unit may in particular be an agricultural work machine,
  • a tractor For example, a tractor, a tractor, a tractor or a
  • Spray device can also be attached to a hydraulic device
  • the spraying device is constructed on a loading surface of the agricultural machine.
  • the sprayer on the agricultural Working machine attached.
  • the agricultural spray device is designed to treat an agricultural surface with the liquid, in particular the spray mixture.
  • An agricultural area can be understood as an agricultural area, a cultivated area for plants or even a plot of such an area or cultivated area.
  • Agricultural area can thus be a field, arable land, a grassland or a pasture.
  • the plants can, for example, crops whose fruit
  • the plants can be part of the agricultural area.
  • a region of an agricultural area to be treated can be understood to mean a region of an agricultural area which is intended for treatment with a liquid. Treating the agricultural area with the liquid may in this case comprise dispensing or applying the liquid to the agricultural area and / or to a plant on the agricultural area. It is also conceivable that the treatment of the agricultural area with the liquid comprises a mechanical processing or damage, for example, of weeds on the agricultural area.
  • a liquid can be understood to mean an agriculturally usable liquid such as, for example, water.
  • the liquid is preferably a spray mixture.
  • a liquid also a
  • Suspension or an emulsion or a mixture of a suspension and an emulsion is a suspension or a mixture of a suspension and an emulsion.
  • the spray mixture has at least one active agent.
  • the active agent may be a spraying agent, ie a preparation or pesticide, in particular have a pesticide concentrate.
  • the active agent may accordingly comprise, for example, a herbicide, fungicide or an insecticide (pesticide).
  • the active agent may also comprise a fertilizer, in particular a fertilizer concentrate.
  • the agent can therefore a
  • the active agent can be formed as a liquid or as a solid, for example in the form of granules, or as a pre-dissolved solid, for example in the form of pre-dissolved granules.
  • the spray mixture preferably further comprises a liquid, in particular a carrier liquid for diluting the active agent.
  • carrier liquid can be understood as meaning a liquid which is designed to be mixed with the active agent in order to enable or to improve the dispensing or dispensing of the active agent, for example the crop protection agent or the fertilizer. It is also conceivable that a present as a solid or granules active agent is suspended in the carrier liquid. It is also conceivable that a non-soluble in the carrier liquid active agent is emulsified in the carrier liquid.
  • the carrier liquid is preferably water.
  • the spray mixture is preferably formed as a diluted pesticide or diluted fertilizer.
  • the spray device preferably has a spray tank for receiving the spray mixture and at least one spray nozzle unit for discharging the
  • the spray mixture can be guided or directed by the spray-bath tank by means of a spray-broth line or several spray-broth lines to the spray-nozzle unit. Under a line or spray line can be used in the present
  • the line can be called fluidic
  • Connecting line for example in the form of a pipe, tube, channel or a tube may be formed.
  • the spray mixture can be mixed into the spray liquid tank
  • Sprayer be filled.
  • the spray mixture can only Spray device are mixed.
  • the spray device in the flow direction of the spray mixture upstream of the spray chamber have a mixing unit, in which the liquid from a liquid tank of the spray device and the active agent from a
  • Active agent tank of the spray device are guided or conducted.
  • a liquid delivery unit may be provided, which is designed to selectively convey or convey the liquid from the liquid tank via a liquid line to the mixing unit.
  • an active agent delivery unit can be provided, which is designed to selectively convey or guide the active agent from the active agent tank via an active agent line to the mixing unit.
  • the conveyor units can have one or more metering units or metering components.
  • the metering units or metering components may comprise one or more pumps or metering pumps and valves. At least one of the
  • Conveyor units can be designed to increase the injection pressure at the
  • Spray nozzle unit that is, to generate the pressure with which the spray mixture is discharged.
  • a mixing unit can in the context of the present invention, a
  • the mixing unit can have a mixing and / or stirring element in order to actively mix the liquid and the active agent.
  • the mixing unit can at least each have an inlet for the liquid and the active agent. That is, in other words, that the liquid and the active agent can be fed separately, that is, by means of separate lines directly into the mixing unit.
  • a common inlet on the mixing unit may be in the form of a T-piece
  • the mixing unit may have at least one outlet for the mixed or mixed spray mixture, for example in a lower area. It is also conceivable that the mixing unit as a static mixing unit or static mixer is trained. However, the mixing unit can also be designed only as a T-piece, so that a passive mixing takes place in it.
  • the spray tank can be designed as a buffer tank.
  • the buffer tank may be disposed in the spray liquor line downstream of the mixing unit. In other words, in the flow direction of the spray mixture, the buffer tank travels from the mixing unit to the spray nozzle unit
  • the buffer tank can thus be arranged spatially in the spray liquor line between the mixing unit and the spray nozzle unit, so that the spray mixture from the
  • the spray device may have a spray delivery unit which is located in the spray line downstream of the
  • the spray liquid feed unit can then be designed, the spray mixture from the spray liquid tank or buffer tank under pressure or under a defined pressure to the spray nozzles
  • the spray delivery unit may in particular be designed to generate a constant pressure, that is to say be configured as a constant pressure system, in order to achieve a constant or uniform injection pressure at the spray nozzles
  • Spray pressure is generated by the spray liquid feed unit, the
  • Liquid delivery unit and the active agent delivery unit be very simple, since they only have to take over the task of supplying the liquid or the active agent in the buffer tank.
  • the buffer tank can be designed as an accumulator, for example with media separation (spray mixture - air).
  • the pressure control in the buffer tank can then be done via a pneumatic pressure control valve, so that possible pressure fluctuations in the system can be reduced.
  • the spray liquor conveying unit is preferred however, disposed downstream of the spray booth, whereby the buffer tank can be designed without pressure.
  • the buffer tank may be formed without pressure, for example by means of a vent hole.
  • Vent hole may have a vent valve.
  • the buffer tank is fluidly connected to the environment
  • the liquid delivery unit can be a simple
  • Liquid delivery unit have a metering pump with a fixed delivery ratio (without measuring the delivery volume). It is also conceivable that the
  • Fluid delivery unit a simple valve or proportional valve in
  • the liquid delivery unit has a constant pressure source and a metering orifice.
  • Active substance delivery unit can be a simple alternative to the metering pump
  • Feed pump in conjunction with a flow meter (control) have.
  • the active substance delivery unit can additionally have at least one metering orifice in this case.
  • the buffer can be designed very easily and essentially without static requirements, whereby the total cost can be further reduced.
  • the spray nozzle unit has in each case at least one spray nozzle for discharging the liquid, in particular the spray mixture, and at least one valve for controlling or regulating the discharged quantity of liquid, in particular of spray liquor. It is advantageous if the spray nozzle unit has at least two spray nozzles for producing the at least two spray profiles, in particular further comprises a valve unit. As a result, the spray nozzle unit is designed to deliver at least two spray profiles simultaneously in order to achieve the substantially spatially homogeneous overall distribution on the agricultural surface.
  • the valve can be arranged or integrated in the spray nozzle. However, the valve can also upstream of the spray nozzle, that is (in
  • Flow direction of the liquid may be arranged upstream of the spray nozzle.
  • the spray nozzle unit may also have a plurality of spray nozzles, each with an upstream valve.
  • the spray nozzle unit can also have a plurality of spray nozzles with only one upstream of the spray nozzle, so that upon actuation of the valve, the spray mixture is discharged by means of all spray nozzles of the spray nozzle unit.
  • the spray nozzle unit may also have a final mixing unit, which is formed, the spray mixture with the liquid and / or the active agent and / or another
  • Agent - which are conductive by means of appropriate lines to the Endmischü or feasible - to mix.
  • the spray nozzle unit is designed to deliver the liquid by means of at least two spray profiles that are partially overlapping.
  • a spray profile can be understood to be a characteristic, in particular a spatial distribution of the discharged liquid. It is conceivable that the spray profile over a spray angle, a spray width at a defined spray height, a volume flow, a size distribution of
  • Liquid drop of the discharged liquid, a speed of the liquid droplets, an impact force of the discharged liquid is defined on a surface.
  • the spray nozzle unit is formed, the liquid at the same time by means of at least two, in particular two different
  • the spray nozzle unit is formed, the liquid over at least a certain injection duration or
  • Spray duration simultaneously using two spray profiles.
  • Several Spray profiles can overlap spatially when the liquid is dispensed at least for a certain injection time simultaneously with the multiple spray profiles.
  • the liquid is dispensed from a plurality of spray openings or spray nozzles of the spray nozzle unit and / or by a plurality of spray nozzle units.
  • the plurality of spray profiles may differ in particular in a spatial distribution of the liquid, a spray angle, a spray width at a defined spray height, a volume flow, a velocity of the liquid droplets and / or an impact force of the liquid dispensed onto a surface. This is already a single one
  • Spray nozzle unit formed, a substantially spatially homogeneous
  • the spray profiles for the substantially spatially homogeneous overall distribution on the agricultural surface can be set and / or adapted to each other by specifying at least one of the following parameters: spray angle of the spray nozzle unit, spray pattern of
  • Spray nozzle unit pressure of the liquid at the spray nozzle unit
  • the agricultural spray device is designed to achieve a spatially particularly homogeneous overall distribution of the liquid.
  • volume flow of the liquid per area to be treated is treatable.
  • a predetermined setpoint value for a volume flow of the liquid per area can be achieved or maintained in a particularly simple manner.
  • Agricultural area forms a spatial single distribution of discharged liquid on the agricultural area.
  • the spatial individual distribution of the liquid is indicated by an indication of the
  • the individual distribution may be substantially spatially homogeneous or substantially spatially inhomogeneous. That is, in other words, the liquid can in
  • a substantially spatially homogeneous distribution of the liquid is a distribution of the liquid, which in particular also has a homogeneous distribution of the liquid in a spatial edge region of the distribution.
  • the substantially spatially homogeneous distribution thus drops rapidly and steeply in the spatial border area of the distribution.
  • the liquid in the edge region of the distribution is perpendicular to the agricultural surface.
  • Subareas of the agricultural area are spatially superimposed or add up to a total distribution of the liquid. It is advantageous if the spatial individual distributions of the liquid on the respective subregions of the agricultural surface are substantially spatially inhomogeneous. In this case, the individual, essentially spatially inhomogeneous individual distributions overlap to form a substantially spatially homogeneous overall distribution of the liquid. This can vary depending on
  • Spraying device the liquid in particular in applications in which one or more spray nozzle units are switched on or off, on the areas of the agricultural area to be treated, especially in the overall distribution are applied substantially spatially homogeneous.
  • the individual distributions of the individual spray profiles need not be homogeneous. Rather, the substantially spatially homogeneous distribution of the liquid is created by the defined spatial superposition of the individual distributions, so that spray nozzle units with spatially inhomogeneous
  • the spray nozzle unit is designed to dispense the liquid by means of a plurality of spray profiles each for a spatial single distribution of the liquid on each subarea of the agricultural area, wherein the spray profiles are formed side by side and spatially adjacent spray profiles superimposed, wherein adjacent portions partially spatially superimpose and together form the area to be treated, so that a substantially spatially homogeneous overall distribution of the liquid results on the area of the agricultural area to be treated.
  • the agricultural spray device is formed, regardless of the number of Spray profiles to achieve a spatially homogeneous overall distribution of the liquid on the treated area of the agricultural area.
  • the agricultural spray device has at least one further spray nozzle unit, which is designed, the
  • the agricultural spray device is designed to simultaneously treat a plurality of spatially spaced areas of the agricultural area to be treated with the liquid. For example, a spray mixture with the
  • spray nozzle units can be selectively dispensed onto isolated, spatially spaced weeds.
  • a spatial distance between the spray nozzle units is selected such that the areas of the agricultural area to be treated are substantially spatially adjacent to one another. In other words, the areas of the agricultural area to be treated neither overlap nor have a spatial separation.
  • a spatial distance between two spray nozzle units can be understood to mean a distance between the spray nozzles of the spray nozzle units if the spray nozzle units each have only one spray nozzle. If at least one of the spray nozzle units has a plurality of spray nozzles, the smallest distance between two spray nozzles of the two spray nozzle units can be understood as the spatial distance between the spray nozzle units. It is conceivable that the distance between the spray nozzle units is chosen as small as possible. It is also conceivable that the distance between the
  • Spray nozzle units depends on the spray profiles of the spray nozzle units.
  • the distance may depend in particular on the spray angle of the spray profile. It is conceivable that the distance between the spray nozzle units is selected such that the respective substantially spatially homogeneous
  • This is the agricultural Spraying device is formed, the liquid on a treated area of the agricultural area, which is composed of several contiguous individual areas to be treated, by means of several adjacently arranged spray nozzle units simultaneously to a in
  • the spatial distance between the two spray nozzle units smaller, in particular substantially smaller than the spatial distance between the spray nozzles of the respective spray nozzle unit.
  • the distance may be less than ten inches, especially less than or equal to five inches.
  • Spray nozzle unit of the spray device and / or
  • Condition information of the agricultural area are controllable.
  • the spray nozzle units can be connected independently of one another and / or switched off. It is also conceivable that the spray nozzle unit is designed to dispense the liquid with a spatially inhomogeneous spray profile, if an adjacent spray nozzle unit also emits liquid with a spatially inhomogeneous spray profile.
  • the spray nozzle unit is designed to dispense the liquid with a spatially inhomogeneous spray profile, if an adjacent spray nozzle unit also emits liquid with a spatially inhomogeneous spray profile.
  • Spray nozzle unit formed, the liquid only by means of at least two partially overlapping spray profiles to the two spatial
  • Spray nozzle unit does not give off any liquid. Furthermore, it is conceivable that the Injection nozzle units in the presence of a in the form of
  • Property information represented property and / or a state of the agricultural area represented in the form of the state information can be switched on and / or off. It is also conceivable that the
  • Property information of the agricultural area may be selected from the following group of characteristics of agricultural areas and / or plants on the agricultural area comprising: species, genus, variety, varietal purity, surface texture, sensitivity to external, especially mechanical influences, nature of a soil.
  • status information of the agricultural area can be selected from the following group of states
  • Area comprising: age, growth stage, state of development,
  • the status information of the agricultural area may be a measure of a number, a position or a size of plants on the
  • a computer program product or computer program with program code which can be stored on a machine-readable carrier or storage medium such as a semiconductor memory, a hard disk memory or an optical memory and for carrying out, implementing and / or controlling the steps of the method according to one of the embodiments described above is used, especially when the program product or program is executed on a computer or a device.
  • the inventive method can, for example, in software or hardware or in a hybrid of software and hardware, for example in a
  • Fig. 1A-C is a schematic representation of an agricultural item
  • Fig. 2A, B is a schematic representation of spray profiles
  • FIG. 3 is a flowchart of a method according to a
  • Fig. 1A-C respectively, an agricultural spray system is shown, which is provided in its entirety by the reference numeral 10.
  • the agricultural spraying system 10 comprises a tractor 12 and a spraying device 14 designed as a mounted sprayer 14.
  • the mounted sprayer 12 is arranged on the tractor 12.
  • the mounted sprayer 14 has a liquid tank 16 for a spray mixture, a spray boom 18 and a control device 20.
  • the spray boom 18 is divided into seven sections 22. Each of the sections 22 has at least one spray nozzle unit with several associated
  • the spray nozzles 24, 26, 28, 30 are connected to the liquid tank 16 via hose connections (not shown).
  • the spray nozzles 24, 26, 28, 30 are formed to spray the spray mixture from the tank 16 onto an agricultural surface 32.
  • Each of the spray nozzles 24, 26, 28, 30 has a valve associated with the spray nozzle 24, 26, 28, 30.
  • the respective valve is arranged upstream of the associated spray nozzle 24, 26, 28, 30 at the corresponding partial width 22.
  • the control device 20 is electronically connected to each of the spray nozzles 24, 26, 28, 30 such that the valves can be actuated automatically via the control device 20 and targeted delivery of the spray mixture by the spray nozzles 24, 26, 28, 30 is possible.
  • Fig. 1A 22 two spray nozzle units are arranged at each partial width.
  • Each of the spray nozzle units has a first spray nozzle 24 and a second one
  • the first spray nozzle 24 is designed to deliver the spray mixture to a first partial area 44 of the agricultural area 32 by means of a first spray profile 34 to form a first spatial single distribution.
  • the second spray nozzle 26 is designed to deliver the spray mixture simultaneously with the first spray nozzle 24 by means of a second spray profile 36 to a second spatial individual distribution onto a second partial region 46 of the agricultural surface 32.
  • the partial regions 44, 46 are partially spatially superimposed and together form the region 42 to be treated.
  • each individual spray nozzle unit with the two spray nozzles 24, 26 is designed to produce a substantially spatially homogeneous overall distribution of the spray mixture on the area to be treated 42 of the agricultural surface 32.
  • a spray nozzle unit is arranged on each partial width 22.
  • the spray nozzle unit has the first spray nozzle 24, the second spray nozzle 26 and a third spray nozzle 28.
  • the third spray nozzle 28 is formed, the
  • Spray mixture simultaneously with the first and the second spray nozzle 24, 26 by means of a third spray profile 28 to deliver a third spatial distribution on a third portion 48 of the agricultural area 32.
  • the spray nozzle unit with the three spray nozzles 24, 26, 28 is designed to produce a substantially spatially homogeneous overall distribution of the spray mixture on the area to be treated 42 of the agricultural surface 32.
  • a plurality of third spray nozzles 28 and a plurality of fourth spray nozzles 30 are arranged at each partial width 22.
  • the fourth spray nozzle 30 is formed, the spray mixture by means of a fourth spray profile 30 to a fourth spatial Dispense single distribution on a fourth portion 50 of the agricultural area 32.
  • the affiliation of a spray nozzle 28, 30 to a spray nozzle unit depends on the control of the individual spray nozzles 28, 30 and may change during the treatment of the agricultural surface 32.
  • the spray nozzles 28, 30 belonging to a spray nozzle unit are arranged adjacent to the spray boom 18.
  • An injection nozzle unit comprises adjacently arranged third spray nozzles 28 when these third spray mixtures 28 deliver spray mixture, and the fourth spray nozzles 30 disposed between these third spray nozzles 28, which do not emit spray, and arranged at the two outer edges of the spray nozzle unit fourth spray nozzles 30, which in turn Release spray mixture.
  • Exemplary embodiment has a first spray nozzle unit at least two fourth spray nozzles 30 and a third spray nozzle 28.
  • a second spray nozzle unit has three fourth spray nozzles 30 and two third spray nozzles 28.
  • a third spray nozzle unit comprises four fourth spray nozzles 30 and three third spray nozzles 28.
  • a third subregion 48 with one or two fourth subregions 50 and possibly two third subregions 48 are each partially overlapped with one another spatially and together form the region 42 to be treated.
  • the fourth spray nozzles 30 are designed to release liquid only if exactly one of the two adjacent third spray nozzles 28 delivers liquid.
  • the spray nozzle units with the spray nozzles 28, 30 are designed to produce a substantially spatially homogeneous overall distribution of the spray mixture on the area 42 of the agricultural area 32 to be treated.
  • Fig. 2A, B shows a schematic representation of spray profiles 34, 36, 38, 40 of an agricultural spray device 10 shown in Figs. 1A-C and the associated spatial distributions 54, 56, 58, 60, 62 of the liquid.
  • Fig. 2A represents a partial width 22 of a spray boom 18 with two
  • Each of the spray nozzle units has the first Spray nozzle 24, the second spray nozzle 26 and the third spray nozzle 28.
  • the three spray nozzles 24, 26, 28 of a spray nozzle unit are arranged side by side on the partial width 22.
  • the spray nozzle units are spatially adjacent to each other, so that all weeds on the agricultural surface 32 are treatable and no resistance formation occurs.
  • Fig. 2A shows the spatial distribution of the discharged volume flow
  • the spatial individual distributions 54, 56, 58 produced by the injection profiles 34, 36, 38 partially overlap spatially and result in a substantially spatially homogeneous overall distribution 62 of the spray mixture.
  • FIG. 2B shows a partial width 22 of a spray boom 18 with a plurality of third and fourth spray nozzles 28, 30 according to the exemplary embodiment from FIG. 1C.
  • the third and fourth spray nozzles 28, 30 are alternating
  • Fig. 2B shows the spatial distribution of the applied volume flow
  • the spatial individual distributions 58, 60 generated by the spray profiles 38, 40 are partially superimposed spatially and result in a substantially spatially homogeneous overall distribution 62 of the spray mixture.
  • the method includes a step 110 of providing a
  • the method comprises a step 120 of dispensing the liquid onto the area to be treated 42 of the agricultural area 32 by means of the agricultural spraying device 10.
  • the step 120 is subdivided into two sub-steps 122 and 124, which are carried out simultaneously.
  • the liquid is dispensed by means of a first spray profile 34 to a first spatial individual distribution 54 of the liquid on a first subregion 44 of the agricultural surface 32.
  • sub-step 124 the liquid by means of a second
  • the subregions 44, 46 are partially spatially superimposed and together form the area 42 of the agricultural area 32 to be treated, so that a substantially spatially homogeneous overall distribution 62 of the liquid on the area to be treated 42 of the agricultural area
  • an exemplary embodiment comprises an "and / or" link between a first feature and a second feature, then this is to be read so that the embodiment according to one embodiment, both the first feature and the second feature and according to another embodiment either only first feature or only the second feature.

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  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Insects & Arthropods (AREA)
  • Pest Control & Pesticides (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Environmental Sciences (AREA)
  • Catching Or Destruction (AREA)

Abstract

L'invention concerne un dispositif pulvérisateur agricole (10) pourvu d'au moins une unité à buse de pulvérisation servant à distribuer un liquide sur une zone à traiter (42) d'une surface agricole (32). L'unité à buse de pulvérisation est réalisée pour distribuer le liquide au moyen d'au moins deux profils de pulvérisation (34, 36, 38) se superposant en partie aux fins de respectivement une répartition unique spatiale du liquide sur respectivement une zone partielle (44, 46, 48) de la surface agricole (34). Les zones partielles (44, 46, 48) se superposent en partie spatialement et forment conjointement la zone à traiter (42) de sorte qu'il en résulte une répartition globale sensiblement homogène spatialement du liquide sur la zone à traiter (42) de la surface agricole (32).
PCT/EP2018/079765 2017-11-10 2018-10-30 Dispositif pulvérisateur agricole Ceased WO2019091835A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102017220036.7 2017-11-10
DE102017220036.7A DE102017220036A1 (de) 2017-11-10 2017-11-10 Landwirtschaftliche Spritzvorrichtung

Publications (1)

Publication Number Publication Date
WO2019091835A1 true WO2019091835A1 (fr) 2019-05-16

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WO (1) WO2019091835A1 (fr)

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CN112970706B (zh) * 2021-02-05 2022-05-03 盐城工学院 一种基于激光扫描检测的连续仿形变量喷雾方法
DE102021109914A1 (de) 2021-04-20 2022-10-20 Horsch Leeb Application Systems Gmbh Landwirtschaftliche Feldspritze und Spritzvorrichtung für eine landwirtschaftliche Feldspritze
DE102021111357A1 (de) 2021-05-03 2022-11-03 Horsch Leeb Application Systems Gmbh Landwirtschaftliche Feldspritze und Spritzvorrichtung für eine landwirtschaftliche Feldspritze sowie Verfahren zur Anpassung einer Spritzvorrichtung für eine reihenbezogene Ausbringung von Spritzflüssigkeit

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