CN206517803U - A kind of variable fertilization adjusting means - Google Patents
A kind of variable fertilization adjusting means Download PDFInfo
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- CN206517803U CN206517803U CN201720200980.9U CN201720200980U CN206517803U CN 206517803 U CN206517803 U CN 206517803U CN 201720200980 U CN201720200980 U CN 201720200980U CN 206517803 U CN206517803 U CN 206517803U
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- expelling shaft
- fertilizer expelling
- plectrum
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Abstract
The utility model is related to a kind of variable fertilization adjusting means, including receptacle, frame, fertilising performs device, opening adjusting device;Performs device of applying fertilizer includes fertilizer apparatus, outer groove-wheel, fertilizer expelling shaft.Fertilizer apparatus has multiple and array in the lower section of receptacle, and multiple fertilizer apparatus linkages are unified to carry out dose variable regulation;Opening adjusting device includes reducing gear, screw-nut body, plectrum device, stepper motor and its control system;During work, stepper motor combination reducing gear drives leading screw to rotate, and the plectrum on leading screw is axially moved along leading screw, stirring fertilizer expelling shaft by plectrum axially moves, and then changes the aperture of outer groove-wheel to adjust defertilizing amount.Planet gear reducing mechanism is added in the utility model, moment of torsion is added, the load of stepper motor is alleviated, can realize that stepping motor rotates the axial movement for being precisely controlled fertilizer expelling shaft, improve the dynamic accuracy of variable fertilizer applicator.
Description
(1) technical field
The utility model is related to a kind of variable fertilization adjusting means, belongs to agricultural machinery technological field.
(2) background technology
Variable fertilization is the key link in precision agriculture.In the fertile application stages of rice McGee, traditional fertilization mode is to plant
Growing area large area applies the fertilizer of equivalent, but different plot soil fertility situation is different, using the fertilizer of same dose, can cause
It is very big to waste, cause burning kind, burn seedlings, a series of the problems such as also producing environmental pollutions.Therefore should be according to different plot, different soil
The need for earth and Different Crop growing environment, using the fertilization mode of variable fertilization.
The mechanical spininess of external variable fertilization is directed to solid granulates fertilizer to liquid fertilizer, only a small number of variable fertilization types,
It is to the fertile Variable Control of solid granulates mainly using the control such as automatically controlled, hydraulic control, pneumatic control and mechanical variable speed
Mode processed.But it is due to the differences such as the agriculture requirement that domestic and international rice wheat seeds are planted, these technologies can not directly introduce popularization.The country,
Professor Liu Chengliang of Shanghai Communications University in 2005 has succeeded in developing the automatic sowing based on global positioning system, fertilising, rotary tillage
All-in-one.2007, Jilin Agriculture University Development and design realized that the automatic variable of variable operation is applied fertilizer by variable hydraulic motor
Machine, the rotating speed of variable hydraulic motor is inversely proportional with its volume, and system is by controlling the volume of variable hydraulic motor to realize hydraulic pressure
Motor rotary speed is controlled, and realizes variable fertilization.A kind of bivariate fertilizer applicator hydraulic pressure of the Zhang Lixin teaching inventive of Shihezi Univ without
Pole governing system, the system changes the rotating speed and axial displacement of fertilizer expelling shaft to realize that bivariate state modulator is applied using hydraulic motor
Fertilizer.
Domestic variable fertilization machinery is also in the experimental study stage, and existing stroking mechanism is controlled outer using hydraulic pressure mostly
Grooved pulley type fertilizer apparatus, by controlling the rotating speed or aperture (effective active length) of outer groove-wheel, realizes the change of defertilizing amount, controlled
Journey is complicated, and accuracy is poor and hydraulic test is expensive, it is difficult to promoted on a large scale in China.
(3) content of the invention
In order to solve problem present in existing variable fertilization machinery, the utility model is adjusted there is provided a kind of variable fertilization
Device, the characteristics of device has reliable and stable and high fertilising accuracy of measurement is fertile on demand using stepper motor and screw-nut body
Amount carries out Tree Precise Fertilization.
The technical solution adopted in the utility model is as follows:
A kind of variable fertilization adjusting means, frame and the receptacle being fixed in frame, fertilising performs device and aperture are adjusted
Regulating device.
Described fertilising performs device includes fertilizer apparatus, fertilizer expelling shaft.Described fertilizer apparatus is multiple to be located at receptacle side by side
Lower section;Fertilizer apparatus is made up of defertilizing box and outer groove-wheel, and outer groove-wheel is arranged on inside defertilizing box and can rotated, by the fertilizer in defertilizing box
The dynamic discharge of material strip.Described outer groove-wheel is coaxially fixed on fertilizer expelling shaft with fertilizer expelling shaft, and outer groove-wheel rotates in same direction with fertilizer expelling shaft.It is described
Fertilizer expelling shaft be arranged on the lower section of receptacle, fertilizer expelling shaft is connected by chain with the land wheel of fertilizer machine.Land wheel is produced with ground friction
It is raw to rotate, and then drive outer groove-wheel to rotate by fertilizer expelling shaft.Outer groove-wheel in multiple fertilizer apparatus is also secured to same fertilizer
It is unified to carry out dose variable regulation, Neng Goushi on axle so that fertilizer expelling shaft controls multiple outer groove-wheels rotationally and axially to move simultaneously
Existing wide cut multirow fertilising.
Described opening adjusting device, including reducing gear, screw-nut body, plectrum and stepper motor and its control system
System.Described reducing gear is arranged on below fertilizer expelling shaft, is fixed on frame side wall.Described reducing gear is by worm gear, worm screw
With planetary wheeling mechanism composition, worm screw is connected by shaft coupling with stepper motor.The worm gear is annular shape, inner periphery and excircle
It is designed with tooth.Tooth and some gears being arranged in inner periphery on the worm gear excircle and worm engaging, worm gear inner periphery
Constitute epicyclic train.The epicyclic train includes a centre wheel and three planetary gears, and three planetary gears are justified along centre wheel
Week is evenly arranged with 120 ° for interval;Three described planetary gears are engaged with the tooth on worm gear inner periphery;In three planetary gears
Between be provided with centre wheel, the centre wheel respectively with three planetary gears simultaneously engagement rotation.By stepper motor as driving source, pass through
Worm screw drives worm gear wheel, and worm gear drives three planetary gears to rotate and then centre wheel is produced rotation as gear ring.Worm screw is led
Journey angle is less than the equivalent friction angle between worm gear teeth so that worm-and-wheel gear has self-locking performance, it is to avoid dialled in traveling process
Piece arbitrarily produces movement because of reasons such as vibrations.
Described screw-nut body includes leading screw and plectrum.Described leading screw one end is connected by key with described centre wheel
Connect, leading screw can be rotated with the rotation of centre wheel.Leading screw is set in parallel in below fertilizer expelling shaft.One end of the plectrum and fertilizer
Axle is connected;The other end of plectrum is provided with screwed hole, is connected with leading screw.Between plectrum and fertilizer expelling shaft by be arranged side by side two
Individual thrust bearing connection, two thrust bearings are reversely installed, and apply the axial thrust of two opposite directions to fertilizer expelling shaft respectively, and
The rotation of fertilizer expelling shaft is not interfered with.Due to worm drive principle, plectrum can be produced along the axial direction of leading screw with the rotation of leading screw
Motion, and then drive fertilizer expelling shaft to axially move, so that defertilizing amount is adjusted the aperture for changing outer groove-wheel.
Described stepper motor and its control system include STM32 single-chip microcomputers, stepper motor driver, stepper motor, GPS
Locating module, Rotating speed measring module and infrared distance sensor.STM32 single-chip microcomputers, stepper motor driver and stepper motor by
The battery that tow tractor is carried is powered after power transfer module transformation;Described STM32 single-chip microcomputers, stepper motor drive
Dynamic device and d GPS locating module are arranged in tractor driving room.Described Rotating speed measring module is turned by Hall sensor and sensing
Disk is constituted.The axle center of the circular aluminum alloy flake that the sensing rotating disk is a diameter 80mm, sensing rotating disk and fertilizer expelling shaft is solid with one heart
Fertilizer expelling shaft left end is scheduled on, is rotated with the rotation of fertilizer expelling shaft.The sensing disk edge is fixed with one piece of a diameter of 10mm's
Circular magnet steel, magnet steel is rotated with the rotation of disk.Described Hall sensor is fixed on frame side wall, Hall sensor
Probe faces sensing rotating disk upper magnetic steel and rotates passed through position;When sensing rotating disk produces rotation under the drive of fertilizer expelling shaft,
Magnet steel is often by a Hall sensor probe, and Hall sensor can produce a signal, pass through the letter produced in the unit interval
Number amount, you can calculate fertilizer rotating speed.Described infrared distance sensor is arranged on the shell of reducing gear, is made infrared
The probe of distance measuring sensor faces plectrum, distance of the detection plectrum along guide screw movement, and then determine the effective of outer groove-wheel in real time
Active length.
Described stepper motor driver, d GPS locating module, Hall sensor and infrared distance sensor passes through GPIO mouthfuls
It is connected on STM32 single-chip microcomputers, gathered data is passed into STM32 single-chip microcomputers by GPIO mouthfuls.Described step motor control
System, according to the helical pitch of the gearratio of reducing gear and leading screw, and combines step angle and the subdivision of stepper motor, obtain one by
Motor pulses count to the formula of outer groove-wheel aperture, and outer groove-wheel aperture is adjusted by accurately controlling the pulse of stepper motor, and then
Accurate control defertilizing amount.
The utility model is as follows using step:
Step 1:Fertilizer is filled it up with receptacle, starts tractor, starts control system, variable fertilization prescription map is imported
In single-chip computer control system.
Step 2:Current position coordinates are obtained by d GPS locating module, obtaining current location soil with reference to prescription map needs fertilizer
Measure information.Rotating speed measring module detects the rotating speed of current fertilizer expelling shaft in real time, and infrared distance sensor monitors current outer groove-wheel aperture
L, and feed back to step motor control system.
Step 3:Control system combination current location fertilizer requirement, the rotating speed of current fertilizer expelling shaft calculate expected outer groove-wheel aperture
L0, corresponding stepper motor umber of pulse M is calculated by formula (1), and control stepper motor to rotate change outer groove-wheel aperture, enter
And real-time regulated fertilization amount.
Step 4:Repeat step 2, step 3 are until complete fertilising operation during locomotive is advanced.
The utility model is had the advantage that compared with existing variable fertilizer applicator with beneficial effect:
The utility model is controlled using stepper motor, simple in construction, and control accuracy is high, and stability is good, and relatively
It is easy to a wide range of popularization in the cost of hydraulic motor is low.Planet gear reducing mechanism is added in the utility model, moment of torsion is added,
The load of stepper motor is alleviated, the dynamic accuracy of variable fertilizer applicator is improved.Suitable worm and gear and leading screw are chosen, is had
Auto-lock function, the motion of mechanism is defined to drive worm gear motion by worm screw, realizes that stepping motor is rotated and is precisely controlled
The axial movement of fertilizer expelling shaft, and without step-out phenomenon, situations such as preventing vibrations influences fertilizer precision.
(4) illustrate
Fig. 1 is the utility model overall structure front view
Fig. 2 is the utility model overall structure left view
Fig. 3 is fertilizer apparatus structural front view
Fig. 4 fertilizer apparatus structure left views
Fig. 5 turbine and worm decelerator structure charts
Fig. 6 is plectrum structural front view
Fig. 7 plectrum structure left views
Fig. 8 control system schematic diagrams
In figure:1. the stone of 6. fertilizer expelling shaft of the Hall sensor 4. of 2. frame side wall of receptacle 3. sensing 5. magnet steel of rotating disk 7.
The plectrum 14. of 12. leading screw of black 8. reducing gear of axle sleeve 9. shaft coupling, 10. stepper motor, 11. infrared distance sensor 13.
The planetary gear of 20. centre wheel of defertilizing box 15. outer groove-wheel, 16. deceleration device shell, 17. worm screw, 18. worm gear, 19. leading screw 21.
22. the plectrum screw thread of 23. plectrum framework of planet carrier, 24. thrust bearing 25.
(5) embodiment
Below in conjunction with the accompanying drawings, embodiment of the present utility model is elaborated.Detailed description below is used
In explanation the utility model, but it is not limited to scope of the present utility model.
Embodiment 1:
As shown in figure 1, overall structure of the present utility model is by receptacle 1, frame 2, graphite bushing 7, fertilizer expelling shaft 6, deceleration
Several parts such as mechanism 8, shaft coupling 9, stepper motor 10, leading screw 12, plectrum 13, defertilizing box 14, outer groove-wheel 15 are constituted.
Receptacle 1, reducing gear 8 and stepper motor 10 are fixed on frame side wall 2.Fertilizer expelling shaft 6 by graphite bushing 7 with
Frame side wall is connected, and neither influences the rotation of fertilizer expelling shaft, and does not influence to be axially moved.Leading screw 12 is parallel with fertilizer expelling shaft 6 to be installed, and is made
Obtaining when plectrum 13 is moved axially along leading screw can drive fertilizer expelling shaft to axially move.Defertilizing box 14 is arranged under receptacle
Side;Outer groove-wheel 15 is fixed on fertilizer expelling shaft forms an entirety with fertilizer expelling shaft, is moved with the motion of fertilizer expelling shaft.Described row
The rotation of fertile axle 6 is driven by land wheel, and the regulation of present apparatus variable is that the aperture of external sheave 15 is adjusted.
Described reducing gear 8 is combined by worm gear 18, worm screw 17 and planetary wheeling mechanism and made, and worm screw 17 passes through shaft coupling 9
It is connected with stepper motor 10.The outer ring of worm gear 18 is engaged with worm screw 17, internal then include epicyclic train.Described worm gear 18
Outer ring tooth number Z 1 is 48 teeth, and 17 number Z2 of worm screw are 2, and the inner ring number of teeth Z3 of worm gear 18 is 45 teeth, centre wheel 20 and planetary gear 21
Tooth number Z 4 be all 15 teeth, then the speed reducing ratio of reducing gear be i=(Z2 × Z4)/(Z1 × Z3)=8.Whole mechanism plays deceleration
Increase the effect turned round, reduce the load of stepper motor.The lead angle of worm screw 17 is less than the equivalent friction angle between worm gear teeth, this model machine
Structure has self-locking performance, will not change roller aperture because of reasons such as vibrations.Centre wheel 20 in described epicyclic train leads to
Cross key to be connected with leading screw 12, leading screw is rotated with the rotation of centre wheel.The described pitch of leading screw 12 is 4mm.
13 points described of plectrum is two ends, and one end is connected with fertilizer expelling shaft 6;The other end has screwed hole, coordinates with leading screw 12.Dial
One end thrust bearing 24 that piece 13 is connected with fertilizer expelling shaft 6 is connected, and can apply axial thrust to fertilizer expelling shaft, again the row of not interfering with
The rotation of fertile axle.One end that plectrum coordinates with leading screw 12 can be produced along silk due to worm drive principle with the rotation of leading screw
The axial movement of thick stick, and then drive fertilizer expelling shaft 6 to axially move, so that the aperture for changing outer groove-wheel 15 is adjusted to defertilizing amount
Section.
As shown in figure 5, described stepper motor and its control system include power module, STM32 single-chip microcomputers, stepper motor
Driver, stepper motor, d GPS locating module, Rotating speed measring module and infrared distance sensor.Described STM32 single-chip microcomputers, step
Stepper motor driver, stepper motor, d GPS locating module and infrared distance sensor are commercially available to be obtained.Described power module
The battery and some power transfer modules carried by tow tractor is constituted.Described battery becomes by power transfer module
Pressure, powers to STM32 single-chip microcomputers, stepper motor driver and stepper motor.Described STM32 single-chip microcomputers, driving stepper motor
Device and d GPS locating module are arranged in tractor driving room.Described stepper motor is using Puffy moral 86BYG250H types stepping electricity
Machine, maximum can export 12.5N.m moment of torsion, and step angle is 1.8 °, and the stepper motor driver is used matches somebody with somebody with stepper motor
The Puffy moral MA860H drivers of set.Described Rotating speed measring module is made up of Hall sensor and sensing rotating disk.The sensing
Rotating disk is diameter 80mm circular aluminum alloy flake, and sensing rotating disk and fertilizer expelling shaft are concentric, fertilizer expelling shaft left end are fixed on, with row
The rotation of fertile axle and rotate.One piece of a diameter of 10mm circular magnet steel is fixed with the sensing disk edge, magnet steel is with circle
The rotation of disk and rotate.The magnet steel that described Hall sensor probe is faced on sensing rotating disk rotates passed through position, Gu
It is scheduled on frame side wall.When sensing rotating disk produces rotation under the drive of fertilizer expelling shaft, magnet steel is often popped one's head in by primary transducer, is passed
Sensor can produce a signal, pass through the number of signals produced in the unit interval, you can calculate fertilizer rotating speed.Described is red
Outer distance measuring sensor is arranged on the shell of reducing gear, the probe of infrared distance sensor is faced plectrum, in real time detection
Distance of the plectrum along guide screw movement, and then calculate the aperture of outer groove-wheel.
Described stepper motor driver, d GPS locating module, Hall sensor and infrared distance sensor passes through GPIO mouthfuls
It is connected on single-chip microcomputer, gathered data is passed into single-chip microcomputer by GPIO mouthfuls.Described step motor control system, according to subtracting
The gearratio of fast mechanism and the helical pitch of leading screw, and step angle and the subdivision of stepper motor are combined, one is obtained by motor pulses number
To the formula of outer groove-wheel aperture, outer groove-wheel aperture, and then the accurate row of control are adjusted by accurately controlling the pulse of stepper motor
Fertilizer amount.
The formula that outer groove-wheel aperture is counted in described stepper motor pulse is as follows:
In formula:M-- motor pulses number
Q-- needs the outer groove-wheel aperture (being rotated forward on the occasion of then motor, negative value then motor reversal) adjusted
L0--expected outer groove-wheel aperture
L-- current outer groove-wheel aperture
θ-- stepper motor step angle
N-- Design of Stepper Motor Subdivision
I-- reducing gear gearratio
P-- guide screw lead
δ-- backhaul backlash compensation (needing experimental data to be demarcated)
Embodiment 2:
Based on structure described in embodiment 1, it is proposed that a kind of variable fertilization control method, comprise the following steps that:
Step 1:Fertilizer is filled it up with receptacle, starts tractor, starts control system, variable fertilization prescription map is imported
In single-chip computer control system.
Step 2:Current position coordinates are obtained by d GPS locating module, obtaining current location soil with reference to prescription map needs fertilizer
Measure information.Rotating speed measring module detects the rotating speed of current fertilizer expelling shaft in real time, and infrared distance sensor monitors current outer groove-wheel aperture
L, and feed back to step motor control system.
Step 3:Control system combination current location fertilizer requirement, the rotating speed of current fertilizer expelling shaft calculate expected outer groove-wheel aperture
L0, corresponding stepper motor umber of pulse M is calculated by formula (1), and controls stepper motor to rotate change outer groove-wheel aperture, is entered
And real-time regulated fertilization amount.
Step 4:Repeat step 2, step 3 are until complete fertilising operation during locomotive is advanced.
Embodiment of the present utility model is above are only, the situation of spirit and scope of the present utility model is not being departed from
Under the various change made and modification, all equivalent technical schemes fall within category of the present utility model.
Claims (1)
1. a kind of variable fertilization adjusting means, it is characterised in that performed including frame and the receptacle being fixed in frame, fertilising
Device and opening adjusting device;
Described fertilising performs device includes fertilizer apparatus, fertilizer expelling shaft;The multiple lower sections for being located at receptacle side by side of described fertilizer apparatus;
Fertilizer apparatus is made up of defertilizing box and outer groove-wheel, and outer groove-wheel is arranged on inside defertilizing box and can rotated, by the fertilizer band in defertilizing box
Dynamic discharge;Described outer groove-wheel is coaxially fixed on fertilizer expelling shaft with fertilizer expelling shaft, and outer groove-wheel rotates in same direction with fertilizer expelling shaft;Described row
Fertile axle is arranged on the lower section of receptacle, and fertilizer expelling shaft is connected by chain with the land wheel of fertilizer machine;Land wheel is produced with ground friction to be turned
It is dynamic, and then drive outer groove-wheel to rotate by fertilizer expelling shaft;Outer groove-wheel in multiple fertilizer apparatus is also secured on same fertilizer expelling shaft,
Fertilizer expelling shaft can control multiple outer groove-wheels rotationally and axially to move simultaneously, unified to carry out dose variable regulation, realize wide cut multirow
Fertilising;
Described opening adjusting device, including reducing gear, screw-nut body, plectrum and stepper motor and its control system;
Described reducing gear is arranged on below fertilizer expelling shaft, is fixed on frame side wall;Described reducing gear is by worm gear, worm screw and row
Star-wheel mechanism is constituted, and worm screw is connected by shaft coupling with stepper motor;The worm gear is annular shape, and inner periphery and excircle are all set
It is with teeth;Tooth on the worm gear excircle and worm engaging, worm gear inner periphery is constituted with some gears being arranged in inner periphery
Epicyclic train;The epicyclic train include a centre wheel and three planetary gears, three planetary gears along centre wheel circumference with
120 ° are evenly arranged for interval;Three described planetary gears are engaged with the tooth on worm gear inner periphery;Set in the middle of three planetary gears
There is centre wheel, the centre wheel is respectively with three planetary gears while engagement rotation;By stepper motor as driving source, pass through worm screw
Worm gear wheel is driven, worm gear drives three planetary gears to rotate and then centre wheel is produced rotation as gear ring;The lead angle of worm screw
Less than the equivalent friction angle between worm gear teeth, worm-and-wheel gear has self-locking performance, it is to avoid plectrum is because of vibrations in traveling process
Produce movement;
Described screw-nut body includes leading screw and plectrum;Described leading screw one end is connected by key with described centre wheel,
Leading screw can be rotated with the rotation of centre wheel;Leading screw is set in parallel in below fertilizer expelling shaft;One end of the plectrum and fertilizer expelling shaft
It is connected;The other end of plectrum is provided with screwed hole, is connected with leading screw;By be arranged side by side two between plectrum and fertilizer expelling shaft
Thrust bearing is connected, and two thrust bearings are reversely installed, and applies the axial thrust of two opposite directions to fertilizer expelling shaft respectively, and not
The rotation of fertilizer expelling shaft can be influenceed;Due to spiral plectrum as the rotation of leading screw produces the axial movement along leading screw, and then drive
Fertilizer expelling shaft axially moves, so that defertilizing amount is adjusted the aperture for changing outer groove-wheel;
Described stepper motor and its control system include STM32 single-chip microcomputers, stepper motor driver, stepper motor, GPS location
Module, Rotating speed measring module and infrared distance sensor;Described Rotating speed measring module is by Hall sensor and sensing rotating disk group
Into;The axle center of the circular aluminum alloy flake that the sensing rotating disk is a diameter 80mm, sensing rotating disk and fertilizer expelling shaft is concentrically mounted to
Fertilizer expelling shaft left end, is rotated with the rotation of fertilizer expelling shaft;The sensing disk edge is fixed with one piece of a diameter of 10mm circle
Magnet steel, magnet steel is rotated with the rotation of disk;Described Hall sensor is fixed on frame side wall, Hall sensor probe
Face sensing rotating disk upper magnetic steel and rotate passed through position;When sensing rotating disk produces rotation under the drive of fertilizer expelling shaft, magnet steel
Often by a Hall sensor probe, Hall sensor can produce a signal, pass through the signal number produced in the unit interval
Amount, calculates fertilizer rotating speed;Described infrared distance sensor is arranged on the shell of reducing gear, senses infrared distance measurement
The probe of device faces plectrum, distance of the detection plectrum along guide screw movement, and then determine the active length of outer groove-wheel in real time;It is described
Stepper motor driver, d GPS locating module, Hall sensor and infrared distance sensor be connected to STM32 by GPIO mouthfuls
On single-chip microcomputer, gathered data is passed into STM32 single-chip microcomputers by GPIO mouthfuls.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106941842A (en) * | 2017-03-03 | 2017-07-14 | 山东农业大学 | A kind of variable fertilization adjusting means and its control method |
CN109168460A (en) * | 2018-08-31 | 2019-01-11 | 徐州田园乐农业机械制造有限公司 | Multi-functional antiwind seeding and fertilizing all-in-one machine |
CN109696831A (en) * | 2019-02-20 | 2019-04-30 | 中国农业大学 | The control sequence optimization method and device of bivariate fertilizer apparatus |
CN110268845A (en) * | 2019-07-18 | 2019-09-24 | 山东农业大学 | A kind of Electric brush of bristles quantifies particle fertilizer placer and its application method |
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CN115997536A (en) * | 2022-12-10 | 2023-04-25 | 东北农业大学 | Unmanned aerial vehicle variable fertilizer apparatus with adjustable ratio |
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2017
- 2017-03-03 CN CN201720200980.9U patent/CN206517803U/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106941842A (en) * | 2017-03-03 | 2017-07-14 | 山东农业大学 | A kind of variable fertilization adjusting means and its control method |
CN109168460A (en) * | 2018-08-31 | 2019-01-11 | 徐州田园乐农业机械制造有限公司 | Multi-functional antiwind seeding and fertilizing all-in-one machine |
CN109696831A (en) * | 2019-02-20 | 2019-04-30 | 中国农业大学 | The control sequence optimization method and device of bivariate fertilizer apparatus |
CN109696831B (en) * | 2019-02-20 | 2020-05-22 | 中国农业大学 | Control sequence optimization method and device for double-variable fertilization device |
CN110268845A (en) * | 2019-07-18 | 2019-09-24 | 山东农业大学 | A kind of Electric brush of bristles quantifies particle fertilizer placer and its application method |
CN113463540A (en) * | 2021-07-23 | 2021-10-01 | 河北建筑工程学院 | Automatic traffic cone taking and placing device based on intelligent transportation |
CN115997536A (en) * | 2022-12-10 | 2023-04-25 | 东北农业大学 | Unmanned aerial vehicle variable fertilizer apparatus with adjustable ratio |
CN115997536B (en) * | 2022-12-10 | 2023-12-29 | 东北农业大学 | Unmanned aerial vehicle variable fertilizer apparatus with adjustable ratio |
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