CN106171271B - Maize production manages system and method - Google Patents
Maize production manages system and method Download PDFInfo
- Publication number
- CN106171271B CN106171271B CN201610528717.2A CN201610528717A CN106171271B CN 106171271 B CN106171271 B CN 106171271B CN 201610528717 A CN201610528717 A CN 201610528717A CN 106171271 B CN106171271 B CN 106171271B
- Authority
- CN
- China
- Prior art keywords
- module
- maize
- stalk
- harvester
- processing module
- 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.)
- Expired - Fee Related
Links
Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D43/00—Mowers combined with apparatus performing additional operations while mowing
- A01D43/08—Mowers combined with apparatus performing additional operations while mowing with means for cutting up the mown crop, e.g. forage harvesters
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/17—Systems in which incident light is modified in accordance with the properties of the material investigated
- G01N21/25—Colour; Spectral properties, i.e. comparison of effect of material on the light at two or more different wavelengths or wavelength bands
Abstract
Maize production of the present invention management system and method include user terminal, the server being connect with user terminal, the disease sensor being connect by server with user terminal, the database for the popular science knowledge being connect with user terminal, the message processing module being connect with server, the corn processing module that is connect with server.The present invention can provide user terminal by above structure the defect information of the corn needed for user, and pass through server and defect information is recorded, the corn implementation of disease is handled in time by user's terminal control corn processing module again, wherein server can back up defect information disposal operation, so as to be managed to the information of maize production.
Description
Technical field
The present invention relates to a kind of agricultural system, more particularly to a kind of system for handling corn.
Background technology
Modern agriculture (modern agriculture):It is hard extensively using modern intelligence for traditional agriculture
The socialization agricultural that the means of production and scientific management methods that part, modern industry provide carry out.By agricultural productive force property and
In the agriculture development history of horizontal division, belong to the latest stage of agricultural.
Agricultural Intelligent System is instructed agricultura1 calculation, implements to give birth to using intelligent IT information technologies with reference to facility, equipment
Production.Using agriculture specialist system as core, it is a kind of to possess high-level, many-sided agricultural experts' knowledge and can imitate the mankind
Reasoning process is provided respectively on computer or other intelligent terminals with image, intuitive way to user or policy maker
The kind utility system of agricultural problem counseling services or Agricultural Intelligent System facility.
Agricultural Intelligent System can be that modern agriculture brings more faster convenient and practical large-scale production, increase to be swift and violent
Population provide one more strength food production support.Therefore, there is an urgent need for a kind of corn situations of can monitoring in real time at present
The topological structure of special circuit.
Invention content
The technical problem to be solved in the present invention is to provide a kind of maize production pipes simple in structure, at low cost, easy to operate
Reason system.
Maize production of the present invention manages system, and the server being connect including user terminal, with user terminal passes through server
The disease sensor that is connect with user terminal, the database for the popular science knowledge being connect with user terminal, the letter being connect with server
Breath processing module, the corn processing module being connect with server.
Maize production of the present invention manages system, wherein, the corn processing module includes Harvester for maize, and the corn is cut
Cutting mill includes WIFI module, track detection module, route control module, operation and control module, cutting module, information processing mould
Block, the amount of receiving adjustment module;The WIFI module is used for the information exchange between each module;The track detection module is supervising
The harvesting route of Harvester for maize is controlled, convenient for being smoothed out for harvesting, after track detection is completed, track detection module is by information
Message processing module is fed back to by WIFI module, control command is issued operation and control by message processing module by WIFI module
Module;The route control module is used to adjust the cut direction of Harvester for maize, and track detection module feeds back information to letter
After ceasing processing module, the information that route controls is passed into route control module through WIFI module by message processing module and carries out jade
The adjustment of the cut direction of rice cutting machine, convenient for the progress of harvest;The operation and control module is controlling Harvester for maize
Start and stop, after starting control module execution, information is fed back into message processing module by WIFI module, at information
Control command is passed to cutting module and carries out cutting operation by reason module;It is described to cut module to control cutting for Harvester for maize
Speed, cut direction etc. are cut, the signal that cutting module is sent out feeds back to message processing module;The amount of receiving adjustment module to
The harvest yield of Harvester for maize is controlled, the amount for preventing harvest from can be carried beyond Harvester for maize, the amount of receiving adjustment module is also wrapped
Detection limit module is included, information content is fed back to message processing module by the timing of detection limit module, and message processing module is according to detection limit
The loading module of the information content control the amount of receiving adjustment module of module feedback.
Maize production of the present invention manages system, wherein, the Harvester for maize cuts corn by cutter device, described to cut
It cuts device and includes driving device and blade, the blade is disc, and the upper surface of blade is circumferentially at least three 3 along it
Hornblock, the corner block are equipped with vertical plane and inclined surface, and at least three corner block is symmetrical along the axis centre of blade;It is described
Driving device includes first shell, permanent magnet sleeve, guide sleeve, mandril, electromagnet sleeve, heading;One end of the first shell
It is fixed with the lower surface of the Harvester for maize, the other end of first shell is equipped with opening for the vertical plane of corner block described in face
Mouthful;Permanent magnet sleeve is fixed in first shell, is set at least two electromagnet sleeves in the permanent magnet sleeve, it is described extremely
With permanent magnet sleeve clearance fit, the electromagnet sleeve after the energization is suspended in forever few two electromagnet sleeves by magnetic induction
On magnet sleeve and relative displacement can be generated;It is fixed with guide sleeve in at least two electromagnet sleeve, the one of the guide sleeve
One end with the separate opening of first shell is held to be hinged by two orthogonal hinges, the guide sleeve is by aluminum alloy materials system
Into the guide sleeve is interior to be equipped with mandril, and the mandril has ferrous material to be made, and the mandril is close to one end of the opening of first shell
Heading is fixed with, the heading can be contacted with the vertical plane of the corner block.
Maize production of the present invention manages system, wherein, the cutting machine side is equipped with cutter device, and opposite side is equipped with movement
Case panel assembly, the mobile case panel assembly include the second motor, cam, first connecting rod, second connecting rod, sliding sleeve, oscillating rod,
Stent, shifting block;The side of second motor and the Harvester for maize is fixed, the output shaft of the second motor and the shaft of cam
Fixed, one end of cam and one end of first connecting rod are fixed, and the other end of the first connecting rod is fixed with counterweight, first connecting rod
Middle part and one end hinge connection of second connecting rod, the other end and the sliding sleeve hinge connection of the second connecting rod, the slip
Sleeve is sleeved on the top of oscillating rod, and the lower end of the oscillating rod is fixed with shifting block, and the cross sectional shape of the shifting block is wing
Shape, the middle part of oscillating rod and one end hinge connection of stent, the other end of the stent and the side of Harvester for maize are fixed, institute
State blade described in shifting block face.
Maize production of the present invention manages system, wherein, the Harvester for maize further includes oven, gauze roller machine, first
Telescopic rod, the second telescopic rod, third telescopic rod, chasing-attachment, particle size sorting device and soil storing apparatus, the oven lead to
It crosses the first telescopic rod with gauze roller machine to be connected, the gauze roller machine is connected by the second telescopic rod with chasing-attachment, described
Chasing-attachment is connected by third telescopic rod with particle size sorting device, the soil storing apparatus by connecting tube respectively with chopping
It is connected at the top of device, particle size sorting device;It is provided around drawing in the gauze of its inner surface, third in the gauze roller machine
Hold up, support rod, wind turbine and the first separating sieve, first separating sieve are tiltedly located in gauze roller machine, the wind turbine with
Support rod is connected, and is arranged on above the first separating sieve, and the third engine is connected with the support rod other end;The chasing-attachment
It is interior equipped with two rollers driven by four-engine, described two rollers are mutually horizontally disposed, the spacing between described two rollers
It is adjustable, the mutual corresponding grater of plural number is provided on described two rollers;It is provided with reciprocally in the particle size sorting device
At least two second separating sieves of movement, each second separating sieve is setting up and down, and the aperture of the second separating sieve more down
With regard to smaller, each second separating sieve is obliquely installed, and one end that horizontal position is set low is equipped with a discharge port;The soil accommodates
Device is an enclosed soil storing apparatus, and further includes a pumping air blower, and the pumping air blower is arranged on soil and accommodates dress
Put outside.
Maize production of the present invention manages system, wherein, the disease sensor includes at least two stalk of face, comparison
The stalk brightness detection unit of the brightness of adjacent stalk;It is moved to the stalk for being only oriented towards that brightness is weaker at least two stalk
Light filling unit;The stalk color detection unit of at least two stalk of face, the adjacent stalk of comparison color;And according to above-mentioned
The color contrast of stalk color detection unit is as a result, whether the color of the weaker stalk of comparison brightness is partially purple, if so, to service
Device exports disease signal.
The method of maize production management system of the present invention, includes the following steps:
At least two stalk of face, the adjacent stalk of comparison brightness;
It is moved to that be only oriented towards brightness at least two stalk weaker;
At least two stalk of face, the adjacent stalk of comparison color;
According to color contrast as a result, whether the color of the weaker stalk of comparison brightness is partially purple, if so, output disease letter
Number.
The present invention can mend the brightness of adjacent stalk in the case where excluding brightness irregularities through the above way
Light, and whether partially purple compare after light filling, that is, disease color more whether is biased to, if so, can be cut off as soon as possible, is prevented
Only infect.
Maize production of the present invention manages system, wherein, disease screening module is further included, is connect with server, is used for
According to the color of stalk, height, brightness, diameter judgement corn whether disease.
Maize production of the present invention manages system, wherein, the server is equipped with multi-user's handover module, is used to set more
The login account of a user terminal.
Maize production of the present invention manages system, wherein, the server is equipped with user authority management module, is used to set
The permission of the login account of multiple user terminals.
Maize production management system difference from prior art of the present invention is that maize production management system of the present invention is led to
Cross the defect information for the corn that above structure can be provided user terminal needed for user, and pass through server to defect information into
Capable record, then the corn implementation of disease is handled in time by user's terminal control corn processing module, wherein server can incite somebody to action
Defect information disposal operation is backed up, so as to be managed to the information of maize production.
The maize production management system of the present invention is described further below in conjunction with the accompanying drawings.
Description of the drawings
Fig. 1 is the structure diagram of the cutter device of maize production management system;
Fig. 2 is the use state variation diagram of Fig. 1;
Fig. 3 is the structure diagram of the mobile case panel assembly of maize production management system.
Specific embodiment
Maize production management system of the present invention includes user terminal, the server being connect with user terminal, passes through clothes
The business device disease sensor being connect with user terminal, the database for the popular science knowledge being connect with user terminal are connect with server
Message processing module, the corn processing module that is connect with server.
The present invention can provide user terminal by above structure the defect information of the corn needed for user, and pass through clothes
Business device defect information is recorded, then by user's terminal control corn processing module in time to the corn implementation of disease at
Reason, wherein server can back up defect information disposal operation, so as to be managed to the information of maize production.
Preferably, the corn processing module includes Harvester for maize, and the Harvester for maize includes WIFI module, track
Detection module, route control module, operation and control module, cutting module, message processing module, the amount of receiving adjustment module;
The WIFI module is used for the information exchange between each module;The track detection module is cut to monitor corn
The harvesting route of machine, convenient for being smoothed out for harvesting, after track detection is completed, information is passed through WIFI moulds by track detection module
Block feeds back to message processing module, and control command is issued operation and control module by message processing module by WIFI module;
The route control module is used to adjust the cut direction of Harvester for maize, and track detection module is fed back information to
After message processing module, the information that route controls is passed into route control module through WIFI module by message processing module and is carried out
The adjustment of the cut direction of Harvester for maize, convenient for the progress of harvest;
The operation and control module starts control module execution to control the startup of Harvester for maize and stopping
Afterwards, information is fed back into message processing module by WIFI module, control command is passed to cutting module by message processing module
Carry out cutting operation;
The cutting module cuts the letter that module is sent out to control the cutting speed of Harvester for maize, cut direction etc.
Number feed back to message processing module;
The amount of receiving adjustment module prevents harvest beyond Harvester for maize energy to control the harvest yield of Harvester for maize
The amount enough carried, the amount of receiving adjustment module further include detection limit module, and the timing of detection limit module feeds back to information content at information
Manage module, loading module of the message processing module according to the information content control the amount of receiving adjustment module of detection limit module feedback.
The present invention can realize the timely cutting for disease corn by above structure, and user terminal is passed according to disease
The information of sensor controls Harvester for maize to cut away disease corn by WIFI module, so as to prevent the diffusion of maize diseases, from
And strengthen the whole health degree of corn field.
It is further preferred that the Harvester for maize cuts corn by cutter device, the cutter device includes driving
Device 140 and blade 120, the blade 120 are disc, and the upper surface of blade 120 is circumferentially at least three triangles along it
Block 130, the corner block 130 are equipped with vertical plane 131 and inclined surface 132, and at least three corner block 130 is along blade 120
Axis centre is symmetrical;
The driving device 140 includes first shell 111, permanent magnet sleeve 112, guide sleeve 113, mandril 114, electromagnet sleeve
Cylinder 115, heading 116;
One end and the lower surface of the Harvester for maize of the first shell 111 are fixed, the other end of first shell 111
The opening of vertical plane 131 equipped with corner block described in face 130;Permanent magnet sleeve 112 is fixed in first shell 111, it is described
At least two electromagnet sleeves 115, at least two electromagnet sleeve 115 and permanent magnet are set in permanent magnet sleeve 112
112 clearance fit of sleeve, the electromagnet sleeve 115 after the energization is suspended on permanent magnet sleeve 112 by magnetic induction and energy
Enough generate relative displacement;It is fixed with guide sleeve 113 in at least two electromagnet sleeve 115, one end of the guide sleeve 113 and the
One end of the separate opening of one housing 111 is hinged by two orthogonal hinges, and the guide sleeve 113 is by aluminum alloy materials system
Into the guide sleeve 113 is interior to be equipped with mandril 114, and the mandril 114 has ferrous material to be made, and the mandril 114 is close to first shell
One end of 111 opening is fixed with heading 116, and the heading 116 can be contacted with the vertical plane 131 of the corner block 130.
The present invention can be such that blade 120 is more flexibly rotated by corner block 130, so as to more by above structure
Add flexibly cutting disease maize straw so that maize straw can more vertically fall after being cut, will not be because of cutting in
Stalk continuity that is too quickly and leading to Domino effect lodges.Wherein, non-magnetic guide sleeve 113 passes through two with first shell 111
A orthogonal hinge is hinged, and guide sleeve 113 can be enable to generate the twisting of any direction relative to first shell 111, meanwhile,
Guide sleeve 113 can be oriented to electromagnet sleeve 115, the mandril 114 to attract each other, so as to be oriented to heading 116.Electricity
113 one side of magnet guide sleeve is suspended in by magnetic levitation effect on permanent magnet sleeve 112, on the other hand by magnetic levitation effect and
It is moved in permanent magnet sleeve 112, so as to which mandril 114 be driven to move, 116 driving blade 120 of heading is caused to rotate so that stalk
Cutting it is softer.
It is further preferred that the cutting machine side is equipped with cutter device, opposite side is equipped with mobile case panel assembly 200, institute
State mobile case panel assembly 200 include the second motor 201, cam 202, first connecting rod 203, second connecting rod 205, sliding sleeve 206,
Oscillating rod 207, stent 208, shifting block 209;
The side of second motor 201 and the Harvester for maize is fixed, the output shaft and cam of the second motor 201
202 shaft is fixed, and one end and one end of first connecting rod 203 of cam 202 are fixed, and the other end of the first connecting rod 203 is consolidated
Surely have a counterweight 204, the middle part of first connecting rod 203 and one end hinge connection of second connecting rod 205, the second connecting rod 205 it is another
One end and 206 hinge connection of sliding sleeve, the sliding sleeve 206 are sleeved on the top of oscillating rod 207, the oscillating rod 207
Lower end be fixed with shifting block 209, the cross sectional shape of the shifting block 209 is falls airfoil, middle part and the stent 208 of oscillating rod 207
One end hinge connection, the other end of the stent 208 and the side of Harvester for maize are fixed, described in 209 face of shifting block
Blade 120.
The present invention by the axial movement of the second motor, can be changed into the expansion of oscillating rod 207, be shunk by above structure
Reciprocating motion, also, since Harvester for maize can be lifted down upwards, the lift side of Harvester for maize moves down
When, the shifting block 209 of oscillating rod 207 contacts blade 120, so that its expansion angle becomes larger, at this point, sliding sleeve 206 is to moving up
Dynamic, still, oscillating rod 207 can still realize expansion, the reciprocating motion shunk.Also, the present invention, can profit by above structure
Shifting block 209 is driven to move back and forth with the principle of the reciprocating motion of guide sleeve 113, so as to make shifting block 209 with different torques and frequency
Rate is bonded blade 120, carries out flexible cutting so as to push stalk to blade 120, can also adjust power according to the thickness of stalk
Square and frequency.
Wherein, the microcephaly of the shifting block 209 is towards the Harvester for maize, and the major part of shifting block 209 is towards blade 120.
It is further preferred that the Harvester for maize further includes oven, gauze roller machine, the first telescopic rod, second flexible
Bar, third telescopic rod, chasing-attachment, particle size sorting device and soil storing apparatus, the oven by the first telescopic rod with
Gauze roller machine is connected, and the gauze roller machine is connected by the second telescopic rod with chasing-attachment, and the chasing-attachment passes through
Three telescopic rods are connected with particle size sorting device, the soil storing apparatus by connecting tube respectively with chasing-attachment, particle size sorting
It is connected at the top of device;
The gauze in its inner surface, third engine, support rod, wind turbine and are provided around in the gauze roller machine
One separating sieve, first separating sieve are tiltedly located in gauze roller machine, and the wind turbine is connected with support rod, and is arranged on first
Above separating sieve, the third engine is connected with the support rod other end;
Two rollers driven by four-engine are equipped in the chasing-attachment, described two rollers are mutually horizontally disposed,
Spacing between described two rollers is adjustable, and the mutual corresponding grater of plural number is provided on described two rollers;
Reciprocating at least two second separating sieve, each second sorting are provided in the particle size sorting device
Sieve setting up and down, and the aperture of the second separating sieve more down, with regard to smaller, each second separating sieve is obliquely installed, and horizontal position
The one end set low is equipped with a discharge port;
The soil storing apparatus is an enclosed soil storing apparatus, and further includes a pumping air blower, described to take out drum
Wind turbine is arranged on the outside of soil storing apparatus.
The present invention can directly crush maize straw, dry, be dehydrated, so as to make its can be directly used as fuel or
Under landfill, hoister control crushes and is fed in sorting uniform, the grain size of chasing-attachment control stalk.
Preferably, the disease sensor includes
The stalk brightness detection unit of at least two stalk of face, the adjacent stalk of comparison brightness;
It is moved to the light filling unit for being only oriented towards the stalk that brightness is weaker at least two stalk;
The stalk color detection unit of at least two stalk of face, the adjacent stalk of comparison color;And
According to the color contrast of above-mentioned stalk color detection unit as a result, whether the color of the weaker stalk of comparison brightness is inclined
Purple, if so, exporting disease signal to server.
The method of maize production management system of the present invention, includes the following steps:
At least two stalk of face, the adjacent stalk of comparison brightness;
It is moved to that be only oriented towards brightness at least two stalk weaker;
At least two stalk of face, the adjacent stalk of comparison color;
According to color contrast as a result, whether the color of the weaker stalk of comparison brightness is partially purple, if so, output disease letter
Number.
The present invention can mend the brightness of adjacent stalk in the case where excluding brightness irregularities through the above way
Light, and whether partially purple compare after light filling, that is, disease color more whether is biased to, if so, can be cut off as soon as possible, is prevented
Only infect.
Preferably, disease screening module is further included, is connect with server, is used for according to the color of stalk, height, bright
Degree, diameter judgement corn whether disease.
The server is equipped with multi-user's handover module, is used to set the login account of multiple user terminals.
The server is equipped with user authority management module, is used to set the power of the login account of multiple user terminals
Limit.
Embodiment described above is only that the preferred embodiment of the present invention is described, not to the model of the present invention
It encloses and is defined, under the premise of design spirit of the present invention is not departed from, those of ordinary skill in the art are to the technical side of the present invention
The various modifications and improvement that case is made should all be fallen into the protection domain that claims of the present invention determines.
Claims (9)
1. a kind of maize production manages system, it is characterised in that:It is the server that is connect including user terminal, with user terminal, logical
Cross the database and server of the server disease sensor being connect with user terminal, the popular science knowledge being connect with user terminal
The message processing module of connection, the corn processing module being connect with server,
The corn processing module includes Harvester for maize, and the Harvester for maize includes WIFI module, track detection module, road
Line traffic control module, operation and control module, cutting module, message processing module, the amount of receiving adjustment module;
The WIFI module is used for the information exchange between each module;The track detection module is monitoring Harvester for maize
Harvesting route, convenient for being smoothed out for harvesting, after track detection is completed, information is passed through WIFI module by track detection module
Message processing module is fed back to, control command is issued operation and control module by message processing module by WIFI module;
The route control module is used to adjust the cut direction of Harvester for maize, and track detection module feeds back information to information
After processing module, the information that route controls is passed into route control module through WIFI module by message processing module and carries out corn
The adjustment of the cut direction of cutting machine, convenient for the progress of harvest;
The operation and control module is to control the startup of Harvester for maize and stopping, will after starting control module execution
Information feeds back to message processing module by WIFI module, and control command is passed to cutting module and cut by message processing module
Cut operation;
To control the cutting speed of Harvester for maize, cut direction, the signal that cutting module is sent out is fed back the cutting module
To message processing module;
The amount of receiving adjustment module prevents harvest that can be held beyond Harvester for maize to control the harvest yield of Harvester for maize
The amount of load, the amount of receiving adjustment module further include detection limit module, and information content is fed back to information processing mould by the timing of detection limit module
Block, loading module of the message processing module according to the information content control the amount of receiving adjustment module of detection limit module feedback.
2. maize production according to claim 1 manages system, it is characterised in that:The Harvester for maize is filled by cutting
Cutting corn is put, the cutter device includes driving device(140)And blade(120), the blade(120)For disc, knife
Piece(120)Upper surface be circumferentially at least three corner blocks along it(130), the corner block(130)Equipped with vertical plane(131)
And inclined surface(132), at least three corner block(130)Along blade(120)Axis centre it is symmetrical;
The driving device(140)Including first shell(111), permanent magnet sleeve(112), guide sleeve(113), mandril(114), electricity
Magnet sleeve(115), heading(116);
The first shell(111)One end and the lower surface of the Harvester for maize fix, first shell(111)The other end
Equipped with corner block described in face(130)Vertical plane(131)Opening;First shell(111)Inside it is fixed with permanent magnet sleeve
(112), the permanent magnet sleeve(112)Inside it is set at least two electromagnet sleeves(115), at least two electromagnet sleeve
Cylinder(115)With permanent magnet sleeve(112)Clearance fit, the electromagnet sleeve after the energization(115)It is suspended in by magnetic induction
Permanent magnet sleeve(112)It goes up and relative displacement can be generated;At least two electromagnet sleeve(115)Inside it is fixed with guide sleeve
(113), the guide sleeve(113)One end and first shell(111)One end of separate opening pass through two orthogonal hinges
Chain is hinged, the guide sleeve(113)It is made of aluminum alloy materials, the guide sleeve(113)It is interior to be equipped with mandril(114), the mandril
(114)It is made of ferrous material, the mandril(114)Close to first shell(111)One end of opening be fixed with heading
(116), the heading(116)It can be with the corner block(130)Vertical plane(131)Contact.
3. maize production according to claim 2 manages system, it is characterised in that:The Harvester for maize side is equipped with and cuts
Device is cut, opposite side is equipped with mobile case panel assembly(200), the mobile case panel assembly(200)Including the second motor(201), it is convex
Wheel(202), first connecting rod(203), second connecting rod(205), sliding sleeve(206), oscillating rod(207), stent(208), shifting block
(209);
Second motor(201)It is fixed with the side of the Harvester for maize, the second motor(201)Output shaft and cam
(202)Shaft fix, cam(202)One end and first connecting rod(203)One end fix, the first connecting rod(203)'s
The other end is fixed with counterweight(204), first connecting rod(203)Middle part and second connecting rod(205)One end hinge connection, described
Two connecting rods(205)The other end and sliding sleeve(206)Hinge connection, the sliding sleeve(206)It is sleeved on oscillating rod(207)
Top, the oscillating rod(207)Lower end be fixed with shifting block(209), the shifting block(209)Cross sectional shape for fall wing
Shape, oscillating rod(207)Middle part and stent(208)One end hinge connection, the stent(208)The other end and corn cut
The side of machine is fixed, the shifting block(209)Blade described in face(120).
4. maize production according to claim 3 manages system, it is characterised in that:The Harvester for maize further includes roasting
Case, gauze roller machine, the first telescopic rod, the second telescopic rod, third telescopic rod, chasing-attachment, particle size sorting device and soil
Storing apparatus, the oven are connected by the first telescopic rod with gauze roller machine, and the gauze roller machine passes through the second telescopic rod
It is connected with chasing-attachment, the chasing-attachment is connected by third telescopic rod with particle size sorting device, the soil storing apparatus
It is connected respectively at the top of chasing-attachment, particle size sorting device by connecting tube;
The gauze in its inner surface, third engine, support rod, wind turbine and first point are provided around in the gauze roller machine
Choosing sieve, first separating sieve are tiltedly located in gauze roller machine, and the wind turbine is connected with support rod, and is arranged on the first sorting
Sieve top, the third engine are connected with the support rod other end;
Two rollers driven by four-engine are equipped in the chasing-attachment, described two rollers are mutually horizontally disposed, described
Spacing between two rollers is adjustable, and the mutual corresponding grater of plural number is provided on described two rollers;
Reciprocating at least two second separating sieve is provided in the particle size sorting device, on each second separating sieve
Lower setting, and the aperture of the second separating sieve more down, with regard to smaller, each second separating sieve is obliquely installed, and horizontal position is set low
One end be equipped with a discharge port;
The soil storing apparatus is an enclosed soil storing apparatus, and further includes a pumping air blower, the pumping air blower
It is arranged on the outside of soil storing apparatus.
5. maize production according to claim 1 manages system, it is characterised in that:The disease sensor includes
At least two stalk of face, the adjacent stalk of comparison brightness stalk brightness detection unit;
It is moved to the light filling unit for being only oriented towards the stalk that brightness is weaker at least two stalk;
At least two stalk of face, the adjacent stalk of comparison color stalk color detection unit;And
According to the color contrast of above-mentioned stalk color detection unit as a result, whether the color of the weaker stalk of comparison brightness is partially purple,
If so, export disease signal to server.
6. the method for the maize production management system described in test right requirement 1, it is characterised in that include the following steps:
The brightness of at least two stalk of face, the adjacent stalk of comparison;
It is moved to be only oriented towards that brightness is weaker at least two stalk one;
The color of at least two stalk of face, the adjacent stalk of comparison;
According to color contrast as a result, whether the color of the weaker stalk of comparison brightness is partially purple, if so, output disease signal.
7. maize production according to claim 1 manages system, it is characterised in that:Disease screening module is further included, with
Server connect, be used for according to the color of stalk, height, brightness, diameter judgement corn whether disease.
8. maize production according to claim 1 manages system, it is characterised in that:The server switches equipped with multi-user
Module is used to set the login account of multiple user terminals.
9. maize production according to claim 8 manages system, it is characterised in that:The server is equipped with user right pipe
Module is managed, is used to set the permission of the login account of multiple user terminals.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610528717.2A CN106171271B (en) | 2016-07-06 | 2016-07-06 | Maize production manages system and method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610528717.2A CN106171271B (en) | 2016-07-06 | 2016-07-06 | Maize production manages system and method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106171271A CN106171271A (en) | 2016-12-07 |
CN106171271B true CN106171271B (en) | 2018-07-03 |
Family
ID=57466376
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610528717.2A Expired - Fee Related CN106171271B (en) | 2016-07-06 | 2016-07-06 | Maize production manages system and method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106171271B (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109085170B (en) * | 2017-06-14 | 2023-08-29 | 中国科学院沈阳自动化研究所 | Synchronous belt type corn kernel breaking rate online detection device and method |
CN109845479A (en) * | 2019-03-21 | 2019-06-07 | 安徽商贸职业技术学院 | A kind of mowing-apparatus |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE10002880C1 (en) * | 2000-01-10 | 2001-06-13 | Norsk Hydro As | Monitor system useful for examining the health of plants and vegetation comprises a vehicle equipped to register active and passive light and fluorescent spectra with satellite GPS links to determine corrective actions to be taken on site |
US6701665B1 (en) * | 2000-10-23 | 2004-03-09 | Phytech Ltd. | Remote phytomonitoring |
CN101695128A (en) * | 2009-10-21 | 2010-04-14 | 中国农业大学 | Plant disease long-distance diagnostic device |
CN103336509A (en) * | 2013-06-27 | 2013-10-02 | 安徽朗坤物联网有限公司 | Wheat four-condition monitoring and scheduling system |
CN205884008U (en) * | 2016-07-06 | 2017-01-18 | 重庆市农业科学院 | Maize plant diseases and insect pests processing system |
-
2016
- 2016-07-06 CN CN201610528717.2A patent/CN106171271B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE10002880C1 (en) * | 2000-01-10 | 2001-06-13 | Norsk Hydro As | Monitor system useful for examining the health of plants and vegetation comprises a vehicle equipped to register active and passive light and fluorescent spectra with satellite GPS links to determine corrective actions to be taken on site |
US6701665B1 (en) * | 2000-10-23 | 2004-03-09 | Phytech Ltd. | Remote phytomonitoring |
CN101695128A (en) * | 2009-10-21 | 2010-04-14 | 中国农业大学 | Plant disease long-distance diagnostic device |
CN103336509A (en) * | 2013-06-27 | 2013-10-02 | 安徽朗坤物联网有限公司 | Wheat four-condition monitoring and scheduling system |
CN205884008U (en) * | 2016-07-06 | 2017-01-18 | 重庆市农业科学院 | Maize plant diseases and insect pests processing system |
Also Published As
Publication number | Publication date |
---|---|
CN106171271A (en) | 2016-12-07 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106171271B (en) | Maize production manages system and method | |
CN104737721A (en) | Combine harvester self-adaptive cleaning control device and self-adaptive cleaning method thereof | |
CN108093893A (en) | A kind of animal husbandry forage fly-cutting reducing mechanism | |
CN206756714U (en) | A kind of automatic defect detection of fruit and set net device | |
CN104737707A (en) | Combine harvester cleaning impurity rate self-adaptive control device and self-adaptive control cleaning method | |
CN204733622U (en) | Controlling means is cleaned to combine harvester self -adaptation | |
CN106262986A (en) | A kind of fresh mushroom cuts handle method and device | |
CN104737706A (en) | Combine harvester cleaning loss rate self-adaptive control device and self-adaptive control method | |
CN107371653A (en) | A kind of wheat stalk cutting and crushing device | |
CN205884008U (en) | Maize plant diseases and insect pests processing system | |
CN200980319Y (en) | Beans and corn cooling skin-removing device | |
CN108057643B (en) | A kind of working method of screening plant | |
CN106873411A (en) | The automatic learning control system of straw bulking machine | |
CN107442208A (en) | A kind of food processing milling device | |
CN105921233A (en) | Full-automatic hay grinder | |
CN204518489U (en) | A kind of combined harvester cleaning loss percentage adaptive controller | |
CN109967182B (en) | Automatic screening plant is smashed to pig feed of feeding | |
CN206696658U (en) | A kind of grain harvest cleaning loss real-time online TT&C system based on image procossing | |
CN109604004A (en) | A kind of continuous disintegrating apparatus of glass and waste silk processing method | |
CN206836063U (en) | Food processing logistics conveyer belt | |
CN206215282U (en) | A kind of double roller shredder | |
CN106262985A (en) | A kind of full-automatic capsicum stem cutting machine with automatic basket sieve device | |
CN205497875U (en) | Mouth of a river material rubbing crusher's feeding system | |
CN209473082U (en) | New automatic hay is mixed a pulverizer | |
CN105880175A (en) | Weighing device of crab weighing classifier |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180703 Termination date: 20190706 |