CN105532136A - Seeding machine and seedling raising mechanism - Google Patents

Seeding machine and seedling raising mechanism Download PDF

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Publication number
CN105532136A
CN105532136A CN201610066139.5A CN201610066139A CN105532136A CN 105532136 A CN105532136 A CN 105532136A CN 201610066139 A CN201610066139 A CN 201610066139A CN 105532136 A CN105532136 A CN 105532136A
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China
Prior art keywords
driving shaft
hopper
conveying plant
travelling car
planting machine
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CN201610066139.5A
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CN105532136B (en
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杨立军
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Individual
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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01CPLANTING; SOWING; FERTILISING
    • A01C7/00Sowing
    • A01C7/08Broadcast seeders; Seeders depositing seeds in rows
    • A01C7/16Seeders with other distributing devices, e.g. brushes, discs, screws or slides
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01CPLANTING; SOWING; FERTILISING
    • A01C15/00Fertiliser distributors
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G9/00Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
    • A01G9/02Receptacles, e.g. flower-pots or boxes; Glasses for cultivating flowers
    • A01G9/029Receptacles for seedlings
    • A01G9/0293Seed or shoot receptacles

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  • Life Sciences & Earth Sciences (AREA)
  • Soil Sciences (AREA)
  • Environmental Sciences (AREA)
  • Sowing (AREA)
  • Fertilizing (AREA)

Abstract

The invention relates to the technical field of agriculture machinery, and provides a seeding machine and a seedling raising system comprising the seeding machine. The seeding machine comprises a mobile trolley, wherein the mobile trolley is provided with a first hopper, a second hopper, a first conveying device and a second conveying device, the first conveying device and the second conveying device are used for conveying a first material in the first hopper and a second material in the second hopper in an opposite direction, so as to perform opposite mixing on the first material and the second material in a scattering process, and avoid the trouble of manually mixing the first material and the second material uniformly before seeding, the manual labor is saved, the seeding efficiency is improved and the mixing effect of the first material and the second material through hedging opposite mixing during the scattering process is good. The seedling raising system also comprises a plurality of multiple-block seedling beds arranged on a seeding path of the seeding machine, the mobile trolley does back and forth movement above the multi-block seedling beds, so that the materials can cover dead zones of the back sides of fences along the seeding path of the seedling beds.

Description

Planting machine and nursery mechanism
Technical field
The present invention relates to agricultural machinery technological field, specifically provide a kind of planting machine and nursery mechanism.
Background technology
Planting machine is a kind of device automatically can sowing the agro-farming materials such as seed, soil and fertilizer.In traditional seeding operation, first by planting machine, seed is sowed on field or seedling bed, then artificial by the soil needing to cover and fertilizer hand mix evenly after reinstall planting machine and by planting machine, the soil mixed and fertilizer covered the top of sowing.
In modern seeding operation, the object of artificial seeding is replaced to be exactly to save manpower by planting machine, accelerate sowing efficiency, and at present fertilizer all becomes bag to pack with Nutrition Soil etc., should be directly be poured in planting machine namely to sow, but current planting machine still needs artificial by fertilizer and soil hand mix, for soil and fertilizer are stirred, not only need to pay great manpower, waste the time, and the uniformity coefficient stirred also is difficult to ensure.
Summary of the invention
(1) technical problem that will solve
The object of this invention is to provide one sow efficiency high, save manpower, and sow effective planting machine.
(2) technical scheme
For achieving the above object, a kind of planting machine provided by the invention.This planting machine comprises travelling car, described travelling car is provided with the first hopper, the second hopper, the first conveying plant and the second conveying plant, described first conveying plant and the second conveying plant are used for the second material in the first material in described first hopper and described second hopper to carry in opposite directions, to liquidate mixing to make described first material and the second material in unrestrained process.
Preferably, described travelling car is also provided with controller, described controller is used for when the end setpoint distance of described travelling car distance moving direction, control described first conveying plant and the second conveying plant out of service, sow outside region to be sowed under the effect of inertia to prevent described first material and the second material.
Preferably, described controller, while the operation stopping described first conveying plant and the second conveying plant, also controls the output that described travelling car stops power, walks to the end of moving direction to make described travelling car in the effect downslide of inertia.
Preferably, described controller is range sensor or stroke sensor.
Preferably, described travelling car is provided with driving shaft, and described first conveying plant and the second conveying plant are all in transmission connection with described driving shaft and are driven by described driving shaft and run;
Described driving shaft is rotatably connected to driving wheel, and be provided with slewing limit structure between described driving wheel and described driving shaft, described slewing limit structure is for limiting the rotational angle of described driving wheel relative to described driving shaft, and described driving wheel moves for driving described travelling car;
Described controller stops the rotation of described driving shaft when the end setpoint distance of described travelling car distance moving direction.
Preferably, described first conveying plant is driven by the first beaming roller and runs, and described second conveying plant is driven by the second beaming roller and runs;
One end of described driving shaft is provided with the first flywheel, one end of described first flywheel and described first beaming roller is in transmission connection, and when described driving shaft rotates forward, described first flywheel drives described first beaming roller to rotate, when described driving shaft rotates backward, described first flywheel idle running;
The other end of described driving shaft is provided with the second flywheel, the other end of described second flywheel and described first beaming roller is in transmission connection, and when described driving shaft reversion, described second flywheel drives described first beaming roller to rotate, when described driving shaft rotates forward, described second flywheel idle running;
Gear drive is passed through between described first beaming roller and described second beaming roller.
Preferably, described slewing limit structure comprises position-arresting disk, described position-arresting disk together rotates with described driving shaft, described position-arresting disk is provided with the first limiting section, be respectively equipped with the second limiting section and the 3rd limiting section in the Different Diameter of described driving wheel to position, described second limiting section and the 3rd limiting section are respectively used to coordinate with being formed to conflict with described first limiting section when rotating backward at described driving shaft forward.
Preferably, also helical spring is comprised;
Described position-arresting disk and described driving shaft are in axial sliding connection, described helical spring is set on described driving shaft, described helical spring one end is connected with described driving shaft, and the described helical spring other end is against on described position-arresting disk, is affixed to described driving wheel to make described position-arresting disk.
Preferably, described first hopper and the second hopper are overall in funnel-shaped structure, and the opening below described first hopper and the second hopper is the elongated hole-shape structure of length direction perpendicular to the moving direction of described travelling car;
Described first conveying plant is arranged on the below of described first hopper, and described second conveying plant is arranged on the below of described second hopper.
Present invention also offers a kind of nursery mechanism, comprise planting machine as above, also comprise the polylith seedling bed sowed on path being arranged in described planting machine, described travelling car does back and forth movement above seedling bed described in polylith.
(3) beneficial effect
A kind of planting machine provided by the invention, in the process of travelling car movement, by the first conveying plant and the second conveying plant, the first material in the first hopper and the second material in the second hopper are carried in opposite directions, to liquidate in unrestrained process mixing to make the first material and the second material, thus avoid and before sowing, the first material and the second material hand mix are bothered uniformly, save manpower, improve and sow efficiency, the form good mixing effect of the mixing and the first material and the second material liquidate in unrestrained process, and a kind of material can be sowed separately.
In addition, a kind of seedling system provided by the invention does back and forth movement by travelling car above polylith seedling bed, thus the blind area of seedling bed along the enclosing dorsal part sowing path is also covered by material.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of a kind of planting machine of the embodiment of the present invention.
Fig. 2 is the exploded view one of a kind of planting machine of the embodiment of the present invention.
Fig. 3 is the exploded view two of a kind of planting machine of the embodiment of the present invention.
Fig. 4 is the first conveying plant of the embodiment of the present invention two, the drive connection schematic diagram between the second conveying plant and driving shaft.
Reference numeral:
1, travelling car; 11, the first hopper; 12, the second hopper; 13, the first conveying plant; 14, the second conveying plant; 15, first beaming roller; 16, the second beaming roller; 2, driving shaft; 3, driving wheel; 4, position-arresting disk; 41, the first limiting section; 42, the second limiting section; 43, the 3rd limiting section; 5, driven pulley; 51, driven shaft; 6, track; 71, the first sprocket wheel; 72, the second sprocket wheel; 81, the first flywheel; 82, the second flywheel; 91, the first gear; 10, power set.
Embodiment
Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.Following examples for illustration of the present invention, but are not used for limiting the scope of the invention.
In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be directly be connected, also indirectly can be connected by intermediary.For the ordinary skill in the art, concrete condition above-mentioned term concrete meaning in the present invention can be understood.
Embodiment one
As shown in Figure 1, a kind of planting machine that the embodiment of the present invention provides, comprise travelling car 1, travelling car 1 is provided with the first hopper 11, second hopper 12, first conveying plant 13 and the second conveying plant 14, first conveying plant 13 and the second conveying plant 14 are for carrying the second material in the first material in the first hopper 11 and the second hopper 12 in opposite directions, to make the first material and the second material liquidate in unrestrained process mixing, thus cooperation travelling car 1 moves and the first material and the second material is sowed on region to be sowed.
Such as in seeding operation, first fertilizer and soil are respectively charged into in the first hopper 11 and the second hopper 12, by the first conveying plant 13 and the second conveying plant 14, fertilizer and soil are sowed on region to be sowed simultaneously, form soil matrix bed course; Again seed is loaded the first hopper 11 or the second hopper 12, sow separately seed on above-mentioned soil matrix bed course; Finally sow separately one deck soil again, cover the top of seed, namely complete the operation of sowing.Wherein, fertilizer and soil mutually impact and mix in unrestrained process, therefore avoid and fertilizer and soil hand mix are bothered uniformly before sowing, save manpower, improve sowing efficiency, and fertilizer and the mixed form good mixing effect of soil by liquidating in unrestrained process.
In addition, travelling car 1 is also preferably provided with controller, this controller is used for when the end setpoint distance of described travelling car 1 apart from moving direction, control described first conveying plant 13 and the second conveying plant 14 out of service, sow outside region to be sowed under the effect of inertia to prevent described first material and the second material.Above-mentioned controller can be range sensor, judges whether to reach setpoint distance by the moment distance of monitoring between the end of moving direction; Also can be stroke sensor, judge whether to reach setpoint distance by operating range.
Wherein, first conveying plant 13 and the second conveying plant 14 are driven by one group of power set and run, travelling car 1 is driven by another group power set and runs, thus make the conveying of material and the movement of dolly not form interaction relation, therefore when controller stops the Power output of travelling car 1, because travelling car 1 has inertia, can't stop mobile immediately, but just can stop after the buffering of a segment distance, in the process, the power take-off of travelling car 1 is forced to antiport, therefore damping force to a certain degree can be increased, travelling car 1 is made to do retarded motion when the end close to moving direction, travelling car 1 can be prevented thus to be subject to excessive impact when stopping the end to moving direction, protection is defined to complete machine structure.
In addition, first hopper 11 and the second hopper 12 are overall in funnel-shaped structure, and the opening below the first hopper 11 and the second hopper 12 is the elongated hole-shape structure of length direction perpendicular to the moving direction of travelling car 1, thus in the process of travelling car movement, material is made to trickle down uniformly on region to be sowed; First conveying plant 13 and the second conveying plant 14 can be conveyer belt or transfer roller, and are separately positioned on the below of the first hopper 11 and the second hopper 12.Before sowing, and the first conveying plant 13 and the second conveying plant 14 be not when all starting, first material and the opening of the second material below the first hopper 11 and the second hopper 12, and the position formation being positioned at the top of the first conveying plant 13 and the second conveying plant 14 is piled up, only after the first conveying plant 13 and the second conveying plant 14 start, material below first hopper 11 and the second hopper 12 just can be pulled away gradually, material simultaneously in the first hopper 11 and the second hopper 12 also can fall to fill up the disappearance of below automatically, until the process of sowing terminates, first conveying plant 13 and the second conveying plant 14 stop conveying, even if there is the existence of leftover materials in the first hopper 11 and the second hopper 12, also can not therefrom leak, use in order to next time.
The surface of the first conveying plant 13 and the second conveying plant 14 is equipped with anti-skid structure, concrete, several rubber tacks can be set on the surface of the first conveying plant 13 and the second conveying plant 14, material can be avoided like this to skid on a conveyor, piling up of material is contributed to facilitate, also can guarantee that the first material and the second material have enough speed before unrestrained on the other hand, make the mixed effect of two kinds of materials better.
In the rotation direction of the first conveying plant 13, and be positioned at the rear of the unrestrained position of the first material, be also provided with the first clearing apparatus; In the rotation direction of the second conveying plant 14 and the rear being positioned at the unrestrained position of the second material is provided with the second conveying plant 14, described first clearing apparatus and the second clearing apparatus can be hairbrush, for forming cleaning to the first material remaining on the first conveying plant 13 and the second conveying plant 14 and the second material, guarantee that material portion occurs that extension is on the transport surface stagnant, in order to avoid impact follow-up conveying.
The present embodiment additionally provides a kind of nursery mechanism, comprises planting machine as above, also comprise the polylith seedling bed sowed on path being arranged in planting machine in addition, and travelling car 1 does back and forth movement above seedling bed described in polylith.Because every block seedling bed is draw a circle to approve inner soil and fertilizer etc. to certainly exist enclosing, and material be sow on the planting machine of movement and under, that is material is sowed obliquely, this just makes on the moving direction of dolly, the dorsal part of the enclosing of each seedling bed occurs sowing blind area, and mechanism does back and forth movement by making planting machine on polylith seedling bed, not only seed can be made, dual sowing and distribute more even sowed to obtain by soil and fertilizer, also above-mentioned blind area also can be covered, both improve seeding quality thus, also the area of seedling bed is made to be fully utilized.
Embodiment two
A kind of planting machine that the embodiment of the present invention two provides, substantially identical with the structure of the planting machine that embodiment one provides, something in common repeats no more, and difference is:
Shown in composition graphs 2 to Fig. 4, travelling car 1 is provided with power set 10, driving shaft 2 and driven shaft 51, and these power set 10 can be motors, and the output shaft of motor is provided with the first sprocket wheel 71; One end of driving shaft 2 is provided with the first flywheel 81 and the second sprocket wheel 72, passed on Gong by chain between first sprocket wheel 71 with the second sprocket wheel 72 and be connected, thus make driving shaft 2 drive rotation by power set 10, driving shaft two ends are connected to driving wheel 3, these power set 10 control start and stop and rotating by above-mentioned controller, thus achieve the movement of travelling car 1, stopping and back and forth movement.
First conveying plant 13 and the second conveying plant 14 can be conveyer belts, also can be transfer roller, first conveying plant 13 drives operation by the first beaming roller 15, second conveying plant 14 drives operation by the second beaming roller 16, first beaming roller 15 is provided with the first gear 91, the first flywheel 81 on above-mentioned driving shaft 2 also has external tooth, the external tooth of the first flywheel 81 and this first gear 91 engaged transmission, and, when driving shaft 2 rotates forward, first flywheel 81 drives the first beaming roller 15 to rotate, and when driving shaft 2 rotates backward, the first flywheel 81 dallies; The other end of driving shaft 2 is provided with the second flywheel 82, and the second flywheel 82 weeks sides have sprocket, the other end of the first beaming roller 15 is provided with the 3rd sprocket wheel, the sprocket of the second flywheel 82 is connected with the one or three chain gear transmission by chain, further, when driving shaft 2 reverses, the second flywheel 82 drives the first beaming roller 15 to rotate, when driving shaft 2 rotates forward, the second flywheel 82 dallies.
Thus, no matter driving shaft 2 rotates forward or reversion, and driving shaft 2 always has one end and the first beaming roller 15 to form transmission and is with moving axis first beaming roller 15 to rotate towards a direction all the time.Further, the first beaming roller 15 is also provided with the second gear, the second beaming roller 16 is provided with the 3rd gear, the second gear and the 3rd meshed transmission gear, thus the drive connection making the first beaming roller 15 and the second beaming roller 16 moment keep rotating in opposite directions.Therefore, no matter when travelling car 1 towards which direction moves, first conveying plant 13 and the second conveying plant 14 are all formed with driving shaft 2 and are in transmission connection, are driven run and keep carrying in opposite directions by driving shaft 2, the first material and the second material are formed liquidate in opposite directions unrestrained.And by means of only power set 10, both can realize travelling car 1 moves, the operation of the first conveying plant 13 and the second conveying plant 14 can be realized again, structure is simple, without the need to the controller of complexity, by simple PLC programme-control, complete machine is stable, reliable, and fault is less likely to occur.
A driving wheel 3 is respectively equipped with at the two ends of driving shaft 2, driving wheel 3 moves for driving travelling car 1, a driven pulley 5 is respectively equipped with at the two ends of driven shaft 51, form a transportable vehicle structure thus, and this planting machine also comprises guide rail, this guide rail is the parallel type structure being arranged on both sides, region to be sowed, and above-mentioned travelling car 1 moves along this guide rail, and the two ends of guide rail are equipped with stop, skid off track 6 to prevent travelling car 1.
Slewing limit structure is provided with between above-mentioned driving wheel 3 and driving shaft 2, slewing limit structure is for limiting the rotational angle of driving wheel 3 relative to driving shaft 2, slewing limit structure comprises position-arresting disk 4, position-arresting disk 4 together rotates with driving shaft 2, position-arresting disk 4 is provided with the first limiting section 41, the second limiting section 42 and the 3rd limiting section 43 is respectively equipped with to position in the Different Diameter of driving wheel 3, formed to conflict with the first limiting section 41 when second limiting section 42 and the 3rd limiting section 43 are respectively used at driving shaft 2 forward and rotate backward and coordinate, thus make driving wheel 3 rotate forward with driving shaft 2 and rotate backward respectively.Certainly, for realize better spacing to, can also be set to the first limiting section 41 on position-arresting disk 4 to be separated by 180 ° two, same, also the second limiting section 42 and the 3rd limiting section 43 are set to be separated by 180 °, two the first limiting sections 41 play position-limiting action simultaneously, thus make limit effect more stable.
Thus, the rotation of driving shaft 2 is stopped when the end of travelling car 1 close to moving direction by controller, under the effect of inertia of travelling car 1, first limiting section 41 can shift to another by the second limiting section 42 and the 3rd limiting section 43, namely also can there is the idle running of certain angle of circumference in driving wheel 3, thus make travelling car 1 continue the segment distance that moves ahead.The ground clearance of unrestrained point of comprehensive material and the translational speed of travelling car 1, mixed material can be extrapolated by the horizontal displacement of spilling to landing, that dallies travelling car 1 according to material horizontal displacement and above-mentioned driving wheel 3 again moves ahead apart from equal, the numerical value of the variablees such as the wheel footpath of the unrestrained height of rational setting material, the angle of slewing limit and driving wheel 3, can prevent outside material spilling to region to be sowed.
In addition, this planting machine also comprises helical spring, position-arresting disk 4 and driving shaft 2 are in axial sliding connection, helical spring is set on driving shaft 2, helical spring one end is connected with driving shaft 2, the helical spring other end is against on position-arresting disk 4, driving wheel 3 is affixed to make position-arresting disk 4, thus the frictional force increased between position-arresting disk 4 and driving wheel 3, when driving shaft 2 stops operating, when driving wheel 3 dallies, due to the existence of this frictional force, that travelling car 1 does retarded motion when the end close to moving direction, thus the impact reduced position-arresting disk 4 and track 6, add the durable of travelling car 1.
The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the technology of the present invention principle; can also make some improvement and replacement, these improve and replace and also should be considered as protection scope of the present invention.

Claims (10)

1. a planting machine, it is characterized in that, comprise travelling car (1), described travelling car (1) is provided with the first hopper (11), the second hopper (12), the first conveying plant (13) and the second conveying plant (14), described first conveying plant (13) and the second conveying plant (14), for the first material in described first hopper (11) and the second material in described second hopper (12) being carried in opposite directions, to liquidate mixing to make described first material and the second material in unrestrained process.
2. planting machine according to claim 1, it is characterized in that, (1) is also provided with controller with described travelling car, described controller is used for when the end setpoint distance of described travelling car (1) distance moving direction, control described first conveying plant (13) and the second conveying plant (14) out of service, sow outside region to be sowed under the effect of inertia to prevent described first material and the second material.
3. planting machine according to claim 2, it is characterized in that, described controller is while described first conveying plant (13) of stopping and the second conveying plant (14) are run, also control the output of the stopping power of described travelling car (1), walk to the end of moving direction to make described travelling car (1) in the effect downslide of inertia.
4. planting machine according to claim 2, is characterized in that, described controller is range sensor or stroke sensor.
5. planting machine according to claim 2, it is characterized in that, described travelling car (1) is provided with driving shaft (2), and described first conveying plant (13) and the second conveying plant (14) are all in transmission connection with described driving shaft (2) and are driven by described driving shaft (2) and run;
Described driving shaft (2) is rotatably connected to driving wheel (3), and be provided with slewing limit structure between described driving wheel (3) and described driving shaft (2), described slewing limit structure is for limiting the rotational angle of described driving wheel (3) relative to described driving shaft (2), and described driving wheel (3) is for driving described travelling car (1) mobile;
Described controller stops the rotation of described driving shaft (2) when the end setpoint distance of described travelling car (1) distance moving direction.
6. planting machine according to claim 5, it is characterized in that, described first conveying plant (13) is driven by the first beaming roller (15) and runs, and described second conveying plant (14) is driven by the second beaming roller (16) and runs;
One end of described driving shaft (2) is provided with the first flywheel (81), described first flywheel (81) is in transmission connection with one end of described first beaming roller (15), when described driving shaft (2) rotates forward, described first flywheel (81) drives described first beaming roller (15) to rotate, when described driving shaft (2) rotates backward, described first flywheel (81) idle running;
The other end of described driving shaft (2) is provided with the second flywheel (82), described second flywheel (82) is in transmission connection with the other end of described first beaming roller (15), when described driving shaft (2) reverses, described second flywheel (82) drives described first beaming roller (15) to rotate, when described driving shaft (2) rotates forward, described second flywheel (82) idle running;
Gear drive is passed through between described first beaming roller (15) and described second beaming roller (16).
7. the planting machine according to claim 5 or 6, it is characterized in that, described slewing limit structure comprises position-arresting disk (4), described position-arresting disk (4) together rotates with described driving shaft (2), described position-arresting disk (4) is provided with the first limiting section (41), the second limiting section (42) and the 3rd limiting section (43) is respectively equipped with to position in the Different Diameter of described driving wheel (3), formed to conflict with described first limiting section (41) when described second limiting section (42) and the 3rd limiting section (43) are respectively used at described driving shaft (2) forward and rotate backward and coordinate.
8. planting machine according to claim 7, is characterized in that, also comprises helical spring;
Described position-arresting disk (4) and described driving shaft (2) are in axial sliding connection, described helical spring is set on described driving shaft (2), described helical spring one end is connected with described driving shaft (2), the described helical spring other end is against on described position-arresting disk (4), is affixed to described driving wheel (3) to make described position-arresting disk (4).
9. planting machine according to claim 1, it is characterized in that, described first hopper (11) and the second hopper (12) are overall in funnel-shaped structure, and the opening of described first hopper (11) and the second hopper (12) below is the elongated hole-shape structure of length direction perpendicular to the moving direction of described travelling car (1);
Described first conveying plant (13) is arranged on the below of described first hopper (11), and described second conveying plant (14) is arranged on the below of described second hopper (12).
10. a nursery mechanism, it is characterized in that, comprise the planting machine as described in any one of claim 1 to 9, also comprise the polylith seedling bed sowed on path being arranged in described planting machine, described travelling car (1) does back and forth movement above seedling bed described in polylith.
CN201610066139.5A 2016-01-29 2016-01-29 Planting machine and nursery mechanism Expired - Fee Related CN105532136B (en)

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CN105960864A (en) * 2016-06-07 2016-09-28 颍上县田之都农业科技发展有限公司 Bidirectional seeder
CN106717336A (en) * 2017-01-05 2017-05-31 齐齐哈尔通联机械制造有限责任公司 Line seeding apparatus in canopy room

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CN102960101A (en) * 2012-12-06 2013-03-13 四川川龙拖拉机制造有限公司 Seedling and seeding machine and seedling and seeding method
CN104488416A (en) * 2014-11-11 2015-04-08 北京市农林科学院 Paddy rice sprout cultivation controlled release fertilizer and rice seed contact fertilizing apparatus
CN204907068U (en) * 2015-08-25 2015-12-30 郑宝胜 Rice earthing seeding all -in -one
CN205357068U (en) * 2016-01-29 2016-07-06 杨立军 Scatter machine and grow seedlings mechanism

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105960864A (en) * 2016-06-07 2016-09-28 颍上县田之都农业科技发展有限公司 Bidirectional seeder
CN106717336A (en) * 2017-01-05 2017-05-31 齐齐哈尔通联机械制造有限责任公司 Line seeding apparatus in canopy room

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