CN103891507B - Vegetable cultivation implantation methods - Google Patents
Vegetable cultivation implantation methods Download PDFInfo
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- CN103891507B CN103891507B CN201410121585.2A CN201410121585A CN103891507B CN 103891507 B CN103891507 B CN 103891507B CN 201410121585 A CN201410121585 A CN 201410121585A CN 103891507 B CN103891507 B CN 103891507B
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Abstract
The invention discloses a kind of vegetable cultivation implantation methods, comprise following several step: a, sowing, by automatic sowing device, degradable control root container is put into one by one each foveola of small-bore seedling-cultivating tray, and put into soil and seed; B, rudiment, to put into the small-bore seedling-cultivating tray sowed in nursery frame and to be placed into rudiment 2-3 days in rudiment room; C, growth of seedling, proceed to plastic greenhouse growth 7-10 days after seed germination by nursery frame; D, seedling transforming growth, transfer to the control root container of band seedling in the seedling-raising cup of large aperture and grow 15-17 days; E, water planting and harvesting, transfer to each seedling-raising cup and swim in hydroponics growing 12-18 days on extrusion molding growth pipeline waterborne.The whole planting process of the present invention is climate and soil environment impact not, not by territorial restrictions, fundamentally avoids soil continuous cropping obstacle, can make full use of space and improving yield, realizes plantation automation; Whole implant system sanitation and hygiene, do not spray insecticide, and stop the residue of pesticide on vegetables.
Description
Technical field
The present invention relates to agrotechnique, be specially a kind of vegetable cultivation implantation methods.
Background technology
Existing growing vegetables, still adopt static booth or the plantation of static ground, and main dependence is manually worked, auxiliary simple plant equipment, automaticity is very low.
Simultaneously because growing vegetables has the characteristic of self-sow, its whole process of growth affects by factors such as soil, temperature, illumination, weathers, planting environment is very complicated, the occurrence probability of damage by disease and insect is very high, the particularly summer of southern area, the vegetables of not spraying insecticide at all cannot normal growth, and then causes residual a large amount of agricultural chemicals on vegetables, and the healthy of the common people in serious harm.
In addition, there is very large soil continuous cropping obstacle in current growing vegetables mode, very large by territorial restrictions, space availability ratio is low, yield poorly, and along with the contaminated situation of soil and water resources is day by day serious in recent years, cycle, the yield and quality of the natural planting patterns of vegetables all receive and have a strong impact on, and cannot meet the wilderness demand of current social to vegetables at all.
Summary of the invention
For the problems referred to above, the present invention devises vegetable cultivation implantation methods, and its whole planting process is climate and soil environment impact not, fundamentally avoid soil continuous cropping obstacle, not by territorial restrictions, space and improving yield can be made full use of, greatly promote the automation of plantation; Whole implant system sanitation and hygiene, do not spray insecticide, without damage by disease and insect, fundamentally can stop the residue of pesticide on vegetables, gather in the crops the relieved vegetables of real green simultaneously.
For achieving the above object, the present invention is by the following technical solutions:
A kind of vegetable cultivation implantation methods, comprises following several step:
A, sowing, put into degradable control root container one by one each foveola of small-bore seedling-cultivating tray, and put into soil and seed by automatic sowing device;
B, rudiment, put in nursery frame by the small-bore seedling-cultivating tray sowed, and is then placed into rudiment 2-3 days in rudiment room by mutually stacked for nursery frame;
C, growth of seedling, proceed to plastic greenhouse growth 7-10 days after seed germination by nursery frame;
D, seedling transforming growth, by automatically shifting machine, seedling-raising cup is put in the seedling-cultivating tray of large aperture, afterwards the control root container with seedling in the seedling-cultivating tray of small-bore is transferred in each seedling-raising cup, and the large aperture seedling-cultivating tray after transfer is well put into nursery frame again, be placed on ground, growth 15-17 days;
E, water planting and harvesting, after seedling transforming growth has grown, each seedling-raising cup transferred on extrusion molding growth pipeline, growth pipeline has been arranged in order and has swum in waterborne, hydroponics growing 12-18 days, then can gather in acquisition finished portion.
Further, above-mentioned automatic sowing device mainly comprises a conveyer belt, conveyer belt is sequentially arranged the separation feed mechanism that will be put into after the separation of small-bore seedling-cultivating tray on conveyer belt, lower cup mechanism control root container being put into small-bore seedling-cultivating tray can be moved up and down, earth is spilled into the mechanism of banketing of control root container, by the bunch planting plate that earth in control root container is digged pit, seed is put into the sower of earth, to the water injector that earth in the control root container completing sowing is sprinkled water.
Further, above-mentioned degradable control root container comprises a conical lower portion, and the periphery of conical lower portion is connected with annular rim of a cup by some connection straps, has hollow out gap between adjacent connection strap.
Further, the oral area aperture of above-mentioned degradable control root container is 1.0 ~ 5.0cm
Further, the foveola number on the seedling-cultivating tray of above-mentioned monolithic small-bore is 50 ~ 400 orders.
Further, above-mentioned nursery frame is many mesh framework of a band article putting groove, the shape size of described article putting groove is corresponding with small-bore seedling-cultivating tray, and the top of framework is provided with several and connects projection, and the bottom of framework is provided with the link slot that described connection projection position correspondence waits number.
Further, above-mentioned automatic transfer machine mainly comprises a conveyer belt, conveyer belt is sequentially arranged the separation feed mechanism that will be put into after the separation of large aperture seedling-cultivating tray on conveyer belt, lower cup mechanism seedling-raising cup being put into large aperture seedling-cultivating tray can be moved up and down, earth is spilled into the mechanism of banketing of seedling-raising cup, the dibber of being digged pit by earth in seedling-raising cup, transfers to the automatic transfer equipment in earth hole in seedling-raising cup by the control root container with seedling in the seedling-cultivating tray of small-bore.
Further, above-mentioned seedling-raising cup is up big and down small conical vessel, and the bottom of conical vessel is provided with root growth hole; The oral area aperture of seedling-raising cup is 5.0 ~ 7.0cm.
Further, the big hole number on the seedling-cultivating tray of above-mentioned monolithic large aperture is 15 ~ 50 orders.
Further, above-mentioned extrusion molding growth pipeline comprises a floating body, on floating body, interval walks abreast and arranges the air chamber that some roads are closed, between adjacent vacant air cavity, punching forms the storage tank of one group of seedling-raising cup, spacing distance between each storage tank is equal, and each storage tank between adjacent sets storage tank shifts to install.
Cultivating process of the present invention comprises several steps such as sowing-germination-growth of seedling-seedling transforming growth-water planting, its whole planting process is climate and soil environment impact not, fundamentally avoid soil continuous cropping obstacle, not by territorial restrictions, can make full use of space and improving yield, for romaine lettuce, average year per mu yield can reach more than 75000 kilograms, greatly improve the output of planting vegetable and effectively concentrated land resources, greatly promote the automation of plantation.Whole implant system sanitation and hygiene, do not spray insecticide, without damage by disease and insect, fundamentally can stop the residue of pesticide on vegetables, gather in the crops the relieved vegetables of real green simultaneously.
Accompanying drawing explanation
The perspective view of Fig. 1, control root container of the present invention;
The schematic layout pattern of Fig. 2, automatic sowing device of the present invention;
The perspective view of Fig. 3, small-bore of the present invention seedling-cultivating tray;
The perspective view of Fig. 4, nursery frame of the present invention;
Fig. 5, the present invention shift the schematic layout pattern of machine automatically;
The perspective view of Fig. 6, seedling-raising cup of the present invention;
The perspective view of Fig. 7, large aperture of the present invention seedling-cultivating tray;
The planar structure schematic diagram of Fig. 8, extrusion molding of the present invention growth pipeline;
The close-up schematic view of Fig. 9, extrusion molding of the present invention growth pipeline.
Embodiment
A kind of automatic vegetable cultivates implantation methods, comprises following several step:
A, sowing, put into degradable control root container one by one each foveola of small-bore seedling-cultivating tray, and put into soil and seed by automatic sowing device.
As shown in Figure 1, degradable control root container 1 comprises a conical lower portion 11, the periphery of conical lower portion 11 is connected with annular rim of a cup 13 by some connection straps 12, between adjacent connection strap 12, there is hollow out gap 14, the oral area aperture of control root container 1 is 1.0 ~ 5.0cm, selectes corresponding size according to actual needs in practice.At this, the degradable control root container of above employing, energy available protecting vegetable root system, and do not pollute the environment, be convenient to the transfer of vegetables in each seedling-cultivating tray.
As shown in Figure 2, above automatic sowing device 2 mainly comprises a conveyer belt 21, conveyer belt 21 is sequentially arranged separation feed mechanism 22, lower cup mechanism 23, mechanism 24 of banketing, bunch planting plate 25, sower 26 and water injector 27.
Work in-process, be put on conveyer belt 21 by separation feed mechanism 22 by after single for small-bore seedling-cultivating tray separation, small-bore seedling-cultivating tray synchronously moves forward with conveyer belt 21 afterwards, in the process, first move up and down by lower cup mechanism 23 each cavities control root container being put into fast small-bore seedling-cultivating tray, then by mechanism 24 of banketing, earth is spilled into control root container, in earth, the aperture of sowing is stabbed out subsequently by the syringe needle of bunch planting plate 25, the sowing realizing earth is digged pit, then by sower 26, seed is put into earth, at this, above sower 26 is mechanical disk seeder, it is equipped with the switch enclosure with Digital Programmable screen, various adjustment can be done on screen, per hourly sow 110,000.By water injector 27, the control root container sowed is sprinkled water afterwards, complete seeding process.
Above automatic sowing device can realize sowing per hour 600 small-bore seedling-cultivating trays.
When the small-bore seedling-cultivating tray sowed moves to conveyer belt 21 tail end, transferred in nursery frame with artificial or equipment.At this, moving and shifting for ease of small-bore seedling-cultivating tray, foveola 31 number on above monolithic small-bore seedling-cultivating tray 3 is 50 ~ 400 orders, and its structure as shown in Figure 3.
B, rudiment, be placed into rudiment 2-3 days in rudiment room by mutually stacked for nursery frame.
As shown in Figure 4, described nursery frame is many mesh framework 4 of a band article putting groove 41, and the shape size of article putting groove 41 is corresponding with small-bore seedling-cultivating tray 3, making to cause when moving seedling-cultivating tray 3 to rock, avoiding impacting vegetable growth.
The top of nursery circle body 4 is provided with several and connects projection 42, and the bottom of framework 4 is provided with the link slot (not looking in figure) that described connection projection position correspondence waits number.In use, the bottom link slot of different nursery frame is connected projection 42 and just mutually engages correspondence with top, can realize the mutual stacked placement of multiple nursery frame securely, effectively can reduce the land seizure area of nursery frame.
The complete hollow out of one sidewall of described nursery frame article putting groove 41 forms charging aperture 411, and this charging aperture 411 is convenient to putting into and taking out of seedling-cultivating tray in practical operation.Other three sidewalls of article putting groove 41 also carry out the hollow out 412 of a part simultaneously, and this vibrational power flow effectively reduces materials when not affecting nursery frame using function, reduce the production cost of nursery frame.
The height of whole nursery frame is no less than 15cm, and it can award the enough Spatial absorptive moisture of seedling and oxygen in conjunction with framework 4 structure of many mesh.The space of 2cm is also left in the bottom of the frame of nursery simultaneously, so that the root of seedling also has enough oxygen, is more conducive to the discharge of moisture, is unlikely to root too moistening, so that rotten.
C, growth of seedling, proceed to plastic greenhouse growth 7-10 days after seed germination by nursery frame.
D, seedling transforming growth, by automatically shifting machine, seedling-raising cup is put in the seedling-cultivating tray of large aperture, afterwards the control root container with seedling in the seedling-cultivating tray of small-bore is transferred in each seedling-raising cup, transferable 12000 strain vegetables per hour, and the large aperture seedling-cultivating tray after transfer is well put into nursery frame, be placed on ground, growth 15-17 days.
As shown in Figure 5, described automatic transfer machine 5 mainly comprises a conveyer belt 51, conveyer belt 51 is sequentially arranged separation feed mechanism 52, lower cup mechanism 53, mechanism 54 of banketing, dibber 55 and automatic transfer equipment 56.Adding man-hour, be put on conveyer belt 51 after large aperture seedling-cultivating tray being separated by separation feed mechanism 52, large aperture seedling-cultivating tray is synchronously moved forward with the running of conveyer belt 51, when moving to lower cup mechanism 53 position, each cavities seedling-raising cup being put into large aperture seedling-cultivating tray is moved up and down by lower cup mechanism 53, by mechanism 54 of banketing, earth is spilled into each seedling-raising cup afterwards, and by dibber 55, earth in seedling-raising cup is digged pit for the transfer of seedling, in finally by automatic transfer equipment 56, by the control root container with seedling in the seedling-cultivating tray of small-bore, the earth transferred in seedling-raising cup is cheated, complete the operation of seedling transforming growth, when the large aperture seedling-cultivating tray that seedling transforming growth completes moves to conveyer belt 51 tail end, transferred in nursery frame with artificial or equipment.
As shown in Figure 6, described seedling-raising cup 6 is up big and down small conical vessel, and the bottom of conical vessel is provided with root growth hole 61, and the oral area aperture of seedling-raising cup 6 is 5.0 ~ 7.0cm, selectes corresponding size according to actual needs in practice.
Equally, for ease of moving and shifting, big hole 71 number on monolithic large aperture seedling-cultivating tray 7 is 15 ~ 50 orders, and its structure as shown in Figure 7.
E, water planting and harvesting, after seedling transforming growth has grown, each seedling-raising cup transferred on extrusion molding growth pipeline, growth pipeline has been arranged in order and has swum in waterborne, then can gather in acquisition finished portion.
As shown in FIG. 8 and 9, described extrusion molding growth pipeline comprises a floating body 8, and on floating body 8, interval walks abreast and arranges the air chamber 81 that some roads are closed, and extrusion molding can be made to grow pipeline and automatically swim on the water surface, without the need to increasing extra electric power and waterpower cost.
Between adjacent vacant air cavity 81, punching forms the storage tank 82 of one group of seedling-raising cup, spacing distance between each storage tank 82 is equal, each storage tank 82 between adjacent sets storage tank 82 shifts to install, so that have enough spaces when vegetable growth is ripe, simultaneously can according to the size after different vegetable ripeness, storage tank 82 spacing distance carries out respective settings as required.
Cultivating process of the present invention comprises several steps such as sowing-germination-growth of seedling-seedling transforming growth-water planting, its whole planting process is climate and soil environment impact not, fundamentally avoid soil continuous cropping obstacle, not by territorial restrictions, can make full use of space and improving yield, for romaine lettuce, average yield per mu can reach more than 75000 kilograms, greatly improve the output of planting vegetable and effectively concentrated land resources, greatly promote the automation of plantation.Whole implant system sanitation and hygiene, do not spray insecticide, without damage by disease and insect, fundamentally can stop the residue of pesticide on vegetables, gather in the crops the relieved vegetables of real green simultaneously.
In addition, each flow process that the present invention cultivates implantation methods is all carried out in different environment, other system of comparing, greatly reduce the land seizure rate of vegetable growth, shorten the life cycle in same a slice soil, add the cultivation number of times of vegetables, can improving yield further.
The above, it is only better embodiment of the present invention, not any pro forma restriction is done to invention, every according to know-why of the present invention to any simple modification made for any of the above embodiments, equivalent variations or modification, still belong in the scope of technical solution of the present invention.
Claims (10)
1. a vegetable cultivation implantation methods, comprises following several step:
A, sowing, put into degradable control root container one by one each foveola of small-bore seedling-cultivating tray, and put into soil and seed by automatic sowing device;
B, rudiment, put in nursery frame by the small-bore seedling-cultivating tray sowed, and is then placed into rudiment 2-3 days in rudiment room by mutually stacked for nursery frame;
C, growth of seedling, proceed to plastic greenhouse growth 7-10 days after seed germination by nursery frame;
D, seedling transforming growth, by automatically shifting machine, seedling-raising cup is put in the seedling-cultivating tray of large aperture, afterwards the control root container with seedling in the seedling-cultivating tray of small-bore is transferred in each seedling-raising cup, and the large aperture seedling-cultivating tray after transfer is well put into nursery frame again, be placed on ground, growth 15-17 days;
E, water planting and harvesting, after seedling transforming growth has grown, each seedling-raising cup transferred on extrusion molding growth pipeline, growth pipeline has been arranged in order and has swum in waterborne, hydroponics growing 12-18 days, then can gather in acquisition finished portion.
2. a kind of vegetable cultivation implantation methods as claimed in claim 1, it is characterized in that: described automatic sowing device mainly comprises a conveyer belt, conveyer belt is sequentially arranged the separation feed mechanism that will be put into after the separation of small-bore seedling-cultivating tray on conveyer belt, lower cup mechanism control root container being put into small-bore seedling-cultivating tray can be moved up and down, earth is spilled into the mechanism of banketing of control root container, by the bunch planting plate that earth in control root container is digged pit, seed is put into the sower of earth, to the water injector that earth in the control root container completing sowing is sprinkled water.
3. a kind of vegetable cultivation implantation methods as claimed in claim 1 or 2, is characterized in that: described degradable control root container comprises a conical lower portion, and the periphery of conical lower portion is connected with annular rim of a cup by some connection straps, has hollow out gap between adjacent connection strap.
4. a kind of vegetable cultivation implantation methods as claimed in claim 3, is characterized in that: the oral area aperture of described degradable control root container is 1.0 ~ 5.0cm.
5. a kind of vegetable cultivation implantation methods as claimed in claim 1 or 2, is characterized in that: the foveola number on the seedling-cultivating tray of described monolithic small-bore is 50 ~ 400 orders.
6. a kind of vegetable cultivation implantation methods as claimed in claim 1 or 2, it is characterized in that: described nursery frame is many mesh framework of a band article putting groove, the shape size of described article putting groove is corresponding with small-bore seedling-cultivating tray, the top of framework is provided with several and connects projection, and the bottom of framework is provided with the link slot that described connection projection position correspondence waits number.
7. a kind of vegetable cultivation implantation methods as claimed in claim 1, it is characterized in that: described automatic transfer machine mainly comprises a conveyer belt, conveyer belt is sequentially arranged the separation feed mechanism that will be put into after the separation of large aperture seedling-cultivating tray on conveyer belt, lower cup mechanism seedling-raising cup being put into large aperture seedling-cultivating tray can be moved up and down, earth is spilled into the mechanism of banketing of seedling-raising cup, the dibber of being digged pit by earth in seedling-raising cup, transfers to the automatic transfer equipment in earth hole in seedling-raising cup by the control root container with seedling in the seedling-cultivating tray of small-bore.
8. a kind of vegetable cultivation implantation methods as claimed in claim 1, is characterized in that: described seedling-raising cup is up big and down small conical vessel, and the bottom of conical vessel is provided with inlet opening; The oral area aperture of seedling-raising cup is 5.0 ~ 7.0cm.
9. a kind of vegetable cultivation implantation methods as claimed in claim 1, is characterized in that: the big hole number on the seedling-cultivating tray of described monolithic large aperture is 15 ~ 50 orders.
10. a kind of vegetable cultivation implantation methods as claimed in claim 1, it is characterized in that: described extrusion molding growth pipeline comprises a floating body, on floating body, interval walks abreast and arranges the air chamber that some roads are closed, between adjacent vacant air cavity, punching forms the storage tank of one group of seedling-raising cup, spacing distance between each storage tank is equal, and each storage tank between adjacent sets storage tank shifts to install.
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN106069369A (en) * | 2016-08-23 | 2016-11-09 | 重庆华曜美地农业开发有限公司 | Water planting formula green house of vegetables system with fast inspection function |
| CN107896575A (en) * | 2017-08-21 | 2018-04-13 | 广州航爵数码科技有限公司 | A kind of efficient robot |
| CN107896707A (en) * | 2017-12-01 | 2018-04-13 | 山东省农业科学院生物技术研究中心 | Peanut cultivation experiment plant pot |
| CN108668878A (en) * | 2018-04-28 | 2018-10-19 | 北京机械设备研究所 | A kind of automatic planting supply system of space environment green vegetables |
| CN109392379A (en) * | 2018-11-14 | 2019-03-01 | 上海摩天农业科技有限公司 | Automatic sowing assembly line |
| CN109823665A (en) * | 2019-03-31 | 2019-05-31 | 刘俭 | A kind of experimental water rice sprouts storage and transportation apparatus |
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Denomination of invention: Vegetable cultivation method Effective date of registration: 20171009 Granted publication date: 20160330 Pledgee: Zhejiang Taizhou Huangyan rural cooperative bank Pledgor: TAIZHOU LYUWOCHUAN FARM (GENERAL PARTNERSHIP) Registration number: 2017330000117 |
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