CN201709208U - Hydroponic culture system for cultivating plants - Google Patents

Hydroponic culture system for cultivating plants Download PDF

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Publication number
CN201709208U
CN201709208U CN2010201798586U CN201020179858U CN201709208U CN 201709208 U CN201709208 U CN 201709208U CN 2010201798586 U CN2010201798586 U CN 2010201798586U CN 201020179858 U CN201020179858 U CN 201020179858U CN 201709208 U CN201709208 U CN 201709208U
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liquid
pipeline
feed
planting groove
water
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CN2010201798586U
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谭卓南
朱鹏飞
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GUANGZHOU ZHUOLI AGRICULTURAL TECHNOLOGY CO LTD
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GUANGZHOU ZHUOLI AGRICULTURAL TECHNOLOGY CO LTD
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/20Reduction of greenhouse gas [GHG] emissions in agriculture, e.g. CO2
    • Y02P60/21Dinitrogen oxide [N2O], e.g. using aquaponics, hydroponics or efficiency measures

Abstract

The utility model discloses a hydroponic culture system for cultivating plants, which comprises a liquid storage system, a nutrient fluid circulating system, a planting bench system and a protection system, wherein the liquid storage system mainly comprises a water reservoir, a water storage well and oxygenating equipment, the water reservoir is connected with the liquid storage well through a pipeline, the liquid storage well is established underground, the position of the water reservoir is higher than that of the liquid storage well, and the oxygenating equipment comprises a return conduit and an air pressure pump; the nutrient fluid circulating system mainly comprises a suction pump, a liquid supply pipeline and a liquid return pipeline; the planting bench system comprises a planting groove and a bed frame, the planting groove comprises a groove body and a groove cover which are movably connected each other, and the bottom of the groove body is arc-shaped; the protection system mainly comprises a shading net, and the minimum covering range covers the planting bench system. The system solves the technical problems in the traditional hydroponic culture that the temperature of the nutrient fluid is hard to control, the dissolved oxygen is insufficient, and the production cost is too high, thereby being applicable to the cultivation of a plurality of leaf vegetables, and achievi the high-quality efficient production of vegetable.

Description

A kind of water ploughing system of culturing vegetable
Technical field
The utility model is particularly related to a kind of water ploughing system of culturing vegetable, belongs to the technical field of soilless culture.
Background technology
Soilless culture (Soiless Culture) is meant that all do not adopt natural soil and utilize and to contain plant production and grow the nutrient solution of necessary various elements nutrition is provided, and makes plant can normally finish a class planting technology of life cycle.The form of soilless culture is varied, comprises substrate culture (SubstrateCulture), spray culture (Fog Culture) and water-cultivating (Hydroponics) etc.
Water-cultivating is widely used in the middle of the production practices as a kind of important form of soilless culture, and obtains great success and considerable economic.
Plough method (Land Farming) cultivation with traditional soil and compare, water-cultivating has following advantage:
(1) output is outstanding, the lifting potentiality are big: the crop of water culture cultivation can obtain abundance, lasting nutrient supply in planting environment, have desirable illumination condition, suitable water and fertilizer management simultaneously, all help growing of crop, for realizing the material base that provides necessary that increases substantially of output, in general the output of water culture culturing vegetable is 3~5 times that tradition soil is ploughed method, high person even can reach 10 times.
(2) excellent quality, the commodity value height: the crop of water culture cultivation has quality better, characteristics that commodity rate is high, because of it can effectively shorten the plant growth cycle, so the general crude fibre content of crop is lower, delicate mouthfeel, concentrations of nutrient such as ascorbic acid, mineral matter, carbohydrate are all ploughed the height of method than soil simultaneously, thereby have higher commodity value.
(3) pest is few, no continuous cropping obstacle: many pests all are that media is bred and propagated with soil, for the large-scale outbreak of pest in producing has been buried hidden danger.Simultaneously traditional soil is ploughed method and is had inevitable continuous cropping obstacle problem, has influenced the carrying out of the production schedule greatly.And the water-cultivating rule has suppressed breeding and propagating of pest to a certain extent, has effectively overcome continuous cropping obstacle, thereby has reduced the use of chemical pesticide, has guaranteed the quality safety of crop to greatest extent.
(4) water and fertilizer utilization height, working strength is lower: water and fertilizer utilization is no more than 50% in the cultivated method of tradition soil, causes the significant wastage of resource, increased production cost inevitably, and labour intensity is big in producing, and process is heavy.And water and fertilizer utilization has been saved production cost effectively up to 90~95% in the water-cultivating method, is beneficial to environmental protection, and has the lower characteristics of labour intensity, helps popularization and application that water is ploughed technology.
(5) improve land utilization rate, be convenient to large-scale production: the water-cultivating method does not have specific (special) requirements to the soil environment, all can produce in wilderness, river shoal, mountain region, island.In the present age of land resources growing tension, help cultivated land protection and improve land utilization rate, alleviate the contradiction between agricultural production and urbanization, the industrialization, merged numerous subject technologies simultaneously, progressively realize automation, mechanization, help large-scale production.
But when having prominent advantages, traditional water cultivation method also has significant disadvantages, mainly contains:
(1) cost of investment is huge: need a large amount of infrastructure in the traditional water cultivation method, the investment of ploughing method than soil is much higher, daily equipment operation, depreciation and maintenance cost are also not little, under the present social and economic condition of China, how solving the contradiction between investment and the income, is that the water-cultivating method is used and an important difficult problem of promoting.
(2) specification requirement is higher: the regulation and control of nutrient solution preparation, supply and planting environment in the traditional water cultivation method process are all ploughed the method complexity than soil, the concentration of nutrient solution, composition and temperature etc. also are difficult to effective control, therefore require to have the support of being correlated with of higher technology inevitably, otherwise be difficult to attain the results expected.
Some relevant units have researched and developed a kind of robot control system(RCS) of utilizing equipment such as electronic computer and detecting instrument equipment that nutrient solution in the water ploughing system is regulated both at home and abroad at present, though this equipment can be realized the temperature to nutrient solution, pH, nutrient densities etc. are carried out automatic regulation, but this system because technology that is that all right is ripe, ubiquity is sensitive issue too, in the production often because of the field planting crop, gather routine operations such as crop and plant management and cause nutrient solution concentration higher, the system regulation effect is undesirable, and this complete equipment involves great expense, the operation and maintenance cost is high, temporarily also can't be applied in the middle of the actual production, still be in the theoretical development in laboratory.
Summary of the invention
The purpose of this utility model is to overcome in existing water-cultivating method production cost of investment height, the cultivation process shortcoming that can not effectively regulate and control nutrient solution circulating temperature and dissolved oxygen with not enough, and a kind of water ploughing system of culturing vegetable is provided.This system has captured that solution temperature is difficult to control in the cultivation of traditional water culture, dissolved oxygen is not enough and the too high technical difficult problem of production cost, and the cultivation of suitable multiple leaf vegetables can realize the high-quality and efficient production of vegetables.
The purpose of this utility model is achieved through the following technical solutions: a kind of water ploughing system of culturing vegetable comprises storage liquid systems, the nutrient solution circulatory system, plantation platform system and guard system; Wherein, the storage liquid systems mainly by cistern, be used to provide the storage liquid well of nutrient solution and oxygen increasing equipment three parts to form, cistern is connected with storage liquid well by pipeline, storage liquid well is built in below the face of land, the elevational position of cistern is higher than storage liquid well, and oxygen increasing equipment comprises return duct and air pressure pump, and an end of return duct is connected with feed liquid pipeline, the other end is suspended on the top of the nutrition liquid level in the storage liquid well, and the outlet pipe of air pressure pump is positioned at the bottom of nutrition liquid level; The nutrient solution circulatory system mainly is made up of suction pump, feed liquid pipeline and back liquid pipeline, suction pump is positioned at the aboveground side of storage liquid, the water inlet of suction pump is positioned at the bottom of storage liquid well, delivery port is connected with feed liquid pipeline, back liquid pipeline one end is connected with the liquid outlet of implant system, the other end enters into storage liquid well from the wall of the aboveground end of storage liquid, is suspended on the top of nutrition liquid level; Plantation platform system comprises some planting grooves, and the inlet of planting groove is connected with feed liquid pipeline, and liquid outlet is connected with back liquid pipeline, and the elevational position of the inlet of planting groove is higher than liquid outlet; Guard system is mainly formed by the sunshade net, and the minimum zone of covering is for covering plantation platform system;
The elevational position of described cistern is higher than storage liquid well, can utilize gravitational difference that moisture is delivered to storage liquid well, thus the effective utilization that realizes saving energy resource consumption and moisture;
Nutrient solution adjusting work in this water ploughing system, operations such as adjusting additional, pH as nutrient solution nutrient and moisture are all carried out in storage liquid well, measuring, add the nutrient solution mother liquor that has prepared in proportion according to actual conditions in the production process gets final product, greatly increase work efficiency, simultaneously simple to operation, be convenient to the application and the popularization of this water ploughing system; Described storage liquid well is built in below the face of land, can prevent to make the too fast problem of solution temperature rising because of direct irradiation of sunlight, make the proterties such as concentration, pH, dissolved oxygen content and temperature of nutrient solution be difficult for the comparatively violent variation of generation and maintain a metastable level, simultaneously can effectively avoid the pollution of external foreign material and growing of green alga, guarantee the cleaning of nutrient solution;
Described storage liquid well is preferably the cement structures with good seal, prevents that effectively the nutrient solution seepage runs off;
Described return duct is positioned at the top of nutrition liquid level, gives the nutrient solution oxygenation thereby utilize drop that nutrient solution is injected the bubble that the pond splashes, and utilizes this device can realize effective increase of dissolved oxygen in the nutrient solution generally speaking; When ambient temperature is too high, then can open air pressure pump according to actual conditions, constantly in nutrient solution, pump into air with the dissolved oxygen in the liquid that has additional nutrients, guaranteed that whole water ploughing system has the normal growth of enough dissolved oxygens for vegetables, caused the dyspneic difficult problem of crop root because of the dissolved oxygen deficiency thereby efficiently solve in the dark liquid flowing water training pattern traditional water ploughing systems such as (DFT); Moreover the common disease of some that take place in the water-cultivating process is caused by the anaerobism pathogenic microorganisms, often causes the crop root browning to rot, and brings irremediable loss to production.Utilize can have additional nutrients dissolved oxygen in the liquid of this oxygen increasing equipment, effectively suppressed breeding and propagating of anaerobism pathogenic microorganisms, reduced the loss in producing to greatest extent, avoided the use of chemical pesticide, thereby guaranteed the quality safety of raise crop;
Described feed liquid pipeline is preferably selected for use corrosion-resistant and has been added the PVC plastic material of UV;
Described feed liquid pipeline preferably is embedded in underground as far as possible;
Described feed liquid pipeline is divided into feed flow trunk line and some grades of feed flow branch pipe(tube)s, and the bore maximum of feed flow trunk line is near plantation platform system the time, the feed flow trunk line is divided into some grades of feed flow branch pipe(tube)s successively, the closer to planting groove, bore is more little, the feed flow branch pipe(tube) bore minimum that is connected with planting groove;
Described back liquid pipeline is preferably selected for use corrosion-resistant and has been added the PVC plastic material of UV;
Described back liquid pipeline is back liquid trunk line and some level time liquid branch pipe(tube)s, returns the bore maximum of liquid trunk line, and the progression that returns the liquid branch pipe(tube) is corresponding with the progression of feed flow branch pipe(tube), time liquid branch pipe(tube) bore minimum that is connected with planting groove; And, the bore of described back liquid pipeline is big than the feed liquid pipeline of relevant position, for example be close to feed liquid pipeline and the back liquid pipeline that is connected to planting groove, be back to storage liquid well fast, can effectively avoid occurring in the cultivation system generation of nutrient solution surplus and nutrient solution overflow problem to realize the residue nutrient solution;
Described back liquid pipeline preferably is embedded in underground as far as possible, prevents that not only Exposure to Sunlight is aging, and is convenient to production operation;
The described nutrient solution circulatory system also comprises flow control valve, flow control valve is arranged on the feed liquid pipeline, be used for nutrient solution being controlled at certain flow, thereby guaranteed that whole cultivation system has enough nutrient solutions for the vegetables normal growth according to the production actual conditions;
Described flow control valve more preferably is arranged on the feed liquid pipeline that is next to planting groove, thereby makes that every planting groove can both independently working;
Described plantation platform system also is provided with drainage pipeline, the liquid outlet of drainage pipeline and planting groove flexibly connects, be convenient in use for some time whole cultivation be made an overall screening, foreign material such as the fallen leaves of sneaking in the removal system, matrix, dust and algae, thereby the cleaning of the unimpeded and nutrient solution of maintenance whole circulation system;
Described planting groove is movably set on the bedstead, thereby planting groove can be dismantled, cleans and replace; The height that planting groove is provided with on bedstead can be adjusted according to operating personnel's height;
The material of described bedstead is preferably the hot-dip zinc pipe;
Described bedstead is preferably the bedstead that is provided with some arch supports, being provided with of arch support is beneficial to coverings such as can suitably laying plastic film according to actual conditions to realize that natural meteorological disasters such as prevention heavy rain, hail and cold current to the adverse effect that vegetables produce, efficiently solve excessive rain drop erosion causes acute variation to nutrient solution concentration, pH problem simultaneously;
The material of described planting groove is preferably corrosion resistant white plastic;
Described planting groove preferably is made up of cell body and groove lid, and the groove lid flexibly connects with cell body, and the bottom of cell body has radian, and bottom centre is to outer lug; Described radian is preferably 0.1~0.8 °;
Described planting groove is 8~20 ° the angle of gradient and vertically is provided with, and has guaranteed that nutrient solution slowly flows according to certain flow velocity in cultivation system, thereby has realized the lasting supply of nutrient solution, and saved the energy to reach the purpose that reduces production cost;
It is 10~30% light colour sunshade net that shading rate is selected in described sunshade network optimization for use, build on the pillar of accomplishing fluently stake in advance according to certain distance, the minimum zone that covers is plantation platform system (promptly produce and produce institute), can play and prevent the pest intrusion, quicken circulation of air, balance environmental temperature and the effect that guarantees sufficient illumination condition, simultaneously in conjunction with the coverings such as plastic film that build flexibly according to actual weather condition in the planting groove, can effectively avoid cold current, hail, the adverse effect of natural meteorological disaster such as heavy rain has been guaranteed safe and orderly the carrying out that vegetables produce;
Described guard system can also lure physical protection measure match uses such as hormone trapping device in conjunction with frequency ventilating type insecticidal lamp, mythimna separata colour table, insect property, can effectively prevent the infringement of harmful insect, greatly reduce the use of chemical agent, ensured the quality safety that vegetables produce.
Described water ploughing system is applied to the production of vegetables.
The utility model has following advantage and effect with respect to prior art:
(1) water ploughing system described in the utility model can be regulated and control dissolved oxygen and nutrient solution circulating temperature effectively, and cost is low, and moisture and nutriment can constantly reuse, and help environmental protection.
(2) water ploughing system described in the utility model can reduce the use of agricultural chemicals, has guaranteed vegetables quality safety, and not only environmental protection has also reduced cost.
(3) compare with traditional facility coverage condition, the characteristics that water ploughing system described in the utility model has small investment, assembly and disassembly is simple and easy, space availability ratio is high and be convenient to the planting environment regulation and control, for high-quality, the High-efficient Production of vegetables provides a feasible approach, be with a wide range of applications.
(4) water ploughing system long service life described in the utility model, operating cost is relatively low.Labourer's working strength is lower in native system, is convenient to operations in the production.
(5) water ploughing system described in the utility model is compared with the soil method of ploughing, and the growth cycle of vegetables is short, and the soil method of ploughing improves 4~6 times, and the vegetables raw fiber that plantation is come out is few, delicate mouthfeel; The moisture height, tender and crisp good to eat; Vitamin, mineral element and all kinds of organic nutrient substance content all have raising by a relatively large margin, and storing phase and shelf life have also all obtained certain prolongation.
(6) in addition, the structure of planting groove described in the utility model has following advantage: A, light and handy convenient, is convenient to transportation and assembling; B, cost are lower, can save cost of investment; C, long service life, maintenance cost is lower; D, can avoid causing the too high problem of solution temperature because of sun direct projection; E, the convenient cleaning are guaranteed clean, sanitary.
Description of drawings
Fig. 1 is the schematic diagram of water ploughing system described in the utility model.
Fig. 2 is the schematic diagram of planting groove described in the utility model; Wherein:
A is a sectional view; B is a vertical view.
Embodiment
Below in conjunction with embodiment and accompanying drawing the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.
Embodiment 1
(1) builds water ploughing system (see figure 1) described in the utility model
1. store liquid systems: by cistern 1, be used to provide the storage liquid well 2 of nutrient solution and oxygen increasing equipment three parts to form.Cistern 1 is connected with storage liquid well 2 by pipeline, and the elevational position of cistern 1 is higher than storage liquid well, and storage liquid well 2 is built in below the face of land, and the design specification of storage liquid well 2 is for long 1~3 meter, and is wide 2~5 meters, dark 3~6 meters; Storage liquid well 2 is designed to corrosion-resistant and the cement structures with good seal.Oxygen increasing equipment comprises return duct 7 and air pressure pump 8, and an end of return duct 7 is connected with feed liquid pipeline 5, and the other end is suspended on the top of the nutrition liquid level in the storage liquid well 2, and the outlet pipe of air pressure pump 8 is positioned at the bottom of nutrition liquid level.
2. nutrient solution circulates system: the nutrient solution circulatory system is made up of suction pump 3, feed liquid pipeline 5, flow control valve and back liquid pipeline 6, suction pump 3 is positioned at the aboveground side of storage liquid, the water inlet of suction pump is positioned at the bottom of storage liquid well, delivery port is connected with feed liquid pipeline, one end of back liquid pipeline 6 is connected with the liquid outlet of implant system 4, the other end enters into storage liquid well from the wall of the aboveground end of storage liquid, stretches out, and is suspended on the top of nutrition liquid level in the storage liquid well.Suction pump should be according to the suitable power of the required selection of actual conditions such as water yield of each planting groove inlet in area of being controlled and the liquid-supplying system, and work in 24 hours is to realize the uninterrupted supply of nutrient solution in the whole circulation system.
Feed pipes at different levels are selected environmental protection for use, corrosion-resistant and added water-feeding pipes PVC plastic material (the PVC-U plastic tube that meets national standard of UV, Φ 15~30mm, the auspicious Industrial Co., Ltd. of moulding), one end links to each other with suction pump, the other end is positioned at the stem of the plantation platform of implant system 4, final stage (feed liquid pipeline of nutrient solution promptly directly is provided for the plantation platform) feed pipe diameter is 15~30mm, and flow control valve is installed below pipeline, according to the production actual conditions nutrient solution is controlled at certain flow, thereby has guaranteed that whole cultivation system has enough nutrient solutions for the vegetables normal growth.
Back liquid pipeline is environmental protection, corrosion resistant and added pipeline (the PVC-U plastic tube of the water-feeding pipes PVC plastic material that meets national standard of UV, Φ 100~150mm, the auspicious Industrial Co., Ltd. of moulding), directly the leakage fluid dram with the plantation platform links to each other, for the convenience in the production operation with prevent that Exposure to Sunlight is aging and be embedded in the underground certain depth as far as possible, bore is big than feed pipe, can decide according to the quantity of planting groove in the production place, intended diameter is 100~150mm, to realize that the residue nutrient solution is back to storage liquid well fast, can effectively avoid occurring in the cultivation system generation of nutrient solution surplus and nutrient solution overflow problem.
3. plant the platform system: plantation platform described in the utility model system is made of bedstead and planting groove, bedstead specification for long 10~20 meters, wide about 1~3 meter, for the hot-dip zinc pipe builds, has long service life, the advantage that load-bearing is big, arrange in order according to certain distance and direction, and build some arch supports, can suitably lay covering such as plastic film according to actual conditions to realize the prevention heavy rain, natural meteorological disaster such as hail and cold current efficiently solves excessive rain drop erosion to nutrient solution concentration simultaneously to the adverse effect that vegetables produce, pH causes the problem of acute variation.Hot-dip zinc pipe bedstead top is for can be according to the planting groove (as shown in Figure 2) of the required assembly and disassembly of reality, material is environmental protection, corrosion-resistant and the added UV water-feeding pipes PVC white plastic that meets national standard, each bedstead has some planting grooves, be divided into chimeric up and down cell body and the dull and stereotyped two parts of plantation, assembly and disassembly flexibly, bottom land is the cambered outwards arc of bottom centre, radian is 0.1~0.8 °, be drilled with a certain size implantation hole on the supporting plantation flat board of each planting groove according to the spacing of 10~15cm, intended diameter is 4~8cm, vegetables of field planting in each culture hole during production application can guarantee that vegetables have enough space utilization luminous energy and heat energy and effectively grow in production environment.Planting groove one end links to each other with feed liquid pipeline, the end of Qing Xieing links to each other with liquid back pipe a little, whole cell body vertically is provided with according to 8~20 ° the angle of gradient, guaranteed that nutrient solution slowly flows according to certain flow velocity in cultivation system, thereby realized the lasting supply of nutrient solution, and saved the energy to reach the purpose that reduces production cost.
In addition, still reserved bigbore drainage pipeline by certain distance in the near-earth part, intended diameter is 150~250mm, be convenient in use for some time whole cultivation be made an overall screening, foreign material such as the fallen leaves of sneaking in the removal system, matrix, dust and algae, thereby the cleaning of the unimpeded and nutrient solution of maintenance whole circulation system.
4. guard system: the used guard system of the utility model is that shading rate is 10~30% light colour sunshade net, will plant the platform system and all cover.
This water ploughing system almost can be used for the cultivation and production of all leaf vegetables, output is according to different leaf vegetables kinds and difference, the cultivated method of average comparable soil can improve 4~6 times under the normal condition, cultivation system is subjected to environmental hazard or climatic effect less, and the major part happiness cools and ploughs method cultivating and growing all kinds of leaf vegetables (as romaine lettuce, cabbage heart, Chinese cabbage etc.) bad or that be obstructed because of summer high temperature weather with soil and use native system all can carry out normal growth to grow.System's liquid manure cyclic utilization rate height, generally can reach 90~95% or more than.The vegetables raw fiber that plantation is come out is few, delicate mouthfeel; The moisture height, tender and crisp good to eat; Vitamin, mineral element and all kinds of organic nutrient substance content all have raising by a relatively large margin, store and transport phase and shelf life simultaneously and have also all obtained certain prolongation.
Can reduce the use of agricultural chemicals aborning, guarantee vegetables quality safety.
The native system long service life, operating cost is relatively low.
Labourer's working strength is lower in native system, is convenient to operations in the production.
Wherein used planting groove is lightly convenient, is convenient to transportation and assembling, and cost is lower, saves cost of investment, long service life, and maintenance cost is lower, can also avoid because of sun direct projection causes the too high problem of solution temperature, helps cleaning, and guarantees clean, sanitary.
The foregoing description is the utility model preferred implementation; but embodiment of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under spiritual essence of the present utility model and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within the protection domain of the present utility model.

Claims (9)

1. the water ploughing system of a culturing vegetable is characterized in that: comprise storage liquid systems, the nutrient solution circulatory system, plantation platform system and guard system; Wherein, the storage liquid systems mainly by cistern, be used to provide the storage liquid well of nutrient solution and oxygen increasing equipment three parts to form, cistern is connected with storage liquid well by pipeline, storage liquid well is built in below the face of land, the elevational position of cistern is higher than storage liquid well, and oxygen increasing equipment comprises return duct and air pressure pump, and an end of return duct is connected with feed liquid pipeline, the other end is suspended on the top of the nutrition liquid level in the storage liquid well, and the outlet pipe of air pressure pump is positioned at the bottom of nutrition liquid level; The nutrient solution circulatory system mainly is made up of suction pump, feed liquid pipeline and back liquid pipeline, suction pump is positioned at the aboveground side of storage liquid, the water inlet of suction pump is positioned at the bottom of storage liquid well, delivery port is connected with feed liquid pipeline, back liquid pipeline one end is connected with the liquid outlet of implant system, the other end enters into storage liquid well from the wall of the aboveground end of storage liquid, is suspended on the top of nutrition liquid level; Plantation platform system comprises some planting grooves, and the inlet of planting groove is connected with feed liquid pipeline, and liquid outlet is connected with back liquid pipeline, and the elevational position of the inlet of planting groove is higher than liquid outlet; Guard system is mainly formed by the sunshade net, and the minimum zone of covering is for covering plantation platform system.
2. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that:
Described feed liquid pipeline is embedded in underground;
Described feed liquid pipeline is divided into feed flow trunk line and some grades of feed flow branch pipe(tube)s, and the bore maximum of feed flow trunk line is near plantation platform system the time, the feed flow trunk line is divided into some grades of feed flow branch pipe(tube)s successively, the closer to planting groove, bore is more little, the feed flow branch pipe(tube) bore minimum that is connected with planting groove;
Described back liquid pipeline is back liquid trunk line and some level time liquid branch pipe(tube)s, returns the bore maximum of liquid trunk line, and the progression that returns the liquid branch pipe(tube) is corresponding with the progression of feed flow branch pipe(tube), time liquid branch pipe(tube) bore minimum that is connected with planting groove; And the bore of described back liquid pipeline is big than the feed liquid pipeline of relevant position;
Described back liquid pipeline is embedded in underground.
3. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that: the described nutrient solution circulatory system also comprises flow control valve, and flow control valve is arranged on the feed liquid pipeline.
4. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that: described plantation platform system also is provided with drainage pipeline, and the liquid outlet of drainage pipeline and planting groove flexibly connects.
5. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that: the material of described planting groove is corrosion resistant white plastic;
Described planting groove is made up of cell body and groove lid, and the groove lid flexibly connects with cell body, and the bottom of cell body has radian, and bottom centre is to outer lug;
Described planting groove is 8~20 ° the angle of gradient and vertically is provided with.
6. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that: described planting groove is movably set on the bedstead.
7. according to the water ploughing system of the described culturing vegetable of claim 6, it is characterized in that: described bedstead is the bedstead that is provided with some arch supports.
8. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that: described sunshade net shading rate is 10~30% light sunshade net.
9. according to the water ploughing system of the described culturing vegetable of claim 1, it is characterized in that: described guard system also comprises frequency ventilating type insecticidal lamp, mythimna separata colour table or insect property and lures at least a in the hormone trapping device.
CN2010201798586U 2010-05-05 2010-05-05 Hydroponic culture system for cultivating plants Expired - Lifetime CN201709208U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101803560A (en) * 2010-05-05 2010-08-18 广州市卓骊农业科技有限公司 Water ploughing system for culturing vegetable and application thereof
ES2509790A1 (en) * 2014-03-20 2014-10-17 Rafael CASTRO FERNÁNDEZ Hydroponic system for plant cultivation (Machine-translation by Google Translate, not legally binding)
CN104782467A (en) * 2015-04-21 2015-07-22 江苏省农业科学院 Cultivation device capable of intelligently controlling plant rhizosphere environment and control method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101803560A (en) * 2010-05-05 2010-08-18 广州市卓骊农业科技有限公司 Water ploughing system for culturing vegetable and application thereof
ES2509790A1 (en) * 2014-03-20 2014-10-17 Rafael CASTRO FERNÁNDEZ Hydroponic system for plant cultivation (Machine-translation by Google Translate, not legally binding)
CN104782467A (en) * 2015-04-21 2015-07-22 江苏省农业科学院 Cultivation device capable of intelligently controlling plant rhizosphere environment and control method

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