CN107173223A - A kind of cultivation of plants method - Google Patents

A kind of cultivation of plants method Download PDF

Info

Publication number
CN107173223A
CN107173223A CN201710363926.0A CN201710363926A CN107173223A CN 107173223 A CN107173223 A CN 107173223A CN 201710363926 A CN201710363926 A CN 201710363926A CN 107173223 A CN107173223 A CN 107173223A
Authority
CN
China
Prior art keywords
plate
fixed
drive
water
tank
Prior art date
Application number
CN201710363926.0A
Other languages
Chinese (zh)
Other versions
CN107173223B (en
Inventor
不公告发明人
Original Assignee
金英子
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 金英子 filed Critical 金英子
Priority to CN201710363926.0A priority Critical patent/CN107173223B/en
Priority claimed from CN201811334920.1A external-priority patent/CN109302976B/en
Publication of CN107173223A publication Critical patent/CN107173223A/en
Application granted granted Critical
Publication of CN107173223B publication Critical patent/CN107173223B/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
    • A01H4/00Plant reproduction by tissue culture techniques ; Tissue culture techniques therefor
    • A01H4/008Methods for regeneration to complete plants
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G31/00Soilless cultivation, e.g. hydroponics
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G31/00Soilless cultivation, e.g. hydroponics
    • A01G31/02Special apparatus therefor
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G31/00Soilless cultivation, e.g. hydroponics
    • A01G31/02Special apparatus therefor
    • A01G31/06Hydroponic culture on racks or in stacked containers
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G7/00Botany in general
    • A01G7/04Electric or magnetic or acoustic treatment of plants for promoting growth
    • A01G7/045Electric or magnetic or acoustic treatment of plants for promoting growth with electric lighting
    • 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
    • A01G9/24Devices or systems for heating, ventilating, regulating temperature, illuminating, or watering, in greenhouses, forcing-frames, or the like
    • A01G9/243Collecting solar energy
    • 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
    • A01G9/24Devices or systems for heating, ventilating, regulating temperature, illuminating, or watering, in greenhouses, forcing-frames, or the like
    • A01G9/247Watering arrangements
    • 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
    • A01G9/24Devices or systems for heating, ventilating, regulating temperature, illuminating, or watering, in greenhouses, forcing-frames, or the like
    • A01G9/26Electric devices
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
    • A01H4/00Plant reproduction by tissue culture techniques ; Tissue culture techniques therefor
    • A01H4/001Culture apparatus for tissue culture; Culture media therefor
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S9/00Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply
    • F21S9/02Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator
    • F21S9/03Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light
    • F21S9/035Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light the solar unit being integrated within the support for the lighting unit, e.g. within or on a pole
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V23/00Arrangement of electric circuit elements in or on lighting devices
    • F21V23/02Arrangement of electric circuit elements in or on lighting devices the elements being transformers, impedances or power supply units, e.g. a transformer with a rectifier
    • F21V23/023Power supplies in a casing
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V33/00Structural combinations of lighting devices with other articles, not otherwise provided for
    • F21V33/006General building constructions or finishing work for buildings, e.g. roofs, gutters, stairs or floors; Garden equipment; Sunshades or parasols
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S20/00Supporting structures for PV modules
    • H02S20/30Supporting structures being movable or adjustable, e.g. for angle adjustment
    • H02S20/32Supporting structures being movable or adjustable, e.g. for angle adjustment specially adapted for solar tracking
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]
    • 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
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/25Greenhouse technology, e.g. cooling systems therefor
    • 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
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • 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
    • Y02P60/12Technologies relating to agriculture, livestock or agroalimentary industries using renewable energies, e.g. solar water pumping
    • 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
    • Y02P60/14Measures for saving energy, e.g. in green houses
    • 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 invention discloses a kind of cultivation of plants method, comprise the following steps:The tissue-cultured seedling that tissue cultures are obtained is cultivated in energy saving greenhouse or energy-conservation planting greenhouse, wherein, tissue culture procedures include collection, cleaning, sterilization, explant inoculation, squamous subculture, culture of rootage and the transplanting of explant, and the energy saving greenhouse or energy-conservation planting greenhouse include solar power system, spray irrigation system and illuminator.The many horticultural facilities being applied to during plant culture have been carried out unified improvement by the present invention, including the cleaning sterilizing device during solar power system, illuminator, spray irrigation system, tissue culture, culture medium filling apparatus etc., a series of improvement and combination make whole cultivation of plants process more perfect, operating efficiency is also improved, each improvement is very important.

Description

A kind of cultivation of plants method

Technical field

The present invention relates to gardens field, more particularly to a kind of cultivation of plants method.

Background technology

Plant Tissue Breeding refers to aseptically, by vitro plant organ, tissue, cell, embryo, plasm Body, is cultivated on the culture medium manually prepared, and gives suitable condition of culture, is induced and is produced callus, or resting bud etc., or Grow up to complete plant, be referred to as Plant Tissue Breeding.Due to being in vitro to cultivate, and culture is to depart from plant parent Culture, therefore also referred to as cultured in vitro or Tube propagation.Tissue culture technique can not disturbed by plant other parts The lower rule for studying the growth and differentiation that are cultured part, and their growth can be influenceed using various condition of culture and is divided Change, with solve in theory with production the problem of.Plant physiology in bioscience, biochemistry, heredity are effectively promoted The development of each door subject such as, cytology, morphology and agriculture, woods, doctor, medicine and interpenetrate, promote nutrition physiology, cell Physiology and metabolism, biosynthesis, gene transfer, the research of genetic recombination.Current organization culture as bioengineering a weight Technology is wanted, the effect played in fundamental research and production practices is growing day by day, it is expected to make contributions to promote the well-being of mankind.

In the work of whole tissue cultures, the cleaning and sterilizing work of explant is a very important job, is related to Final pollution rate, the important indicator such as survival rate, existing technology is all to carry out in bottle simply cleaning and disinfection, Surrounding is hard material, easily causes the damage of vegetable material, and cleaning and disinfecting process are long, it is necessary to artificially see , once also can only clean and sterilize a small amount of vegetable material, operating efficiency is low.In whole cleaning process, staff Also can frequent contact sterilizing liquid, have potential safety hazard, and limited in most cases by condition, whole cleaning and disinfection All not very thorough, effect is general.

With the increasingly reduction of global traditional energy, the importance of generation of electricity by new energy is more protruded, and is had a clear superiority Photovoltaic generation can then turn into the focus that most attracts people's attention in new energy, at the same time, world's photovoltaic generation industry is fast-developing, Production link, which excessively expands, in the middle of industrial chain has triggered a series of problems, and at present, the primary structure of existing solar energy electroplax is Integrated board, its surface has the smooth surface being made with materials such as monocrystalline silicon or polysilicons, and this smooth surface is received after light irradiation then Electric energy can be converted light energy into.This structure tool has disadvantages that windproof, rain and snow effect is bad, easily causes destruction, by Need to change whole solar energy electroplax after destruction, cost is very high.It is complicated, it can not also be adjusted according to the change in location of the sun The angle of whole solar panels, Solar use is inefficient.Also the safeguard measure without solar energy electroplax, it is impossible to adapt to thousand changes ten thousand The weather conditions of change, design lacks reasonability.

Light supplementing lamp for plants is the natural law according to plant growth, and photosynthetic original is carried out using sunshine according to plant Reason, sunshine is replaced using light come a kind of light fixture of light source needed for providing growth and development of plants.Current LED extensive uses In all trades and professions, one of them important direction is exactly LED plant light compensation, contributes to plant to produce using what LED was sent Optimal photosynthetic blue light and feux rouges, help to shorten the growth cycle of plant.The LED of spectrum needed for by being adapted to plant Irradiation, can not only promote it to grow, but also with kind of blooming period prolonging, can improve the quality of flower.Further this high efficiency light source System is applied in the agricultural productions such as the facilities such as greenhouse, greenhouse, on the one hand can solve the drawbacks of sunshine deficiency causes, the opposing party Face may also reach up the purpose of anti-season cultivation.But the LED lamp for being currently used in plant light compensation is functional more single, applicable Narrow range, very flexible, can not optically focused, the shortcomings of maintenance is complicated.

Breeding work is a very important job, and tissue culture technique also fast development in breeding process is being ground Culture medium can largely be used during studying carefully, existing method is little by little poured into again in blake bottle after manual configuration culture medium, is needed The workbench of bulk, not special equipment and table top are wanted, the in disorder of experimental bench is easily caused, while manual operation step ratio It is more, also easily scalded in toppling process, also bad control, culture medium is also uneven.

Agricultural is an important branch of industry in national economy, and agricultural belongs to the primary industry, in the whole its people of China Occupied an important position in economy.Existing sprinkler irrigation fertilization device is divided to two kinds, and a kind of intelligence degree is low, it is necessary to expend substantial amounts of Manpower and materials, inefficiency, another is exactly that intelligence degree is high, and cost is high, and structure is more complicated, and maintenance cost is also high, behaviour Make cumbersome.Both have respective advantage and disadvantage, are not appropriate for widely using.In existing production, the waste of water resource is very tight Weight, lacks the accurate control to watering, fertilizing amount, it is impossible to accomplish to reduce the purpose of waste on the basis of cost is reduced.

All it is the deficiency existed now in field of plant cultivation above, and any prior art does not all change these deficiencies New a set of plant cultivation method is combined to form while entering, is used in combination with, will greatly improve if realized after improving The purpose of energy-conserving and environment-protective is reached while operating efficiency.

The content of the invention

The technical problem to be solved in the present invention is to provide low, easy to operate, the environmentally friendly plant of a kind of green energy conservation, cost Cultural method.

A kind of cultivation of plants method, the tissue-cultured seedling that tissue cultures are obtained is in energy saving greenhouse or energy-conservation planting greenhouse Cultivated, wherein, the collections of tissue culture procedures including explant, cleaning, sterilization, explant inoculation, squamous subculture, take root Culture and transplanting, the energy saving greenhouse or energy-conservation planting greenhouse include solar power system, spray irrigation system and illuminator.

Cultivation of plants method of the present invention, wherein, the cleaning of the explant and disinfecting process use explant Cleaning sterilizing device, including liquid reserve tank, cleaning cabinet and the raffinate collection box being sequentially connected, the cleaning cabinet include cabinet and covered Covered on first at an upper portion thereof, the first fixed mount is provided with the middle part of the cabinet, the bottom of first fixed mount passes through Fix bar connects first base, and the first base is arranged on the bottom of the cabinet, and the first base is filled with the 3rd driving Put connected;

First fixed mount is made up of the first annulus with the second annulus for being arranged at its underpart, first annulus and institute State and connected by connecting rod between the second annulus, cleaning bag is fixed with first fixed mount, the cleaning bag is netted Structure, is fabricated from a flexible material, and the cleaning bag includes bag and the first lid, leads between the bag and first lid Slide fastener is crossed to be connected;Multiple first shower nozzles are provided with top and side wall inside the cabinet;

The cleaning bag is removably attached on first fixed mount, is relatively set with the upper end of the cleaning bag Two the first bandages, are relatively set with the lower end of the cleaning bag between two the second bandages, two first bandages Line of the line between two second bandages;

First bandage and second bandage are constituted by the band body of two strips;

Two the first outside projections are relatively set with first annulus, are oppositely arranged on second annulus There are two the outside second raised, companies of the line between two second projections between two first projections Line;The first bandage binding is fixed in first projection, and the second bandage binding is fixed in second projection.

Cultivation of plants method of the present invention, wherein, the cabinet is rectangular parallelepiped structure, is covered on described first Bottom is fixedly connected with three the first shower nozzles, and first shower nozzle is respectively fixed with the center of four side walls of the cabinet;

3rd drive device is motor, and the first base is disk, the 3rd drive device driving described the One base is rotated by axle of the center of the first base, and the quantity of the connecting rod is 3;The cleaning bag is by corrosion resistant Flexible material is made;

The liquid reserve tank includes cleaning fluid or thimerosal, and the liquid reserve tank passes through the first pipeline and the first shower nozzle phase Even, it is provided with flow pump on first pipeline;

The bottom of the cabinet is provided with liquid outlet, and the liquid outlet passes through the second pipeline and the raffinate collection box phase Even, it is provided with the first valve on second pipeline;

The explant cleaning sterilizing device also includes switch board, respectively with the flow pump, the cleaning cabinet and described First valve is connected.

Cultivation of plants method of the present invention, wherein, the solar power system is one kind in following three kinds:

The first:

The first generator unit, the first rotating device, the first control that the solar power system includes being sequentially connected are single Member and the first battery, the solar power system with protection device is also including the first inverter, respectively with described the One control unit is connected with first battery;

First generator unit includes support frame, two brackets is provided with support frame as described above, in two supports The first supporting plate is fixed with frame, the first photovoltaic layer is fixed with the top of first supporting plate, it is wrapped successively from bottom to up The first flexible thin-film battery component, the first film layer and the first dope layer are included, wherein, first supporting plate is crystallite foamed ceramics Warming plate;

Solar energy protection device, including the first support body, the first cover plate and are fixed with the top of first supporting plate Two cover plates, first support body includes two the first vertical racks and the horizontally disposed rectangle support being fixed thereon, described The lower end of two the first vertical racks is fixed on the both sides of first supporting plate, is provided with and symmetrically sets on the rectangle support First cover plate and second cover plate put are sliding between first cover plate and second cover plate and the rectangle support Dynamic connection;

The first driving means and second that the solar power system also includes being connected with first control unit are driven Dynamic device, the first driving means are connected with first rotating device, and second drive device is respectively with described first Cover plate is connected with second cover plate;

Multiple first be connected with first control unit are provided with first cover plate and second cover plate Humidity sensor and multiple first optical sensors;

First cover plate is identical with the size of second cover plate, and length is the half of the first supporting plate length, Width is consistent with the width of first supporting plate;

Both sides on the rectangle support along its length are provided with the first chute, in first cover plate and described The both sides of the length direction of second cover plate are provided with the first sliding block coordinated with first chute, first cover plate and described The sliding distance of second cover plate is the half of the first supporting plate length;

First photovoltaic layer is list structure, and multiple first photovoltaic layers are arranged in parallel and are adhered to described first On fagging, the gross area of multiple first photovoltaic layers is the 85% of the whole first support plate suqare;Multiple described first Photovoltaic layer is connected with first control unit;

The first flexible thin-film battery component be non-crystalline silicon flexible solar hull cell or organic thin film cells, it is described First film layer is fluorine-containing TPT polyester films, and first dope layer is nano level photo-catalytic coating;

First cover plate and second cover plate are made of clear material;

Second:

The solar power system includes the second generator unit, the second control unit and the second electric power storage being sequentially connected Pond, the solar power system also includes the second inverter, respectively with second control unit and second battery It is connected;

Second generator unit includes two the second vertical racks, between the top of two second vertical racks A horizontal stand is fixed with, rotating cylinder is provided with the horizontal stand, the rotating cylinder runs through the horizontal stand and can Around horizontal stand rotation, the second supporting plate is fixed with the rotating cylinder, 4 the are provided with second supporting plate Two rotating devices, to be rotatably connected between second rotating device and second supporting plate, in second rotating dress Put and be fixed with the second photovoltaic layer, it includes the first plate body, the second flexible thin-film battery component, the second film layer successively from bottom to up With the second dope layer, four layers of consolidation are into a single integrated structure, wherein, first plate body is crystallite foamed ceramic insulation board;

The four-drive device and the 5th that the solar power system also includes being connected with second control unit drives Dynamic device, the four-drive device is connected with 4 second rotating devices respectively, the 5th drive device and described turn Cylinder is connected;

The second humidity sensor being connected with second control unit and are provided with second vertical rack Two optical sensors;

Second photovoltaic layer is rectangular configuration, 4 the second photovoltaic layer parallel arrangements, respectively with the described second control Unit is connected, and the gross area of 4 second photovoltaic layers is the 75% of the whole second support plate suqare;

The second flexible thin-film battery component be non-crystalline silicon flexible solar hull cell or organic thin film cells, it is described Second film layer is fluorine-containing TPT polyester films, and second dope layer is nano level photo-catalytic coating;

The third:

The solar power system includes the 3rd generator unit, the 3rd control unit and the 3rd electric power storage being sequentially connected Pond, the solar power system also includes the 3rd inverter, respectively with the 3rd control unit and the 3rd battery It is connected;

3rd generator unit includes four the 3rd vertical racks, between the top of four the 3rd vertical racks Two the second horizontal stands be arrangeding in parallel are fixed with, 5 cross bars are fixed between two second horizontal stands, in institute State and the second plate body is provided with cross bar, second plate body around the cross bar through the cross bar and can rotating, described the The surrounding of two plate bodys has been tightly fastened frame, and the frame is made up of aluminium alloy or carbon fibre material;On second plate body The 3rd photovoltaic layer is fixed with, it includes the 3rd flexible thin-film battery component, third membrane layer and the 3rd dope layer successively from bottom to up; Second plate body and the 3rd photovoltaic layer are connected with the 3rd control unit;

Be provided with each cross bar the 3rd humidity sensor being connected with the 3rd control unit and One the 3rd optical sensor;

The 3rd flexible thin-film battery component is copper and indium potassium selenium thin-film solar cells or dye-sensitized cell;

The third membrane layer is ethene-TFE copolymer film, and thickness is 300 microns;

3rd dope layer is nano level photo-catalytic coating, and thickness is 80 microns;

Fixed between the 3rd flexible thin-film battery component and the second plate body by binding agent, the binding agent is fire-retardant Type polymeric binder;

Interfacial agents are coated with the both sides of second plate body.

Cultivation of plants method of the present invention, wherein, the illuminator for be fixed on greenhouse or planting greenhouse or Energy-saving LED lamp on cultivating stand, the energy-saving LED lamp is connected with the solar power system, be it is following two in one kind:

The first:

The energy-saving LED lamp be Multifunctional LED lamp, including lens panel, second base, inside the second base LED panel and the 4th control unit for controlling LED panel movement;

The lens panel includes multiple first collector lens and the net for fixing the multiple first collector lens Lattice support, and the grid of the net grid support and first collector lens one-to-one corresponding;

The second base is groove, and the first half of the groove is used to placing and fix the lens panel, described recessed The lower half of groove is used to place the LED panel, and the side of the lower half of groove is used for LED faces described in push-and-pull provided with opening Plate;

The LED panel is located on the focal plane of the lens panel;And it is divided into the multiple and net grid support The one-to-one LED light group of grid, the center of each LED light group is provided with the first white LED lamp and described first The white LED lamp left and right sides is additionally provided with the first blue LED lamp and the first red LED lamp;

The heat dissipating layer being made up of far ultrared paint is provided with the second base, in the side of the lower half of groove Waterproof layer is provided with opening, the waterproof layer is silicone band;

4th control unit, which is used to driving the LED panel to produce, to be moved left and right, then described the after being moved to the left The focus of one red LED lamp and the corresponding first collector lens overlaps, after being moved to the left then first blue LED lamp with The focus of the correspondence first collector lens is overlapped;The wavelength of first blue LED lamp be 450~460nm or 460~ 470nm;The wavelength of first red LED lamp is 620-630nm or 640-660nm;

The surrounding of the second base is additionally provided with mutual splicing body;

Second:

The LED spotlights include lens jacket, the 3rd base, aluminium reflector, LED photosphere, the 6th drive device, the 7th Drive device and the 5th control unit;

The aluminium reflector match in horn-like and its larger end with the lens jacket be connected, smaller end then with institute State the 3rd base to match connection, the lens jacket, the 3rd base and the aluminium reflector have been monolithically fabricated the LED The shell of spotlight;

The lens jacket is provided with second collector lens and multiple 3rd collector lenses, and second collector lens Positioned at the center of the lens jacket;

The LED photosphere is provided with second white LED lamp, multiple second blue LED lamps, multiple second feux rouges LED, multiple second blue LED lamps and multiple second red LED lamps are spaced, and second white light LEDs Lamp position on the center line of second collector lens, the multiple second blue LED lamp and multiple second feux rouges LED is respectively on the center line of multiple 3rd collector lenses, and the LED photosphere passes through four first expansion links etc. Spacing is vertically connected on the 3rd base;

The heat dissipating layer being made up of far ultrared paint is provided with the surface of the 3rd base, is set on the LED photosphere Layer of silica gel is equipped with, heat abstractor is provided with the aluminium reflector;

6th drive device controls the LED photosphere to rotate by the second expansion link, the 7th drive device The LED photosphere is controlled to be moved along its center line by the 3rd expansion link;5th control unit is located at the 3rd bottom Seat is internal, for controlling the LED photosphere, the 6th drive device and the 7th drive device;

The wavelength of second blue LED lamp is 450~460nm or 460~470nm, the ripple of second red LED lamp A length of 620-630nm or 640-660nm;3rd collector lens, second blue LED lamp and second red-light LED The quantity of lamp is four.

Cultivation of plants method of the present invention, wherein, explant inoculation, the squamous subculture and described take root The culture medium used in culture is carried out filling using culture medium filling apparatus;

The culture medium filling apparatus includes culture medium blending tank, filing table, culture medium recycling can and lowering or hoisting gear;

The 4th base that the culture medium blending tank includes being sequentially connected from bottom to up, cover on tank body and second, the tank Body is internally provided with first heater, the first stirring vane and the second stirring vane, the 4th base and is provided with the 8th Drive device, the 9th drive device, first stirring vane are connected with the 8th drive device, second stirring vane It is connected with the 9th drive device, the bottom of the tank body is provided with liquid outlet;The liquid outlet connects go out liquid house steward, institute One end that go out liquid house steward connects multiple packing pipes by conversion head is stated, the other end of multiple packing pipes is fixed on the second fixation On frame, multiple filling heads are fixed with second fixed mount, each filling head connects a packing pipe respectively;

The lowering or hoisting gear is arranged on the bottom of the culture medium blending tank;The filing table goes out liquid described in being positioned close to The position of mouth, including table top and the collecting tank being arranged on the table top, the collecting tank are arranged on the bottom of the filling head, The bottom plate of the collecting tank is obliquely installed along its length, and angle of inclination is 3 degree, the culture medium recycling can and the collecting tank It is connected;

The first heater is arranged on the middle part of the tank body, and first stirring vane is arranged on the tank body Bottom, second stirring vane is arranged on the middle and upper part of the tank body;

The first temperature sensor is provided with the tank body, display screen and multiple behaviour are provided with the 4th base Make button, control module is provided with the 4th base, the control module is pressed with the display screen, the operation respectively Button, the first heater, first temperature sensor, the 8th drive device and the 9th drive device phase Even;

Secondary heating mechanism is internally provided with the culture medium recycling can;In the go out liquid house steward and multiple described point The second valve is respectively arranged with tubulature;The go out liquid house steward is flexible pipe, and the tank body is made of transparent material.

Cultivation of plants method of the present invention, wherein, the tissue-cultured seedling root agar that culture of rootage is obtained is cleaned dry First it is placed on seedling culture frame and cultivates 1~2 month after net, then is transplanted on cultivation bed;

The seedling culture frame includes the second support body, and second support body includes top plate, bottom plate, left plate, right plate and rear side Plate, is additionally provided with multiple seedlings nursing plates, the seedlings nursing plate is the rectangular parallelepiped structure of upper opening, described on second support body Rack is provided with seedlings nursing plate, multiple nursery cartridge apertures are evenly arranged with the rack, is put in the nursery cartridge apertures It is equipped with seedling-raising box;

The seedling-raising box includes box body and second lid in portion placed on it, is provided with the bottom even of the box body many Individual leaking hole, includes seedling medium in the tray interior, is provided with the bottom of the seedling medium and prevents slipping through the net, in the box The edge of body upper end is provided with the supporting part stretched out, and the supporting part is supported and fixed on the rack;

Inlet opening and apopore are provided with rear side of the seedlings nursing plate, the inlet opening passes through pipeline and the first water tank phase Even, the apopore is connected by pipeline with collection box;

Multiple LEDs are evenly arranged with side plate in the rear;

The second chute is fixed with the both sides of second support body, is fixed with the both sides of the seedlings nursing plate and described second The second sliding block that chute is engaged;

Nursery cartridge apertures on the rack is equal with the quantity of the seedling-raising box on each seedlings nursing plate, is 12 Individual, the quantity of the seedlings nursing plate is 4, and the first seedlings nursing plate, the second seedlings nursing plate, the 3rd seedlings nursing plate and the 4th are followed successively by from top to bottom Seedlings nursing plate;

Second sliding block being fixed on second seedlings nursing plate, the 3rd seedlings nursing plate and the 4th seedlings nursing plate is Telescopic rod structure, the telescopic extensions for second sliding block being fixed on second seedlings nursing plate are the 1 of the seedlings nursing plate width ~2 times, the telescopic extensions for second sliding block being fixed on the 3rd seedlings nursing plate are 1~3 times of the seedlings nursing plate width, The telescopic extensions for second sliding block being fixed on the 4th seedlings nursing plate are 1~4 times of the seedlings nursing plate width.

Cultivation of plants method of the present invention, wherein, the spray irrigation system is one kind in following two:

The first:

The spray irrigation system includes the second water tank and the first coupled water inlet manifold, on first water inlet manifold The first water pump is provided with, first water inlet manifold is connected with multigroup water injector, the water injector described in every group includes first Sparge pipe and humidifier tube, first sparge pipe and the humidifier tube pass through the first branch pipe and the second branch pipe and described first respectively Water inlet manifold is connected, and is provided with the 3rd valve on first branch pipe, the 4th valve, institute are provided with second branch pipe The top that the first sparge pipe is horizontally set on cultivation bed is stated, multiple second shower nozzles are provided with first sparge pipe, in institute State and be provided with the 4th humidity sensor on cultivation bed;The humidifier tube is arranged on the middle position of the height of the energy-conservation planting greenhouse Put, the humidifier tube is formed by connecting by multiple humidification branch pipes, 1 the 5th humidity sensor is fixed with each humidification branch pipe Device, two the 3rd shower nozzles are respectively fixed with the both sides of the 5th humidity sensor;Is provided with the 3rd shower nozzle Five valves;First water pump, the 4th humidity sensor and the 5th humidity sensor and the solar power generation system System is connected;

The quantity of the cultivation bed is multiple, and the top of each cultivation bed is both provided with water injector described in one group, Multigroup water injector be arranged in parallel;The first filter is provided with first water inlet manifold;It is wet the described 5th The top of degree sensor is connected with water fender, and the height of the water fender is less than the height of the 3rd shower nozzle;

Second:

The spray irrigation system is arranged on cultivating stand, including pallet and the second water inlet manifold, is provided with the pallet Multiple rows of flowerpot, is provided with the second water pump on the second water inlet manifold, and one end of second water inlet manifold is connected with multiple water inlets Branch pipe, the quantity of the water inlet pipe is consistent with the row of the flowerpot;The other end of second water inlet manifold passes through respectively First branch pipe and the second branch pipe are connected with three-tank and receptacle, and the 3rd is passed through between the three-tank and the receptacle Branch pipe is connected;

Flowmeter, the second filter and multiple water injectors are provided with each water inlet pipe, it is each described Water injector one flowerpot of correspondence and the top for being arranged on the flowerpot, the water injector include from top to bottom phase successively Mozzle even, reduction of speed subtract stream device and water dish, and the mozzle is hollow Telescopic rod structure, its upper end and the water inlet branch Pipe is connected;It is solid cylinder that the reduction of speed, which subtracts stream device, helical form water stream channel is provided with wherein, the water dish is by more Individual second sparge pipe is constituted, and one end and the reduction of speed of multiple second sparge pipes, which subtract, to flow the lower end of device and be connected, Duo Gesuo The other end for stating the second sparge pipe is free end, is uniformly distributed in a circular flat, uniform on second sparge pipe It is provided with multiple 4th shower nozzles;

The 6th valve is provided with first branch pipe, the 7th valve is provided with second branch pipe, described The 8th valve is provided with 3rd branch pipe;

The 6th humidity sensor is provided with the flowerpot, the 9th valve is provided with the mozzle;

Fertilizer box, the 3rd filter and agitating device are provided with the receptacle, the 3rd filter is set The water outlet in the receptacle is put, the agitating device is two, is separately positioned on the upper and lower part of the receptacle; Be provided with multiple tray slots being adapted with the flowerpot bottom on the pallet, the quantity of the tray slots with it is described The quantity of flowerpot is equal;Thermometer is provided with the pallet;

The spray irrigation system also includes switch board, respectively with the agitating device, the 6th valve, the 7th valve Door, the 8th valve, the 9th valve, second water pump are connected with the 6th humidity sensor.

Cultivation of plants method difference from prior art of the present invention is:

Explant cleaning sterilizing device can complete cleaning and disinfecting process, whole mistake in cultivation of plants method of the present invention Journey does not need artificial contact liq, reduces potential safety hazard, and reduce the workload of staff;What flexible material was made Cleaning bag preferably protects vegetable material;One processing procedure can clean and/or sterilize simultaneously substantial amounts of vegetable material, this It can not be realized in present laboratory work, substantially increase operating efficiency, time saving and energy saving, easy to operate, whole device knot Structure is simple, convenient maintenance and cleaning.

Solar power system of the present invention with protection device is simple in construction, cost is low, without excessive labyrinth;This The system of invention can be realized according to the change in location of the sun to be rotated, and more efficiently using solar energy, improves utilization ratio;This hair Bright system has device of solar generating safeguard measure, extends the service life of photovoltaic layer;Using flexible photovoltaic layer, convenience is more Change, one can only change this when wrecking wherein, reached the purpose of energy-conservation, greatly reduced cost.

Energy-saving LED lamp is combined solar energy with LED in the present invention, and the structure of LED is improved, Have the advantages that energy-conserving and environment-protective, multi-functional, applied widely, flexibility are strong and for ease of maintenaince, can be widely applied to difference The light filling demand of plant growth under scene;The Multifunctional LED spotlight of the present invention flexibly realizes being used alternatingly for blue light and feux rouges And focusing and diverging control to light.

The filling apparatus of culture medium is simple in construction in the present invention, forms the special equipment for filling culture medium, training Support base blending tank automaticity strong, manual operation can be avoided to contact culture medium as far as possible, it is therefore prevented that the entrance of impurity, heating dress When putting controllable temperature control, two stirring vanes one on the other can farthest ensure the uniform of culture medium, and display screen is real-time Monitor the state of culture medium, simple to operate quick, lowering or hoisting gear can adjust the height of culture medium blending tank up and down, convenient dress liquid or Person is repaired, and lowering or hoisting gear is heightened during tapping, tapping can be completed using gravity of culture medium itself, multiple filling heads can be simultaneously The filling of multiple blake bottles is completed, operating efficiency is improved;Sump bottom is tilted, by the media transfer of omission to culture medium In recycling can, it is therefore prevented that waste also ensure that the clean and tidy of filing table.Secondary heating mechanism is provided with culture medium recycling can, can be with Heating, to prevent culture medium solidifying, wheel body, convenient transport are provided with the bottom of culture medium recycling can.The culture medium of the present invention Filling apparatus greatly reduce working strength in breeding work, improve operating efficiency, can batch largely carry out it is related Work.

The seedling culture frame of the present invention is divided into sandwich construction, and bottom is provided with wheel body, is moved easily, and top is provided with articles holding table, Conveniently place some garden tool sets, thermometer, hygrometer etc., convenient record, monitoring;Seedlings nursing plate is designed as taking out for drawer type Design is drawn, convenient operation can also make full use of natural light when sunlight is good simultaneously;Seedlings nursing plate is designed with water inlet and delivery port, The supply of moisture can be carried out to seedling-raising box by the way of leaching basin, it is therefore prevented that go out pit-hole or the damage to lily bud scale, Moisture absorption also can evenly, and unnecessary moisture can be reclaimed, and operates also cleaner.Rack plays the work of fixed seedling-raising box With the bottom of the distance from bottom seedlings nursing plate of seedling-raising box has certain distance, adds gas permeability, while being also convenient for the suction of moisture Receive and discharge;The box side wall of seedling-raising box is corrugated type structure, is made of black hard plastics, adds intensity, lid is adopted It is made of transparent material, plays a part of keeping moisture while light-permeable, can use or remove according to demand lid; Seedling-raising box bottom, which is provided with, prevents slipping through the net, and spilling for seedling medium is prevented, while insect prevention and ventilative effect, nursery can also be played Frame is designed to Multilayer drawable structure, and pull is realized by chute and sliding block, meanwhile, the length that each seedlings nursing plate can be pulled out is not Together, the pull length of bottom is more than top, and such design can be when without using support body or few sunshine, and all educates Seed plate is withdrawn in support body, saves space, sunshine is sufficient or operating process in, all seedlings nursing plates are drawn to it is most long, All seedlings nursing plates can touch sunshine, meanwhile, the operation of personnel has been also convenient for, it is time saving and energy saving, it is ingenious in design;It is different Each independent seedling-raising box can breed different kinds, prevent from obscuring being also convenient for mark;It is uniform on the rear wall of support body LED/light source is provided with, facilitates light filling to use.

Spray irrigation system of the present invention can targetedly be entered according to humidity sensor feedack to the cultivation bed of water shortage Row sprinkling irrigation, humidification regulation is carried out to local air humidity, and intelligence degree is high, and structure is also very simple, and convenient operation reduces people The input of power material resources, improves operating efficiency.

Another rainer of the present invention integrates fertilising and sprinkling irrigation, can be realized as desired by control valve The conversion of the two, is provided with humidity sensor in flowerpot, can monitor the humidity of soil, be provided with flowmeter, passes through control Cabinet is controlled to sprinkling irrigation amount, it is therefore prevented that waste, it is also more targeted, reached energy-conservation purpose, the first filter and The setting of second filter makes water quality more preferable, it is therefore prevented that blocking of shower nozzle etc., and dismountable design is convenient for changing.Water dish Design is evenly reasonable, and sprinkling irrigation effect is more preferable;Compared with whole sprinkling irrigation, the present invention be become more meticulous to each flowerpot sprinkling irrigation amount and The control of dose, the setting that reduction of speed subtracts stream device can slow down the speed of current, dynamics too macrolesion plant when preventing from spraying water Or a hole is gone out to the soil in flowerpot, more reasonable, mozzle is Collapsible structure, can be according in different flowerpots Different floristics or different plant heights adjust the height of water injector, meet different demands.Rainer of the present invention Simple in construction, cost is low, easy to operate, sprinkling irrigation is uniform and energy-conserving and environment-protective, reduces the input of manpower and materials, improves work effect Rate.

The many horticultural facilities being applied to during plant culture have been carried out unified improvement, including solar energy hair by the present invention Cleaning sterilizing device, culture medium filling apparatus during electric system, illuminator, spray irrigation system, tissue culture etc., it is a series of to improve Make whole cultivation of plants process more perfect with combining, also improve operating efficiency, each improvement is extremely important 's.But more importantly these improved are utilized in conjunction with the whole cultivation flow of plant.

The cultivation of plants method to the present invention is described further below in conjunction with the accompanying drawings.

Brief description of the drawings

Fig. 1 is the structural representation of the cleaning sterilizing device of explant of the present invention;

Fig. 2 for explant of the present invention cleaning sterilizing device in cleaning bag structural representation;

Fig. 3 is the structural representation of the first solar power system of the invention;

Fig. 4 is the structural representation of solar energy protection device in closed state in the first solar power system of the invention Figure;

Fig. 5 is the structural representation of solar energy protection device in the on-state in the first solar power system of the invention Figure;

Fig. 6 is the structural representation of second of solar power system of the invention in normal operation;

Fig. 7 is Fig. 6 side view;

Fig. 8 is structural representation of the generator unit under guard mode in second of solar power system of the invention;

Fig. 9 is the structural representation of generator unit in normal operation in the third solar power system of the invention Figure;

Figure 10 is Fig. 9 top view;

Figure 11 is structural representation of the generator unit under guard mode in the third solar power system of the invention;

Figure 12 is the structural representation of energy-saving LED lamp in the present invention;

Figure 13 (a) is the structural representation of energy-saving LED lamp LED panel of the present invention;

Figure 13 (b) is the structural representation of energy-saving LED lamp controlling organization of the present invention;

Figure 14 is the structural representation of LED spotlights in the present invention;

Figure 15 is the structural representation of the lens jacket of LED spotlights in the present invention;

Figure 16 is the structural representation of culture medium filling apparatus of the present invention;

Figure 17 is filing table and the side view of filling head in Figure 16;

Figure 18 is the positive structure schematic of seedling culture frame in the present invention;

Figure 19 in the present invention in seedling culture frame seedlings nursing plate structural representation;

Figure 20 in the present invention in seedling culture frame rack structural representation;

Figure 21 in the present invention in seedling culture frame seedling-raising box structural representation;

Figure 22 is the side structure schematic diagram of seedling culture frame in the present invention;

Figure 23 is the structural representation of the first spray irrigation system of the invention;

Figure 24 is the structural representation of greenhouse roll bar straightener in the present invention;

Figure 25 is the structural representation of another rainer in the present invention;

Figure 26 in the present invention in another rainer water dish upward view.

Embodiment

Embodiment 1

A kind of cultivation of plants method, comprises the following steps:The tissue-cultured seedling that tissue cultures are obtained in energy saving greenhouse or Cultivated in energy-conservation planting greenhouse, wherein, collection of the tissue culture procedures including explant, cleaning, sterilization, explant connect Kind, squamous subculture, culture of rootage and transplanting, the energy saving greenhouse or energy-conservation planting greenhouse include solar power system, spray Fill system and illuminator.The present invention's focuses on the basis of traditional cultivation method, and what links were used is important Horticultural facility improved, including explant cleaning sterilizing device, solar power system, LED etc..

The cleaning of explant and disinfecting process use explant cleaning sterilizing device, explant cleaning sterilizing device:

As depicted in figs. 1 and 2, a kind of explant cleaning sterilizing device, including liquid reserve tank 1, cleaning cabinet 2 and being sequentially connected Liquid in raffinate collection box 3, liquid reserve tank 1 enters cleaning cabinet 2, and cleaning cabinet 2 carries out the cleaning of explant material, raffinate collection box 3 cleaned after raffinate recovery;Cleaning cabinet 2 include cabinet 201 and cover at an upper portion thereof first on lid 202, on first The connected mode of lid 202 is any structure that can be opened and closed, and is such as hinged, and first is provided with the middle part of cabinet 201 and is consolidated Determine frame 4, the bottom of the first fixed mount 4 connects first base 6 by fix bar 5, and first base 6 is arranged on the bottom of cabinet 201, First base 6 is connected with the 3rd drive device;

First fixed mount 4 is made up of the first annulus 401 and the second annulus 402 for being arranged at its underpart, the He of the first annulus 401 Connected between second annulus 402 by connecting rod 403, cleaning bag 7 is fixed with the first fixed mount 4, cleaning bag 7 is netted knot Structure, is fabricated from a flexible material, equipped with the vegetable material for needing to clean or sterilize inside flexible material, surrounding be it is flexible, Damage, whole processing procedure milder, cleaning bag 7 will not be produced because of the collision with surrounding in cleaning or disinfecting process repeatedly Including the lid 702 of bag 701 and first, it is connected between the lid 702 of bag 701 and first by slide fastener 703, because being soft Property material, so using slide fastener 703 fix more consolidate, big gap will not be produced, cause the omission of vegetable material;In cabinet Multiple first shower nozzles 8 are provided with top and side wall inside 201, the first shower nozzle 8 is using liquid to the material in cleaning bag Cleaned or sterilized, being evenly arranged for multiple positions makes whole processing procedure more thorough, contact of the vegetable material with liquid Area is bigger.

Cleaning bag 7 is removably attached on the first fixed mount 4, convenient dismounting, carries out the loading or taking-up of vegetable material, Two the first bandages 704 are relatively set with the upper end of cleaning bag 7, two second are relatively set with the lower end of cleaning bag 7 and is tied up Line of the line between two the second bandages 705 between band 705, two the first bandages 704.The He of first bandage 704 Second bandage 705 is constituted by the band body of two strips.Two outside first are relatively set with the first annulus 401 convex 404 are played, the company between two the second outside projections 405, two the first projections 404 is relatively set with the second annulus 402 Line of the line between two the second projections 405;The binding of first bandage 704 is fixed in the first projection 404, the second bandage 705 bindings are fixed in the second projection 405.The design of bandage is simple and practical, and two bandages are designed per one end, fixation is played While be relatively simple and convenient, it is not necessary to many bandages are fixed, as the line between two the first bandages 704 perpendicular to two The such design of line between second bandage 705 be in order to it is anti-skidding while, can will be whole flexible clear to four direction Wash bag 7 and prop up, make the space of the inside bigger, if Parallel Design, can only prop up and to relative both direction, in addition Direction, which can soften, lies prone, and vegetable material therein can also be assembled, it is impossible to play good treatment effect.

Cabinet 201 is rectangular parallelepiped structure, and the bottom of lid 202 is fixedly connected with three the first shower nozzles 8 on first, in cabinet The center of 201 four side walls is respectively fixed with first shower nozzle 8.3rd drive device is motor, and first base 6 is circle Disk, the 3rd drive device driving first base 6 is rotated by axle of the center of first base 6, and the quantity of connecting rod 403 is 3. During plant running, whole first base 6 drives the first fixed mount 4 to rotate, on the one hand to one rotation of vegetable material therein The external force turned, allows vegetable material float in a liquid, contact area is bigger, is on the other hand to allow it with first The liquid that shower nozzle 8 sprays fully is contacted, and further expands contact area.

Cleaning bag 7 is made up of corrosion resistant flexible material, and liquid reserve tank 1 includes cleaning fluid or thimerosal, and liquid reserve tank 1 passes through First pipeline 9 is connected with the first shower nozzle 8, and flow pump 10 is provided with the first pipeline 9.If simple cleaning, cleaning fluid is only If being water, cloth can be used, flexible plastic, rubber etc. flexible material is made, if sterilization is needed, using some similar alcohol Or other thimerosals, flexible material can select corrosion resistant flexible plastic, and corrosion resistant rubber etc. material is made, specifically Flexible material needs selection according to experiment, and the species of the material of selection is all prior art.

The bottom of cabinet 201 is provided with liquid outlet 11, and liquid outlet 11 is connected by the second pipeline 12 with raffinate collection box 3, The first valve 13 is provided with the second pipeline 12.The cleaning sterilizing device of the explant of the present invention also includes switch board, respectively It is connected with flow pump 10, the cleaning valve 13 of cabinet 2 and first.

The application method of explant cleaning sterilizing device of the present invention is as follows:

Lid 202 on first is opened, cleaning bag 7 therein is taken out, slide fastener 703 is opened, it would be desirable to outside the plant of cleaning and sterilizing Implant is put into cleaning bag 7, zips up 703, whole cleaning bag 7 is fixed on by the first bandage 704 of binding and the second bandage 705 On first fixed mount 4, lid 202 on first are covered, cleaning fluid or thimerosal are added in liquid reserve tank 1, passes through switch board controlling stream Amount pump 10 is opened, and the 3rd drive device is opened, and the first valve 13 is closed, and cleaning fluid or thimerosal pass through the 8 pairs of cleanings of the first shower nozzle Vegetable material in bag 7 is cleaned or sterilized, meanwhile, the 3rd drive device driving disk 6 is rotated, and drives whole first to fix Frame 4 and cleaning bag 7 are rotated, by controlling flow and time to complete whole processing procedure, after the completion of, close the 3rd by switch board Drive device and flow pump 10, open the first valve 13, and raffinate is flowed into raffinate collection box 3, opens lid 202 on first, is taken out Explant material after cleaning, completes whole processing procedure.

If necessary to explant is cleaned and sterilized successively, said process is first just completed using water, after the completion of again plus Enter thimerosal, such as alcohol repeats said process, complete whole cleaning and disinfecting process, it is convenient and swift.

As shown in Fig. 3~Fig. 5, solar power system includes the first generator unit 14, the first rotating dress being sequentially connected The 15, first control unit 16 and the first battery 17, in addition to the first inverter 18 are put, respectively with the first control unit 16 and One battery 17 is connected;First generator unit 14, which is exposed to sunlight, realizes generating, and the first rotating device 15 can drive first Generator unit 14 is rotated, more efficiently using solar energy, and the first control unit 16 completes overall control action, specific control Method processed is prior art, and the first battery 17 plays memory action, and DC conversion is alternating current by the first inverter 18, the The structure and application method of one battery 17 and the first inverter 18 are prior art.

The first generator unit 14 includes support frame 19 in the present invention, and two brackets 20 are provided with support frame 19, The first supporting plate 21 is fixed with two brackets 20, the space between bracket 20 and support frame edge can be used as hub slot, two Gutter channel etc. can be used as between individual bracket 20.The first photovoltaic layer 22 is fixed with the top of the first supporting plate 21, it is from bottom to up Include the first flexible thin-film battery component, the first film layer and the first dope layer successively, wherein, the first supporting plate 21 is crystallite foam Ceramic thermal insulation plate.

Solar energy protection device, including the first support body, the first cover plate 23 and are fixed with the top of the first supporting plate 21 Two cover plates 24, the first support body includes two the first vertical racks 25 and the horizontally disposed rectangle support 26 being fixed thereon, two The lower end of individual first vertical rack 25 is fixed on the both sides of the first supporting plate 21, is provided with rectangle support 26 symmetrically arranged First cover plate 23 and the second cover plate 24, are slidably connected between the first cover plate 23 and the second cover plate 24 and rectangle support 26;

Solar power system also includes the driving dress of first driving means 27 and second being connected with the first control unit 16 28 (can realize the device of driving, such as motor to be any) are put, first driving means 27 are connected with the first rotating device 15, second Drive device 28 is connected with the first cover plate 23 and the second cover plate 24 respectively, under the control of the first control unit 16, the first driving Device 27 drives the first rotating device 15 to rotate, the second drive device 28 control the first cover plate 23 and the second cover plate 24 opening or Closure.

Multiple first humidity being connected with the first control unit 16 are provided with the first cover plate 23 and the second cover plate 24 to pass Sensor 29 and multiple first optical sensors 30.First humidity sensor 29 and the first optical sensor 30 are by the humidity information detected Information transfer with light is into the first control unit 16, and the first control unit 16 is according to the information received, in bars such as sleet mists When humidity ratio is larger under part, the first cover plate 23 and the second cover plate 24 are closed, the formation of the first photovoltaic layer 22 is protected, prevents it from breaking It is bad, increase the service life, when humidity is suitable, open the first cover plate 23 and the second cover plate 24.Sent out in the position of sunshine During changing, the first rotating device 15 of control is rotated, and is driven whole first generator unit 14 also to be rotated, is made therein First photovoltaic layer 22 receives the area increase of sunshine, more efficiently utilizes solar energy.

First cover plate 23 is identical with the size of the second cover plate 24, length be the length of the first supporting plate 21 half, width with The width of first supporting plate 21 is consistent.Both sides on rectangle support 26 along its length are provided with the first chute, first The both sides of the length direction of the cover plate 24 of cover plate 23 and second are provided with the first sliding block coordinated with the first chute, the He of the first cover plate 23 The sliding distance of second cover plate 24 is the half of the length of the first supporting plate 21.

First photovoltaic layer 22 is list structure, and multiple first photovoltaic layers 22 are arranged in parallel and are adhered to the first supporting plate 21 On, the gross area of multiple first photovoltaic layers 22 is the 85% of the whole area of first supporting plate 21;Multiple first photovoltaic layers 22 and One control unit 16 is connected.First flexible thin-film battery component is non-crystalline silicon flexible solar hull cell or organic film electricity Pond, the first film layer is fluorine-containing TPT polyester films, and the first dope layer is nano level photo-catalytic coating.First cover plate 23 and the second lid Plate 24 is made of clear material, such as the plastics or glass of transparent high intensity, obstructs sleet but still can be with printing opacity.First humidity is passed The quantity of the optical sensor 30 of sensor 29 and first is 4, and the quantity of the first photovoltaic layer 22 is 5, can realize mesh of the present invention While reduce all parts usage quantity, reduce cost.

Illuminator is the energy-saving LED lamp being fixed on greenhouse or planting greenhouse or cultivating stand, energy-saving LED lamp with it is described too Positive energy electricity generation system is connected, and concrete structure is as follows:

As shown in Figure 12 and Figure 13, Multifunctional LED lamp 100 of the invention includes:Lens panel 101, second base 102, LED panel 103 inside the second base 102 and the 4th control list for controlling the LED panel 103 to move Member 107.

Lens panel 101 includes multiple first collector lens 101a and for fixing multiple first collector lens 101a's Net grid support 101b, and net grid support 101b grid and first collector lens 101a one-to-one corresponding, a grid fix one Individual first collector lens 101a.The be shaped as square or circular or hexagon, first collector lens 101a of the grid are circle Shape.

Second base 102 is presented groove shapes, and the groove 102a first half is used to placing and fix lens panel 101, recessed Groove 102a lower half is used to place LED panel 103.The side of groove 102a lower half is used for push-and-pull LED panel provided with opening 103, it can be extracted out from side by the LED panel 103 from groove 102a, very easily realize the replacing to LED or dimension Repair.

As shown in Figure 13 (a), LED panel 103 is located on the focal plane of lens panel 101, and LED lamplight passes through the first optically focused Directional light is obtained after lens 101a.LED panel 103 is divided into multiple and net grid support 101b one-to-one LED of grid Lamp group, the center of each LED light group is provided with the first white LED lamp 104 and in first white LED lamp 104 or so Both sides are also provided with the first blue LED lamp 105 and the first red LED lamp 106, are lighted according to different lighting requirements different LED, so as to meet the demand of the different illumination classifications of plant.

As shown in Figure 13 (b), the 4th control unit 107 is used to controlling LED panel 103 to produce moving left and right, when to moving to left After dynamic then the first red LED lamp 106 with corresponding first collector lens 101a focus coincidence, after being moved to the left then the first blue light LED 106 is overlapped with corresponding first collector lens 101a focus.In addition the 4th control unit 107 can be also realized to LED Circuit folding is controlled.

The heat dissipating layer being made up of far ultrared paint is provided with second base 102, excellent radiating effect is played, prevents LED produces excessive heat, waterproof layer is provided with the lateral opening of groove 102a lower half, waterproof layer is silicone band. Load after LED panel 103, at silicone band tight lateral opening, prevent water from entering inside.

The wavelength of first blue LED lamp 105 is 450~460nm or 460~470nm, the wavelength of the first red LED lamp 106 For 620-630nm or 640-660nm.The light source of these wavelength is all to allow plant to produce optimal photosynthesis, except to plant Obtained between when lacking light outside light filling, also allow plant to promote the differentiation of multiple side shoot and bud in growth course, accelerate root, stem and leaf Growth, accelerates the synthesis of plant carbohydrates and the synthesis of vitamin, shortens the growth cycle of plant.

In addition, the surrounding of the second base 102 is additionally provided with mutual splicing body 102b, realized by way of splicing The large area lighting of Multifunctional LED lamp 100 of the present invention, so as to meet practical application in industry and the demand of scientific experiment.

Solar power system is connected with Multifunctional LED lamp 100, the control switch of Multifunctional LED lamp 100 or changing for state Become and provide power supply into Multifunctional LED lamp 100, realize the purpose of energy-conserving and environment-protective.

In summary, energy-saving LED lamp of the present invention flexibly realizes being used alternatingly for white light, blue light and feux rouges, and passes through splicing Large area light filling requirement can also be realized.The present invention has the advantages that energy-conservation, multi-functional, applied widely and flexibility are strong, can To be widely used in the light filling demand of plant growth under different scenes.

Embodiment 2

It is with the difference of embodiment 1:The structure of solar power system is different, solar power generation system in the present embodiment The structure of system is as follows:As shown in Figure 6 to 8, a kind of solar power system, including be sequentially connected the second generator unit 31, Second control unit 32 and the second battery 33, solar power system also include the second inverter 34, respectively with the second control Unit 32 is connected with the second battery 33;Second generator unit 31, which is exposed to sunlight, realizes generating, and the second control unit 32 is complete Into overall control action, the second battery 33 plays memory action, and DC conversion is alternating current by the second inverter 34.

Second generator unit 31 includes two the second vertical racks 35, its bottom be fixed on building (for example greenhouse or The roof of planting greenhouse), a horizontal stand 36 is fixed between the top of two the second vertical racks 35, in horizontal stand Rotating cylinder 37 is provided with 36, rotating cylinder 37 is through horizontal stand 36 and can be rotated around horizontal stand 36, is fixed with rotating cylinder 37 Second supporting plate 38, is provided with multiple second rotating devices 39 in the second supporting plate 38, the second rotating device 39 and second To be rotatably connected between fagging 38, the second photovoltaic layer 40 is fixed with the second rotating device 39, it is wrapped successively from bottom to up The first plate body, the second flexible thin-film battery component, the second film layer and the second dope layer are included, four layers of consolidation are into a single integrated structure, wherein, First plate body is crystallite foamed ceramic insulation board.

Solar power system also includes the driving dress of four-drive device 42 and the 5th being connected with the second control unit 32 Put 43 (can realize the device of driving, such as motor to be any), four-drive device 42 respectively with multiple second rotating devices 39 It is connected, the 5th drive device 43 is connected with rotating cylinder 37.

The second humidity sensor 44 and second being connected with the second control unit 32 is provided with the second vertical rack 35 Optical sensor 45.In use, the second humidity sensor 44 and the second optical sensor 45 by the humidity information detected and The information transfer of light is into the second control unit 32, and the second control unit 32 is according to the information received, in conditions such as sleet mists When lower humidity ratio is larger, the 5th drive device 43 is controlled, driving rotating cylinder 37 is rotated, and makes whole second supporting plate 38 drive second to revolve The photovoltaic layer 40 of rotary device 39 and second rotates 180 degree, and the formation of the second photovoltaic layer 40 is protected, prevents it from destroying, extension uses the longevity Life, when humidity is suitable, controls the 5th drive device 43, driving rotating cylinder 37 is rotated again, makes whole second supporting plate 38 Drive the second rotating device 39 and the second photovoltaic layer 40 to rotate 180 degree again, start working.Changed in the position of sunshine When, the second rotating device 39 of control is rotated to an angle, and whole second photovoltaic layer 40 of drive also rotates to an angle, and makes the Two photovoltaic layers 40 receive the area increase of sunshine, more efficiently utilize solar energy.

Second photovoltaic layer 40 is rectangular configuration, and multiple second photovoltaic layers 40 are arranged in parallel, multiple second photovoltaic layers 40 it is total Area is the 75% of the whole area of second supporting plate 38.Multiple second photovoltaic layers 40 are connected with the second control unit 32 respectively.The Two flexible thin-film battery components are non-crystalline silicon flexible solar hull cell or organic thin film cells, and the second film layer is fluorine-containing TPT Polyester film, the second dope layer is nano level photo-catalytic coating.The quantity of second rotating device 39 and the second photovoltaic layer 40 is 4 It is individual.The usage quantity of all parts is reduced while can realize the object of the invention, cost is reduced.

Other structures be the same as Example 1.

Embodiment 3

It is with the difference of embodiment 1:The structure of solar power system is different, solar power generation system in the present embodiment The structure of system is as follows:As shown in Fig. 9~Figure 11, a kind of solar power system, including be sequentially connected the 3rd generator unit, Three control units and the 3rd battery, solar power system also include the 3rd inverter, respectively with the 3rd control unit and the Three batteries are connected;3rd generator unit, which is exposed to sunlight, realizes generating, and the 3rd control unit completes overall control action, 3rd battery plays memory action, and DC conversion is alternating current by the 3rd inverter.

3rd generator unit includes four the 3rd vertical racks 46, and its bottom is fixed on building that (greenhouse or plantation are big Shed top), two the second horizontal stands 47 be arrangeding in parallel are fixed between the top of the 3rd vertical rack 46, at two 5 cross bars 48 are fixed between two horizontal stands 47, the second plate body 49 is provided with cross bar 48, the second plate body 49 runs through cross bar It 48 and can be rotated around cross bar 48, be tightly fastened frame in the surrounding of the second plate body 49, frame is by aluminium alloy or carbon fiber material Material is made, firmly solid, plays a protective role;The 3rd photovoltaic layer 50 is fixed with the second plate body 49, it is from bottom to up successively Including the 3rd flexible thin-film battery component, third membrane layer and the 3rd dope layer;Second plate body 49 and the 3rd photovoltaic layer 50 and the 3rd Control unit is connected;3rd flexible thin-film battery component has many excellent relative to the hard material solar energy sheet material used now Point.Lightweight, readily replaceable, convenient transportation etc., effect are also more preferably.It is provided with each cross bar 48 and the 3rd control Unit connected the 3rd humidity sensor 51 and the 3rd optical sensor 52, coordinate the sheet material on same cross bar 48 4 and the 3rd photovoltaic layer 50 worked independently under the control of the 3rd control unit, not by other influences.

In use, the 3rd humidity sensor 51 and the 3rd optical sensor 52 are by the humidity information detected and light Information transfer is into the 3rd control unit, and the 3rd control unit is according to the information received, the humidity ratio under the conditions of sleet mist etc. When larger, control whole second plate body 49 to drive the 3rd photovoltaic layer 50 rotation 180 degree, the formation of the 3rd photovoltaic layer 50 is protected, prevented Only it is destroyed, and is increased the service life, when humidity is suitable, controls whole second plate body 49 to drive the 3rd photovoltaic layer 50 again 180 degree is rotated, is started working.When being changed in the position of sunshine, the 3rd control unit controls the second plate body 49 rotation one Determine angle, drive whole 3rd photovoltaic layer 50 also to rotate to an angle, the 3rd photovoltaic layer 50 is received the area increase of sunshine, More efficiently utilize solar energy.Wherein, the 3rd control unit how to control the second plate body 49 rotate for it is any in the prior art Achievable mode and structure, for example, set motor or other drive devices, control method is also prior art.

Whole 3rd generator unit sets the number of cross bar 5, sheet material 4, the 3rd humidity sensor 51 and the 3rd optical sensor 52 The purpose measured as 5 is that, in the case where whole 3rd generator unit is larger, each block of sheet material 4 can be according to the change of sun angular Change and realize the rotations of different angles, more improve the utilization rate of solar energy, and if one piece or two plates 4, rotation Gyration is very limited.So this quantity is critically important, if many again structures also just it is more complicated, cost also can be with respect to carrying It is high.

3rd flexible thin-film battery component is copper and indium potassium selenium thin-film solar cells or dye-sensitized cell.Third membrane layer is Ethene-TFE copolymer film, thickness is 300 microns.3rd dope layer is nano level photo-catalytic coating, and thickness is 80 Micron.Fixed between 3rd flexible thin-film battery component and the second plate body 49 by binding agent, binding agent is flame-proof type polyalcohol Binding agent, interfacial agents are coated with the both sides of the second plate body 49, and the above is all the best combination of the effect selected under study for action, and Size is improved, to be optimal effect.

Other structures be the same as Example 1.

Embodiment 4:

It is with the difference of embodiment 1 or embodiment 2 or embodiment 3:The structure of illuminator is different, in the present embodiment The structure of illuminator is as follows:

LED spotlights:

Figure 14 shows the structural representation of LED spotlights 200.The LED spotlights 200 of the present invention include:Lens jacket 203rd, the 3rd base 204, aluminium reflector 205, LED photosphere 206, the 6th drive device 207, the 7th drive device 208 and 5th control unit 209.

Aluminium reflector 205 match in horn-like and its larger end with lens jacket 203 be connected, smaller end is then with the 3rd Base 204 matches connection, and lens jacket 203, the 3rd base 204 and aluminium reflector 205 have been monolithically fabricated LED spotlights 200 Shell.The inner surface of aluminium reflector 205 is smooth light reflecting surface, so as to play certain optically focused effect.

Lens jacket 203 is provided with a second collector lens 11f and multiple 3rd collector lens 11g, and the second optically focused is saturating Mirror 11f is located at the center of lens jacket 203, multiple 3rd collector lens 11g and is then circular layout around center.Lens jacket 203 The effect of optically focused is primarily served, makes the light direct projection that LED is sent to object (such as plant).

LED photosphere 206 is provided with a second white LED lamp 11e, multiple second blue LED lamp 11c and multiple second Red LED lamp 11d, as shown in figure 15, multiple second blue LED lamp 11c are spaced with multiple second red LED lamp 11d, and Second white LED lamp 11e is located at (primarily serving illuminating effect), the multiple second on the second collector lens 11f center line Blue LED lamp 11c and multiple second red LED lamp 11d are (main on multiple 3rd collector lens 11g center line respectively Play a part of promoting plant growth), the LED photosphere 206 is equidistantly vertically connected on by four first expansion links 210 On 3rd base 204.

The heat dissipating layer being made up of far ultrared paint is provided with the surface of the 3rd base 204, good thermolysis is played, prevented Only LED produces excessive heat, and layer of silica gel is provided with the LED photosphere 206, plays waterproof, moistureproof effect.

Heat abstractor is provided with aluminium reflector 205, heat abstractor is in the prior art in appointing that field of light fittings is applied That anticipates can play the device of thermolysis, for example, can be multiple equally distributed fin.3rd collector lens 11g quantity It is four to be four and the second blue LED lamp 11c and the second red LED lamp 11d.6th drive device 207 is stretched by second The driving LED of contracting bar 211 photosphere 206 is rotated, and the 5th control unit 209 controls the 6th drive device 207 driving LED lamplight 45 degree of the rotation every time of layer 206, so as to realize that the second blue LED lamp 11c and the second red LED lamp 11d alternately enter the 3rd optically focused On lens 11g center line.Second is then lighted when the second blue LED lamp 11c enters on the 3rd collector lens 11g center line Blue LED lamp 11c, similarly, the is then lighted when the second red LED lamp 11d enters on the 3rd collector lens 11g center line Two red LED lamp 11d.7th drive device 208 controls LED photosphere 206 to be moved along its center line by the 3rd expansion link 212 It is dynamic, so that the second blue LED lamp 11c or the second red LED lamp 11d are moved at the 3rd collector lens 11g focal position, Further realize the focusing or diverging of blue light or feux rouges and obtain directional light or diverging light or focus on light.

5th control unit 209 is located inside the 3rd base 204, for controlling the second white LED lamp 11e, the second blue light LED 11c, the second red LED lamp 11d, the 6th drive device 207 and the 7th drive device 208.Second blue LED lamp 11c Wavelength be 450~460nm or 460~470nm.Second red LED lamp 11d wavelength is 620-630nm or 640-660nm. The light source of these wavelength is all to allow plant to produce optimal photosynthesis, when lacking light to plant between in obtain light filling in addition to, Also allow plant to promote the differentiation of multiple side shoot and bud in growth course, accelerate root, stem and leaf growth, accelerate plant carbohydrates Synthesis and vitamin synthesis, shorten the growth cycle of plant.

Other structures with embodiment 1 or embodiment 2 or embodiment 3.

Embodiment 5

On the basis of embodiment 1~4, culture medium filling apparatus is improved, explant inoculation, squamous subculture and The culture medium used in culture of rootage is filling using the progress of culture medium filling apparatus, and concrete structure is as follows:

As shown in Figure 16 and Figure 17, a kind of culture medium filling apparatus, including culture medium blending tank 300, filing table 301, training Support base recycling can 302 and lowering or hoisting gear 303;Culture medium blending tank 300 include be sequentially connected from bottom to up the 4th base 304, Lid 306 on tank body 305 and second, tank body 305 is internally provided with first heater 307, the first stirring vane 308 and second and stirred Mix and the 8th drive device 310, the 9th drive device 311 are provided with blade 309, the 4th base 304, the first stirring vane 308 It is connected with the 8th drive device 310, the second stirring vane 309 is connected with the 9th drive device 311, is set in the bottom of tank body 305 It is equipped with liquid outlet 312;Liquid outlet 312 connects go out liquid house steward 313, and go out liquid house steward 313 connects multiple packing by conversion head 314 and managed 315 one end, the other end of multiple packing pipes 315 is fixed on the second fixed mount 316, is fixed with the second fixed mount 316 Multiple filling heads 317, each filling head 317 connects a packing pipe 315 respectively;

Lowering or hoisting gear 303 is arranged on the bottom of culture medium blending tank 300;Filing table 301 is positioned close to liquid outlet 312 Position, including table top 318 and the collecting tank 319 being arranged on table top 318, collecting tank 319 are arranged on the bottom of filling head 317, The bottom plate of collecting tank 319 is obliquely installed along its length, and culture medium recycling can 302 is connected with collecting tank 319.

During 307 controllable temperature control of first heater, lowering or hoisting gear 303 can adjust the height of culture medium blending tank 300 up and down, Convenient dress liquid or maintenance, heighten lowering or hoisting gear 303, tapping can be completed using gravity of culture medium itself during tapping, multiple Filling head 317 can complete the filling of multiple blake bottles simultaneously, improve operating efficiency.

First heater 307 is arranged on the middle part of tank body 305, and the first stirring vane 308 is arranged under tank body 305 Portion, the second stirring vane 309 is arranged on the middle and upper part of tank body 305.Two the first stirring vanes 308 and second one on the other are stirred The uniform of culture medium can farthest be ensured by mixing blade 309.

The quantity for dispensing pipe 315 and filling head 317 is 6;The first temperature sensor is provided with tank body 305, Display screen 320 and multiple operation buttons 321 are provided with 4th base 304, control module is provided with the 4th base 304, Control module is filled with display screen 320, operation button 321, first heater 307, the first temperature sensor, the 8th driving respectively 310 are put with the 9th drive device 311 to be connected.Display screen 320 monitors the state of culture medium in real time, simple to operate quick.In culture Base recycling can 302 is internally provided with secondary heating mechanism 322, can heat, to prevent culture medium solidifying.

The second valve is respectively arranged with go out liquid house steward 313 and multiple packing pipes 315, culture medium can be controlled respectively Amount;Angle of inclination is 3 degree to the bottom plate of collecting tank 319 along its length, by the media transfer of omission to culture medium recycling can 302 In, it is therefore prevented that waste also ensure that the clean and tidy of filing table 301.

Go out liquid house steward 313 is flexible pipe, and tank body 305 is made of transparent material, the state of convenient observation culture medium, to instruct Operation.

The application method of culture medium filling apparatus of the present invention is specific as follows:Lowering or hoisting gear 303 is turned down, by lid 306 on second Open, load the culture medium for preparing, cover lid 306 on second, heighten lowering or hoisting gear 303, control temperature heats and starts the One stirring vane 308 and the second stirring vane 309, reach and stop heating after requirement, blake bottle is put into each filling head successively Below 317, corresponding second valve of go out liquid house steward 313 and packing pipe 315 is opened, filling, closing point after filling end is carried out Second valve of tubulature 315, the blake bottle more renewed continues filling, finished until filling, close all second valves, completes It is filling.In pouring process, the liquid level of tank body 305 is observed, if liquid level is less than the second stirring vane 309, stops the in time The rotation of two stirring vanes 309, is completed in the filling rear rotation for stopping the first stirring vane 308, pouring process, collecting tank 319 Unnecessary or omission culture medium is collected, is transferred into culture medium recycling can 302.

Other structures be the same as Example 1~4.

Embodiment 6

On the basis of embodiment 5, following preferred scheme is given:The 3rd is provided with the bottom plate of collecting tank 319 to add Thermal, can be heated, to prevent culture medium solidifying.The quantity for dispensing pipe 315 and filling head 317 is 6;Covered on second 306 bottom margin is provided with sealing ring, prevents heat from distributing, and the bottom of culture medium recycling can 302 is provided with the first wheel body 323, convenient transport.8th drive device 310 and the 9th drive device 311 are motor.Other be the same as Examples 5.

Embodiment 7

On the basis of embodiment 1~6, the structure to seedling culture frame is improved, the tissue-cultured seedling that culture of rootage is obtained Root agar is first placed on seedling culture frame after cleaning up and cultivated 1~2 month, then is transplanted on cultivation bed, the specific knot of seedling culture frame Structure is as follows:

As shown in Figure 18~Figure 22, a kind of seedling culture frame, including the second support body 505, the second support body 505 include top plate, bottom plate, Left plate, right plate and back side panel, are additionally provided with multiple seedlings nursing plates 500 on the second support body 505, and seedlings nursing plate 500 is opened for top The rectangular parallelepiped structure of mouth, rack 506 is provided with seedlings nursing plate 500, multiple seedling-raising boxs are evenly arranged with rack 506 Hole 507, is placed with seedling-raising box 508 in nursery cartridge apertures 507;

Seedling-raising box 508 includes box body 509 and second lid 510 in portion placed on it, is set in the bottom even of box body 509 Have multiple leaking holes, seedling medium 511 included inside box body 509, be provided with the bottom of seedling medium 511 it is anti-slip through the net 512, The supporting part 513 stretched out is provided with the edge of the upper end of box body 509, supporting part 513 is supported and fixed on rack 506;

The rear side of seedlings nursing plate 500 is provided with inlet opening 514 and apopore 515, inlet opening 514 passes through pipeline and the first water Case is connected, and apopore 515 is connected by pipeline with collection box.

In the seedling culture frame of the present invention, multiple LEDs are evenly arranged with back side panel;Consolidate in the both sides of the second support body 505 Surely there is the second chute 519, the second sliding block 518 being engaged with the second chute 519 is fixed with the both sides of seedlings nursing plate 500.

Nursery cartridge apertures 507 on rack 506 is equal with the quantity of the seedling-raising box 508 on each seedlings nursing plate 500, is 12 Individual, the quantity of seedlings nursing plate 500 is 4, and the first seedlings nursing plate 501, the second seedlings nursing plate 502, the 3rd seedlings nursing plate are followed successively by from top to bottom 503 and the 4th seedlings nursing plate 504;

The second sliding block 518 being fixed on the second seedlings nursing plate 502, the 3rd seedlings nursing plate 503 and the 4th seedlings nursing plate 504 is flexible Bar structure, the telescopic extensions for the second sliding block 518 being fixed on the second seedlings nursing plate 502 are 1~2 times of the width of seedlings nursing plate 500, Gu The telescopic extensions for the second sliding block 518 being scheduled on the 3rd seedlings nursing plate 503 are 1~3 times of the width of seedlings nursing plate 500, are fixed on the 4th The telescopic extensions of the second sliding block 518 on seedlings nursing plate 504 are 1~4 times of the width of seedlings nursing plate 500.

Any one of other structures be the same as Example 1~6.

Embodiment 8

On the basis of embodiment 7, the present embodiment gives following preferred scheme again:Box body 509 is rectangular parallelepiped structure, and The length of bottom and wide length and width less than top, nursery cartridge apertures 507 is rectangle, its grow and the wide and top of box body 509 length and It is wide consistent;The height of box body 509 is the 5/6 of the height of seedlings nursing plate 500;Second lid 510 is made of transparent material, box body 509 It is made of the rigid plastics of black, the side wall of box body 509 is corrugated type structure;The surrounding of top plate is provided with baffle plate 516, shape Into material-putting space, thermometer, hygrometer and a variety of garden tool sets are placed with material-putting space;The bottom of support body is provided with second Wheel body 517;Seedling medium 511 is turf, and one layer of haydite is equipped with turf top, is planted on haydite and is implanted with tissue-cultured seedling.

Embodiment 9

On the basis of embodiment 1~8, the structure to spray irrigation system is improved, and concrete structure is as follows:

Spray irrigation system:

As shown in figure 23, spray irrigation system includes the second water tank 601 and the first coupled water inlet manifold 602, first The first water pump 603 is provided with water inlet manifold 602, the first water inlet manifold 602 is connected with multigroup water injector, every group of water spray dress Put including the first sparge pipe 604 and humidifier tube 605, the first sparge pipe 604 and humidifier tube 605 pass through the first branch pipe and second respectively Branch pipe is connected with the first water inlet manifold 602, and the 3rd valve 607 is provided with the first branch pipe, and is provided with the second branch pipe Four valves 608, the first sparge pipe 604 is horizontally set on the top of cultivation bed 606, is provided with the first sparge pipe 604 multiple Second shower nozzle 609, the 4th humidity sensor 610 is provided with cultivation bed 606;Humidifier tube 605 is arranged on energy-conservation planting greenhouse Height medium position, humidifier tube 605 by it is multiple humidification branch pipes 611 be formed by connecting, it is each humidification branch pipe 611 on be fixed with 1 the 5th humidity sensor 612, two the 3rd shower nozzles 613 are respectively fixed with the both sides of the 5th humidity sensor 612, The 5th valve 614 is provided with three shower nozzles 613;First water pump 603, the 4th humidity sensor 610 and the 5th humidity sensor 612 It is connected with solar power system, provides power supply for spray irrigation system and control spray irrigation system to work.The quantity for cultivating bed 606 is many Individual, the top of each cultivation bed 606 is both provided with one group of water injector, and multigroup water injector be arranged in parallel, total in the first water inlet The first filter 621 is provided with pipe 602, water fender 622, water fender are connected with the top of the 5th humidity sensor 612 622 height is less than the height of the 3rd shower nozzle 613, prevents from drenching the 5th humidity sensor 612 during water spray.

When the 4th humidity sensor 610 detects cultivation matrix humidity less than preset value, the first water pump 603 and the are opened Three valves 607, the water closed in the 4th valve 608, the second water tank 601 enters the first sparge pipe 604, passes through the second shower nozzle 609 Cultivation bed 606 is sprayed, when the 4th humidity sensor 610, which detects cultivation matrix humidity, reaches preset value, closing the One water pump 603 and the 3rd valve 607, stop sprinkling irrigation.The humidity in greenhouse air is detected when some the 5th humidity sensor 612 During less than preset value, the first water pump 603 and the 4th valve 608 are opened, the water closed in the 3rd valve 607, the second water tank 601 enters Enter humidifier tube 605, now, open all on the humidification branch pipe 611 at the place of the 5th humidity sensor 612 for showing exsiccosis The 5th valve 614 on 3rd shower nozzle 613, the 3rd shower nozzle 613 carries out water spray humidification to water shortage area, reaches and is closed after preset value 4th valve 608, the first water pump 603 and the 5th valve 614, stop humidification.Multiple 5th humidity sensors 612 are shown simultaneously to be lacked During water state, multiple humidification branch pipes 611 carry out humidification work simultaneously.When the 4th humidity sensor 610 and the one or more 5th Humidity sensor 612 is shown in exsiccosis simultaneously when, the above-mentioned course of work can be started simultaneously.

Any one of other structures be the same as Example 1~8.

Embodiment 10:

On the basis of embodiment 9, the present invention gives following preferred scheme again, and spray irrigation system of the invention is also included such as Greenhouse roll bar straightener shown in Figure 24, including bar shaped support 615 and the hydraulic jack 616 for being disposed therein portion, in bar Shape support 615 is provided at both ends with fixed steel wire 617, and one end of fixed steel wire 617 is fixed on bar shaped support 615, the other end Lock 618 is connected with, the outer pipe wall shape phase used with energy-conservation planting greenhouse is provided with the top of hydraulic jack 616 The arcs of recesses jacking 619 matched somebody with somebody, hydraulic jack 616 also includes booster rod 620.

The application method of greenhouse roll bar straightener is:It will wait to align using the fixation steel wire 617 at the two ends of bar shaped support 615 The tubing of flexural deformation fix, the summit position of bending is in arcs of recesses jacking 619, made with hydraulic jack 616 The roll bar of bending is smooth.

Other structures be the same as Example 9.

Embodiment 11

On the basis of embodiment 1~8, the structure to spray irrigation system is improved, and concrete structure is as follows:

As shown in Figure 25~Figure 26, rainer of the present invention is arranged on cultivating stand, including the water inlet of pallet 801 and second is total Pipe 803, is provided with multiple rows of flowerpot 802 on pallet 801;The second water pump 804, second are provided with the second water inlet manifold 803 One end of water inlet manifold 803 is connected with multiple water inlet pipes 805, and the quantity of water inlet pipe 805 is consistent with the row of flowerpot 802, Often arrange one water inlet pipe 805 of correspondence of flowerpot 802;Enter the other end of the second supply mains 803 respectively by the first branch pipe 806 and Two branch pipes 807 are connected with three-tank 808 and receptacle 809, pass through the 3rd branch pipe between three-tank 808 and receptacle 809 810 are connected;

Flowmeter 811, the second filter 812 and multiple water injectors are provided with each water inlet pipe 805, each Water injector one flowerpot 802 of correspondence is simultaneously arranged on the top of flowerpot 802, independent control, water injector include from top to bottom according to Secondary connected mozzle 813, reduction of speed subtract stream device 814 and water dish 815, and mozzle 813 is hollow Telescopic rod structure, its upper end It is connected with water inlet pipe 805, different floristics or different plant height adjustment water spray dresses that can be in different flowerpots The height put, meets different demands;It is solid cylinder that reduction of speed, which subtracts stream device 814, and helical form current are provided with wherein and are led to Road, can slow down the speed of current, prevent from dynamics too macrolesion plant or going out a hole to the seedling in flowerpot during water spray, It is more reasonable;

Water dish 815 is made up of multiple second sparge pipes 816, and one end and the reduction of speed of multiple second sparge pipes 816 subtract stream dress The lower end for putting 814 is connected, and the other end of multiple second sparge pipes 816 is free end, is uniformly distributed in a circular flat, Multiple 4th shower nozzles 817 are evenly arranged with second sparge pipe 816, water spray is evenly.

The 6th valve 818 is provided with the first branch pipe 806, the 7th valve 819 is provided with the second branch pipe 807, The 8th valve 820 is provided with 3rd branch pipe 810.The 6th humidity sensor 821 is provided with flowerpot 802, in mozzle 813 On be provided with the 9th valve 822.

Fertilizer box 823, the 3rd filter 824 and agitating device 825, the 3rd filtering dress are provided with receptacle 809 Put 824 water outlets for being arranged on receptacle 809, agitating device 825 is two, be separately positioned on receptacle 809 top and Bottom, and be oppositely arranged, mixing effect evenly is realized, fertilizer box 823 is the rectangular parallelepiped structure for lacking lid, can be from fertilizer Extracted out in hopper 809, be put into solid or liquid fertilizer.Multiple supports being adapted with the bottom of flowerpot 802 are provided with pallet 801 Disk groove 826, the quantity of tray slots 826 is equal with the quantity of flowerpot 802, bottom one pallet of correspondence of each flowerpot 802 Groove 826, plays a part of fixed flowerpot 802, prevents skew.Thermometer 827 is provided with pallet 801, can be supervised in real time Control the temperature near whole device;

Rainer also includes switch board, respectively with agitating device 825, the 6th valve 818, the 7th valve 819, the 8th valve The 820, the 9th valve 822 of door, the second water pump 804 are connected with the 6th humidity sensor 821.

Sprinkling irrigation process:When the 6th humidity sensor 821 of some flowerpot 802 shows that its humidity is less than preset value, close 7th valve 819 and the 8th valve 820, open the 6th valve 818, and the second water pump 804 extracts the water in three-tank 808 out, By the first branch pipe 806 and the second water inlet manifold 803 by the corresponding water inlet pipe 805 of the flowerpot 802 of water transport to water shortage, beat The 9th valve 822 on the corresponding water injector of the flowerpot 802 of quit a post and thus leave it vacant water, is sprayed water by the 4th shower nozzle 817, is reached default All valves are closed during value.If multiple water shortages of flowerpot 802, while starting multiple above-mentioned independent programs, are each completed simultaneously Sprinkling irrigation process.

Fertilising process:Load solid fertilizer or liquid fertilizer in fertilizer box 823, close the 6th valve 818 and the 7th Valve 819, the water opened in the 8th valve 820, three-tank 808 enters in receptacle 809, and agitating device 825 is stirred, After stirring, the 8th valve 820 is closed, the 7th valve 819 is opened, will by the second branch pipe 807 and the second water inlet manifold 803 Water transport is opened the 9th all valves 822, applied fertilizer by the 4th shower nozzle 817 into all water inlet pipes 805.

In above process, switch board according to the feedack of the 6th humidity sensor 821 to entirely spraying and applying fertilizer Journey is monitored and adjusted.

Any one of other structures be the same as Example 1~8.

Embodiment described above is only that the preferred embodiment of the present invention is described, not to the model of the present invention Enclose and be defined, on the premise of design spirit of the present invention is not departed from, technical side of the those of ordinary skill in the art to the present invention In various modifications and improvement that case is made, the protection domain that claims of the present invention determination all should be fallen into.

Claims (8)

1. a kind of cultivation of plants method, it is characterised in that:The tissue-cultured seedling that tissue cultures are obtained is in energy saving greenhouse or energy-conservation Cultivated in planting greenhouse, wherein, the collection of tissue culture procedures including explant, cleaning, sterilization, explant be inoculated with, after It is commissioned to train foster, culture of rootage and transplanting, the energy saving greenhouse or energy-conservation planting greenhouse include solar power system, spray irrigation system And illuminator.
2. cultivation of plants method according to claim 1, it is characterised in that:The cleaning of the explant and disinfecting process Using explant cleaning sterilizing device, including liquid reserve tank (1), cleaning cabinet (2) and the raffinate collection box (3) being sequentially connected, it is described Cleaning cabinet (2) include cabinet (201) and cover at an upper portion thereof first on cover (202), the cabinet (201) middle part setting There is the first fixed mount (4), the bottom of first fixed mount (4) connects first base (6), described first by fix bar (5) Base (6) is arranged on the bottom of the cabinet (201), and the first base (6) is connected with the 3rd drive device;
First fixed mount (4) is by the first annulus (401) and is arranged at second annulus (402) of its underpart and constitutes, and described Connected between one annulus (401) and second annulus (402) by connecting rod (403), it is solid on first fixed mount (4) Surely there is cleaning bag (7), the cleaning bag (7) is network structure, is fabricated from a flexible material, and the cleaning bag (7) includes bag (701) and the first lid (702), connect solid by slide fastener (703) between the bag (701) and first lid (702) It is fixed;Multiple first shower nozzles (8) are provided with the internal top of the cabinet (201) and side wall;
The cleaning bag (7) is removably attached on first fixed mount (4), relative in the upper end of the cleaning bag (7) Two the first bandages (704) are provided with, two the second bandages (705), two are relatively set with the lower end of the cleaning bag (7) Line of the line between two second bandages (705) between first bandage (704);
First bandage (704) and second bandage (705) are constituted by the band body of two strips;
Two outside first raised (404) are relatively set with first annulus (401), in second annulus (402) it is relatively set with two outside second raised (405), the line between two described first raised (404) is vertical Line between two described second raised (405);It is raised that first bandage (704) binding is fixed on described first (404) on, the second bandage (705) binding is fixed on described second raised (405).
3. cultivation of plants method according to claim 2, it is characterised in that:The cabinet (201) is rectangular parallelepiped structure, The bottom that (202) are covered on described first is fixedly connected with three the first shower nozzles (8), in four side walls of the cabinet (201) Center be respectively fixed with first shower nozzle (8);
3rd drive device is motor, and the first base (6) is disk, the 3rd drive device driving described first Base (6) is rotated by axle of the center of the first base (6), and the quantity of the connecting rod (403) is 3;The cleaning bag (7) it is made up of corrosion resistant flexible material;
The liquid reserve tank (1) includes cleaning fluid or thimerosal, and the liquid reserve tank (1) passes through the first pipeline (9) and described first Shower nozzle (8) is connected, and flow pump (10) is provided with first pipeline (9);
The bottom of the cabinet (201) is provided with liquid outlet (11), the liquid outlet (11) by the second pipeline (12) with it is described Raffinate collection box (3) is connected, and the first valve (13) is provided with second pipeline (12);
The explant cleaning sterilizing device also includes switch board, respectively with the flow pump (10), the cleaning cabinet (2) and institute The first valve (13) is stated to be connected.
4. cultivation of plants method according to claim 1, it is characterised in that:The solar power system is following three One kind in kind:
(I) solar power system includes the first generator unit (14) being sequentially connected, the first rotating device (15), first Control unit (16) and the first battery (17), the solar power system with protection device also include the first inverter (18), it is connected respectively with first control unit (16) and first battery (17);
First generator unit (14) includes support frame (19), and two brackets (20) are provided with support frame as described above (19), The first supporting plate (21) is fixed with two brackets (20), first is fixed with the top of first supporting plate (21) Photovoltaic layer (22), it includes the first flexible thin-film battery component, the first film layer and the first dope layer successively from bottom to up, wherein, First supporting plate (21) is crystallite foamed ceramic insulation board;
Solar energy protection device, including the first support body, the first cover plate (23) are fixed with the top of first supporting plate (21) With the second cover plate (24), first support body includes two the first vertical racks (25) and the horizontally disposed square being fixed thereon Shape support (26), the lower end of described two first vertical racks (25) is fixed on the both sides of first supporting plate (21), in institute State and symmetrically arranged first cover plate (23) and second cover plate (24) are provided with rectangle support (26), first lid It is slidably connected between plate (23) and second cover plate (24) and the rectangle support (26);
The solar power system also includes the first driving means (27) that are connected with first control unit (16) and the Two drive devices (28), the first driving means (27) are connected with first rotating device (15), the second driving dress (28) are put respectively with first cover plate (23) and second cover plate (24) to be connected;
It is provided with what is be connected with first control unit (16) on first cover plate (23) and second cover plate (24) Multiple first humidity sensors (29) and multiple first optical sensors (30);
First cover plate (23) is identical with the size of second cover plate (24), and length is the first supporting plate (21) length Half, width is consistent with the width of first supporting plate (21);
Both sides on the rectangle support (26) along its length are provided with the first chute, in first cover plate (23) and The both sides of the length direction of second cover plate (24) are provided with the first sliding block coordinated with first chute, first lid The sliding distance of plate (23) and second cover plate (24) is the half of the first supporting plate (21) length;
First photovoltaic layer (22) is list structure, and multiple first photovoltaic layers (22) are arranged in parallel and are adhered to described the In one supporting plate (21), the gross area of multiple first photovoltaic layers (22) is whole first supporting plate (21) area 85%;Multiple first photovoltaic layers (22) are connected with first control unit (16);
The first flexible thin-film battery component is non-crystalline silicon flexible solar hull cell or organic thin film cells, described first Film layer is fluorine-containing TPT polyester films, and first dope layer is nano level photo-catalytic coating;
First cover plate (23) and second cover plate (24) are made of clear material;
(II) solar power system includes the second generator unit (31), the second control unit (32) and the being sequentially connected Two batteries (33), the solar power system also includes the second inverter (34), respectively with second control unit (32) it is connected with second battery (33);
Second generator unit (31) includes two the second vertical racks (35), in two second vertical racks (35) A horizontal stand (36) is fixed between top, rotating cylinder (37), the rotating cylinder are provided with the horizontal stand (36) (37) through that the horizontal stand (36) and can be rotated around the horizontal stand (36), the is fixed with the rotating cylinder (37) Two supporting plates (38), are provided with 4 the second rotating devices (39), second rotating device on second supporting plate (38) (39) it is fixed with the second light on second rotating device (39) between second supporting plate (38) to be rotatably connected Layer (40) is lied prostrate, it includes the first plate body, the second flexible thin-film battery component, the second film layer and the second coating successively from bottom to up Layer, four layers of consolidation are into a single integrated structure, wherein, first plate body is crystallite foamed ceramic insulation board;
The solar power system also includes the four-drive device (42) that is connected with second control unit (32) and the Five drive devices (43), the four-drive device (42) is connected with 4 second rotating devices (39) respectively, and the described 5th Drive device (43) is connected with the rotating cylinder (37);
The second humidity sensor being connected with second control unit (32) is provided with second vertical rack (35) And the second optical sensor (45) (44);
Second photovoltaic layer (40) is rectangular configuration, 4 the second photovoltaic layer (40) parallel arrangements, respectively with described second Control unit (32) is connected, and the gross area of 4 second photovoltaic layers (40) is the 75% of whole second supporting plate (38) area;
The second flexible thin-film battery component is non-crystalline silicon flexible solar hull cell or organic thin film cells, described second Film layer is fluorine-containing TPT polyester films, and second dope layer is nano level photo-catalytic coating;
(III) solar power system includes the 3rd generator unit, the 3rd control unit and the 3rd electric power storage being sequentially connected Pond, the solar power system also includes the 3rd inverter, respectively with the 3rd control unit and the 3rd battery It is connected;
3rd generator unit includes four the 3rd vertical racks (46), on the top of four the 3rd vertical racks (46) Between be fixed with two the second horizontal stands be arrangeding in parallel (47), be fixed between two second horizontal stands (47) 5 cross bars (48), are provided with the second plate body (49) on the cross bar (48), and second plate body (49) runs through the cross bar (48) it and can be rotated around the cross bar (48), frame, the frame have been tightly fastened in the surrounding of second plate body (49) It is made up of aluminium alloy or carbon fibre material;The 3rd photovoltaic layer (50) is fixed with second plate body (49), it is from bottom to up Include the 3rd flexible thin-film battery component, third membrane layer and the 3rd dope layer successively;Second plate body (49) and the described 3rd Photovoltaic layer (50) is connected with the 3rd control unit;
The 3rd humidity sensor being connected with the 3rd control unit is provided with each cross bar (48) And the 3rd optical sensor (52) (51);
The 3rd flexible thin-film battery component is copper and indium potassium selenium thin-film solar cells or dye-sensitized cell;
The third membrane layer is ethene-TFE copolymer film, and thickness is 300 microns;
3rd dope layer is nano level photo-catalytic coating, and thickness is 80 microns;
Fixed between the 3rd flexible thin-film battery component and the second plate body (49) by binding agent, the binding agent is fire-retardant Type polymeric binder;
Interfacial agents are coated with the both sides of second plate body (49).
5. cultivation of plants method according to claim 1, it is characterised in that:The illuminator for be fixed on greenhouse or Energy-saving LED lamp on planting greenhouse or cultivating stand, the energy-saving LED lamp is connected with the solar power system, is following two One kind in kind:
(A) energy-saving LED lamp be Multifunctional LED lamp (100), including lens panel (101), second base (102), positioned at institute State the internal LED panel (103) of second base (102) and single for the 4th control for controlling the LED panel (103) mobile First (107);
The lens panel (101) includes multiple first collector lens (101a) and saturating for fixing the multiple first optically focused The net grid support (101b) of mirror (101a), and the grid and the first collector lens (101a) one of the net grid support (101b) One correspondence;
The second base (102) is groove (102a), and the first half of the groove (102a) is used to placing and fixing described Mirror board (101), the lower half of the groove (102a) are used to place under the LED panel (103), and the groove (102a) The side of half portion is used for LED panel (103) described in push-and-pull provided with opening;
The LED panel (103) is located on the focal plane of the lens panel (101);And it is divided into the multiple and grid The one-to-one LED light group of grid of support (101b), the center of each LED light group is provided with the first white LED lamp (104) the first blue LED lamp (105) and the first feux rouges and in the first white LED lamp (104) left and right sides are additionally provided with LED (106);
The heat dissipating layer being made up of far ultrared paint is provided with the second base (102), in the groove (102a) lower half Waterproof layer is provided with the lateral opening in portion, the waterproof layer is silicone band;
4th control unit (107) is used to drive the LED panel (103) generation to move left and right, after being moved to the left then The focus of first red LED lamp (106) and the corresponding first collector lens (101a) overlaps, then institute after being moved to the left The first blue LED lamp (105) is stated to overlap with the focus of the corresponding first collector lens (101a);First blue LED lamp (105) wavelength is 450~460nm or 460~470nm;The wavelength of first red LED lamp (106) be 620-630nm or 640-660nm;
The surrounding of the second base (102) is additionally provided with mutual splicing body (102b);
(B) the LED spotlights (200) include lens jacket (203), the 3rd base (204), aluminium reflector (205), LED lamplight Layer (206), the 6th drive device (207), the 7th drive device (208) and the 5th control unit (209);
The aluminium reflector (205) match in horn-like and its larger end with the lens jacket (203) be connected, smaller end Then match with the 3rd base (204) and be connected, the lens jacket (203), the 3rd base (204) and the aluminium are anti- Penetrate the shell that cover (205) has been monolithically fabricated the LED spotlights (200);
The lens jacket (203) is provided with second collector lens (11f) and multiple 3rd collector lenses (11g), and described Second collector lens (11f) is located at the center of the lens jacket (203);
The LED photosphere (206) is provided with second white LED lamp (11e), multiple second blue LED lamps (11c), many Individual second red LED lamp (11d), between multiple second blue LED lamps (11c) and multiple second red LED lamps (11d) Every arrangement, and second white LED lamp (11e) is located on the center line of second collector lens (11f), the multiple institute State the second blue LED lamp (11c) and multiple second red LED lamps (11d) and be located at multiple 3rd collector lenses respectively On the center line of (11g), the LED photosphere (206) is equidistantly vertically connected on described by four first expansion links (210) On 3rd base (204);
The heat dissipating layer being made up of far ultrared paint is provided with the surface of the 3rd base (204), in the LED photosphere (206) layer of silica gel is provided with, heat abstractor is provided with the aluminium reflector (205);
6th drive device (207) controls the LED photosphere (206) to rotate by the second expansion link (211), described the Seven drive devices (208) control the LED photosphere (206) to be moved along its center line by the 3rd expansion link (212);Described Five control units (209) are located at the 3rd base (204) inside, for controlling the LED photosphere (206), the described 6th Drive device (207) and the 7th drive device (208);
The wavelength of second blue LED lamp (11c) is 450~460nm or 460~470nm, second red LED lamp The wavelength of (11d) is 620-630nm or 640-660nm;3rd collector lens (11g), second blue LED lamp The quantity of (11c) and second red LED lamp (11d) is four.
6. cultivation of plants method according to claim 1, it is characterised in that:The explant inoculation, subculture training Support filling using the progress of culture medium filling apparatus with the culture medium used in the culture of rootage;
The culture medium filling apparatus includes culture medium blending tank (300), filing table (301), culture medium recycling can (302) and risen Falling unit (303);
The culture medium blending tank (300) includes the 4th base (304), the tank body (305) and second being sequentially connected from bottom to up Upper lid (306), the tank body (305) is internally provided with first heater (307), the first stirring vane (308) and second and stirred Mix in blade (309), the 4th base (304) and be provided with the 8th drive device (310), the 9th drive device (311), it is described First stirring vane (308) is connected with the 8th drive device (310), second stirring vane (309) and the described 9th Drive device (311) is connected, and the bottom of the tank body (305) is provided with liquid outlet (312);Liquid outlet (312) connection Go out liquid house steward (313), the go out liquid house steward (313) connects one end that (315) are managed in multiple packing by conversion head (314), multiple The other end of the packing pipe (315) is fixed on the second fixed mount (316), is fixed with second fixed mount (316) Multiple filling heads (317), each filling head (317) connects a packing pipe (315) respectively;
The lowering or hoisting gear (303) is arranged on the bottom of the culture medium blending tank (300);The filing table (301) is arranged on Close to the position of the liquid outlet (312), including table top (318) and the collecting tank (319) that is arranged on the table top (318), The collecting tank (319) is arranged on the bottom of the filling head (317), and the bottom plate of the collecting tank (319) inclines along its length Tiltedly set, angle of inclination is 3 degree, and the culture medium recycling can (302) is connected with the collecting tank (319);
The first heater (307) is arranged on the middle part of the tank body (305), and first stirring vane (308) is set Bottom in the tank body (305), second stirring vane (309) is arranged on the middle and upper part of the tank body (305);
The first temperature sensor is provided with the tank body (305), display screen is provided with the 4th base (304) (320) control module, the control module difference and multiple operation buttons (321), are provided with the 4th base (304) With the display screen (320), the operation button (321), the first heater (307), first temperature sensor, 8th drive device (310) is connected with the 9th drive device (311);
Secondary heating mechanism (322) is internally provided with the culture medium recycling can (302);In the go out liquid house steward (313) The second valve is respectively arranged with multiple packing pipes (315);The go out liquid house steward (313) is flexible pipe, the tank body (305) it is made of transparent material.
7. cultivation of plants method according to claim 6, it is characterised in that:The tissue-cultured seedling root that culture of rootage is obtained Agar is first placed on seedling culture frame after cleaning up and cultivated 1~2 month, then is transplanted on cultivation bed;
The seedling culture frame includes the second support body (505), and second support body (505) includes top plate, bottom plate, left plate, right plate And back side panel, multiple seedlings nursing plates (500) are additionally provided with second support body (505), the seedlings nursing plate (500) is opened for top The rectangular parallelepiped structure of mouth, rack (506) is provided with the seedlings nursing plate (500), is uniformly set on the rack (506) Multiple nursery cartridge apertures (507) are equipped with, seedling-raising box (508) is placed with the nursery cartridge apertures (507);
The seedling-raising box (508) includes box body (509) and second lid (510) in portion placed on it, in the box body (509) Bottom even is provided with multiple leaking holes, seedling medium (511) is included inside the box body (509), in the seedling medium (511) bottom, which is provided with, prevents slipping through the net (512), and the supporting part stretched out is provided with the edge of the box body (509) upper end (513), the supporting part (513) is supported and fixed on the rack (506);
Inlet opening (514) and apopore (515) are provided with rear side of the seedlings nursing plate (500), the inlet opening (514) passes through Pipeline is connected with the first water tank, and the apopore (515) is connected by pipeline with collection box;
Multiple LEDs are evenly arranged with side plate in the rear;
The second chute (519) is fixed with the both sides of second support body (505), is fixed in the both sides of the seedlings nursing plate (500) There is the second sliding block (518) being engaged with second chute (519);
The seedling-raising box (508) in nursery cartridge apertures (507) and each seedlings nursing plate (500) on the rack (506) Quantity it is equal, be 12, the quantity of the seedlings nursing plate (500) is 4, be followed successively by from top to bottom the first seedlings nursing plate (501), Second seedlings nursing plate (502), the 3rd seedlings nursing plate (503) and the 4th seedlings nursing plate (504);
It is fixed on the institute on second seedlings nursing plate (502), the 3rd seedlings nursing plate (503) and the 4th seedlings nursing plate (504) The second sliding block (518) is stated for Telescopic rod structure, second sliding block (518) being fixed on second seedlings nursing plate (502) Telescopic extensions are 1~2 times of the seedlings nursing plate (500) width, and described second be fixed on the 3rd seedlings nursing plate (503) is slided The telescopic extensions of block (518) are 1~3 times of the seedlings nursing plate (500) width, are fixed on the 4th seedlings nursing plate (504) The telescopic extensions of second sliding block (518) are 1~4 times of the seedlings nursing plate (500) width.
8. cultivation of plants method according to claim 7, it is characterised in that:During the spray irrigation system is following two It is a kind of:
(a) spray irrigation system includes the second water tank (601) and coupled the first water inlet manifold (602), described first The first water pump (603) is provided with water inlet manifold (602), first water inlet manifold (602) is connected with multigroup water injector, often The described water injector of group includes the first sparge pipe (604) and humidifier tube (605), first sparge pipe (604) and described adds Wet pipe (605) is connected by the first branch pipe and the second branch pipe with first water inlet manifold (602) respectively, in first branch pipe On be provided with the 3rd valve (607), the 4th valve (608), first sparge pipe (604) are provided with second branch pipe The top of cultivation bed (606) is horizontally set on, multiple second shower nozzles (609) are provided with first sparge pipe (604), The 4th humidity sensor (610) is provided with the cultivation bed (606);The humidifier tube (605) is arranged on the energy-conservation plantation The medium position of the height of greenhouse, the humidifier tube (605) by it is multiple humidification branch pipes (611) be formed by connecting, it is each it is described plus 1 the 5th humidity sensor (612) is fixed with wet branch pipe (611), is distinguished in the both sides of the 5th humidity sensor (612) It is fixed with two the 3rd shower nozzles (613);The 5th valve (614) is provided with the 3rd shower nozzle (613);First water pump (603), the 4th humidity sensor (610) and the 5th humidity sensor (612) and the solar power system phase Even;
The quantity of the cultivation bed (606) is multiple, and the top of each cultivation bed (606) is both provided with spraying water described in one group Device, multigroup water injector be arranged in parallel;The first filter is provided with first water inlet manifold (602) (621);Water fender (622), the height of the water fender (622) are connected with the top of the 5th humidity sensor (612) Less than the height of the 3rd shower nozzle (613);
(b) spray irrigation system is arranged on cultivating stand, including pallet (801) and the second water inlet manifold (803), in the pallet (801) multiple rows of flowerpot (802) is provided with, the second water pump (804), described second are provided with the second water inlet manifold (803) One end of water inlet manifold (803) is connected with multiple water inlet pipes (805), quantity and the flowerpot of the water inlet pipe (805) (802) row is consistent;The other end of second water inlet manifold (803) passes through the first branch pipe (806) and the second branch pipe respectively (807) it is connected with three-tank (808) and receptacle (809), between the three-tank (808) and the receptacle (809) It is connected by the 3rd branch pipe (810);
Flowmeter (811), the second filter (812) and multiple water spray dresses are provided with each water inlet pipe (805) Put, each water injector one flowerpot (802) of correspondence and the top for being arranged on the flowerpot (802), the water spray Mozzle (813), the reduction of speed that device includes being sequentially connected from top to bottom subtract stream device (814) and water dish (815), the water conservancy diversion It is hollow Telescopic rod structure to manage (813), and its upper end is connected with the water inlet pipe (805);The reduction of speed subtracts stream device (814) Solid cylinder, is provided with helical form water stream channel, the water dish (815) is by multiple second sparge pipe (816) structures wherein One end and the reduction of speed into, multiple second sparge pipes (816) subtract the lower end of stream device (814) and are connected, and multiple described the The other end of two sparge pipes (816) is free end, is uniformly distributed in a circular flat, in second sparge pipe (816) On be evenly arranged with multiple 4th shower nozzles (817);
The 6th valve (818) is provided with first branch pipe (806), the 7th is provided with second branch pipe (807) Valve (819), the 8th valve (820) is provided with the 3rd branch pipe (810);
The 6th humidity sensor (821) is provided with the flowerpot (802), the 9th is provided with the mozzle (813) Valve (822);
Fertilizer box (823), the 3rd filter (824) and agitating device (825), institute are provided with the receptacle (809) The water outlet that the 3rd filter (824) is arranged on the receptacle (809) is stated, the agitating device (825) is two, point The upper and lower part of the receptacle (809) is not arranged on;The multiple and flowerpot is provided with the pallet (801) (802) the adaptable tray slots (826) in bottom, the quantity and the quantity phase of the flowerpot (802) of the tray slots (826) Deng;Thermometer (827) is provided with the pallet (801);
The spray irrigation system also includes switch board, respectively with the agitating device (825), the 6th valve (818), described the Seven valves (819), the 8th valve (820), the 9th valve (822), second water pump (804) and described 6th wet Sensor (821) is spent to be connected.
CN201710363926.0A 2017-05-22 2017-05-22 A kind of cultivation of plants method CN107173223B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201710363926.0A CN107173223B (en) 2017-05-22 2017-05-22 A kind of cultivation of plants method

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
CN201710363926.0A CN107173223B (en) 2017-05-22 2017-05-22 A kind of cultivation of plants method
CN201811334918.4A CN109197549A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334920.1A CN109302976B (en) 2017-05-22 Plant cultivation method based on solar LED lamp and intelligent sprinkling irrigation system
CN201811334908.0A CN109197546A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334910.8A CN109197548A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334909.5A CN109197547A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation

Related Child Applications (5)

Application Number Title Priority Date Filing Date
CN201811334909.5A Division CN109197547A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334918.4A Division CN109197549A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334908.0A Division CN109197546A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334910.8A Division CN109197548A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334920.1A Division CN109302976B (en) 2017-05-22 2017-05-22 Plant cultivation method based on solar LED lamp and intelligent sprinkling irrigation system

Publications (2)

Publication Number Publication Date
CN107173223A true CN107173223A (en) 2017-09-19
CN107173223B CN107173223B (en) 2019-01-08

Family

ID=59831344

Family Applications (5)

Application Number Title Priority Date Filing Date
CN201811334909.5A CN109197547A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334910.8A CN109197548A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334918.4A CN109197549A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334908.0A CN109197546A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201710363926.0A CN107173223B (en) 2017-05-22 2017-05-22 A kind of cultivation of plants method

Family Applications Before (4)

Application Number Title Priority Date Filing Date
CN201811334909.5A CN109197547A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334910.8A CN109197548A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334918.4A CN109197549A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation
CN201811334908.0A CN109197546A (en) 2017-05-22 2017-05-22 A kind of plant cultivation method based on solar LED (Light Emitting Diode) lamp and intelligent Sprinkling Irrigation

Country Status (1)

Country Link
CN (5) CN109197547A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108934587A (en) * 2018-07-11 2018-12-07 安徽科技学院 Green cucumber seedling cultivation device
CN109122193A (en) * 2018-09-03 2019-01-04 邹成浩 A kind of tealeaves seedling planting equipment
CN109983953A (en) * 2017-12-29 2019-07-09 永春县一都玉财茶叶专业合作社 A kind of novel agricultural device for raising seedlings
WO2020028463A1 (en) * 2018-08-02 2020-02-06 Drexel University An urban in-home system for growing fruits and vegetables
CN111034528A (en) * 2019-12-26 2020-04-21 东北林业大学 Device and method for cultivating eucommia ulmoides forest for leaves in northeast region
CN111034528B (en) * 2019-12-26 2021-02-05 东北林业大学 Device and method for cultivating eucommia ulmoides forest for leaves in northeast region

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103891620A (en) * 2014-04-25 2014-07-02 湖南绿博农业综合开发有限公司 Taxus chinensis var mairei cultivation method
CN104823857A (en) * 2015-05-18 2015-08-12 江苏农林职业技术学院 Seedling raising method for promoting ex-vitro rooting of blueberry tissue culture seedlings

Family Cites Families (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL9201181A (en) * 1992-07-02 1994-02-01 Hendrikus Albertus Johannes Lu Conveyor (transport) system
CN2647751Y (en) * 2003-10-16 2004-10-13 中国林业科学研究院森林保护研究所 Culture medium individual loading machine
CN101751040A (en) * 2008-12-04 2010-06-23 廖祥飞 Array mirror reflection spotlight method, array mirror reflection condenser and array photovoltaic power station
CN201880757U (en) * 2010-08-27 2011-06-29 河南省海芋生物发展有限公司 Rolled rod straightening device for lily vinylhouse
KR200455827Y1 (en) * 2011-05-09 2011-09-27 홍국영 Home Appliance Plant Grower
KR20130009323A (en) * 2011-07-15 2013-01-23 강세열 Water culture machine
NL2008749C2 (en) * 2012-05-03 2013-11-06 Vivi B V A COMPOSITION, A CART AND A CONTAINER FOR GROWING AND / OR GROWING PLANTS.
CN203560771U (en) * 2013-11-28 2014-04-23 四川新力光源股份有限公司 LED line lamp adjusting device
CN104051579A (en) * 2014-07-02 2014-09-17 常州亿晶光电科技有限公司 Automatic turnover device for solar cell piece
CN204191321U (en) * 2014-09-25 2015-03-11 武汉沃田生态科技有限公司 A kind of fountain Explant sterilizing device
CN205161346U (en) * 2015-10-12 2016-04-20 赣州市淳乡情农业开发有限公司 A auto -induction water -spraying system for vegetables
CN205469938U (en) * 2016-01-12 2016-08-17 六盘水黔丰农业发展有限公司 Culture medium filling device

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103891620A (en) * 2014-04-25 2014-07-02 湖南绿博农业综合开发有限公司 Taxus chinensis var mairei cultivation method
CN104823857A (en) * 2015-05-18 2015-08-12 江苏农林职业技术学院 Seedling raising method for promoting ex-vitro rooting of blueberry tissue culture seedlings

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109983953A (en) * 2017-12-29 2019-07-09 永春县一都玉财茶叶专业合作社 A kind of novel agricultural device for raising seedlings
CN108934587A (en) * 2018-07-11 2018-12-07 安徽科技学院 Green cucumber seedling cultivation device
CN108934587B (en) * 2018-07-11 2020-05-19 安徽科技学院 Seedling breeding device for cucumber planting
WO2020028463A1 (en) * 2018-08-02 2020-02-06 Drexel University An urban in-home system for growing fruits and vegetables
CN109122193A (en) * 2018-09-03 2019-01-04 邹成浩 A kind of tealeaves seedling planting equipment
CN111034528A (en) * 2019-12-26 2020-04-21 东北林业大学 Device and method for cultivating eucommia ulmoides forest for leaves in northeast region
CN111034528B (en) * 2019-12-26 2021-02-05 东北林业大学 Device and method for cultivating eucommia ulmoides forest for leaves in northeast region

Also Published As

Publication number Publication date
CN109197549A (en) 2019-01-15
CN109197547A (en) 2019-01-15
CN109197548A (en) 2019-01-15
CN109302976A (en) 2019-02-05
CN109197546A (en) 2019-01-15
CN107173223B (en) 2019-01-08

Similar Documents

Publication Publication Date Title
CN104115705B (en) Winter warms up green house
CN206061648U (en) A kind of tower type three-dimensional landscape device
CN102577869B (en) Indoor plant growing device for show
CN103270901B (en) Habitable room flower multifunctional nursing system
CN101502222B (en) Family ecological cultivation case
CN201830730U (en) Vegetable culture device capable of utilizing natural light source and being assembled detachably
CN201742773U (en) Eutropic intelligent potted plant screen
CN207322110U (en) A kind of forestry plantation container for plant growth
CN201789821U (en) Vertical rotating three-dimensional multi-layer planting greenhouse
CN204669996U (en) The multi-functional photovoltaic Ecological Greenhouse of a kind of mixing
TWI492706B (en) A multi - functional three - dimensional planting system
CN201928765U (en) Aeroponic culture type desk lamp flower pot planting system
CN204634606U (en) A kind of digitalization precision seedling system
CN105104158B (en) Intelligent water planting vegetable cultivation cabinet
CN100464632C (en) Aeroponic type plant sugar-free tissue culturing device
CN205511185U (en) Solar greenhouse big -arch shelter breeding device
CN202535799U (en) Show indoor plant planter
CN205408775U (en) Agricultural plant artificial containers that grows seedlings
CN201624045U (en) Industrial hole tray seedling culture bottom-surface irrigation device
CN207519358U (en) A kind of automatic plant water planting system of multi-layer intelligent
CN101940135A (en) Vertical rotary stereo type multi-layer planting greenhouse
CN206564933U (en) A kind of packaged type agronomy device for raising seedlings
CN203105205U (en) Intelligent planting greenhouse
CN101743861B (en) Botanical seedling culturing machine
CN104855262A (en) Method for cultivating and planting organic dendrobium candidum

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
TA01 Transfer of patent application right
TA01 Transfer of patent application right

Effective date of registration: 20181123

Address after: Room C-1105-5, 198 Kaidi Road, Xiaoshan Economic and Technological Development Zone, Hangzhou City, Zhejiang Province, 310000

Applicant after: Hangzhou union gardening science and Technology Co Ltd

Address before: Room F-204, Hongyun International Village, Jiangning District, Nanjing, Jiangsu Province

Applicant before: Jin Yingzi

Effective date of registration: 20181123

Address after: Room C-1105-5, 198 Kaidi Road, Xiaoshan Economic and Technological Development Zone, Hangzhou City, Zhejiang Province, 310000

Applicant after: Hangzhou union gardening science and Technology Co Ltd

Address before: Room F-204, Hongyun International Village, Jiangning District, Nanjing, Jiangsu Province

Applicant before: Jin Yingzi

GR01 Patent grant
GR01 Patent grant
CP03 "change of name, title or address"
CP03 "change of name, title or address"

Address after: 310000 303-3, building 2, No. 371, Mingxing Road, Xiaoshan Economic and Technological Development Zone, Xiaoshan District, Hangzhou City, Zhejiang Province

Patentee after: Hangzhou Shulian Ecological Engineering Co., Ltd

Address before: 310000 C-1105-5 room, No. 198 enlightenment Road, Xiaoshan economic and Technological Development Zone, Xiaoshan District, Zhejiang, Hangzhou

Patentee before: Hangzhou union gardening science and Technology Co.,Ltd.