CN105684865B - A kind of plant frame, plant soil-less culturing system, automatic vegetable greenhouse - Google Patents
A kind of plant frame, plant soil-less culturing system, automatic vegetable greenhouse Download PDFInfo
- Publication number
- CN105684865B CN105684865B CN201610044083.3A CN201610044083A CN105684865B CN 105684865 B CN105684865 B CN 105684865B CN 201610044083 A CN201610044083 A CN 201610044083A CN 105684865 B CN105684865 B CN 105684865B
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- Prior art keywords
- liquid
- culture solution
- liquid bath
- plant
- pipe
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Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
- A01G31/02—Special apparatus therefor
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G9/00—Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
- A01G9/14—Greenhouses
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
- A01G31/02—Special apparatus therefor
- A01G31/06—Hydroponic culture on racks or in stacked containers
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G9/00—Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
- A01G9/12—Supports for plants; Trellis for strawberries or the like
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G9/00—Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
- A01G9/14—Greenhouses
- A01G9/1423—Greenhouse bench structures
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G9/00—Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
- A01G9/24—Devices or systems for heating, ventilating, regulating temperature, illuminating, or watering, in greenhouses, forcing-frames, or the like
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
- A01G2031/006—Soilless cultivation, e.g. hydroponics with means for recycling the nutritive solution
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/25—Greenhouse technology, e.g. cooling systems therefor
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P60/00—Technologies relating to agriculture, livestock or agroalimentary industries
- Y02P60/20—Reduction of greenhouse gas [GHG] emissions in agriculture, e.g. CO2
- Y02P60/21—Dinitrogen oxide [N2O], e.g. using aquaponics, hydroponics or efficiency measures
Abstract
A kind of plant frame, it is characterised in that:Plant frame(r5a)It is cylindrical, plant frame(r5a)Bottom be located at plant frame(r5a)Stage casing, have plant chamber above bottom(510a), plant frame(r5a)Bottom on have a large amount of aperture 520a, plant frame(r5a)Lower sides on have liquid flow hole(530a).The outstanding pipe of one kind, including outer tube(9a), inner tube(92a).Green house of vegetables has outstanding pipe above-mentioned, plant frame.The present invention it is of low cost, using flexible, service life is long, it is reliable and stable, can effectively control respiration, can realize plant temperature regulate and control.
Description
Technical field
Agriculture field of the present invention, and in particular to a kind of plant frame, plant soil-less culturing system, automatic vegetable greenhouse.
Background technology
Existing greenhouse plants organic matter control technology, at high price, short life, design is complicated, and there are many needs to change
Into place.
The strong and weak retention for influencing sugar in plant of plant respiration, has an impact mouthfeel, if there is one kind can be with
The system for controlling plant respiration, then be conducive to the cultivation of vegetables.
Invention content
To solve the problems, such as to describe in technical background, the present invention propose a kind of plant frame, plant soil-less culturing system, from
Dynamicization green house of vegetables.
The present invention has following technology contents.
Technology contents 1, a kind of outstanding pipe, it is characterised in that:Including outer tube(9a), inner tube(92a);
Outer tube(9a)With open end and blind end(913a), outer tube(9a)Tube chamber(910a)Have in open end and opens
Mouthful, outer tube(9a)Tube chamber(910a)In blind end(913a)It is closed, outer tube(9a)Side wall on have largely exist
The micropore of longitudinal arrangement, that is, axial alignment(911a), micropore(911a)Both ends respectively with tube chamber(910a), outside communicate, it is ' micro-
Hole(911a)With tube chamber(910a)Opening ' to outer tube open end distance be more than the ' micropore(911a)With outer tube(9a)Outside
The opening point on surface ' arrive outer tube open end distance;
Inner tube(92a)With arrival end and outlet end, inner tube(92a)Arrival end and outlet end be all open, inner tube
(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(910a)Length;
Inner tube(92a)With outer tube(9a)It is coaxial;Inner tube(92a)Arrival end and outer tube(9a)Open end it is concordant, and have
There is sealed connecting component(912a), that is to say, that inner tube(92a)Arrival end pass through sealed connecting component(912a)By outer tube(9a)'s
Open end encloses, due to inner tube(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(110a)Length, institute
With inner tube(92a)Outlet end will not be by outer tube(9a)Blind end(913a)It is blocked, from inner tube(92a)Arrival end enter
Liquid can pass through inner tube(92a)Outlet end flow into outer tube(9a)Tube chamber(910a), then pass through micropore(911a)Outflow,
From inner tube(92a)Arrival end enter liquid flow it is bigger, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)'s
The position of the liquid of outer surface is also higher, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)Outer surface liquid position
Set higher, liquid is in outer tube(9a)The liquid film that surface is formed is also bigger, and the dissolved oxygen amount of liquid is also more, so this outstanding pipe tool
Flow control fillet height can be relied on and by the two advantageous effects of flow control dissolved oxygen amount by having;
This outstanding pipe using when need inner tube(92a)Arrival end upward, make inner tube(92a)The parallel gravity vertical of axis carry out
It uses.
The outstanding pipe of technology contents 2, one kind as described in technology contents 1, it is characterised in that:With inner tube(92a)Arrival end phase
Volume control device even is control head(2a), control head(2a)With cavity(210a), interconnecting piece(230a), multiple liquid level holes
(223a、221a、220a), liquid level hole(223a、221a、220a)With cavity(210a)Two open end trends are orientation
It is arranged in a linear, liquid level hole(223a、221a、220a)One end open be located at cavity(210a)Cavity surface, another end opening position
In control head(2a)Outer surface;Control head(2a)Effect be control flow, control head(2a)Flow mainly by residing liquid
The liquid level of body environment is controlled, the higher liquid level hole flooded of liquid level(223a、221a、220a)It is more, cavity(201a)Flow
It is bigger.
The outstanding pipe of technology contents 3, one kind as described in technology contents 1 or 2, it is characterised in that:Flow through the culture solution of outstanding pipe
(r81a)Temperature be controlled.
The outstanding pipe of technology contents 4, one kind as described in technology contents 1 or 2, it is characterised in that:Pipe shaft shape is cylinder.
The outstanding pipe of technology contents 5, one kind as described in technology contents 1 or 2, it is characterised in that:Micropore(111a)For circular hole.
The outstanding pipe of technology contents 6, one kind as described in technology contents 1 or 2, it is characterised in that:Inner tube(92a)Arrival end tool
There is connection structure.
The outstanding pipe of technology contents 7, one kind as described in technology contents 1 or 2, it is characterised in that:It is made of hard material.
Technology contents 8, a kind of plant respiration automatic control system, it is characterised in that:Including outstanding pipe, control head
(2a), high-order liquid bath(r3a), low level liquid bath(r8a), plant frame(r5a), first pipe(b1a), the first water pump(s1a), second
Water pump(s2a), third pipeline(s3a), culture solution valve(f1a), control liquid bath(r9a), high-order liquid level sensor(43a), low level
Liquid level sensor(48a), supporter(7a);
Outstanding pipe includes outer tube(9a), inner tube(92a), hang the outer tube of pipe(9a)With open end and blind end(913a), hang
The outer tube of pipe(9a)Tube chamber(910a)There is opening in open end, hang the outer tube of pipe(9a)Tube chamber(910a)In blind end
(913a)It is closed, hangs the outer tube of pipe(9a)Side wall on have largely there is the longitudinal arrangement i.e. micropore of axial alignment
(911a), micropore(911a)Both ends respectively with tube chamber(910a), outside communicate, ' micropore(911a)With tube chamber(910a)Open
At mouthful ' distance of outer tube open end is arrived more than ' the micropore(911a)With outer tube(9a)The opening point of outer surface ' arrive outer tube open end
Distance, hang pipe inner tube(92a)With arrival end and outlet end, the inner tube of pipe is hanged(92a)Arrival end and outlet end be all
Open, hang the inner tube of pipe(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(910a)Length, hang pipe
Inner tube(92a)With outer tube(9a)It is coaxial, hang the inner tube of pipe(92a)Arrival end and outer tube(9a)Open end it is concordant and with close
Seal connector(912a)That is inner tube(92a)Arrival end pass through sealed connecting component(912a)By outer tube(9a)Open end
It encloses, due to inner tube(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(110a)Length, so inner tube
(92a)Outlet end will not be by outer tube(9a)Blind end(913a)It is blocked, from inner tube(92a)Arrival end enter liquid
Inner tube can be passed through(92a)Outlet end flow into outer tube(9a)Tube chamber(910a), then pass through micropore(911a)Outflow, from inner tube
(92a)Arrival end enter liquid flow it is bigger, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)Outer surface
Liquid position it is also higher, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)The position of liquid of outer surface get over
Height, liquid is in outer tube(9a)The liquid film that surface is formed is also bigger, and the dissolved oxygen amount of liquid is also more, so this outstanding pipe has energy
Enough rely on flow control fillet height and by the two advantageous effects of flow control dissolved oxygen amount;
Control head(2a)With cavity(210a), interconnecting piece(230a), multiple liquid level holes(223a、221a、220a), liquid level
Hole(223a、221a、220a)With cavity(210a)Two open end trends are being arranged in a linear for orientation, liquid level hole
(223a、221a、220a)One end open be located at cavity(210a)Cavity surface, another end opening be located at control head(2a)Appearance
Face;Control head(2a)Effect be control flow, control head(2a)Flow mainly by residing culture solution(r81a)The liquid of environment
Position is controlled, the higher liquid level hole flooded of liquid level(223a、221a、220a)It is more, cavity(201a)Flow it is bigger;
Control head(2a)Positioned at high-order liquid bath(r3a)Inside hangs pipe and is located at high-order liquid bath(r3a)Water is controlled in the outside of lower section
Head(2a)Pass through interconnecting piece(230a)It constitutes and connects with outstanding pipe, control head(2a)Cavity(210a)Inner tube by hanging pipe enters
The inner cavity at mouth end and the inner tube of outstanding pipe(920a)It communicates;The high-order liquid bath of control(r3a)Culture solution in cavity(r81a)Depth just
It can control control head(2a)Flow, control head(2a)Flow controlled, then the culture solution of outstanding pipe(r81a)Discharge is high
Degree will be controlled, therefore need to only control high-order liquid bath(r3a)Culture solution in cavity(r81a)Depth, outstanding pipe can be controlled
Culture solution(r81a)Discharge height and delivery flow;
Plant frame(r5a)It is cylindrical, plant frame(r5a)Bottom be located at plant frame(r5a)Stage casing, have plant above bottom
Chamber(510a), plant frame(r5a)Bottom on have a large amount of aperture(520a), plant frame(r5a)Lower sides on have liquid
Discharge orifice(530a)To prevent plant frame(r5a)Structure hinder culture solution(r81a)Flowing;
Plant frame(r5a)With permeable effect, work as culture solution(r81a)Flow through plant frame(r5a)Most of culture solution
(r81a)It can flow away, plant frame(r5a)Effect be for use as plant(z0a)The bracket of plantation, plant(z0a)It is placed on plant
Rack(r5a)Its upper root is exposed under outstanding pipe, by the culture solution for hanging pipe discharge(r81a)Plant can be flowed through(z0a)Root
Portion forms culture solution(r81a)Film, can either meet the water suction demand of plant root, and disclosure satisfy that the need of root absorption oxygen
It asks;
Plant frame(r5a)Positioned at the blind end of outstanding pipe(913a)Lower section;
Supporter(7a)One end and ground(e1a)It is connected, the other end and high-order liquid bath(r3a)Between have connection
(73a), high-order liquid bath(r3a)Pass through supporter(7a)Maintain height;
Plant frame(r5a)Positioned at low level liquid bath(r8a)It is interior, plant frame(r5a)Carry plant(z0a)The position of root is located at
Low level liquid bath(r8a)Cavity opening position floor level position, plant frame is flowed through by outstanding pipe(r5a)Culture solution
(r81a)Low level liquid bath can be flowed to(r8a)In;
First pipe(b1a)One end and low level liquid bath(r8a)Chamber communicate, the other end and high-order liquid bath(r3a)It communicates;
First water pump(s1a)It can be by low level liquid bath(r8a)Chamber in culture solution(r81a)Pass through first pipe(b1a)It is transported to height
Position liquid bath(r3a)Chamber in;Then culture solution(r81a)By controlling head(2a), outstanding pipe flow through plant frame(r5a)Into low level
Liquid bath(r8a)Form cycle;
Third pipeline(s3a)One end and low level liquid bath(r8a)Chamber communicate, the other end with control liquid bath(r9a)It communicates;
Culture solution valve(f1a)Positioned at third pipeline(s3a)Path on, culture solution valve(f1a)Allow hand over third pipeline(s3a)Close
Plug and both open states;Second water pump(s2a)It can be by low level liquid bath(r8a)Chamber in culture solution(r81a)Pass through
Two pipelines(b2a)It is transported to control liquid bath(r9a)In;Control liquid bath(r9a)Effect be by keep in culture solution(r81a)Come
Control low level liquid bath(r8a)Depth, in culture solution valve(f1a)Third pipeline(s3a)The second water pump is used in the case of opening
(s2a)By low level liquid bath(r8a)Culture solution(r81a)Drive control liquid bath(r9a)In can then reduce low level liquid bath
(r8a)Middle culture solution(r81a)Liquid level, prevent culture solution(r81a)Submerged plant(z0a)Root, at this time hang pipe discharge
Culture solution(r81a)It can be in plant(z0a)Root formed liquid film, if culture solution valve(f1a)Opening but the second water pump
(s2a)Not by culture solution(r81a)From low level liquid bath(r8a)To control liquid bath(r9a)Driving, then control liquid bath(r9a)Interior training
Nutrient solution(r81a)Pass through third pipeline(s3a)Flow into low level liquid bath(r8a)It is interior, low level liquid bath(r8a)Interior liquid level rising is flooded
Plant(z0a)Root, plant can be inhibited(z0a)The respiration of root;
High-order liquid level sensor(43a)For monitoring high-order liquid bath(r3a)Liquid level;
Low level liquid level sensor(48a)For monitoring low level liquid bath(r8a)Liquid level;
Further include that can make low level liquid bath(r8a)Interior culture solution(r81a)The refrigerating plant that temperature reduces(k3a), work as low level
Liquid bath(r8a)After temperature reduces, pass through the first water pump(s1a)By low level liquid bath(r8a)Chamber in culture solution(r81a)Pass through
First pipe(b1a)It is transported to high-order liquid bath(r3a)Chamber in;Then culture solution(r81a)By controlling head(2a), outstanding pipe row
Go out to flow through plant frame(r5a)Into low level liquid bath(r8a)Form cycle;The first water pump is controlled at this time(s1a)Flow velocity improve it is outstanding
The discharge height of pipe can be by Low- temperature culture liquid(r81a)It is quickly discharged into plant(z0a)Upper rapidly cooling plant(z0a)Drop
Low respiration, it should be noted that culture solution(r81a)Temperature should control in zone of reasonableness, temperature cannot it is too low in order to avoid
Plant(z0a)Frostbite;
Plant(z0a)It is liana;Plant(z0a)Including stem(z2a), leaf(z3a)And root(z1a), planted according to liana
Its stem of the climbing habit of object(z2a)It can be wrapped on outstanding pipe;
Further include that can make low level liquid bath(r8a)Interior culture solution(r81a)The raised heating device of temperature(k2a), extreme cold
It can be by the culture solution that circulates under conditions of cold(r81a)For plant(z0a)Heat preservation;
Further include that can make low level liquid bath(r8a)Interior culture solution(r81a)The ultrasonic degasser of degassing(k1a), ultrasound
Wave degasser(k1a)The cavitation of ultrasonic wave can be utilized to make low level liquid bath(r8a)Interior culture solution(r81a)Degassing, to
Reduce low level liquid bath(r8a)Interior culture solution(r81a)The concentration of contained oxygen, to inhibit respiration;
Further include for monitoring low level liquid bath(r8a)Interior culture solution(r81a)The temperature sensor of temperature(v1a);
Further include for detecting low level liquid bath(r8a)Interior culture solution(r81a)The densimeter of proportion(n1a);
Further include control module, control module controls culture solution valve(f1a), the first water pump(s1a), the second water pump(s2a)、
Ultrasonic degasser(k1a), heating device(k2a), refrigerating plant(k3a);High-order liquid level sensor(43a)Module in order to control
High-order liquid bath is provided(r3a)Liquid level parameter;Low level liquid level sensor(48a)Module provides low level liquid bath in order to control
(r8a)Liquid level parameter;Densimeter(n1a)Module provides low level liquid bath in order to control(r8a)Interior culture solution(r81a)Ratio
Weight;The inhibition operation of respiration is used when illumination is low.
Technology contents 9, automatic vegetable greenhouse, it is characterised in that:Described in any technology contents in technology contents 1-7
The outstanding pipe of one kind.
Technology contents 10, automatic vegetable greenhouse, it is characterised in that:With a kind of plant respiration described in technology contents 8
Act on automatic control system.
Technology contents illustrate and advantage
The present invention it is of low cost, using flexible, service life is long, it is reliable and stable, can effectively control respiration, energy
Enough realize plant temperature regulation and control.
Description of the drawings
Fig. 1 is the schematic diagram of plant frame r5a in embodiment 1, and plant frame r5a is cylindrical, and the bottom of plant frame r5a is located at
There is on the bottom of plant frame r5a a large amount of aperture 520a, the lower end of plant frame r5a to have liquid flow hole in the stage casing of plant frame r5a
530a is to prevent the structure of plant frame r5a from hindering culture solution r81a flowings.
Attached drawing 2 is the inner tube 92a schematic diagrames that pipe is hanged in embodiment 1, and a is profilograph, and b is section N-N shown in a
Schematic diagram.
Attached drawing 3 is the outer tube 9a schematic diagrames that pipe is hanged in embodiment 1, and a is profilograph, and b is cross section A-A shown in a
Schematic diagram, b are the schematic diagram of a midship sections B-B.
Attached drawing 4 is the schematic diagram that pipe is hanged in embodiment 1, and a is profilograph, and b is the schematic diagram of cross section A-A shown in a,
B is the schematic diagram of a midship sections B-B.
Attached drawing 5 is the schematic diagram of the control head 2a of embodiment 1, and a is profilograph, and b is the schematic diagram of a midship sections C-C,
230a is interconnecting piece, with screw thread.
Fig. 6 is the schematic diagram of embodiment 1, and the fork of the control terminal picture of wherein culture solution valve f1a represents culture solution valve f1a and closes
Plug;Culture solution r81a after opening culture solution valve f1a in the case of the second water pump s2a in control liquid bath r9a is not turned on by the
Three pipeline s3a are flowed into low level liquid bath r8a, and the liquid level in low level liquid bath r8a rises the root of submerged plant z0a, relative to training
The state plant root respiration that nutrient solution r81a forms moisture film in plant root weakens.
Fig. 7 is the schematic diagram of the control system of embodiment 1, control module control culture solution valve f1a, the first water pump s1a,
Second water pump s2a, ultrasonic degasser k1a, heating device k2a, refrigerating plant k3a;High-order liquid level sensor 43a is in order to control
Module provides the liquid level parameter of high-order liquid bath r3a;Module provides low level liquid bath r8a to low level liquid level sensor 48a in order to control
Liquid level parameter.
Example is embodied
Below in conjunction with embodiment, the present invention will be described.
Embodiment 1, as shown in figs. 1-7, a kind of plant respiration automatic control system, it is characterised in that:Including
Outstanding pipe, control head 2a, high-order liquid bath r3a, low level liquid bath r8a, plant frame r5a, first pipe b1a, the first water pump s1a, second
Water pump s2a, third pipeline s3a, culture solution valve f1a, control liquid bath r9a, high-order liquid level sensor 43a, low level liquid level sensor
48a, supporter 7a;
Outstanding pipe includes outer tube 9a, inner tube 92a, and the outer tube 9a for hanging pipe has open end and blind end 913a, hangs the outer of pipe
The tube chamber 910a of pipe 9a has an opening in open end, the tube chamber 910a of the outer tube 9a of outstanding pipe in blind end 913a be it is closed,
There is the micropore 911a that largely there is the i.e. axial alignment of longitudinal arrangement on the side wall of the outer tube 9a of outstanding pipe, the two of micropore 911a
End is communicated with tube chamber 910a, outside respectively, is more than at a distance from ' opening of micropore 911a and tube chamber 910a ' to outer tube open end
At a distance from ' the opening point of the outer surfaces micropore 911a and outer tube 9a ' to outer tube open end, the inner tube 92a for hanging pipe has arrival end
And outlet end, the arrival end of the inner tube 92a of outstanding pipe and outlet end are all open, hang the length of the inner cavity 920a of the inner tube 92a of pipe
The length of tube chamber 910a of the degree less than outer tube 9a, the inner tube 92a for hanging pipe is coaxial with outer tube 9a, hangs the arrival end of the inner tube 92a of pipe
It is concordant with the open end of outer tube 9a and have sealed connecting component 912a, that is to say, that the arrival end of inner tube 92a passes through sealed connection
Part 912a encloses the open end of outer tube 9a, since the length of the inner cavity 920a of inner tube 92a is less than the tube chamber 110a of outer tube 9a
Length, so the outlet end of inner tube 92a will not be blocked by the blind end 913a of outer tube 9a, from the arrival end of inner tube 92a into
The liquid entered can flow into the tube chamber 910a of outer tube 9a by the outlet end of inner tube 92a, then be flowed out by micropore 911a, from inner tube
The flow for the liquid that the arrival end of 92a enters is bigger, and the liquid of the outer surface of outer tube 9a is flowed out from the micropore 911a of outer tube 9a
Position is also higher, and the higher liquid in position of the liquid of the outer surface of outer tube 9a is flowed out from the micropore 911a of outer tube 9a in outer tube 9a tables
The liquid film that face is formed is also bigger, and the dissolved oxygen amount of liquid is also more, so this outstanding pipe has and flow control can be relied on to overflow
Highly and by the two advantageous effects of flow control dissolved oxygen amount;
Controlling head 2a has cavity 210a, interconnecting piece 230a, multiple liquid level hole 223a, 221a, 220a, liquid level hole 223a,
221a, 220a move towards being arranged in a linear for orientation, liquid level hole 223a, 221a, 220a with two open ends cavity 210a
One end open be located at another end opening of Cavity surface of cavity 210a and be located at the outer surface of control head 2a;The effect of control head 2a is control
The flow of flow processed, control head 2a is mainly controlled by the liquid level of residing culture solution r81a environment, the higher liquid level flooded of liquid level
223a, 221a, 220a are more in hole, and the flow of cavity 201a is bigger;
It controls head 2a to be located inside high-order liquid bath r3a, hangs the outside that pipe is located at below high-order liquid bath r3a, control head 2a is logical
It crosses interconnecting piece 230a and outstanding pipe is constituted and connected, control in arrival end and outstanding pipes of the cavity 210a of head 2a by hanging the inner tube of pipe
The tube chamber 920a of pipe is communicated;The depth of culture solution r81a can control the flow of head 2a in the high-order liquid bath r3a cavitys of control,
The culture solution r81a discharge height that the flow of control head 2a obtains controlling so outstanding pipe will be controlled, therefore need to only control height
The depth of culture solution r81a can control the culture solution r81a discharges height and delivery flow of outstanding pipe in the liquid bath r3a cavitys of position;
Plant frame r5a is cylindrical, and the bottom of plant frame r5a is located at the stage casing of plant frame r5a, has plant chamber above bottom
510a has a large amount of aperture 520a on the bottom of plant frame r5a, have on the lower sides of plant frame r5a liquid flow hole 530a with
Prevent the structure of plant frame r5a from hindering culture solution r81a flowings;
Plant frame r5a has permeable effect, can be flowed when culture solution r81a flows through plant frame r5a major part culture solutions r81a
It walks, the effect of plant frame r5a is for use as the plant frame r5a of plant z0a kinds plant, and plant z0a is placed on plant frame r5a it
Root is exposed under outstanding pipe, and the root that the culture solution r81a by hanging pipe discharge can flow through plant z0a forms culture solution r81a
Film, the water suction demand that can either meet plant root disclosure satisfy that the demand of root absorption oxygen again;
Plant frame r5a is located at the lower section of the blind end 913a of outstanding pipe;
One end of supporter 7a, which is connected with ground e1a between the other end and high-order liquid bath r3a, has connection 73a, high-order liquid
Slot r3a maintains height by supporter 7a;
Plant frame r5a is located in low level liquid bath r8a, and the position of the roots plant frame r5a carrying plant z0a is located at low level liquid bath
The floor level position at the opening position of the cavity of r8a, the culture solution r81a that plant frame r5a is flowed through by hanging pipe can flow to low level
In liquid bath r8a;
One end of first pipe b1a is communicated with the chamber of low level liquid bath r8a, and the other end communicates with high position liquid bath r3a, the first water
Culture solution r81a in the chamber of low level liquid bath r8a can be transported to the chamber of high-order liquid bath r3a by pump s1a by first pipe b1a
In;Then culture solution r81a by controlling head 2a, the discharge of outstanding pipe flows through plant frame r5a and enters low level liquid bath r8a and form cycle;
One end of third pipeline s3a is communicated with the chamber of low level liquid bath r8a, and the other end is communicated with control liquid bath r9a, the second water
Pump s2a, culture solution valve f1a are located on the path of third pipeline s3a, and culture solution valve k1a allows hand over the occlusion of third pipeline s3a
With both states of exploitation;Culture solution r81a in the chamber of low level liquid bath r8a can be passed through second pipe by the second water pump s2a
B2a is transported in control liquid bath r9a;The effect of control liquid bath r9a is to control low level liquid bath r8a by temporary culture solution r81a
Depth, in the case where culture solution valve f1a third pipelines s3a is opened using the second water pump s2a by the culture of low level liquid bath r8a
The liquid level of culture solution r81a in low level liquid bath r8a can be then reduced in liquid r81a drivings to control liquid bath r9a prevents culture solution
The root of r81a submerged plants z0a, the culture solution r81a for hanging pipe discharge at this time can form liquid film in the root of plant z0a, such as
Fruit culture solution valve f1a is opened but the second water pump s2a does not drive culture solution r81a from low level liquid bath r8a to control liquid bath r9a, then
The culture solution r81a controlled in liquid bath r9a is flowed by third pipeline s3a in low level liquid bath r8a, the liquid level in low level liquid bath r8a
The root for rising submerged plant z0a, can inhibit the respiration of the roots plant z0a;
High-order liquid level sensor 43a is used to monitor the liquid level of high-order liquid bath r3a;
Low level liquid level sensor 48a is used to monitor the liquid level of low level liquid bath r8a;
Further include that can make the refrigerating plant k3a that culture solution r81a temperature reduces in low level liquid bath r8a, when low level liquid bath
The culture solution r81a in the chamber of low level liquid bath r8a is passed through by first pipe b1a by the first water pump s1a after the reduction of r8a temperature
It is transported in the chamber of high-order liquid bath r3a;Then culture solution r81a flows through plant frame r5a entrance by controlling head 2a, hanging pipe discharge
Low level liquid bath r8a forms cycle;The discharge height for controlling the outstanding pipe of flow velocity raising of the first water pump s1a at this time can be by Low- temperature culture
Liquid r81a, which is quickly discharged on plant z0a rapidly cooling plant z0a, reduces respiration, it should be noted that culture solution r81a
Temperature should control in zone of reasonableness, temperature cannot be too low in order to avoid plant z0a frostbite;
Plant z0a is liana;Plant z0a includes stem z2a, leaf z3a and root z1a, and the present invention is also suitable for liana plant
The plantation of object can be wrapped according to its stem of the climbing habit of liana z2a on outstanding pipe.
Further include that can make the raised heating device k2a of culture solution r81a temperature, the item of extreme cold in low level liquid bath r8a
Can be plant z0a heat preservations by the culture solution r81a circulated under part.
Further include that can make the ultrasonic degasser k1a that culture solution r81a deaerates in low level liquid bath r8a, ultrasonic wave degassing
Device k1a can utilize the cavitation of ultrasonic wave that culture solution r81a in low level liquid bath r8a is made to deaerate to reduce low level liquid bath
The concentration of oxygen in r8a contained by culture solution r81a, to inhibit respiration.
Further include the temperature sensor v1a for monitoring culture solution r81a temperature in low level liquid bath r8a;
Further include the densimeter n1a for detecting culture solution r81a proportions in low level liquid bath r8a;
Further include control module, control module controls culture solution valve f1a, the first water pump s1a, the second water pump s2a, ultrasonic wave
Degasser k1a, heating device k2a, refrigerating plant k3a;Module provides high-order liquid bath to high-order liquid level sensor 43a in order to control
The liquid level parameter of r3a;Module provides the liquid level parameter of low level liquid bath r8a to low level liquid level sensor 48a in order to control;Than
Module provides the proportion of culture solution r81a in low level liquid bath r8a to restatement n1a in order to control;The inhibition of respiration operates generally in light
According to it is low when use, concrete operations be those skilled in the art can realize easily without repeating, the specific behaviour of control module
Work be those skilled in the art can realize easily also be not necessarily to repeat.
Embodiment 2, automatic vegetable greenhouse, it is characterised in that:Technical solution with embodiment 1.
This illustrates that other unknown places are the prior art or common knowledge, therefore does not repeat.
Claims (10)
1. the outstanding pipe of one kind, it is characterised in that:Including outer tube(9a), inner tube(92a);
Outer tube(9a)With open end and blind end(913a), outer tube(9a)Tube chamber(910a)There is opening in open end, outside
Pipe(9a)Tube chamber(910a)In blind end(913a)It is closed, outer tube(9a)Side wall on have largely and there is longitudinal row
Row are the micropore of axial alignment(911a), micropore(911a)Both ends respectively with tube chamber(910a), outside communicate, ' micropore
(911a)With tube chamber(910a)Opening ' to outer tube open end distance be more than the ' micropore(911a)With outer tube(9a)Appearance
The opening point in face ' arrive outer tube open end distance;
Inner tube(92a)With arrival end and outlet end, inner tube(92a)Arrival end and outlet end be all open, inner tube(92a)
Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(910a)Length;
Inner tube(92a)With outer tube(9a)It is coaxial;Inner tube(92a)Arrival end and outer tube(9a)Open end it is concordant, and with close
Seal connector(912a), that is to say, that inner tube(92a)Arrival end pass through sealed connecting component(912a)By outer tube(9a)Opening
End encloses, due to inner tube(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(110a)Length, institute within
Pipe(92a)Outlet end will not be by outer tube(9a)Blind end(913a)It is blocked, from inner tube(92a)Arrival end enter liquid
Body can pass through inner tube(92a)Outlet end flow into outer tube(9a)Tube chamber(910a), then pass through micropore(911a)Outflow, from interior
Pipe(92a)Arrival end enter liquid flow it is bigger, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)Appearance
The position of the liquid in face is also higher, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)The position of liquid of outer surface get over
Height, liquid is in outer tube(9a)The liquid film that surface is formed is also bigger, and the dissolved oxygen amount of liquid is also more, so this outstanding pipe has energy
Enough rely on flow control fillet height and by the two advantageous effects of flow control dissolved oxygen amount;
This outstanding pipe using when need inner tube(92a)Arrival end upward, make inner tube(92a)The parallel gravity vertical of axis into enforcement
With.
2. a kind of outstanding pipe as described in claim 1, it is characterised in that:With inner tube(92a)The connected flow control of arrival end
Device is control head(2a), control head(2a)With cavity(210a), interconnecting piece(230a), multiple liquid level holes(223a、221a、
220a), liquid level hole(223a、221a、220a)With cavity(210a)Two open end trends are being arranged in a linear for orientation,
Liquid level hole(223a、221a、220a)One end open be located at cavity(210a)Cavity surface, another end opening be located at control head(2a)
Outer surface;Control head(2a)Effect be control flow, control head(2a)Flow mainly by the liquid level of residing liquid environment
It is controlled, the higher liquid level hole flooded of liquid level(223a、221a、220a)It is more, cavity(201a)Flow it is bigger.
3. a kind of outstanding pipe as claimed in claim 1 or 2, it is characterised in that:Flow through the culture solution of outstanding pipe(r81a)Temperature be
It is controlled.
4. a kind of outstanding pipe as claimed in claim 1 or 2, it is characterised in that:Pipe shaft shape is cylinder.
5. a kind of outstanding pipe as claimed in claim 1 or 2, it is characterised in that:Micropore(111a)For circular hole.
6. a kind of outstanding pipe as claimed in claim 1 or 2, it is characterised in that:Inner tube(92a)Arrival end have connection structure.
7. a kind of outstanding pipe as claimed in claim 1 or 2, it is characterised in that:It is made of hard material.
8. a kind of plant respiration automatic control system, it is characterised in that:Including outstanding pipe, control head(2a), high-order liquid bath
(r3a), low level liquid bath(r8a), plant frame(r5a), first pipe(b1a), the first water pump(s1a), the second water pump(s2a),
Three pipelines(s3a), culture solution valve(f1a), control liquid bath(r9a), high-order liquid level sensor(43a), low level liquid level sensor
(48a), supporter(7a);
Outstanding pipe includes outer tube(9a), inner tube(92a), hang the outer tube of pipe(9a)With open end and blind end(913a), hang pipe
Outer tube(9a)Tube chamber(910a)There is opening in open end, hang the outer tube of pipe(9a)Tube chamber(910a)In blind end(913a)
It is closed, hangs the outer tube of pipe(9a)Side wall on have largely there is the longitudinal arrangement i.e. micropore of axial alignment(911a),
Micropore(911a)Both ends respectively with tube chamber(910a), outside communicate, ' micropore(911a)With tube chamber(910a)Opening ' arrive
The distance of outer tube open end is more than the ' micropore(911a)With outer tube(9a)The opening point of outer surface ' arrive outer tube open end distance,
The inner tube of outstanding pipe(92a)With arrival end and outlet end, the inner tube of pipe is hanged(92a)Arrival end and outlet end be all it is open,
The inner tube of outstanding pipe(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(910a)Length, hang pipe inner tube
(92a)With outer tube(9a)It is coaxial, hang the inner tube of pipe(92a)Arrival end and outer tube(9a)Open end it is concordant and connect with sealing
Fitting(912a)That is inner tube(92a)Arrival end pass through sealed connecting component(912a)By outer tube(9a)Open end closing
, due to inner tube(92a)Inner cavity(920a)Length be less than outer tube(9a)Tube chamber(110a)Length, so inner tube
(92a)Outlet end will not be by outer tube(9a)Blind end(913a)It is blocked, from inner tube(92a)Arrival end enter liquid
Inner tube can be passed through(92a)Outlet end flow into outer tube(9a)Tube chamber(910a), then pass through micropore(911a)Outflow, from inner tube
(92a)Arrival end enter liquid flow it is bigger, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)Outer surface
Liquid position it is also higher, from outer tube(9a)Micropore(911a)Flow out outer tube(9a)The position of liquid of outer surface get over
Height, liquid is in outer tube(9a)The liquid film that surface is formed is also bigger, and the dissolved oxygen amount of liquid is also more, so this outstanding pipe has energy
Enough rely on flow control fillet height and by the two advantageous effects of flow control dissolved oxygen amount;
Control head(2a)With cavity(210a), interconnecting piece(230a), multiple liquid level holes(223a、221a、220a), liquid level hole
(223a、221a、220a)With cavity(210a)Two open end trends are being arranged in a linear for orientation, liquid level hole(223a、
221a、220a)One end open be located at cavity(210a)Cavity surface, another end opening be located at control head(2a)Outer surface;Control
Head(2a)Effect be control flow, control head(2a)Flow mainly by residing culture solution(r81a)The liquid level of environment is controlled
System, the higher liquid level hole flooded of liquid level(223a、221a、220a)It is more, cavity(201a)Flow it is bigger;
Control head(2a)Positioned at high-order liquid bath(r3a)Inside hangs pipe and is located at high-order liquid bath(r3a)Head is controlled in the outside of lower section
(2a)Pass through interconnecting piece(230a)It constitutes and connects with outstanding pipe, control head(2a)Cavity(210a)By the entrance for hanging the inner tube of pipe
The inner cavity at end and the inner tube of outstanding pipe(920a)It communicates;The high-order liquid bath of control(r3a)Culture solution in cavity(r81a)Depth energy
Control control head(2a)Flow, control head(2a)Flow controlled, then the culture solution of outstanding pipe(r81a)Discharge height
It will be controlled, therefore need to only control high-order liquid bath(r3a)Culture solution in cavity(r81a)Depth, outstanding pipe can be controlled
Culture solution(r81a)Discharge height and delivery flow;
Plant frame(r5a)It is cylindrical, plant frame(r5a)Bottom be located at plant frame(r5a)Stage casing, have plant chamber above bottom
(510a), plant frame(r5a)Bottom on have a large amount of aperture(520a), plant frame(r5a)Lower sides on have liquid stream
Hole(530a)To prevent plant frame(r5a)Structure hinder culture solution(r81a)Flowing;
Plant frame(r5a)With permeable effect, work as culture solution(r81a)Flow through plant frame(r5a)Most of culture solution(r81a)Meeting
It flows away, plant frame(r5a)Effect be for use as plant(z0a)The bracket of plantation, plant(z0a)It is placed on plant frame
(r5a)Its upper root is exposed under outstanding pipe, by the culture solution for hanging pipe discharge(r81a)Plant can be flowed through(z0a)Root shape
At culture solution(r81a)Film, can either meet the water suction demand of plant root, and disclosure satisfy that the demand of root absorption oxygen;
Plant frame(r5a)Positioned at the blind end of outstanding pipe(913a)Lower section;
Supporter(7a)One end and ground(e1a)It is connected, the other end and high-order liquid bath(r3a)Between have connection(73a), high
Position liquid bath(r3a)Pass through supporter(7a)Maintain height;
Plant frame(r5a)Positioned at low level liquid bath(r8a)It is interior, plant frame(r5a)Carry plant(z0a)The position of root is located at low level
Liquid bath(r8a)Cavity opening position floor level position, plant frame is flowed through by outstanding pipe(r5a)Culture solution(r81a)
Low level liquid bath can be flowed to(r8a)In;
First pipe(b1a)One end and low level liquid bath(r8a)Chamber communicate, the other end and high-order liquid bath(r3a)It communicates;First
Water pump(s1a)It can be by low level liquid bath(r8a)Chamber in culture solution(r81a)Pass through first pipe(b1a)It is transported to high-order liquid
Slot(r3a)Chamber in;Then culture solution(r81a)By controlling head(2a), outstanding pipe flow through plant frame(r5a)Into low level liquid bath
(r8a)Form cycle;
Third pipeline(s3a)One end and low level liquid bath(r8a)Chamber communicate, the other end with control liquid bath(r9a)It communicates;Culture
Liquid valve(f1a)Positioned at third pipeline(s3a)Path on, culture solution valve(f1a)Allow hand over third pipeline(s3a)Occlusion and
Both open states;Second water pump(s2a)It can be by low level liquid bath(r8a)Chamber in culture solution(r81a)Pass through the second pipe
Road(b2a)It is transported to control liquid bath(r9a)In;Control liquid bath(r9a)Effect be by keep in culture solution(r81a)To control
Low level liquid bath(r8a)Depth, in culture solution valve(f1a)Third pipeline(s3a)The second water pump is used in the case of opening(s2a)
By low level liquid bath(r8a)Culture solution(r81a)Drive control liquid bath(r9a)In can then reduce low level liquid bath(r8a)Middle training
Nutrient solution(r81a)Liquid level, prevent culture solution(r81a)Submerged plant(z0a)Root, at this time hang pipe discharge culture solution
(r81a)It can be in plant(z0a)Root formed liquid film, if culture solution valve(f1a)Opening but the second water pump(s2a)Will not
Culture solution(r81a)From low level liquid bath(r8a)To control liquid bath(r9a)Driving, then control liquid bath(r9a)Interior culture solution
(r81a)Pass through third pipeline(s3a)Flow into low level liquid bath(r8a)It is interior, low level liquid bath(r8a)Interior liquid level rises submerged plant
(z0a)Root, plant can be inhibited(z0a)The respiration of root;
High-order liquid level sensor(43a)For monitoring high-order liquid bath(r3a)Liquid level;
Low level liquid level sensor(48a)For monitoring low level liquid bath(r8a)Liquid level;
Further include that can make low level liquid bath(r8a)Interior culture solution(r81a)The refrigerating plant that temperature reduces(k3a), when low level liquid bath
(r8a)After temperature reduces, pass through the first water pump(s1a)By low level liquid bath(r8a)Chamber in culture solution(r81a)Pass through first
Pipeline(b1a)It is transported to high-order liquid bath(r3a)Chamber in;Then culture solution(r81a)By controlling head(2a), outstanding pipe discharge stream
Through plant frame(r5a)Into low level liquid bath(r8a)Form cycle;The first water pump is controlled at this time(s1a)Flow velocity improve and hang pipe
Discharge height, can be by Low- temperature culture liquid(r81a)It is quickly discharged into plant(z0a)Upper rapidly cooling plant(z0a)Reduction is exhaled
Suction acts on, it should be noted that culture solution(r81a)Temperature should control in zone of reasonableness, temperature cannot be too low in order to avoid plant
(z0a)Frostbite;
Plant(z0a)It is liana;Plant(z0a)Including stem(z2a), leaf(z3a)And root(z1a), according to liana
Its stem of climbing habit(z2a)It can be wrapped on outstanding pipe;
Further include that can make low level liquid bath(r8a)Interior culture solution(r81a)The raised heating device of temperature(k2a), extreme cold
Under the conditions of can be by the culture solution that circulates(r81a)For plant(z0a)Heat preservation;
Further include that can make low level liquid bath(r8a)Interior culture solution(r81a)The ultrasonic degasser of degassing(k1a), ultrasonic wave is de-
Device of air(k1a)The cavitation of ultrasonic wave can be utilized to make low level liquid bath(r8a)Interior culture solution(r81a)Degassing, to reduce
Low level liquid bath(r8a)Interior culture solution(r81a)The concentration of contained oxygen, to inhibit respiration;
Further include for monitoring low level liquid bath(r8a)Interior culture solution(r81a)The temperature sensor of temperature(v1a);
Further include for detecting low level liquid bath(r8a)Interior culture solution(r81a)The densimeter of proportion(n1a);
Further include control module, control module controls culture solution valve(f1a), the first water pump(s1a), the second water pump(s2a), ultrasound
Wave degasser(k1a), heating device(k2a), refrigerating plant(k3a);High-order liquid level sensor(43a)Module provides in order to control
High-order liquid bath(r3a)Liquid level parameter;Low level liquid level sensor(48a)Module provides low level liquid bath in order to control(r8a)'s
Liquid level parameter;Densimeter(n1a)Module provides low level liquid bath in order to control(r8a)Interior culture solution(r81a)Proportion;Breathing
The inhibition operation of effect is used when illumination is low.
9. automatic vegetable greenhouse, it is characterised in that:With the outstanding pipe of one kind described in any claim in claim 1-7.
10. automatic vegetable greenhouse, it is characterised in that:With a kind of plant respiration automation control according to any one of claims 8
System processed.
Priority Applications (4)
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CN201810800862.0A CN108990624B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
CN201810800832.XA CN108990623B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
CN201610044083.3A CN105684865B (en) | 2016-01-25 | 2016-01-25 | A kind of plant frame, plant soil-less culturing system, automatic vegetable greenhouse |
CN201810797855.XA CN108990622B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
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CN201610044083.3A CN105684865B (en) | 2016-01-25 | 2016-01-25 | A kind of plant frame, plant soil-less culturing system, automatic vegetable greenhouse |
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CN201810800862.0A Division CN108990624B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
CN201810797855.XA Division CN108990622B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
CN201810800832.XA Division CN108990623B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
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CN105684865A CN105684865A (en) | 2016-06-22 |
CN105684865B true CN105684865B (en) | 2018-08-28 |
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CN201810800832.XA Active CN108990623B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
CN201610044083.3A Expired - Fee Related CN105684865B (en) | 2016-01-25 | 2016-01-25 | A kind of plant frame, plant soil-less culturing system, automatic vegetable greenhouse |
CN201810800862.0A Active CN108990624B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
CN201810797855.XA Active CN108990622B (en) | 2016-01-25 | 2016-01-25 | Hanging pipe and automatic vegetable greenhouse |
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Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108990623B (en) * | 2016-01-25 | 2020-10-23 | 南京脆而爽蔬菜食品有限公司 | Hanging pipe and automatic vegetable greenhouse |
CN109964804B (en) * | 2019-04-19 | 2023-06-23 | 王康杰 | Three-layer sleeve type aerial root plant self-pressure water supply three-dimensional cultivation method and device |
CN114946628B (en) * | 2022-06-06 | 2023-07-07 | 常州机电职业技术学院 | Intelligent green plant cultivation system and working method thereof |
Family Cites Families (18)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4033072A (en) * | 1974-12-28 | 1977-07-05 | Hitoshi Kobayashi | Hydroponic cultivation apparatus |
JPS60191162U (en) * | 1984-05-30 | 1985-12-18 | 野老 寅之助 | hydroponic cultivation equipment |
JPS63296631A (en) * | 1987-05-29 | 1988-12-02 | Matsushita Electric Ind Co Ltd | Oxygen feeder for solution culture apparatus |
JPH05240154A (en) * | 1992-03-02 | 1993-09-17 | Osaka Prefecture | Submergible pump with bubble nozzle |
CN2404328Y (en) * | 1999-09-23 | 2000-11-08 | 齐跃明 | Apparatus for vertical cultivation of crops |
JP4110157B2 (en) * | 2004-12-14 | 2008-07-02 | 寿雄 福山 | Variable space effective utilization type cultivation method |
JP4358779B2 (en) * | 2005-04-28 | 2009-11-04 | 関西電力株式会社 | High concentration oxygen bubble water supply device and plant cultivation device using the same |
CN101803560B (en) * | 2010-05-05 | 2012-05-23 | 谭卓南 | Water ploughing system for culturing vegetable and application thereof |
CN202056368U (en) * | 2011-03-25 | 2011-11-30 | 谢士圣 | Water-yield adjustable water saving valve |
JP5725627B2 (en) * | 2013-05-02 | 2015-05-27 | 地方独立行政法人大阪府立環境農林水産総合研究所 | Plant growth environment controller |
WO2015123587A1 (en) * | 2014-02-13 | 2015-08-20 | Fred Collins | Light-weight modular adjustable vertical hydroponic growing system and method |
TWI523604B (en) * | 2014-04-10 | 2016-03-01 | han-yi Cai | External siphon structure |
CN104285718B (en) * | 2014-10-28 | 2016-06-08 | 张卫军 | Eremophyte cultivating container |
CN204560410U (en) * | 2015-02-06 | 2015-08-19 | 广西壮族自治区农业科学院蔬菜研究所 | Bine cultivation frame |
CN204540088U (en) * | 2015-04-07 | 2015-08-12 | 北京中农美景温室工程技术有限公司 | Column cultivation system |
CN104920178A (en) * | 2015-05-29 | 2015-09-23 | 余启佳 | Soilless flowering cabbage planting method |
CN204762439U (en) * | 2015-07-13 | 2015-11-18 | 王梦莹 | Normalized planting device of three -dimensional pipeline slight irrigation vegetables |
CN108990623B (en) * | 2016-01-25 | 2020-10-23 | 南京脆而爽蔬菜食品有限公司 | Hanging pipe and automatic vegetable greenhouse |
-
2016
- 2016-01-25 CN CN201810800832.XA patent/CN108990623B/en active Active
- 2016-01-25 CN CN201610044083.3A patent/CN105684865B/en not_active Expired - Fee Related
- 2016-01-25 CN CN201810800862.0A patent/CN108990624B/en active Active
- 2016-01-25 CN CN201810797855.XA patent/CN108990622B/en active Active
Also Published As
Publication number | Publication date |
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CN105684865A (en) | 2016-06-22 |
CN108990624B (en) | 2020-10-16 |
CN108990623B (en) | 2020-10-23 |
CN108990623A (en) | 2018-12-14 |
CN108990622B (en) | 2020-10-16 |
CN108990622A (en) | 2018-12-14 |
CN108990624A (en) | 2018-12-14 |
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