CN107912175A - A kind of multifunctional flowerpot system and its method of work - Google Patents
A kind of multifunctional flowerpot system and its method of work Download PDFInfo
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- CN107912175A CN107912175A CN201711120144.0A CN201711120144A CN107912175A CN 107912175 A CN107912175 A CN 107912175A CN 201711120144 A CN201711120144 A CN 201711120144A CN 107912175 A CN107912175 A CN 107912175A
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- water
- flowerpot
- basin
- interior basin
- sleeve
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- 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
- A01G9/02—Receptacles, e.g. flower-pots or boxes; Glasses for cultivating flowers
-
- 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
- A01G27/00—Self-acting watering devices, e.g. for flower-pots
- A01G27/003—Controls for self-acting watering devices
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- Life Sciences & Earth Sciences (AREA)
- Environmental Sciences (AREA)
- Engineering & Computer Science (AREA)
- Water Supply & Treatment (AREA)
- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
The invention discloses a kind of multifunctional flowerpot system and its method of work.The system includes intelligent flowerpot and Cloud Server, intelligent flowerpot includes flower-pot pedestal, the pot body being arranged on flower-pot pedestal and the water sending device for sending water to soil in pot body, light supplementing lamp for plants is equipped with above pot body, light supplementing lamp for plants is connected by connecting rod with pot body, optical sensor and air velocity transducer are equipped with the top of connecting rod, the 4th temperature sensor of detection ambient temperature is additionally provided with pot body, detect the second humidity sensor of external environment condition humidity and detect the gas sensor of external environment condition carbon dioxide content, microprocessor is additionally provided with pot body, touch-screen and wireless communication module.The present invention automatically can water the plant in flowerpot in the suitable time, when plant illumination is insufficient to plant light compensation, ensure plant health growth.
Description
Technical field
The present invention relates to flowerpot technical field, more particularly to a kind of multifunctional flowerpot system and its method of work.
Background technology
It is that many families beautify the environment to raise flowers, and improves a kind of means of room air.Rationally watering is to need to note in raising flowers
The problem of meaning, be all at present by manually watering to the flower in flowerpot, still, people often can because of working, it is excessively busy
And forget to water to flowers and plants, cause flowers and plants to occur withered or even dead.In addition, the ambient lighting deficiency residing for some plants, shadow
Ring plant normal growth.Existing flowerpot only has the function of single planting plants, it is impossible to automatic plant-sprinkling, can not give
Plant light compensation.
The content of the invention
The present invention is to solve the above-mentioned problems, there is provided a kind of multifunctional flowerpot system and its method of work, it can be certainly
Move and water in the suitable time to the plant in flowerpot, when plant illumination is insufficient to plant light compensation, ensure plant health
Growth.
To solve the above-mentioned problems, the present invention is achieved by the following scheme:
A kind of multifunctional flowerpot system of the present invention, including intelligent flowerpot and Cloud Server, the intelligent flowerpot include flower
Basin seat, the pot body being arranged on flower-pot pedestal and the water sending device for sending water to soil in pot body, the flowerpot
Light supplementing lamp for plants is equipped with above main body, the light supplementing lamp for plants is connected by connecting rod with pot body, at the top of the connecting rod
Equipped with optical sensor and air velocity transducer, the 4th temperature sensing of detection ambient temperature is additionally provided with the pot body
Device, the second humidity sensor for detecting external environment condition humidity and the gas sensor for detecting external environment condition carbon dioxide content,
Be additionally provided with microprocessor, touch-screen and wireless communication module in the pot body, the microprocessor respectively with water sending device,
Light supplementing lamp for plants, optical sensor, air velocity transducer, the 4th temperature sensor, the second humidity sensor, gas sensor, touch
Touch screen and wireless communication module is electrically connected, the wireless communication module passes through wireless network and Cloud Server wireless connection.
In the technical program, microprocessor can pass through wireless communication module and Cloud Server, the intelligent terminal of user
Wireless communication.User can be controlled flowerpot and parameter setting by intelligent terminal and flowerpot remote radio communication, can also lead to
Touch-screen is crossed to be controlled and parameter setting.Water sending device is used to water to flowerpot.
Flowerpot automatic watering function is divided into artificial setting pattern and auto-set mode.
Manually set pattern as:User sets watering frequency, watering time and irrigation amount, and flowerpot is according to user's setting pair
Plant is watered.
Auto-set mode is:User is currently located geography to flowerpot input plantation in the botanical name in flowerpot and flowerpot
Position, flowerpot is by wireless communication module and Cloud Server wireless communication, by flowerpot geographic location, plantation in flowerpot
Botanical name is sent to Cloud Server, and Cloud Server is looked into according to flowerpot geographic location, plantation in the botanical name in flowerpot
Watering frequency, watering time and irrigation amount of the plant in each season are ask out, and it is sent to flowerpot, flowerpot is according to receiving
Watering frequency, watering time and irrigation amount of the plant in each season water plant.
Optical sensor detects intensity of illumination, and when the illumination that flowerpot implants receive is insufficient, microprocessor control is planted
Thing light compensating lamp is lighted to plant light compensation.Air velocity transducer detection wind speed, the 4th temperature sensor detection ambient temperature, second
Humidity sensor detects external environment condition humidity, gas sensor detection external environment condition carbon dioxide content, when above-mentioned detection data
Flowerpot sends warning message to Cloud Server, the intelligent terminal of user when abnormal, is checked in time by user.
Preferably, being additionally provided with GPS module in the pot body, the GPS module is electrically connected with microprocessor.GPS
The current geographical location of module detection flowerpot is simultaneously sent to microprocessor, and geographical location is sent to Cloud Server by microprocessor.
Preferably, the pot body includes integrally formed inner and outer basin, the interior basin is cylindrical tube, institute
State the hollow sandwich that cylindrical shape is formed between inner and outer basin, be equipped with the hollow sandwich sleeve that is set on the outside of interior basin with
And can drive sleeve rotate driving mechanism, the interior basin side wall is equidistantly equipped with several water inlet structures from top to bottom, described
Water inlet structure is located at sustained height and around the inlet opening circularized including several, the sleeve be equipped with several with interior basin
The one-to-one through hole of water inlet position, the outer basin top are equipped with the water inlet connected with hollow sandwich, and the water inlet leads to
Cross inlet pipeline to be connected with water sending device, the water inlet is equipped with the first solenoid valve, and the outer basin lower part is equipped with and hollow folder
The water outlet of layer connection, the water outlet are connected with outlet pipeline, and the water outlet is equipped with second solenoid valve, the hollow folder
The first liquid level sensor is equipped with layer, the interior basin bottom part is equipped with several osculums, and being equipped with the first temperature in the interior basin passes
Sensor and the first humidity sensor, the microprocessor respectively with driving mechanism, the first liquid level sensor, the first temperature sensing
Device, the first humidity sensor, the first solenoid valve and second solenoid valve are electrically connected.
Interior basin is set in outer basin, and sleeve can be rotated around interior basin.Through hole on sleeve and the inlet opening one on interior basin are a pair of
Should, when sleeve, which turns to certain position, makes through hole on sleeve with the corresponding inlet opening connection on interior basin, hollow sandwich at this time
Interior water can be flowed into by inlet opening in basin, when sleeve turn to certain position make the through hole on sleeve corresponding with interior basin into
When water hole does not connect, the water in hollow sandwich cannot flow into interior basin at this time, be stored in hollow sandwich.
When reaching watering time, driving mechanism drive sleeve turns to certain position so that through hole on sleeve with it is interior
Inlet opening on basin does not connect, and microprocessor control second solenoid valve is closed, and the first solenoid valve is opened, and control water sending device will
Water is sent into hollow sandwich, and the first liquid level sensor detects the water level in hollow sandwich.When the corresponding water of water level in hollow sandwich
When amount reaches the water that this watering needs pours, microprocessor controls the first solenoid valve to close, and control water sending device stops sending water,
Driving mechanism drive sleeve is rotated until the through hole on sleeve is connected with the corresponding inlet opening on interior basin, and the water in hollow sandwich leads to
Basin in the inflow of inlet opening is crossed, completes watering.Inlet opening is located at the different height on interior basin so that soil can pour in interior basin
It is even, be conducive to root system of plant and absorb moisture.
The soil moisture in the detection of first temperature sensor in basin, the soil in the detection of the first humidity sensor in basin are wet
Degree, monitors the soil environment of plant growth, when temperature anomaly or abnormal humidity, sends warning message to Cloud Server or user
Intelligent terminal.
Preferably, the ring-shaped splash guard that hollow sandwich is separated into upper plenum and lower cavity is equipped with the hollow sandwich
And the elevating mechanism of ring-shaped splash guard oscilaltion can be driven, the microprocessor is electrically connected with elevating mechanism.Upper plenum with
Lower cavity does not connect.Hollow sandwich is cylindrical, its cross section in a ring, the cross section of ring-shaped splash guard and hollow sandwich
Match somebody with somebody.As ring-shaped splash guard moves up and down in hollow sandwich, the volume of the volume of upper plenum and lower cavity also changes therewith.From
The water that the water inlet of outer basin enters can only rest on upper plenum, without entering the lower cavity below ring-shaped splash guard.Work as annular
When water fender drops to extreme lower position, ring-shaped splash guard is contacted with hollow sandwich bottom, covers hollow sandwich bottom.
When reaching watering time, flowerpot to pour Water flow-path as follows:
Flowerpot needs to flow into according to the water inlet structure that the water that this watering needs to pour is calculated on interior basin positioned at different height
Water;
Driving mechanism drive sleeve turns to certain position so that the inlet opening on through hole and interior basin on sleeve does not connect
It is logical;
Ring-shaped splash guard is raised to the inlet opening lower edge positioned at highest water inlet structure, the first liquid level sensor by elevating mechanism
The water level in hollow sandwich is detected, microprocessor calculates the water in hollow sandwich, microprocessor control first according to water level
Solenoid valve is opened, and control water sending device send water, when the water in hollow sandwich reaches the water that highest water inlet structure need to flow into
When, the first solenoid valve is closed, and water sending device stops sending water, and driving mechanism drive sleeve is rotated until the through hole on sleeve and interior basin
On the connection of correspondence inlet opening, the water in hollow sandwich is positioned at the inlet opening of highest water inlet structure by entering interior basin at this time,
Other water inlet structures do not have water entrance, when the water in hollow sandwich all flows into interior basin, driving mechanism drive sleeve rotate until
Through hole on sleeve is not connected with the inlet opening on interior basin;Then, elevating mechanism falls into place ring-shaped splash guard in second
The inlet opening lower edge of high water inlet structure, microprocessor control the first solenoid valve to open, and control water sending device send water, when hollow folder
When water in layer reaches the water that the second high water inlet structure need to flow into, the first solenoid valve is closed, and water sending device stops sending water,
The rotation of driving mechanism drive sleeve is connected until the through hole on sleeve and the corresponding inlet opening on interior basin, at this time in hollow sandwich
By entering interior basin positioned at the inlet opening of the second high water inlet structure, other water inlet structures do not have water entrance, work as hollow sandwich water
When interior water all flows into interior basin, driving mechanism drive sleeve is rotated until the inlet opening on the through hole on sleeve and interior basin does not connect
It is logical;So ring-shaped splash guard is dropped to the inlet opening lower edge of the water inlet structure of each height by circulation, elevating mechanism successively, is used
The above method makes the water inlet structure of each height all flow into the corresponding water calculated;
When the water inlet structure of all height all flow into it is corresponding calculate water when, driving mechanism drive sleeve rotates straight
Through hole on to sleeve is not connected with the inlet opening on interior basin, and watering terminates.
The percentage that the water that the water inlet structure of each height need to flow into accounts for this irrigation amount is preset, since water flows into
Certain downward infiltration is had after in the soil of interior basin, therefore, the water that higher water inlet structure flows into can be more, so as to ensure
Soil can pour uniformly in interior basin, be conducive to root system of plant and absorb moisture, such as:Have a water inlet structure of 4 height, it is highest into
Water-bound accounts for the 50% of this irrigation amount, and the second high water inlet structure accounts for the 30% of this irrigation amount, the 3rd high water inlet structure
The 10% of this irrigation amount is accounted for, the 4th high water inlet structure accounts for the 5% of this irrigation amount.
Preferably, being along the circumferential direction equipped with annular rack at the top of the sleeve outer wall, the driving mechanism includes and ring
Shape rack meshed gears and can the motor that rotates of drive gear, the motor is electrically connected with microprocessor.Motor band moving teeth
Wheel rotates, and gear promotes annular rack, and drive sleeve rotates.
Preferably, the interior basin and sleeve are all made from a material that be thermally conductive, the outer basin is made of thermal insulation material, the ring
Shape water fender is equipped with second temperature sensor, and the second temperature sensor is electrically connected with microprocessor.
Flowerpot, when the soil moisture is too high or too low, is risen by the soil moisture in basin in the detection of the first temperature sensor
Ring-shaped splash guard is dropped to extreme lower position by descending mechanism, and driving mechanism drive sleeve is rotated until on the through hole on sleeve and interior basin
Inlet opening do not connect, microprocessor controls water sending device that the water of room temperature be full of hollow sandwich, and second temperature sensor is examined
Water temperature is surveyed, when water temperature is less than setting value K1 or higher than setting value K2, second solenoid valve is opened, and the water in hollow sandwich is whole
Discharge, then the water of room temperature is again filled with hollow sandwich by second solenoid valve closure, microprocessor control water sending device.In cold
Winter or sweltering heat summer, the soil moisture may too low frostbite root system of plant or excessive thermal burn root system of plant, flowerpot pass through to
Normal-temperature water is filled in hollow sandwich, is cooled down by the soil that normal-temperature water made the soil warming of low temperature or made excessive temperature, so that
Ensure that root system of plant can survive under the suitable soil moisture, ensure that plant being capable of normal growth.
The method of work of a kind of multifunctional flowerpot system of the present invention, for a kind of above-mentioned multifunctional flowerpot system, bag
Include following steps:
S1:User is using intelligent terminal and flowerpot wireless communication, and input plantation is in the botanical name in flowerpot;
S2:Flowerpot obtains itself geographical location information by GPS module, wireless with Cloud Server by wireless communication module
Communication, is sent to Cloud Server, Cloud Server is according to flowerpot by flowerpot geographic location, plantation in the botanical name in flowerpot
Geographic location, plantation inquire watering frequency of the plant in each season, watering time in the botanical name in flowerpot
And irrigation amount, and it is sent to flowerpot;
S3:Flowerpot according to the plant received each season watering frequency, watering time and irrigation amount to plant into
Row watering.
Preferably, flowerpot every time comprises the following steps the method that plant is watered:
M1:Flowerpot needs to flow according to the water inlet structure that the water that this watering needs to pour is calculated on interior basin positioned at different height
The water entered;
M2:Driving mechanism drive sleeve turns to certain position so that the inlet opening on through hole and interior basin on sleeve is all
Do not connect;
M3:Ring-shaped splash guard is raised to the inlet opening lower edge positioned at highest water inlet structure by elevating mechanism, and the first liquid level passes
Water level in sensor detection hollow sandwich, microprocessor calculate the water in hollow sandwich, microprocessor control according to water level
First solenoid valve is opened, and control water sending device send water, when the water in hollow sandwich reaches what highest water inlet structure need to flow into
During water, the first solenoid valve is closed, and water sending device stops sending water, driving mechanism drive sleeve rotate until the through hole on sleeve with
Correspondence inlet opening on interior basin connects, and the water in hollow sandwich passes through in the entrance of the inlet opening of highest water inlet structure at this time
Basin, other water inlet structures do not have water entrance, and when the water in hollow sandwich all flows into interior basin, driving mechanism drive sleeve rotates straight
Through hole on to sleeve is not connected with the inlet opening on interior basin;Then, elevating mechanism falls into place ring-shaped splash guard in
The inlet opening lower edge of two high water inlet structures, microprocessor control the first solenoid valve to open, and control water sending device send water, when hollow
When water in interlayer reaches the water that the second high water inlet structure need to flow into, the first solenoid valve is closed, and water sending device stops sending
Water, the rotation of driving mechanism drive sleeve are connected until the through hole on sleeve and the corresponding inlet opening on interior basin, at this time hollow sandwich
Interior water positioned at the inlet opening of the second high water inlet structure by entering interior basin, other water inlet structures do not have water entrance, when hollow
When water in interlayer all flows into interior basin, driving mechanism drive sleeve rotate until the inlet opening on the through hole on sleeve and interior basin all
Do not connect;So ring-shaped splash guard is dropped to the inlet opening lower edge of the water inlet structure of each height by circulation, elevating mechanism successively,
The water inlet structure of each height is set all to flow into the corresponding water calculated using the above method;
M4:When the water inlet structure of all height all flow into it is corresponding calculate water when, driving mechanism drive sleeve turns
Move until the through hole on sleeve is not connected with the inlet opening on interior basin, watering terminates.
Preferably, flowerpot by the first temperature sensor detect in the soil moisture in basin, when the soil moisture is excessive or
When too low, ring-shaped splash guard is dropped to extreme lower position by elevating mechanism, and driving mechanism drive sleeve is rotated until logical on sleeve
Hole is not connected with the inlet opening on interior basin, and microprocessor controls water sending device that the water of room temperature is full of hollow sandwich, the second temperature
Sensor detection water temperature is spent, when water temperature is less than setting value K1 or higher than setting value K2, second solenoid valve is opened, by hollow sandwich
Interior water is all discharged, and then second solenoid valve closes, and the water of room temperature is again filled with hollow by microprocessor control water sending device
Interlayer.
The beneficial effects of the invention are as follows:(1) it can water, plant to the plant in flowerpot in the suitable time automatically
To plant light compensation when object light is according to deficiency, ensure plant health growth.(2) soil in uniformly pouring in basin, is conducive to plant roots
System fully absorbs moisture.(3) when the soil moisture where plant is too low or excessive, soil warming or cooling can be given, makes plant
Place soil remains at suitable temperature, is conducive to plant health growth.
Brief description of the drawings
Fig. 1 is a kind of structure diagram of pot body;
Fig. 2 is a kind of structure diagram of water sending device;
Fig. 3 is a kind of circuit theory connection block diagram of the present invention;
Fig. 4 is a kind of structure diagram of ring-shaped splash guard;
Fig. 5 is the top view of sleeve.
In figure:1st, flower-pot pedestal, 2, interior basin, 3, outer basin, 4, hollow sandwich, 5, sleeve, 6, driving mechanism, 7, inlet opening, 8,
Through hole, 9, inlet pipeline, the 10, first solenoid valve, 11, outlet pipeline, 12, second solenoid valve, the 13, first liquid level sensor, 14,
Osculum, the 15, first temperature sensor, the 16, first humidity sensor, 17, microprocessor, 18, touch-screen, 19, wireless communication
Module, 20, annular diversion trench, 21, tree-shaped water conservancy diversion branch groove, 22, ring-shaped splash guard, 23, elevating mechanism, 24, annular rack, 25,
Gear, 26, water sending device, 27, second temperature sensor, 28, case lid, 29, servomotor, 30, lateral partitions, 31, upper box,
32nd, lower box, the 33, the 3rd solenoid valve, the 34, second liquid level sensor, the 35, first water pump, the 36, second water pump, 37, water-supply-pipe,
38th, the 4th solenoid valve, the 39, the 3rd liquid level sensor, 40, three-temperature sensor, 41, heating unit, 42, ventilation hole, 43, wind
Fan, 44, Cloud Server, 45, light supplementing lamp for plants, 46, optical sensor, 47, air velocity transducer, the 48, the 4th temperature sensor,
49th, the second humidity sensor, 50, gas sensor, 51, GPS module, 52, connecting rod.
Embodiment
Below with reference to the embodiments and with reference to the accompanying drawing the technical solutions of the present invention will be further described.
Embodiment:A kind of multifunctional flowerpot system of the present embodiment, as shown in Figure 1, Figure 2, Figure 3, Figure 4, including intelligent flower
Basin and Cloud Server 44, intelligent flowerpot include flower-pot pedestal 1, the pot body being arranged on flower-pot pedestal 1 and for giving flowerpot master
Internal soil send the water sending device 26 of water, is equipped with light supplementing lamp for plants 45 above the pot body, light supplementing lamp for plants 45 passes through company
Extension bar 52 is connected with pot body, and the top of connecting rod 52 is equipped with optical sensor 46 and air velocity transducer 47, is gone back in pot body
Equipped with detection ambient temperature the 4th temperature sensor 48, detect external environment condition humidity the second humidity sensor 49 and
The gas sensor 50 of external environment condition carbon dioxide content is detected, microprocessor 17, touch-screen 18, nothing are additionally provided with pot body
Line communication module 19 and GPS module 51, the microprocessor 17 are sensed with water sending device 26, light supplementing lamp for plants 45, illumination respectively
Device 46, air velocity transducer 47, the 4th temperature sensor 48, the second humidity sensor 49, gas sensor 50, touch-screen 18, nothing
Line communication module 19 and GPS module 51 are electrically connected, and wireless communication module 19 passes through wireless network and 44 wireless connection of Cloud Server.
Microprocessor can pass through wireless communication module and Cloud Server, the intelligent terminal wireless communication of user.User can
By intelligent terminal and flowerpot remote radio communication, flowerpot is controlled and parameter setting, can also be controlled by touch-screen
System and parameter setting.Water sending device is used to water to flowerpot.
Flowerpot automatic watering function is divided into artificial setting pattern and auto-set mode.
Manually set pattern as:User sets watering frequency, watering time and irrigation amount, and flowerpot is according to user's setting pair
Plant is watered.
Auto-set mode is:User is obtained to flowerpot input plantation in the botanical name in flowerpot, flowerpot by GPS module
Be derived from body geographical location information, flowerpot by wireless communication module and Cloud Server wireless communication, by flowerpot geographic location,
Plant and be sent to Cloud Server in the botanical name in flowerpot, Cloud Server is according to flowerpot geographic location, plantation in flowerpot
Interior botanical name inquires watering frequency, watering time and irrigation amount of the plant in each season, and is sent to flowerpot, flower
Basin waters plant according to watering frequency, watering time and irrigation amount of the plant received in each season.
Optical sensor detects intensity of illumination, and when the illumination that flowerpot implants receive is insufficient, microprocessor control is planted
Thing light compensating lamp is lighted to plant light compensation.Air velocity transducer detection wind speed, the 4th temperature sensor detection ambient temperature, second
Humidity sensor detects external environment condition humidity, gas sensor detection external environment condition carbon dioxide content, when above-mentioned detection data
Flowerpot sends warning message to Cloud Server, the intelligent terminal of user when abnormal, is checked in time by user.
Pot body includes integrally formed interior basin 2 and outer basin 3, and interior basin 2 is cylindrical tube, between interior basin 2 and outer basin 3
Cylindric hollow sandwich 4 is formed, the sleeve 5 that is set in the interior outside of basin 2 is equipped with hollow sandwich 4 and can 5 turns of drive sleeve
Dynamic driving mechanism 6, be additionally provided with hollow sandwich 4 by hollow sandwich be separated into the ring-shaped splash guard 22 of upper plenum and lower cavity with
And the elevating mechanism 23 of 22 oscilaltion of ring-shaped splash guard can be driven, interior 2 side wall of basin from top to bottom equidistantly be equipped with several into
Water-bound, water inlet structure are located at sustained height and around the inlet opening 7 circularized including several, sleeve 5 be equipped with several with
The one-to-one through hole 8 in 7 position of inlet opening on interior basin 2, outer 3 top of basin are equipped with the water inlet connected with hollow sandwich 4, water inlet
It is connected by inlet pipeline 9 with water sending device 26, water inlet is equipped with the first solenoid valve 10, and outer 3 lower part of basin is equipped with and hollow folder
The water outlet of the connection of layer 4, water outlet are connected with outlet pipeline 11, and water outlet is equipped with second solenoid valve 12, is set in hollow sandwich 3
There is the first liquid level sensor 13, interior 2 bottom of basin is equipped with several osculums 14,15 He of the first temperature sensor is equipped with interior basin 2
First humidity sensor 16, microprocessor 17 respectively with driving mechanism 6, the first liquid level sensor 13, the first temperature sensor 15,
First humidity sensor 16, the first solenoid valve 10, second solenoid valve 12 and elevating mechanism 23 are electrically connected.
Interior basin is set in outer basin, and sleeve can be rotated around interior basin.Through hole on sleeve and the inlet opening one on interior basin are a pair of
Should, when sleeve, which turns to certain position, makes through hole on sleeve with the corresponding inlet opening connection on interior basin, hollow sandwich at this time
Interior water can be flowed into by inlet opening in basin, when sleeve turn to certain position make the through hole on sleeve corresponding with interior basin into
When water hole does not connect, the water in hollow sandwich cannot flow into interior basin at this time, be stored in hollow sandwich.
The upper plenum of hollow sandwich is not connected with lower cavity.Hollow sandwich is cylindrical, and in a ring, annular is kept off for its cross section
Water plate is matched with the cross section of hollow sandwich.As ring-shaped splash guard moves up and down in hollow sandwich, the volume of upper plenum and
The volume of lower cavity also changes therewith.The water entered from the water inlet of outer basin can only rest on upper plenum, without entering annular
Lower cavity below water fender.When ring-shaped splash guard drops to extreme lower position, ring-shaped splash guard is contacted with hollow sandwich bottom,
Cover hollow sandwich bottom.
The soil moisture in the detection of first temperature sensor in basin, the soil in the detection of the first humidity sensor in basin are wet
Degree, monitors the soil environment of plant growth, when temperature anomaly or abnormal humidity, sends warning message to Cloud Server or user
Intelligent terminal.
When reaching watering time, flowerpot to pour Water flow-path as follows:
Flowerpot needs to flow into according to the water inlet structure that the water that this watering needs to pour is calculated on interior basin positioned at different height
Water;
Driving mechanism drive sleeve turns to certain position so that the inlet opening on through hole and interior basin on sleeve does not connect
It is logical;
Ring-shaped splash guard is raised to the inlet opening lower edge positioned at highest water inlet structure, the first liquid level sensor by elevating mechanism
The water level in hollow sandwich is detected, microprocessor calculates the water in hollow sandwich, microprocessor control first according to water level
Solenoid valve is opened, and control water sending device send water, when the water in hollow sandwich reaches the water that highest water inlet structure need to flow into
When, the first solenoid valve is closed, and water sending device stops sending water, and driving mechanism drive sleeve is rotated until the through hole on sleeve and interior basin
On the connection of correspondence inlet opening, the water in hollow sandwich is positioned at the inlet opening of highest water inlet structure by entering interior basin at this time,
Other water inlet structures do not have water entrance, when the water in hollow sandwich all flows into interior basin, driving mechanism drive sleeve rotate until
Through hole on sleeve is not connected with the inlet opening on interior basin;Then, elevating mechanism falls into place ring-shaped splash guard in second
The inlet opening lower edge of high water inlet structure, microprocessor control the first solenoid valve to open, and control water sending device send water, when hollow folder
When water in layer reaches the water that the second high water inlet structure need to flow into, the first solenoid valve is closed, and water sending device stops sending water,
The rotation of driving mechanism drive sleeve is connected until the through hole on sleeve and the corresponding inlet opening on interior basin, at this time in hollow sandwich
By entering interior basin positioned at the inlet opening of the second high water inlet structure, other water inlet structures do not have water entrance, work as hollow sandwich water
When interior water all flows into interior basin, driving mechanism drive sleeve is rotated until the inlet opening on the through hole on sleeve and interior basin does not connect
It is logical;So ring-shaped splash guard is dropped to the inlet opening lower edge of the water inlet structure of each height by circulation, elevating mechanism successively, is used
The above method makes the water inlet structure of each height all flow into the corresponding water calculated;
When the water inlet structure of all height all flow into it is corresponding calculate water when, driving mechanism drive sleeve rotates straight
Through hole on to sleeve is not connected with the inlet opening on interior basin, and watering terminates.
The percentage that the water that the water inlet structure of each height need to flow into accounts for this irrigation amount is preset, since water flows into
Certain downward infiltration is had after in the soil of interior basin, therefore, the water that higher water inlet structure flows into can be more, so as to ensure
Soil can pour uniformly in interior basin, be conducive to root system of plant and absorb moisture, such as:Have a water inlet structure of 4 height, it is highest into
Water-bound accounts for the 50% of this irrigation amount, and the second high water inlet structure accounts for the 30% of this irrigation amount, the 3rd high water inlet structure
The 10% of this irrigation amount is accounted for, the 4th high water inlet structure accounts for the 5% of this irrigation amount.
Interior 2 inner wall of basin be equipped with several it is horizontally disposed within 2 axle center of basin be the center of circle annular diversion trench 20, annular is led
Chute 20 is corresponded with water inlet structure, and annular diversion trench 20 is connected with the inlet opening 7 of corresponding water inlet structure.Water is from inlet opening
It can be flowed after inflow along annular diversion trench, so that soil is infiltrated from the surrounding of soil, further such that soil pours in interior basin
It is even.Soil upper surface in interior basin is concordant with highest annular diversion trench, so that each position of soil in interior basin can
Suck uniform water.
Each lower section of annular diversion trench 20 is equipped with several tree-shaped water conservancy diversion branch grooves 21 communicated therewith.In annular diversion trench
Water also flows into tree-shaped water conservancy diversion branch groove, infiltrates the soil between adjacent annular diversion trench, further such that soil pours in interior basin
It is even.
As shown in figure 5, being along the circumferential direction equipped with annular rack 24 at the top of 5 outer wall of sleeve, driving mechanism 6 includes and annular tooth
24 meshed gears 25 of bar and can the motor that rotates of drive gear 25, motor is electrically connected with microprocessor.Motor driven gear
Rotate, gear promotes annular rack, and drive sleeve rotates.
Inlet opening 7 and through hole 8 all tilt down setting.Easy to basin in water inflow.
1 side wall of flower-pot pedestal is equipped with several ventilation holes 42, and fan 43, fan 43 and microprocessor 17 are equipped with ventilation hole 42
It is electrically connected.Accelerate the water evaporation from interior basin inflow flower-pot pedestal, prevent plant root rot, while contribute to plant root to breathe freely.
Interior basin 2 and sleeve 5 are all made from a material that be thermally conductive, and outer basin 3 is made of thermal insulation material, and ring-shaped splash guard 22 is equipped with the
Two temperature sensors 27, second temperature sensor 27 are electrically connected with microprocessor 17.
Flowerpot, when the soil moisture is too high or too low, is risen by the soil moisture in basin in the detection of the first temperature sensor
Ring-shaped splash guard is dropped to extreme lower position by descending mechanism, and driving mechanism drive sleeve is rotated until on the through hole on sleeve and interior basin
Inlet opening do not connect, microprocessor controls water sending device that the water of room temperature be full of hollow sandwich, and second temperature sensor is examined
Water temperature is surveyed, when water temperature is less than setting value K1 or higher than setting value K2, second solenoid valve is opened, and the water in hollow sandwich is whole
Discharge, then the water of room temperature is again filled with hollow sandwich by second solenoid valve closure, microprocessor control water sending device.In cold
Winter or sweltering heat summer, the soil moisture may too low frostbite root system of plant or excessive thermal burn root system of plant, flowerpot pass through to
Normal-temperature water is filled in hollow sandwich, is cooled down by the soil that normal-temperature water made the soil warming of low temperature or made excessive temperature, so that
Ensure that root system of plant can survive under the suitable soil moisture, ensure that plant being capable of normal growth.
Water sending device 26 includes open-topped water tank, covers the case lid 28 of opening and case lid 28 can be driven to beat opening/closing
The servomotor 29 of conjunction, water tank is interior to be equipped with lateral partitions 30, and water tank is divided into upper box 31 and lower box 32 by lateral partitions 30, horizontal
The water pipe of connection upper box 31 and lower box 32 is equipped with to 30 lower surface of partition plate, water pipe is equipped with the 3rd solenoid valve 33, upper box
The second liquid level sensor 34 is equipped with 31,32 outer lower portion of lower box is equipped with the first water pump 35, and 31 outer upper of upper box is equipped with
Second water pump 36, the water inlet of the first water pump 35 are connected with lower box 32, and the water inlet of outer basin 3 passes through inlet pipeline 9 and first
The water outlet connection of water pump 35, the water outlet of the second water pump 36 are connected with upper box 31, and the water outlet of outer basin 3 passes through outlet pipeline
11 are connected with the water inlet of the second water pump 36, and 31 top of upper box is connected by water-supply-pipe 37 with running water pipe, on water-supply-pipe 37
Equipped with the 4th solenoid valve 38, microprocessor 17 is passed with servomotor 29, the first water pump 35, the second water pump 36, the second liquid level respectively
Sensor 34, the 3rd solenoid valve 33 and the 4th solenoid valve 38 are electrically connected.
At the beginning of water sending device during task, Serve Motor Control case lid is opened, and microprocessor calculates following 2 days implants and need to pour
The total Water of filling, the 4th solenoid valve of control are opened, in running water pipe conveying tap water to upper box, when the water level pair in upper box
When the water answered reaches the total Water calculated, the 4th solenoid valve is closed, and microprocessor controls the 3rd solenoid valve to open, and works as top box
After internal water fully enters lower box, the 3rd solenoid valve is closed;
Afterwards, microprocessor calculates the total Water that following the 3-4 days implants need to pour, and the 4th solenoid valve of control is opened,
Running water pipe conveys tap water in upper box, when the corresponding water of the water level in upper box reaches the total Water calculated,
4th solenoid valve is closed, and after water after 2 days in lower box is all transported in flowerpot, microprocessor controls the 3rd solenoid valve
Open, after the water in upper box fully enters lower box, the 3rd solenoid valve is closed, and microprocessor is calculated in the 3-4 days following
The total Water that plant need to be poured, the 4th solenoid valve of control are opened, in running water pipe conveying tap water to upper box, when in upper box
Water level corresponding water when reaching the total Water calculated, the 4th solenoid valve is closed, so circulation.
Upper box is used to store the tap water newly injected, and the chlorine that exposure allows in tap water in atmosphere volatilizees.Work as nowel
After when internal water is all transported in flowerpot, the tap water in upper box is had been exposed in air 2 days, chlorine therein
It has been vapored away that, so as to avoid the chlorine in tap water from injuring plant.
The 3rd liquid level sensor 39, three-temperature sensor 40 and heating unit 41, microprocessor are equipped with lower box 32
17 are electrically connected with the 3rd liquid level sensor 39, three-temperature sensor 40 and heating unit 41 respectively.When the water temperature in lower box
During less than setting value, heating devices heat water to the temperature of setting, avoided the water of low temperature from injuring plant.
A kind of method of work of the multifunctional flowerpot system of the present embodiment, for a kind of above-mentioned multifunctional flowerpot system,
Comprise the following steps:
S1:User is using intelligent terminal and flowerpot wireless communication, and input plantation is in the botanical name in flowerpot;
S2:Flowerpot obtains itself geographical location information by GPS module, wireless with Cloud Server by wireless communication module
Communication, is sent to Cloud Server, Cloud Server is according to flowerpot by flowerpot geographic location, plantation in the botanical name in flowerpot
Geographic location, plantation inquire watering frequency of the plant in each season, watering time in the botanical name in flowerpot
And irrigation amount, and it is sent to flowerpot;
S3:Flowerpot according to the plant received each season watering frequency, watering time and irrigation amount to plant into
Row watering.
Flowerpot every time comprises the following steps the method that plant is watered:
M1:Flowerpot needs to flow according to the water inlet structure that the water that this watering needs to pour is calculated on interior basin positioned at different height
The water entered;
M2:Driving mechanism drive sleeve turns to certain position so that the inlet opening on through hole and interior basin on sleeve is all
Do not connect;
M3:Ring-shaped splash guard is raised to the inlet opening lower edge positioned at highest water inlet structure by elevating mechanism, and the first liquid level passes
Water level in sensor detection hollow sandwich, microprocessor calculate the water in hollow sandwich, microprocessor control according to water level
First solenoid valve is opened, and control water sending device send water, when the water in hollow sandwich reaches what highest water inlet structure need to flow into
During water, the first solenoid valve is closed, and water sending device stops sending water, driving mechanism drive sleeve rotate until the through hole on sleeve with
Correspondence inlet opening on interior basin connects, and the water in hollow sandwich passes through in the entrance of the inlet opening of highest water inlet structure at this time
Basin, other water inlet structures do not have water entrance, and when the water in hollow sandwich all flows into interior basin, driving mechanism drive sleeve rotates straight
Through hole on to sleeve is not connected with the inlet opening on interior basin;Then, elevating mechanism falls into place ring-shaped splash guard in
The inlet opening lower edge of two high water inlet structures, microprocessor control the first solenoid valve to open, and control water sending device send water, when hollow
When water in interlayer reaches the water that the second high water inlet structure need to flow into, the first solenoid valve is closed, and water sending device stops sending
Water, the rotation of driving mechanism drive sleeve are connected until the through hole on sleeve and the corresponding inlet opening on interior basin, at this time hollow sandwich
Interior water positioned at the inlet opening of the second high water inlet structure by entering interior basin, other water inlet structures do not have water entrance, when hollow
When water in interlayer all flows into interior basin, driving mechanism drive sleeve rotate until the inlet opening on the through hole on sleeve and interior basin all
Do not connect;So ring-shaped splash guard is dropped to the inlet opening lower edge of the water inlet structure of each height by circulation, elevating mechanism successively,
The water inlet structure of each height is set all to flow into the corresponding water calculated using the above method;
M4:When the water inlet structure of all height all flow into it is corresponding calculate water when, driving mechanism drive sleeve turns
Move until the through hole on sleeve is not connected with the inlet opening on interior basin, watering terminates.
Flowerpot, when the soil moisture is too high or too low, is risen by the soil moisture in basin in the detection of the first temperature sensor
Ring-shaped splash guard is dropped to extreme lower position by descending mechanism, and driving mechanism drive sleeve is rotated until on the through hole on sleeve and interior basin
Inlet opening do not connect, microprocessor controls water sending device that the water of room temperature be full of hollow sandwich, and second temperature sensor is examined
Water temperature is surveyed, when water temperature is less than setting value K1 or higher than setting value K2, second solenoid valve is opened, and the water in hollow sandwich is whole
Discharge, then the water of room temperature is again filled with hollow sandwich by second solenoid valve closure, microprocessor control water sending device.
At the beginning of water sending device during task, Serve Motor Control case lid is opened, and microprocessor calculates following 2 days implants and need to pour
The total Water of filling, the 4th solenoid valve of control are opened, in running water pipe conveying tap water to upper box, when the water level pair in upper box
When the water answered reaches the total Water calculated, the 4th solenoid valve is closed, and microprocessor controls the 3rd solenoid valve to open, and works as top box
After internal water fully enters lower box, the 3rd solenoid valve is closed;
Afterwards, microprocessor calculates the total Water that following the 3-4 days implants need to pour, and the 4th solenoid valve of control is opened,
Running water pipe conveys tap water in upper box, when the corresponding water of the water level in upper box reaches the total Water calculated,
4th solenoid valve is closed, and after water after 2 days in lower box is all transported in flowerpot, microprocessor controls the 3rd solenoid valve
Open, after the water in upper box fully enters lower box, the 3rd solenoid valve is closed, and microprocessor is calculated in the 3-4 days following
The total Water that plant need to be poured, the 4th solenoid valve of control are opened, in running water pipe conveying tap water to upper box, when in upper box
Water level corresponding water when reaching the total Water calculated, the 4th solenoid valve is closed, so circulation.
Interior basin bottom part is equipped with the Weighing module of weight of object in basin in detection, and Weighing module is electrically connected with microprocessor.
Microprocessor by weighing sensor detect in weight of object in basin, basin in current is recorded before plant is watered every time
Interior weight of object, the weight of object in the current interior basin of record when plant waters completion every time, after microprocessor is according to each watering
Weight of object change calculates the water consumption of plant in interior basin, when the water consumption of plant is more than setting value,
Watering time next time is shifted to an earlier date certain time by microprocessor, when the water consumption of plant is less than setting value, micro- place
Manage device and watering time next time is extended into certain time.
According to plant transpiration water consumption rate dynamic adjustment watering time, ensure that plant is in the suitable state of moisture all the time,
It is not at exsiccosis.
Claims (9)
- A kind of 1. multifunctional flowerpot system, it is characterised in that including intelligent flowerpot and Cloud Server (44), the intelligent flowerpot bag Include flower-pot pedestal (1), the pot body being arranged on flower-pot pedestal (1) and the water sending device for sending water to soil in pot body (26), light supplementing lamp for plants (45) is equipped with above the pot body, the light supplementing lamp for plants (45) passes through connecting rod (52) and flower Basin main body connects, and optical sensor (46) and air velocity transducer (47), the pot body are equipped with the top of the connecting rod (52) On be additionally provided with detection ambient temperature the 4th temperature sensor (48), detect external environment condition humidity the second humidity sensor (49) and detection external environment condition carbon dioxide content gas sensor (50), be additionally provided with microprocessor in the pot body (17), touch-screen (18) and wireless communication module (19), the microprocessor (17) respectively with water sending device (26), plant light compensation Lamp (45), optical sensor (46), air velocity transducer (47), the 4th temperature sensor (48), the second humidity sensor (49), gas Body sensor (50), touch-screen (18) and wireless communication module (19) are electrically connected, and the wireless communication module (19) is by wireless Network and Cloud Server (44) wireless connection.
- 2. a kind of multifunctional flowerpot system according to claim 1, it is characterised in that be additionally provided with the pot body GPS module (51), the GPS module (51) are electrically connected with microprocessor (17).
- A kind of 3. multifunctional flowerpot system according to claim 1, it is characterised in that the pot body include one into The interior basin (2) and outer basin (3) of type, the interior basin (2) is cylindrical tube, and cylinder is formed between the interior basin (2) and outer basin (3) The hollow sandwich (4) of shape, is equipped with the hollow sandwich (4) and is set in the sleeve (5) on the outside of interior basin (2) and can drive sleeve (5) driving mechanism (6) rotated, interior basin (2) side wall are equidistantly equipped with several water inlet structures, the water inlet from top to bottom Structure is located at sustained height including several and is equipped with several and interior basin around the inlet opening (7) circularized, the sleeve (5) (2) the one-to-one through hole of water inlet position (8) on, outer basin (3) top are equipped with the water inlet connected with hollow sandwich (4) Mouthful, the water inlet is connected by inlet pipeline (9) with water sending device (26), and the water inlet is equipped with the first solenoid valve (10), outer basin (3) lower part is equipped with the water outlet connected with hollow sandwich (4), and the water outlet is connected with outlet pipeline (11), the water outlet is equipped with second solenoid valve (12), and the first liquid level sensor (13) is equipped with the hollow sandwich (4), Interior basin (2) bottom is equipped with several osculums (14), and the first temperature sensor (15) and first are equipped with the interior basin (2) Humidity sensor (16), the microprocessor (17) respectively with driving mechanism (6), the first liquid level sensor (13), the first temperature Sensor (15), the first humidity sensor (16), the first solenoid valve (10) and second solenoid valve (12) are electrically connected.
- 4. a kind of multifunctional flowerpot system according to claim 3, it is characterised in that be equipped with the hollow sandwich (4) Hollow sandwich is separated into the ring-shaped splash guard (22) of upper plenum and lower cavity and ring-shaped splash guard (22) can be driven to rise up and down The elevating mechanism (23) of drop, the microprocessor (17) are electrically connected with elevating mechanism (23).
- A kind of 5. multifunctional flowerpot system according to claim 3, it is characterised in that edge at the top of sleeve (5) outer wall Circumferencial direction is equipped with annular rack (24), the driving mechanism (6) include with annular rack (24) meshed gears (25) and Can the motor that rotates of drive gear (25), the motor is electrically connected with microprocessor (17).
- 6. a kind of multifunctional flowerpot system according to claim 3, it is characterised in that the interior basin (2) and sleeve (5) are all It is made from a material that be thermally conductive, the outer basin (3) is made of thermal insulation material, and the ring-shaped splash guard (22) senses equipped with second temperature Device (27), the second temperature sensor (27) are electrically connected with microprocessor (17).
- 7. a kind of method of work of multifunctional flowerpot system, for a kind of multifunctional flowerpot system described in claim 3, it is special Sign is, comprises the following steps:S1:User is using intelligent terminal and flowerpot wireless communication, and input plantation is in the botanical name in flowerpot;S2:Flowerpot obtains itself geographical location information by GPS module, passes through wireless communication module and Cloud Server channel radio Letter, is sent to Cloud Server, Cloud Server is according to flowerpot institute by flowerpot geographic location, plantation in the botanical name in flowerpot Geographical location, plantation in the botanical name in flowerpot inquire the plant the watering frequency in each season, watering time and Irrigation amount, and it is sent to flowerpot;S3:Flowerpot pours plant according to watering frequency, watering time and irrigation amount of the plant received in each season Water.
- 8. the method for work of a kind of multifunctional flowerpot system according to claim 7, it is characterised in that flowerpot is every time to planting The method that thing waters comprises the following steps:M1:Flowerpot need to be flowed into according to the water inlet structure that this watering needs the water poured to calculate on interior basin positioned at different height Water;M2:Driving mechanism drive sleeve turns to certain position so that the inlet opening on through hole and interior basin on sleeve does not connect It is logical;M3:Ring-shaped splash guard is raised to the inlet opening lower edge positioned at highest water inlet structure, the first liquid level sensor by elevating mechanism The water level in hollow sandwich is detected, microprocessor calculates the water in hollow sandwich, microprocessor control first according to water level Solenoid valve is opened, and control water sending device send water, when the water in hollow sandwich reaches the water that highest water inlet structure need to flow into When, the first solenoid valve is closed, and water sending device stops sending water, and driving mechanism drive sleeve is rotated until the through hole on sleeve and interior basin On the connection of correspondence inlet opening, the water in hollow sandwich is positioned at the inlet opening of highest water inlet structure by entering interior basin at this time, Other water inlet structures do not have water entrance, when the water in hollow sandwich all flows into interior basin, driving mechanism drive sleeve rotate until Through hole on sleeve is not connected with the inlet opening on interior basin;Then, elevating mechanism falls into place ring-shaped splash guard in second The inlet opening lower edge of high water inlet structure, microprocessor control the first solenoid valve to open, and control water sending device send water, when hollow folder When water in layer reaches the water that the second high water inlet structure need to flow into, the first solenoid valve is closed, and water sending device stops sending water, The rotation of driving mechanism drive sleeve is connected until the through hole on sleeve and the corresponding inlet opening on interior basin, at this time in hollow sandwich By entering interior basin positioned at the inlet opening of the second high water inlet structure, other water inlet structures do not have water entrance, work as hollow sandwich water When interior water all flows into interior basin, driving mechanism drive sleeve is rotated until the inlet opening on the through hole on sleeve and interior basin does not connect It is logical;So ring-shaped splash guard is dropped to the inlet opening lower edge of the water inlet structure of each height by circulation, elevating mechanism successively, is used The above method makes the water inlet structure of each height all flow into the corresponding water calculated;M4:When the water inlet structure of all height all flow into it is corresponding calculate water when, driving mechanism drive sleeve rotates straight Through hole on to sleeve is not connected with the inlet opening on interior basin, and watering terminates.
- 9. the method for work of a kind of multifunctional flowerpot system according to claim 7, it is characterised in that flowerpot passes through first The soil moisture in temperature sensor detection in basin, when the soil moisture is too high or too low, elevating mechanism is by under ring-shaped splash guard Position is preferably minimized, the rotation of driving mechanism drive sleeve is not connected until the through hole on sleeve with the inlet opening on interior basin, micro- Processor controls water sending device that the water of room temperature is full of hollow sandwich, and second temperature sensor detection water temperature, sets when water temperature is less than Definite value K1 or during higher than setting value K2, second solenoid valve is opened, and the water in hollow sandwich is all discharged, then second solenoid valve The water of room temperature is again filled with hollow sandwich by closure, microprocessor control water sending device.
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CN108849043A (en) * | 2018-06-29 | 2018-11-23 | 杨丰源 | A kind of nursery stock potting culture apparatus |
CN108925282A (en) * | 2018-07-30 | 2018-12-04 | 宁夏大学 | A kind of intelligent oxygenation control water flowerpot system |
CN108934619A (en) * | 2018-06-25 | 2018-12-07 | 安徽徽王农业有限公司 | A kind of quick Propogation and culture case of blueberry plantation |
CN109769528A (en) * | 2019-01-31 | 2019-05-21 | 铜仁学院 | A kind of intelligence oil tea seedling cultivation system |
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CN112690138A (en) * | 2020-12-30 | 2021-04-23 | 安徽农业大学 | Open type hydraulic linkage water control potted plant planting system capable of simulating environment and soil temperature |
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CN108934619A (en) * | 2018-06-25 | 2018-12-07 | 安徽徽王农业有限公司 | A kind of quick Propogation and culture case of blueberry plantation |
CN108849043B (en) * | 2018-06-29 | 2020-11-20 | 安徽省万佛山农业综合开发有限公司 | Nursery stock is with culture apparatus cultivated in a pot |
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CN112470764A (en) * | 2020-12-06 | 2021-03-12 | 淮北市四季蔬菜种植有限公司 | Water-saving watering device for dragon fruit trees |
CN112753417A (en) * | 2020-12-29 | 2021-05-07 | 东莞市梦园环境科技有限公司 | Intelligent planting cultivation box |
CN112690138A (en) * | 2020-12-30 | 2021-04-23 | 安徽农业大学 | Open type hydraulic linkage water control potted plant planting system capable of simulating environment and soil temperature |
CN112690138B (en) * | 2020-12-30 | 2022-08-12 | 安徽农业大学 | Open type hydraulic linkage water control potted plant planting system capable of simulating environment and soil temperature |
CN115454167A (en) * | 2022-09-26 | 2022-12-09 | 中国科学院西北生态环境资源研究院 | Original state soil temperature normal position controlling means |
CN115454167B (en) * | 2022-09-26 | 2024-02-02 | 中国科学院西北生态环境资源研究院 | Undisturbed soil temperature in-situ control device |
CN117178865A (en) * | 2023-11-06 | 2023-12-08 | 南通市优绿蔬菜有限公司 | Water treatment facilities that vegetables were with automatic irrigation |
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