CN207692519U - A kind of plant incubator environmental parameter monitoring device based on Internet of Things - Google Patents
A kind of plant incubator environmental parameter monitoring device based on Internet of Things Download PDFInfo
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- CN207692519U CN207692519U CN201721243527.2U CN201721243527U CN207692519U CN 207692519 U CN207692519 U CN 207692519U CN 201721243527 U CN201721243527 U CN 201721243527U CN 207692519 U CN207692519 U CN 207692519U
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- 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
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- 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
- Y02P60/14—Measures for saving energy, e.g. in green houses
Abstract
The utility model is related to a kind of plant incubator environmental parameter monitoring device based on Internet of Things,Including incubator ontology,Micro-compressor,Ultrasonic humidifier,Humidifier fan,First illuminance sensor and touch display screen,The incubator body portion is plant culture space,It is divided into upper layer and lower layer,Top of the upper layer setting secures the first LED plant cultivation lights,Middle wall body is equipped with the second illuminance sensor,Aerial temperature and humidity sensor is equipped with below first illuminance sensor,The aerial temperature and humidity sensor base setting secures the first plant culture tank,The first plant culture tank is internally provided with the first soil humidity sensor,The incubator ontology top of the upper layer setting secures the 2nd LED plant cultivation lights,The incubator ontology middle wall body is equipped with third illuminance sensor,The incubator body bottom portion setting secures the second plant culture tank,The second soil humidity sensor is equipped in the second plant culture tank.
Description
Technical field
The utility model is related to a kind of plant incubator, specifically a kind of plant incubator environmental parameter based on Internet of Things
Monitoring device belongs to intelligent domestic agricultural equipment technology field.
Background technology
Under the trend of IT application to agriculture, intelligent plant incubator is as a kind of intelligent domestic agricultural equipment, because of it
The environmental parameters such as temperature, humidity, intensity of illumination under energy simulating natural environment, and can be required to each according to the ambient growth of plant
A environmental parameter is effectively adjusted, and intelligent plant incubator increasingly becomes the trend of plant culture from now on.
Plant incubator operation principle is to pass through intelligent control using the intensity of illumination needed for artificial light source offer plant growth
The temperature inside the box humidity processed, reaches the environmental condition needed for plant growth.
Currently, plant incubator in the market could not realize the adjusting to LED light light intensity, the light of different plants cannot be satisfied
According to demand, in addition plant needs artificial watering in these incubators, and labor intensity is big, and watering is uneven, is unable to fully utilize water
Resource, and these incubators can not carry out remote control, need to occupy a large amount of operating time, be unfavorable for improving incubator
Production efficiency.Therefore, it is highly desirable to realize that a kind of intelligence degree is high, can carry out remote control and regulation to plant growth environment
Intelligent plant incubator.
Utility model content
In view of the deficiencies of the prior art, the utility model provide it is a kind of it is easy to operate, environment can be carried out whenever and wherever possible
The intelligent plant incubator based on Internet of Things that parameter monitoring and automatic environmental are adjusted.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is:
A kind of plant incubator environmental parameter monitoring device based on Internet of Things, including incubator ontology, micro-compressor,
Ultrasonic humidifier, humidifier fan, the first illuminance sensor and touch display screen, the incubator body portion are plant
Culture space is divided into upper layer and lower layer, and top of the upper layer setting secures the first LED plant cultivation lights, and middle wall body is equipped with second
Illuminance sensor, the first illuminance sensor lower section are equipped with aerial temperature and humidity sensor, the aerial temperature and humidity sensing
The setting of device bottom secures the first plant culture tank, and the first plant culture tank is internally provided with the first soil humidity sensor,
The incubator ontology top of the upper layer setting secures the 2nd LED plant cultivation lights, is set in the incubator ontology middle wall body
There are third illuminance sensor, the incubator body bottom portion setting to secure the second plant culture tank, the second plant training
It supports and is equipped with the second soil humidity sensor in slot, the rear upper side setting of the incubator ontology secures system control
Cabinet, the system control cabinet upper side are fixed with cold air supply fan, cold air row are fixed with below the cold air supply fan
Air fan, cold air scavenger fan side are equipped with humidifier water tank, and the humidifier water tank interior side setting secures super
Sound wave humidifier, the humidifier water tank other side are equipped with water level sensor, and the humidifier tank top setting, which secures, to be added
Wet device fan, humidifier water tank top setting secure suction pump, the water inlet of the suction pump and external water inlet connection,
The water outlet of the suction pump and the water inlet of four way solenoid valve connect, and three water outlets of the four way solenoid valve pass through water pipe
Respectively with water inlet, the incubator ontology of the first plant culture tank above the water inlet of humidifier water tank, incubator body portion
The water inlet of lower front the second plant culture tank connects;Round hole and circle are equipped among the lower rear of the incubator ontology
Setting secures ptc heater on shape hole, is arranged on the ptc heater and secures heater fan, the ptc heater one
Side setting secures micro-compressor, and the ptc heater other side setting secures condenser fixed seat, and the condenser is solid
Reservation side secures condenser, and the condenser fixed seat other side secures two condensers fan;Wherein, described miniature
The exhaust outlet of compressor is connected by the air inlet of copper pipe and condenser, the exhaust outlet of the condenser by copper pipe with it is dried
The air inlet of filter connects, and the exhaust outlet of the device for drying and filtering and the air inlet of capillary connect, the exhaust of the capillary
Mouth is connect with the air inlet of upper evaporator, and the exhaust outlet of the evaporator is connect with the air inlet of lower section micro-compressor;Institute
It states to be equipped with to be arranged on round hole and round hole at the top of the backplate of incubator ontology and secures scavenger fan, the fixed plate bottom
Side is equipped with air inlet circular hole, and the incubator ontology is connect using hinge with doorframe side, and the doorframe other side is equipped with side
Setting secures touch display screen on shape hole and square hole, and the incubator body bottom portion setting secures four universal wheels.
Further, the water level sensor, aerial temperature and humidity sensor, the first illuminance sensor, the first soil are wet
Degree sensor and the second soil humidity sensor are connect with signal modulation circuit respectively.
Further, the water level sensor, aerial temperature and humidity sensor, the first illuminance sensor and the first soil are wet
Sensor, the second soil humidity sensor is spent to be electrically connected with touching display screen respectively.
Further, the water level sensor is electrically connected with humidifier water tank.
Further, first soil humidity sensor and the first plant culture tank are electrically connected;Second soil
Humidity sensor and the second plant culture tank are electrically connected.
Further, major part of the ptc heater as heating link, uses PWM control modes.
Further, the ultrasonic humidifier uses PWM control modes.
Compared with prior art, the utility model has the advantages that:The realization of LED plant cultivation light light intensity is adjustable,
Not only energy saving but also accuracy is high, and it is easy to operate, can monitor and control whenever and wherever possible, and carry out extra manual behaviour without user
Make, can be automatically performed and moisturizing is carried out to plant and humidifier water tub, improve the utilization rate of water, have effectively achieved device energy conservation
The characteristic of environmental protection.
With reference to illustrating that the drawings and specific embodiments are described further the utility model.
Description of the drawings
Fig. 1 is a kind of stereochemical structure dress of plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Figure one.
Fig. 2 is a kind of stereochemical structure dress of plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Figure two.
Fig. 3 is a kind of removing backplate of the plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Standard figure.
Fig. 4 is a kind of stereochemical structure dress of plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Figure three.
Fig. 5 is a kind of stereochemical structure dress of plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Figure four.
Fig. 6 is a kind of condenser of the plant incubator environmental parameter monitoring device based on Internet of Things of the utility model, cold
The dimensional structure diagram of condenser fixed frame, condenser fan.
Fig. 7 is a kind of humidifier water tank of the plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Be cut away top, humidifier, water level sensor dimensional structure diagram.
Fig. 8 is a kind of plant incubator environmental parameter monitoring device Control system architecture based on Internet of Things of the utility model
Figure.
Fig. 9 is a kind of telecommunication stream of the plant incubator environmental parameter monitoring device based on Internet of Things of the utility model
Journey schematic diagram.
In figure:1, incubator ontology;2, doorframe;3, hinge;4, universal wheel, 5, display screen;6, scavenger fan;7, it intakes
Mouthful;8, condenser fan;9, air inlet circular hole;10, scavenger fan;11, system control cabinet;12, humidifier inlet tube;13, cold air
Exhaust fan;14, capillary;15, heater fan;16, device for drying and filtering;17, micro-compressor;18, expansion valve;19, it humidifies
Device water tank;20, humidifier fan;21, water pipe;22, four way solenoid valve;23, suction pump;24, condenser pipe;25, cold air air inlet wind
Fan;26, evaporator;27, damp exit;28-1, the second plant culture tank;28-2, the first plant culture tank;29, PTC is heated
Device;30, the first illuminance sensor;30-1, third illuminance sensor;30-2, the second illuminance sensor;31, the first LED
Plant cultivation light;31-1, the 2nd LED plant cultivation lights;32, aerial temperature and humidity sensor;33, soil humidity sensor;33-1、
Second soil humidity sensor;33-2, the first soil humidity sensor;34, condenser fixed seat;35, condenser;36, ultrasonic
Wave humidifier;37, water level sensor.
Specific implementation mode
As shown in figs 1-9, a kind of plant incubator environmental parameter monitoring device based on Internet of Things, including incubator ontology
1, micro-compressor 17, ultrasonic humidifier 36, humidifier fan 20, the first illuminance sensor 30 and touch display screen 5, institute
It is plant culture space to state 1 front of incubator ontology, is divided into upper layer and lower layer, and top of the upper layer setting secures the training of the first LED plants
Lamp 31 is supported, middle wall body is equipped with the second illuminance sensor 30-2, and first illuminance sensor, 30 lower section is equipped with air
Temperature Humidity Sensor 32,32 bottom of aerial temperature and humidity sensor setting secure the first plant culture tank 28-2, and described the
One plant culture tank 28-2 is internally provided with the first soil humidity sensor 33-2, and 1 top of the upper layer of the incubator ontology setting is solid
Determine the 2nd LED plants cultivation light 31-1,1 middle wall body of incubator ontology is equipped with third illuminance sensor 30-1,
1 bottom of the incubator ontology setting secures to be equipped in the second plant culture tank 28-1, the second plant culture tank 28-1
The rear upper side setting of second soil humidity sensor 33-1, the incubator ontology 1 secure system control cabinet 11, institute
It states 11 upper side of system control cabinet and is fixed with cold air supply fan 25,25 lower section of the cold air supply fan is fixed with cold air row
Air fan 13,13 side of cold air scavenger fan are equipped with humidifier water tank 19,19 interior side of the humidifier water tank setting
Ultrasonic humidifier 36 is secured, 19 other side of humidifier water tank is equipped with water level sensor 37, the humidifier water tank 19
Top setting secures humidifier fan 20, and 19 top setting of the humidifier water tank secures suction pump 23, the suction pump
23 water inlet is connected with external water inlet, and the water outlet of the suction pump 23 is connect with the water inlet of four way solenoid valve 22, described
Three water outlets of four way solenoid valve 22 by water pipe respectively on the water inlet of humidifier water tank 19,1 front of incubator ontology
The water inlet connection of the water inlet, 1 lower front the second plant culture tank 28-1 of incubator ontology of first plant culture tank 28-2;
It is equipped with setting on round hole and round hole among the lower rear of the incubator ontology 1 and secures ptc heater 29, it is described
Setting secures heater fan 15 on ptc heater 29, and the setting of 29 side of the ptc heater secures micro-compressor
17, the setting of 29 other side of the ptc heater secures condenser fixed seat 34, and 34 side of condenser fixed seat secures
Condenser 35,34 other side of condenser fixed seat secure two condensers fan 8;Wherein, the micro-compressor 17
Exhaust outlet connect with the air inlet of condenser 35 by copper pipe, the exhaust outlet of the condenser 35 passes through copper pipe and dry filter
The air inlet of device 16 connects, and the exhaust outlet of the device for drying and filtering 16 is connect with the air inlet of capillary 14, the capillary 14
Exhaust outlet connect with the air inlet of upper evaporator 26, the exhaust outlet of the evaporator 26 and lower section micro-compressor 17 into
Gas port connects;It is equipped with setting on round hole and round hole at the top of the backplate of the incubator ontology 1 and secures scavenger fan 6,
The fixed plate bottom side is equipped with air inlet circular hole 9, and the incubator ontology 1 is connect using hinge 3 with 2 side of doorframe, institute
It states 2 other side of doorframe and secures touch display screen 5, the incubator body bottom portion setting equipped with setting on square hole and square hole
Secure four universal wheels 4.
Wherein, the water level sensor 37, aerial temperature and humidity sensor 32, the first illuminance sensor 30, the first soil
Humidity sensor 33-2 and the second soil humidity sensor 33-1 are connect with signal modulation circuit respectively.
Wherein, the water level sensor 37, aerial temperature and humidity sensor 32, the first illuminance sensor 30 and the first soil
Earth humidity sensor 33-2, the second soil humidity sensor 33-1 are electrically connected with touching display screen 5 respectively.
Wherein, the water level sensor 37 is electrically connected with humidifier water tank 19.
Wherein, the first soil humidity sensor 33-2 and the first plant culture tank 28-2 are electrically connected;Described second
Soil humidity sensor 33-1 and the second plant culture tank 28-1 are electrically connected..
Wherein, major part of the ptc heater 29 as heating link, uses PWM control modes.
Wherein, the ultrasonic humidifier 36 uses PWM control modes.
It should be noted that the utility model is a kind of plant incubator environmental parameter monitoring device based on Internet of Things,
When work, the initial set value of all parameters is zero, and each sensor and execution unit are all failure to actuate;When user is by touching
After touching the difference of display screen 5 input temp, humidity and illuminance setting value, touch display screen 5 sends corresponding data to main control
Device, master controller, which starts to trigger each sensor, starts gathered data, while being compared with the input setting value of user, and transports
Corresponding controlling value is calculated, signal execution circuit is sent to, signal execution circuit makes corresponding adjustment to each execution unit;
When actual air temperature is less than setting value, ptc heater 29 works and passes through the speed of PWM constantly regulate heating speeds;When
When actual air temperature is greater than the set value, micro-compressor 17 works, and then drives entire refrigeration unit work, condenser 35
Fan is constantly dried outward, and to radiate to condenser 35, cold air supply fan 25 blows the cold air around evaporator 26
In inlet, evaporator discharge fan 13 produces by boasting air in case, cooperates with top cold air supply fan 25, realizes in case
Air circulates;When air humidity is less than setting value in case, ultrasonic humidifier 36 and humidifier fan 20 work,
The speed of mist speed is adjusted out by PWM simultaneously;When air humidity is higher than setting value in case, scavenger fan 6 works, will be in case
Air is exchanged with outside air, and humidity error is made to minimize;When illuminance is less than setting value in case, PWM duty cycle is controlled
Increase, when illuminance is greater than the set value in case, control PWM duty cycle reduces, while according to the difference of instantaneous value and setting value
Value determines the adjustment amplitude of PWM duty cycle;When the humidity of water level in humidifier water tank 19 or the first plant culture tank 28-2 is low
When respective settings value, four way solenoid valve 22 opens corresponding water pipe 21, and suction pump 23 works, the water filling into corresponding water container, when
When the humidity of water level or the first plant culture tank 28-2 are higher than respective settings value in humidifier water tank 19, four way solenoid valve 22 closes
It closes, suction pump 23 does not work.
For those skilled in the art, it can be obtained according to the revealed structure of the utility model and principle other each
Kind is corresponding to be changed and deforms, and all these change and deform the protection category for belonging to the utility model.
Claims (7)
1. a kind of plant incubator environmental parameter monitoring device based on Internet of Things, including incubator ontology (1), micro-compressor
(17), ultrasonic humidifier (36), humidifier fan (20), the first illuminance sensor (30) and touch display screen (5), it is special
Sign is:Incubator ontology (1) front is plant culture space, is divided into upper layer and lower layer, and top of the upper layer setting secures the
One LED plants cultivation light (31), middle wall body are equipped with the second illuminance sensor (30-2), first illuminance sensor
(30) lower section is equipped with aerial temperature and humidity sensor (32), and aerial temperature and humidity sensor (32) the bottom setting secures the first plant
Object culture tank (28-2), the first plant culture tank (28-2) is internally provided with the first soil humidity sensor (33-2), described
The setting of incubator ontology (1) top of the upper layer secures the 2nd LED plants cultivation light (31-1), and the incubator ontology (1) is intermediate
Wall is equipped with third illuminance sensor (30-1), and incubator ontology (1) the bottom setting secures the culture of the second plant
Slot (28-1), the second plant culture tank (28-1) is interior to be equipped with the second soil humidity sensor (33-1), the incubator sheet
The rear upper side setting of body (1) secures system control cabinet (11), is fixed at the upper side of the system control cabinet (11)
Cold air supply fan (25), cold air supply fan (25) lower section are fixed with cold air scavenger fan (13), the cold air exhaust
Fan (13) side is equipped with humidifier water tank (19), and humidifier water tank (19) the interior side setting secures ultrasonic humidifying
Device (36), humidifier water tank (19) other side are equipped with water level sensor (37), are arranged at the top of the humidifier water tank (19)
Humidifier fan (20) is secured, is arranged above the humidifier water tank (19) and secures suction pump (23), the suction pump
(23) water inlet is connected with external water inlet, and the water outlet of the suction pump (23) connects with the water inlet of four way solenoid valve (22)
It connects, three water outlets of the four way solenoid valve (22) pass through water pipe water inlet, the incubator with humidifier water tank (19) respectively
The water inlet of ontology (1) front upper the first plant culture tank (28-2), the culture of incubator ontology (1) second plant of lower front
The water inlet of slot (28-1) connects;It is equipped on round hole and round hole and is arranged among the lower rear of the incubator ontology (1)
Ptc heater (29) is secured, is arranged on the ptc heater (29) and secures heater fan (15), the ptc heater
(29) side setting secures micro-compressor (17), and ptc heater (29) other side setting secures condenser and fixes
Seat (34), condenser fixed seat (34) side secure condenser (35), and condenser fixed seat (34) other side is solid
Two condensers fan (8) is determined;Wherein, the exhaust outlet of the micro-compressor (17) by copper pipe and condenser (35) into
Gas port connects, and the exhaust outlet of the condenser (35) is connect by copper pipe with the air inlet of device for drying and filtering (16), the drying
The exhaust outlet of filter (16) is connect with the air inlet of capillary (14), the exhaust outlet and upper evaporator of the capillary (14)
(26) air inlet connection, the exhaust outlet of the evaporator (26) are connect with the air inlet of lower section micro-compressor (17);It is described
It is equipped with setting on round hole and round hole at the top of the backplate of incubator ontology (1) and secures scavenger fan (6), the fixed plate
Bottom side is equipped with air inlet circular hole (9), and the incubator ontology (1) is connect using hinge (3) with doorframe (2) side, described
Doorframe (2) other side is equipped with setting on square hole and square hole and secures touch display screen (5), and the incubator body bottom portion is set
It sets and secures four universal wheels (4).
2. a kind of plant incubator environmental parameter monitoring device based on Internet of Things according to claim 1, feature exist
In:The water level sensor (37), aerial temperature and humidity sensor (32), the first illuminance sensor (30), the first soil moisture
Sensor (33-2) and the second soil humidity sensor (33-1) are connect with signal modulation circuit respectively.
3. a kind of plant incubator environmental parameter monitoring device based on Internet of Things according to claim 1, feature exist
In:The water level sensor (37), aerial temperature and humidity sensor (32), the first illuminance sensor (30) and the first soil moisture
Sensor (33-2), the second soil humidity sensor (33-1) are electrically connected with touching display screen (5) respectively.
4. a kind of plant incubator environmental parameter monitoring device based on Internet of Things according to claim 1, feature exist
In:The water level sensor (37) is electrically connected with humidifier water tank (19).
5. a kind of plant incubator environmental parameter monitoring device based on Internet of Things according to claim 1, feature exist
In:First soil humidity sensor (33-2) is electrically connected with the first plant culture tank (28-2);Second soil is wet
Sensor (33-1) is spent to be electrically connected with the second plant culture tank (28-1).
6. a kind of plant incubator environmental parameter monitoring device based on Internet of Things according to claim 1, feature exist
In:Major part of the ptc heater (29) as heating link, uses PWM control modes.
7. a kind of plant incubator environmental parameter monitoring device based on Internet of Things according to claim 1, feature exist
In:The ultrasonic humidifier (36) uses PWM control modes.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107466737A (en) * | 2017-09-26 | 2017-12-15 | 仲恺农业工程学院 | A kind of monitoring of plant incubator ambient parameter and self-checking device based on Internet of Things |
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2017
- 2017-09-26 CN CN201721243527.2U patent/CN207692519U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107466737A (en) * | 2017-09-26 | 2017-12-15 | 仲恺农业工程学院 | A kind of monitoring of plant incubator ambient parameter and self-checking device based on Internet of Things |
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