CN110149991A - A kind of greenhouse automation remote remote irrigating apparatus - Google Patents

Abstract

The invention discloses a kind of greenhouse automation remote remote irrigating apparatus, belong to agricultural modernization technical field.Including data monitoring acquisition unit, including optical sensor, air humidity sensor, soil humidity sensor, soil pH sensor, temperature sensor, CO₂Concentration sensor, monitoring camera, and be connected one by one with CPU；Data transmission and processing unit, including memory, CPU, LED display, signal receiver, data transmission terminal, power supply, the CPU are respectively connected with memory, display screen, data transmission terminal, signal receiver.Automated control unit, including protective tube, spray irrigation system, manual master switch, manual unit and automatic unit composition, the automatic unit includes remote control switch, time switch, temperature detect switch (TDS) and soil moisture control switch.The present invention is by realizing the field control of greenhouse, the integration of online remote control and automation control for the coupling of various kinds of sensors, data transmission processing system and automatic control system.

Description

A kind of greenhouse automation remote remote irrigating apparatus

Technical field

The present invention relates to agricultural modernization technical field, dress is irrigated in especially a kind of greenhouse automation remote remote control It sets.

Background technique

Greenhouse be it is a kind of can light transmission, heat preservation, in the season for being not suitable for plant growth, for the device of cultivated plant, Suitable for fields such as flowers culture, vegetable cultivations, it is chiefly used in the plant cultures such as low temperature season warm season vegetable, flowers, forest or educates Seedling etc., is widely used in agricultural production.

In the prior art, it in order to meet the needs of greenhouse implants growth, needs to be equipped with corresponding irrigation system, usually fills The system of irrigating is sprinkling irrigation/drip irrigation system of the irrigation canals and ditches being arranged in plant growth region or artificial field control, this will cause irrigation Unevenness cannot carry out the automation control of science according to environmental factors such as soil moisture, temperature, and can not achieve online long-range distant Control control, the management of greenhouse need veteran professional to be just able to achieve in greenhouse to irrigate proper, be less prone to plant and do It is withered or pour phenomena such as dilutional hyponatremia leads to rotten, but for layman, then need to take a substantial amount of time greenhouse scene into Row is observed in real time and irrigation control.

By using a kind of greenhouse automation remote remote irrigating apparatus of the invention, it is big to be able to solve above-mentioned tradition The automation control and one that canopy irrigation system not can be carried out remote control, cannot carry out science according to real-time site environment factor It directly stays in and expends the technical problems such as effort in greenhouse, reaching can be in real time according to the actual temperature of greenhouse, soil moisture, watering The carry out automation control watering of the factors such as time science；It can online remote control irrigation system；Internet of Things, can by mobile phone, Computer end carries out the technical effect of the on-line monitoring of real-time greenhouse site environment and plant growing way.

Summary of the invention

Goal of the invention of the invention is, in view of the above-mentioned problems, providing a kind of greenhouse automation remote remote control irrigation dress It sets, by coupling various kinds of sensors, data transmission processing system and automatic control system, realizes greenhouse Field control, the integration of online remote control and automation control, can be according to the monitoring informations such as soil moisture, temperature science Carry out Irrigation regime, the online prison of real-time greenhouse site environment and plant growing way can be carried out by the APP of mobile phone, computer end The technical effect of survey.

In order to achieve the above objectives, the technical scheme adopted by the invention is that.

A kind of greenhouse automation remote remote irrigating apparatus, including

Data monitoring acquisition unit, including optical sensor, air humidity sensor, soil humidity sensor, soil pH sensing Device, temperature sensor, CO₂Concentration sensor, monitoring camera, and be connected one by one with CPU.

Data transmission and processing unit, including memory, CPU, LED display, signal receiver, data transmission terminal, power supply, The CPU is respectively connected with memory, display screen, data transmission terminal, signal receiver.

Automated control unit, including protective tube, spray irrigation system, manual master switch, manual unit and automatic unit composition, The automatic unit includes remote control switch, time switch, temperature detect switch (TDS) and soil moisture control switch.

Wherein, data monitoring acquisition unit is to the intensity of illumination of greenhouse, temperature, air humidity, soil moisture, soil pH、CO₂Real-time status in concentration and greenhouse is monitored, and carries out the acquisition of data-signal；Data transmission and processing unit is used It stored, be wirelessly transferred, received and handled in the greenhouse data to real-time monitoring；Automated control unit can be wet according to soil Degree, atmospheric temperature, the time range of irrigation；On-site manual master switch and remote control switch, which are realized, controls the scene of greenhouse The integration of system, online remote control and automation control.

In above-mentioned apparatus, the field control of greenhouse irrigation system is realized by the closure of manual master switch and manual unit； Manual master switch is connected with automatic unit, and the remote control signal and irrigation system issued by remote control switch according to user is straight It connects to be connected and realizes online remote control effect；By remote control switch and time switch, soil moisture control switch, temperature detect switch (TDS) and Being connected for irrigation system, can reach and determined a need in the irrigation range of setting according to the humidity, temperature of soil in greenhouse Automatic irrigation watering, realizes automatic irrigation effect of science.

Preferably, the soil pH meter of the data monitoring acquisition unit, soil humidity sensor, optical sensor, temperature Sensor, air humidity sensor probe be uniformly distributed according to the shape of greenhouse, size in matrix, wherein soil pH meter, soil The probe insertion depth of soil of earth humidity sensor is 5-30cm.

Preferably, the monitoring camera of the data monitoring acquisition unit is 360 degree of annular cameras, at both ends and middle part Position is respectively set.

Preferably, the memory of the data transmission and processing unit monitors the greenhouse of acquisition unit acquisition for storing data Real time data, and data are uploaded on LED display after the processing of CPU；And data are uploaded to by data transmission terminal Network is connected with the computer end of user and mobile phone port by APP, realizes that user is wet to intensity of illumination, temperature, air in greenhouse The on-line monitoring of degree, soil moisture, soil pH and real-time status.

Preferably, the signal receiver of the data transmission and processing unit is connected with CPU, and user can pass through hand as needed The APP of generator terminal or computer end assigns control signal to the monitoring angle of the spray irrigation system of greenhouse, remote control switch and monitoring camera, Control signal is uploaded to network again, is received by signal receiver, and feed back to CPU, CPU is transmitted to signal is controlled Automated control unit.

Preferably, the automated control unit is connected with automatic unit and manual unit respectively by manual master switch, The automatic unit by remote control switch respectively with irrigation system and time switch, soil moisture control switch, temperature detect switch (TDS) phase Even, in the time switch, soil moisture control switch and temperature detect switch (TDS) series connection access circuit.

Preferably, the automated control unit can be transferred by manual master switch to hand when user is in greenhouse scene Moving cell realizes the real-time irrigation to greenhouse implants.

Preferably, the remote control switch user greenhouse scene and do not need online be remotely controlled irrigate when, opened with timing Pass, temperature detect switch (TDS), soil moisture control switch are connected；The irrigation system is made of immersible pump, pipeline, trickle irrigation or sprinkling irrigation；Institute It states pipeline to be evenly arranged according to the shape size of greenhouse in matrix type, pipe end connects the water dropper of trickle irrigation or the spray head of sprinkling irrigation； The irrigation system can be controlled according to the temperature range and soil moisture for the time range, temperature detect switch (TDS) setting that time switch is arranged The soil moisture range of switch setting determines the time irrigated, irrigates duration.

Preferably, the irrigation time range of time switch setting is every morning 8:00-10:30, afternoon 16:00- 18:00 automatic processing circuit, otherwise disconnecting circuit.

Preferably, circuit is connected when the humidity of the temperature control soil moisture control switch is set smaller than 12%, is otherwise disconnected Circuit.

Preferably, circuit is connected when the temperature setting of the temperature detect switch (TDS) is less than 40 DEG C, otherwise disconnecting circuit.

Preferably, for the automated control unit in user not at greenhouse scene, manual master switch is in automatic unit State；The automated control unit can control signal by the CPU that user issues receiving when needing online remote control to irrigate Afterwards, distant control switch is directly closed the real-time irrigation for realizing that greenhouse is online with irrigation system.

Due to the adoption of the above technical scheme, the invention has the advantages that.

Be able to solve above-mentioned traditional greenhouse irrigation system not can be carried out remote control, cannot according to real-time site environment because Element carries out the automation control of science and avoids staying in always to expend the technical problems such as time in greenhouse, and having reached can real-time basis The carry out automation control watering of the factors such as actual temperature, soil moisture, the watering time of greenhouse science；It can online remote control Irrigation system；Internet of Things can carry out the on-line monitoring of real-time greenhouse site environment and plant growing way by mobile phone, computer end Technical effect.

1. the present invention can supervise online in real time according to various kinds of sensors and the first-class data monitoring acquisition unit of monitoring camera Illumination, air humidity, soil moisture, soil pH, temperature, CO in survey greenhouse₂The real-time growth shape of concentration and greenhouse implants Condition, and according to environmental factor real-time in greenhouse realizes the long-range distant of irrigation system in greenhouse by mobile phone or the APP of computer end Control.

2. the present invention can be by time switch, remote control switch, temperature detect switch (TDS) and soil moisture control switch, can be in setting Within the scope of irrigation time, according to the closing of temperature real-time in greenhouse and unexpected humidity conditions automatic control irrigation system or beat It opens, water-saving, water-saving, and realization greenhouse automatic irrigation control that can be more scientific.

It, can environment dynamic situation in real-time monitoring greenhouse 3. the present invention is equipped with LED display at greenhouse scene.Work as user At greenhouse scene, the irrigation control at scene can also be realized by manual master switch.Irrigation system in greenhouse is sprinkling irrigation or drop Fill system, and the arrangement of spray head or water dropper is to be uniformly distributed according to the shape size of greenhouse in matrix, guarantees that greenhouse implants are equal Even irrigation.

Detailed description of the invention

Inventive embodiments or technical solution in the prior art, below will be to attached drawing needed in embodiment description It is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, general for this field For logical technical staff, without creative efforts, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is overall structure of the present invention.

Fig. 2 is the structural schematic diagram of irrigation system of the present invention.

Fig. 3 is irrigation system schematic diagram inside greenhouse of the present invention.

In attached drawing, 1- optical sensor, 2- air humidity sensor, 3- soil humidity sensor, 4- soil pH sensor, 5- temperature sensor, 6-CO₂Concentration sensor, 7- monitoring camera, 8- memory, 9-CPU, 10-LED display screen, 11- signal Receiver, 12- data transmission terminal, 13- power supply, 14- protective tube, the manual master switch of 15-, 16- automatic unit, 17- manual unit, 18- remote control switch, 19- time switch, 20- soil moisture control switch, 21- temperature detect switch (TDS), 22- irrigation system, 23- diving Pump, 24- general pipeline, 25- branch pipe, 26- spray head, 27- water, 28- side slope, 29- earthing protective layer, 30- steelframe crossbeam, the greenhouse 31- are big Canopy

Specific embodiment

A kind of greenhouse automation remote remote irrigating apparatus.

Including data monitoring acquisition unit, including optical sensor 1, air humidity sensor 2, soil humidity sensor 3, Soil pH sensor 4, temperature sensor 5, CO₂Concentration sensor 6, monitoring camera 7, and be connected one by one with CPU9.

Data transmission and processing unit, including memory 8, CPU9, LED display 10, signal receiver 11, data transmission terminal 12, power supply 13, the CPU9 are respectively connected with memory 8, LED display 10, data transmission terminal 12, signal receiver 11.

Automated control unit, including protective tube 14, spray irrigation system 22, manual master switch 15, manual unit 17 and automatic Unit 16 forms, and the automatic unit 16 includes that remote control switch 18, time switch 19, temperature detect switch (TDS) 21 and soil moisture control are opened Close 20.

Wherein, data monitoring acquisition unit is to the intensity of illumination of greenhouse, temperature, air humidity, soil moisture, soil pH、CO₂Real-time status in concentration and greenhouse is monitored, and carries out the acquisition of data-signal；Data transmission and processing unit is used It stored, be wirelessly transferred, received and handled in the greenhouse data to real-time monitoring；Automated control unit can be wet according to soil Degree, atmospheric temperature, the time range of irrigation；On-site manual master switch 15 and the realization of remote control switch 18 show greenhouse Field control, the integration of online remote control and automation control.

In above-mentioned apparatus, realize that the scene of greenhouse irrigation system is controlled by the closure of manual master switch 15 and manual unit 17 System；Manual master switch 15 is connected with automatic unit 17, the remote control signal issued by remote control switch 18 according to user with Irrigation system 22, which is connected directly, realizes online remote control effect；Pass through remote control switch 18 and time switch 19, soil moisture control System switch 20, temperature detect switch (TDS) 21 are connected with irrigation system 22, can reach in the irrigation range of setting according to soil in greenhouse Humidity, temperature determine a need for automatic irrigation watering, realize science automatic irrigation effect.

It is further illustrated below in conjunction with specific implementation of the attached drawing to invention.

As shown in Figure 1, optical sensor 1, air humidity sensor 2, soil pH sensing in data monitoring acquisition unit Device 4, soil humidity sensor 3, temperature sensor 5, CO₂Concentration sensor 6 and monitoring camera 7 are serially connected access circuit In, and with data transmission and processing unit, that is, memory 8, CPU9, LED display 10, signal receiver 11, data transmission terminal 12 and Power supply 13 is directly connected.It is wet that data monitoring acquisition unit monitors and acquire respectively intensity of illumination in greenhouse, air humidity, soil The data such as degree, soil pH, temperature, CO2 concentration and on-line monitoring image, are powered, data monitoring acquisition unit is adopted by power supply 13 The data of collection are stored in memory 8, and carry out operation, conversion and processing by CPU9, later will treated monitoring data Synchronized upload shows function into LED display 10, to complete the field data of greenhouse.

The signal that data monitoring acquisition unit acquires handle and is uploaded to network by data transmission terminal 12 by CPU9 Cloud, user provide mobile phone or data and vegetation growth state in the APP real time inspection greenhouse of computer end.When user has remotely When being remotely controlled the demand irrigated, control instruction data is assigned by the APP of mobile phone or computer end, and be uploaded to cloud, connect in signal Receive device connect 11 receive signal after, control instruction data are transmitted to CPU9, CPU9 is by control instruction data through manual master switch 15 To automatic unit 16, it is resent to remote control switch 18, remote control switch 18 is directly controlled and irrigation system 22 is closed, is realized online remote Journey distant control function.

After the completion of irrigation, user can disconnect the connection of remote control switch 18 Yu irrigation system 22 in APP, be forwarded to timing and open Close 19, soil moisture control switch 20, temperature detect switch (TDS) 21 route on, at this point, if time switch 19 is in morning 8:00-10: 30, afternoon 16:00-18:00 irrigation time within the scope of, then time switch 19 will be in closed state；If soil is wet at this time Degree control switch 20 detect humidity be greater than 12% when disconnecting circuit, then after temperature switch 21 no matter detect that temperature is more It not can turn on circuit less to be irrigated, if soil moisture control switch 20 detects humidity still less than 12%, connect circuit； Finally further according to the temperature of 21 real-time monitoring of temperature switch, if canopy temperature is greater than 40 DEG C, the switch is automatically turned off, prevents temperature Irrigating when spending high causes plant cold and hot too drastic, influences the growth of plant.If greenhouse temperature is less than 40 DEG C, automatic closure is opened It closes, continues to execute irrigation operation.

When the remote control switch 18 and time switch 19 of automatic unit 16, soil moisture switch 20, temperature detect switch (TDS) 21 and irrigate It, then can be wet according to actual air themperature in the irrigation time and greenhouse that time switch 19 is set and soil when system 22 is connected Degree situation carries out comprehensive descision, and when irrigation time, air themperature and soil moisture meet irrigation conditions, i.e., irrigation time exists Morning 8:00-10:30, afternoon 16:00-18:00；Temperature is irrigated less than 40 DEG C；It is described when the soil moisture of irrigation is less than 12% Time switch 19, temperature detect switch (TDS) 21 and soil moisture control switch 20 can just be closed, formed closed circuit, control irrigation system 22 carry out automatic irrigation.And when soil moisture, temperature and irrigation time be not in the range of setting, circuit is in disconnection State, irrigation system not will do it irrigation operation, prevent the growth to greenhouse implants from impacting.

When user is in scene, if having irrigation demand to greenhouse, manual master switch 15 and irrigation system 22 can be passed through Directly closure realizes that the irrigation at scene operates.In conclusion the present invention can be online long-range distant according to the realization of the different demands of user Control, field control and the integrated technical effect of automation control, also, real-time greenhouse can be carried out by mobile phone, computer end The on-line monitoring of site environment and plant growing way.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (10)

1. a kind of greenhouse automation remote remote irrigating apparatus, it is characterised in that: including

Data monitoring acquisition unit, including optical sensor, air humidity sensor, soil humidity sensor, soil pH sensing Device, temperature sensor, CO₂Concentration sensor, monitoring camera, and be connected one by one with CPU；

Data transmission and processing unit, including memory, CPU, LED display, signal receiver, data transmission terminal, power supply, it is described CPU is respectively connected with memory, display screen, data transmission terminal, signal receiver；

Automated control unit, including protective tube, spray irrigation system, manual master switch, manual unit and automatic unit composition, it is described Automatic unit includes remote control switch, time switch, temperature detect switch (TDS) and soil moisture control switch；

Wherein, data monitoring acquisition unit to the intensity of illumination of greenhouse, temperature, air humidity, soil moisture, soil pH, Real-time status in CO2 concentration and greenhouse is monitored, and carries out the acquisition of data-signal；Data transmission and processing unit for pair The greenhouse data of real-time monitoring are stored, are wirelessly transferred, are received and are handled；Automated control unit can according to soil moisture, Atmospheric temperature, time range；The closure and remote control signal of on-site manual master switch realize the automation control to greenhouse It makes, the integration of field control and online remote control.

2. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: the data Monitor the soil pH meter of acquisition unit, soil humidity sensor, optical sensor, temperature sensor, air humidity sensor Probe is uniformly distributed according to the shape of greenhouse, size in matrix, wherein soil pH meter, soil humidity sensor probe be inserted into soil Earth depth is 5-30cm.

3. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: the data The monitoring camera for monitoring acquisition unit is 360 degree of annular cameras, is respectively set at greenhouse both ends and medium position.

4. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: the data The memory of transmission processing unit monitors the greenhouse real time data of acquisition unit acquisition, and the processing through CPU for storing data Data are uploaded on LED display afterwards；And data are uploaded to network by data transmission terminal, the computer end and hand with user Generator terminal mouth is connected by APP, realizes user to intensity of illumination, temperature, air humidity, soil moisture, soil pH and reality in greenhouse When state on-line monitoring.

5. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: the data The signal receiver of transmission processing unit is connected with CPU, and user as needed can be by mobile phone terminal or the APP of computer end to greenhouse Spray irrigation system, the monitoring angle of remote control switch and monitoring camera assign control signal, then control signal be uploaded to network, It is received by signal receiver, and feeds back to CPU, CPU is transmitted to automated control unit for signal is controlled.

6. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: described automatic Change control unit to be connected with automatic unit and manual unit respectively by manual master switch, the automatic unit passes through remote control switch It is connected respectively with irrigation system and time switch, soil moisture control switch, temperature detect switch (TDS), the time switch, soil moisture In control switch and temperature detect switch (TDS) series connection access circuit.

7. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: described automatic Changing control unit can be transferred to manual unit realization when user is in greenhouse scene by manual master switch to greenhouse implants Real-time irrigation.

8. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: the remote control Switch user greenhouse scene and do not need online be remotely controlled irrigate when, with time switch, temperature detect switch (TDS), soil moisture control Switch is connected；The irrigation system is made of immersible pump, pipeline, trickle irrigation or sprinkling irrigation；The pipeline is according to the shape size of greenhouse It is evenly arranged in matrix type, pipe end connects the water dropper of trickle irrigation or the spray head of sprinkling irrigation；The irrigation system can be opened according to timing The soil moisture range for closing the time range of setting, the temperature range of temperature detect switch (TDS) setting and the setting of soil moisture control switch is true Surely time for irrigating irrigates duration.

9. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: the timing The irrigation time range of switch setting is every morning 8:00-10:30, and afternoon, 16:00-18:00 automatic processing circuit, otherwise broke Open circuit；The humidity of the temperature control soil moisture control switch connects circuit when being set smaller than 12%, otherwise disconnecting circuit；Institute The temperature setting for the temperature detect switch (TDS) stated connects circuit when being less than 40 DEG C, otherwise disconnecting circuit.

10. a kind of greenhouse automation remote remote irrigating apparatus as described in claim 1, it is characterised in that: it is described from For dynamicization control unit in user not at greenhouse scene, manual master switch is in automatic unit state；The automation control list Member when needing online remote control to irrigate, can after receiving the CPU control signal issued by user, distant control switch with Irrigation system is directly closed the real-time irrigation for realizing that greenhouse is online.