CN209995062U - remote intelligent irrigation control device based on Arduino - Google Patents
remote intelligent irrigation control device based on Arduino Download PDFInfo
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- CN209995062U CN209995062U CN201920843200.1U CN201920843200U CN209995062U CN 209995062 U CN209995062 U CN 209995062U CN 201920843200 U CN201920843200 U CN 201920843200U CN 209995062 U CN209995062 U CN 209995062U
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Abstract
The utility model discloses a remote intelligent irrigation control device based on Arduino, including temperature sensor, light intensity sensor, humidity transducer, a relay, Arduino controller, alarm module, a water pump, communication module, bee calling organ, a server, a switch, cell-phone APP, temperature sensor, light intensity sensor, humidity transducer all with Arduino controller electric connection, water pump and relay electric connection, relay and Arduino controller electric connection, alarm module and Arduino controller electric connection, bee calling organ and alarm module electric connection, switch and bee calling organ electric connection, Arduino controller and communication module electric connection, communication module is connected to the server through wifi, cell-phone APP is connected with the server through visiting the server, the utility model discloses stable performance, the security is high, the price is lower, can improve the basic irrigation of ordinary civil life and agricultural, has good application prospect.
Description
Technical Field
The utility model relates to a kind of wifi remote control device's technical field especially relates to kind of remote intelligent irrigation control device based on Arduino.
Background
At present, smart home applications are more and more , with the development of urbanization, more and more people planting potted plants in homes start to grow, most of the potted plants planted at the same time are ornamental plants, the living capacity of the potted plants is not as good as that of the plants growing in nature, plants die due to water shortage after people leave for a long time.
Disclosure of Invention
In order to solve the technical problem, the utility model provides an remote intelligent irrigation controlling means based on Arduino adopts wireless wifi technique with the environmental parameter of plant place soil and the control of relevant irrigation equipment integrated to the android mobile phone on, forms palm control system, the utility model discloses, with low costs, the security is high, and stability is good, has good application prospect.
The utility model adopts the following technical scheme that remote intelligent irrigation control devices based on Arduino, including temperature sensor, light intensity sensor, humidity transducer, relay, Arduino controller, alarm module, water pump, communication module, bee calling organ, server, switch, cell-phone APP, temperature sensor, light intensity sensor, humidity transducer all with Arduino controller electric connection, relay, water pump all are equipped with a plurality ofly, and water pump and relay electric connection, relay and Arduino controller electric connection, alarm module and Arduino controller electric connection, bee calling organ and alarm module electric connection, switch and bee calling organ electric connection, Arduino controller and communication module electric connection, communication module is connected to the server through wifi, cell-phone APP is connected with the server through visiting the server.
Preferably, cell-phone APP can set up to Arduino controller self-processing mode or cell-phone APP control mode, compares according to predetermined numerical value and current data by Arduino controller when selecting Arduino controller self-processing mode and judges whether irrigate, when selecting cell-phone APP control mode, controls whether irrigate through cell-phone APP by the user according to own wish.
Preferably, the temperature sensor model is DS18B20, the light intensity sensor model is GY-30, the humidity sensor model is FC-28, the Arduino controller model is Arduino-Uno, the communication module model is NodeMcu.
Preferably, the temperature sensor, the humidity sensor and the buzzer are all provided in plurality.
The utility model discloses the theory of operation: ordinary family or plant are planted ground and are installed control box through the mode of comprehensive wiring at home or indoor, reserve sensor and electrical equipment control line interface on the control box, temperature sensor, light intensity sensor, the soil environment data transmission that the plant that humidity transducer will gather is located the parcel gives Arduino controller, Arduino controller handles received data, send the server through the wifi module, cell-phone APP visits the server and obtains data, Arduino controller receives opening or closing the instruction that sends through the server simultaneously, trigger corresponding relay, thereby open or close corresponding irrigation equipment, irrigate the soil in this parcel. The cell-phone end both is the display end of the parameter of plant place soil environment and also is the control end of irrigation equipment, the cell-phone can be to Arduino controller send instruction close or open corresponding irrigation equipment, thereby realize the intelligent control to different district irrigation, and simultaneously, when cell-phone APP no longer controls or can also switch into Arduino controller control mode when not using for a long time, according to temperature sensor, light intensity sensor, the data that humidity transducer measured compares with predetermined numerical value and judges and remove each irrigation equipment.
Compared with the prior art, the utility model has the advantages of: with temperature sensor, light intensity sensor, humidity transducer, Arduino controller, irrigation equipment, android mobile phone pass through wifi module and establish ties into the closed control loop who shows and control, stable performance, security are high, the price is lower, can improve the basis irrigation of ordinary people's life and agricultural, have good application prospect.
Drawings
Fig. 1 is a schematic diagram of the system connection of the present invention.
Fig. 2 is a control flow chart of the present invention.
The reference numbers indicate that 1, a temperature sensor 2, a light intensity sensor 3, a humidity sensor 4, data 5 of each sensor group, a relay 6, an Arduino controller 7, an alarm module 8, a water pump 9, a communication module 10, a buzzer 11, a server 12, a switch 13 and a mobile phone APP.
Detailed Description
The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention can be more clearly and clearly defined.
Please refer to fig. 1, fig. 2, remote intelligent irrigation control device based on Arduino, including temperature sensor (1), light intensity sensor (2), humidity transducer (3), relay (5), Arduino controller (6), alarm module (7), water pump (8), communication module (9), bee calling organ (10), server (11), switch (12), cell-phone APP (13), temperature sensor (1), light intensity sensor (2), humidity transducer (3) all with Arduino controller (6) electric connection, relay (5), water pump (8) all are equipped with a plurality ofly, and water pump (8) and relay (5) electric connection, relay (5) and Arduino controller (6) electric connection, alarm module (7) and Arduino controller (6) electric connection, bee calling organ (10) and alarm module (7) electric connection, switch (12) and bee calling organ (10) electric connection, Arduino controller (6) and Arduino controller (9) electric connection, communication module (11) through APP 11) and server.
Preferably, the mobile phone APP (13) can be set to be in an Arduino controller (6) self-processing mode or a mobile phone APP (13) control mode, when the Arduino controller (6) self-processing mode is selected, the Arduino controller (6) judges whether to irrigate or not according to comparison of preset values and current data, and when the mobile phone APP (13) control mode is selected, a user controls whether to irrigate or not through the mobile phone APP (13) according to own will.
Preferably, the temperature sensor (1) model is DS18B20, the light intensity sensor (2) model is GY-30, the humidity sensor (3) model is FC-28, the Arduino controller (6) controller model is Arduino-Uno, the communication module (9) model is NodeMcu.
Preferably, the temperature sensor (1), the humidity sensor (3) and the buzzer (10) are all provided in plurality.
The utility model discloses the implementation step as follows: the multiple humidity sensors (3) read the soil humidity of different plants or different areas, the multiple temperature sensors (1) measure the average value of the temperature, the light intensity sensor (2) reads the illumination intensity of the environment to judge an approximate time period, the read data are connected to the Arduino controller (6) through a DuPont line, the Arduino controller (6) processes the read data and is connected with wifi through a communication module (9), and then the data are sent to the server (11) end;
the mobile phone APP (13) obtains the state of the soil environment where the plants are located through accessing the server (11), when a user thinks that a certain area should be irrigated at the moment, and presses a corresponding button on an interface of the mobile phone APP (13) or selects the control of the mobile phone APP (13), corresponding instruction data are sent to the Arduino controller (6) through the server (11) through the communication module (9), otherwise, the mobile phone APP (13) does not return any data and only accepts the data;
after the Arduino controller (6) processes and transmits data of each sensor, if instruction data from the mobile phone APP (13) are received, a processing mode (non-self-processing mode) of the mobile phone APP (13) is entered, at the moment, the mobile phone APP (13) is used as a control core, if irrigation buttons of different areas are pressed, corresponding plants or different areas are immediately irrigated, if the instruction data from the mobile phone APP (13) are not received, the self-processing mode is entered, at the moment, the Arduino controller (6) is used as the control core, the Arduino controller (6) compares the processed data with preset values to judge whether soil humidity measured by each humidity sensor (3) is lower than a preset value, if humidity measured by a certain humidity sensor (3) is lower than the preset value, whether preset temperature conditions and preset illumination conditions which need to be met during irrigation are met is judged again, irrigation is avoided under the condition of overhigh temperature or over-intense noon illumination;
during irrigation, the Arduino controller (6) controls the relay (5) in the corresponding area to work, so that the water pump (8) controlled by the relay (5) operates to irrigate the corresponding area, meanwhile, the corresponding buzzer (10) gives out buzzing sound to give an alarm, after the preset time is reached, the relay (5) is controlled to stop the water pump (8) from working, and meanwhile, the buzzer (10) does not give out buzzing sound any more. The user can also directly turn off the buzzer through the switch, so that the buzzer does not sound. After irrigation is finished, the system acquires data of each sensor again and repeats in sequence.
Without being limited thereto, any changes or substitutions which are not thought of through creative efforts should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.
Claims (4)
- remote intelligent irrigation control device based on Arduino, its characterized in that, including temperature sensor (1), light intensity sensor (2), humidity transducer (3), relay (5), Arduino controller (6), alarm module (7), water pump (8), communication module (9), bee calling organ (10), server (11), switch (12), cell-phone APP (13), temperature sensor (1), light intensity sensor (2), humidity transducer (3) all with Arduino controller (6) electric connection, relay (5), water pump (8) all are equipped with a plurality ofly, and water pump (8) and relay (5) electric connection, relay (5) and Arduino controller (6) electric connection, alarm module (7) and Arduino controller (6) electric connection, bee calling organ (10) and alarm module (7) electric connection, switch (12) and bee calling organ (10) electric connection, Arduino controller (6) and Arduino controller (9) electric connection, access to server (11) through cell-phone communication module (11).
- 2. The remote intelligent irrigation control device based on Arduino as claimed in claim 1, wherein the mobile phone APP (13) can be set to Arduino controller (6) self-processing mode or mobile phone APP (13) control mode, the Arduino controller (6) determines whether to irrigate when the Arduino controller (6) self-processing mode is selected, and the mobile phone APP (13) controls whether to irrigate when the mobile phone APP (13) control mode is selected.
- 3. The Arduino-based remote intelligent irrigation control device according to claim 1, wherein the temperature sensor (1) model is DS18B20, the light intensity sensor (2) model is GY-30, the humidity sensor (3) model is FC-28, the Arduino controller (6) model is Arduino-Uno, and the communication module (9) model is nodecu.
- 4. The remote intelligent irrigation control device based on Arduino of claim 1, wherein the temperature sensor (1), the humidity sensor (3) and the buzzer (10) are all provided in plurality.
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CN201920843200.1U CN209995062U (en) | 2019-06-05 | 2019-06-05 | remote intelligent irrigation control device based on Arduino |
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CN201920843200.1U CN209995062U (en) | 2019-06-05 | 2019-06-05 | remote intelligent irrigation control device based on Arduino |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111194685A (en) * | 2020-03-23 | 2020-05-26 | 扬州大学 | Household flower watering system based on arduino development board |
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2019
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111194685A (en) * | 2020-03-23 | 2020-05-26 | 扬州大学 | Household flower watering system based on arduino development board |
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