CN210199593U - Intelligent potting control device based on Internet of things - Google Patents

Intelligent potting control device based on Internet of things Download PDF

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Publication number
CN210199593U
CN210199593U CN201920847282.7U CN201920847282U CN210199593U CN 210199593 U CN210199593 U CN 210199593U CN 201920847282 U CN201920847282 U CN 201920847282U CN 210199593 U CN210199593 U CN 210199593U
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China
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module
port
serial communication
communication port
control device
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Expired - Fee Related
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CN201920847282.7U
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Chinese (zh)
Inventor
Bin Ling
凌滨
Xingle Xue
薛兴乐
Yunlong Li
李云龙
Yan Huang
黄延
Xiaoran Li
李晓然
Haonan Qian
骞浩楠
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Northeast Forestry University
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Northeast Forestry University
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Abstract

Intelligence controlling means cultivated in a pot based on thing networking, its constitution includes: control device (1), characterized by: the control device (1) comprises a power supply module (2), a display module LCD1602(3), a temperature and humidity sensor module DHT11(4), a photoresistance module (5), a key module (6), a motor control circuit (7), a SIM800C remote communication module (8), a light supplement module (9), a soil humidity sensor YL-69(10) and an AT89C52 control core (11). The utility model discloses the application is applied to intelligent controlling means cultivated in a pot based on thing networking.

Description

Intelligent potting control device based on Internet of things
The technical field is as follows:
the utility model relates to an intelligence controlling means cultivated in a pot especially relates to an intelligence controlling means's cultivated in a pot circuit design based on thing networking.
Background art:
with the rapid development of domestic economy and the rapid expansion of real estate since the twentieth century, the rapid development of the decoration home industry is directly promoted, wherein the potted plant market is just about once out and is rapidly developed in the decade. The intelligent potted plant is an independent industry and gradually matures from a starting stage. Intelligent potting control is receiving increasing attention.
The requirements of people on the quality of life are continuously improved, more and more people are fond of planting plants at home, and the plants can grow healthily only by the factors of moisture, illumination, nutrients and the like. If people are occupied in taking care of the plants due to busy work, the growth conditions required for the plants cannot be guaranteed, and the plants may wither and die. The device aims to realize intelligent and automatic scheduling of the potted plants in homes, so that the growth environment of potted plants can be conveniently and quickly adjusted.
Most of intelligent potted plant control is still in the starting stage, a large amount of basic work needs to be carried out continuously, and household intelligent potted plants suitable for the public are developed. Therefore, a more sophisticated set of devices is needed to provide more intelligent control of the potted plant, while providing conditions for the convenience of watering the potted plant. This intelligent controlling means cultivated in a pot based on thing networking utilizes photo resistance, temperature and humidity sensor and soil moisture sensor circuit module, motor control circuit, light filling circuit etc. to carry out intelligent control cultivated in a pot to show at display module, carry out the information passback through SIM800C remote communication network.
The invention content is as follows:
the utility model aims at providing a design and preparation for being used for providing a data acquisition circuit based on internet of things.
The above purpose is realized by the following technical scheme:
the utility model provides an intelligence controlling means cultivated in a pot based on thing networking, its constitution includes: a control device, characterized by: the control device comprises: the device comprises a power supply module, a control core module AT89C52, a photoresistor module, a temperature and humidity sensor module DHT11, a soil humidity sensor circuit module YL-69, a motor control circuit module, a display module LCD1602, a key module, a SIM800C remote communication module and a light supplement module.
Intelligence controlling means cultivated in a pot, characterized by: the power supply circuit module provides stable working voltage for the intelligent potting control device, so that other circuit modules can work normally; the control core module AT89C52 is used for realizing the acquisition, processing and transmission of basic data of the control device; the photoresistor module senses the sunlight intensity of the environment where the control device is located and collects information data for the control core module; the temperature and humidity sensor module DHT11 is used for collecting humidity information of the environment temperature of the potted plant; the soil humidity sensor circuit module YL69 is used for collecting potted soil humidity information, and the motor control circuit module is positioned at the bottom of the water bottle and used for realizing potting irrigation; the display module LCD1602 realizes visual display of information; the key module realizes manual control of adding, subtracting, storing and watering of the upper and lower limits of the threshold value of each piece of information; the SIM800C remote communication module is used for realizing remote transmission of collected basic data, and the light supplement circuit module is used for realizing light supplement for potted plants.
Intelligence controlling means cultivated in a pot, characterized by: the power supply module is respectively connected with other functional modules of the information acquisition device; the control core module is connected with the RS port of the display module through a serial communication port P2.5 and connected with the RW port of the display module through a serial communication port P2.6; is connected with the E port of the display module through a serial communication port P2.7, is connected with the DB0 port through a serial communication port P0.0, is connected with the DB1 port through a serial communication port P0.1, is connected with the DB2 port through a serial communication port P0.2, is connected with the DB3 port through a serial communication port P0.3, is connected with the DB4 port through a serial communication port P0.4, is connected with the DB5 port through a serial communication port P0.5, is connected with the DB6 port through a serial communication port P0.6 and is connected with the DB7 port through a serial communication port P0.7; the control core module is connected with a DAT port of the temperature and humidity sensor module through a serial communication port P3.7; the control core module is connected with the SUN port of the photoresistor module through a serial communication port P1.0; the control core module is connected with a TXD port of the SIMC800 remote communication module through a serial communication port P3.0 and connected with an RXD port of the SIMC800 remote communication module through a serial communication port P3.1; the control core module is connected with a KEY _1 port of the KEY module through a serial communication port P3.2, connected with a KEY _2 port of the KEY module through a serial communication port P3.3 and connected with a KEY _3 port of the KEY module through a serial communication port P3.4; the control core module is connected with an INPUT port of the motor control circuit module through a serial communication port P2.0; the control core module is connected with the ports of the light supplement circuit modules IN1, IN2, IN3 and IN4 through serial communication ports P2.1, P2.2, P2.3 and P2.4; the control core module is connected with a D0 port of the soil humidity sensor circuit module YL-69 through a serial communication port P1.1.
Intelligence controlling means cultivated in a pot, characterized by: the intelligent potted plant control device based on the Internet of things is characterized in that the connection is realized by using a wire as a connection medium.
The utility model has the advantages that:
1. the utility model discloses intelligent controlling means cultivated in a pot based on thing networking can realize fast-speed digital signal processing, has realized the accurate control of intelligent high frequency cultivated in a pot.
2. The utility model discloses controlling means cultivated in a pot of intelligence based on thing networking has used domestic remote communication module SIM800C, can compatible GSM's whole functions, can realize that GPRS data transfer is main, and GSM communication is the data transfer mode of assisting, guarantees that data can be correct and passes back control center.
Description of the drawings:
fig. 1 is the composition schematic diagram of the intelligent potted plant control device based on the internet of things.
Fig. 2 is the utility model discloses intelligence controlling means cultivated in a pot's whole circuit schematic diagram based on thing networking.
Fig. 3 is the utility model discloses intelligence potted plant control device's SIM800C remote communication module circuit schematic diagram based on thing networking.
Fig. 4 is the utility model discloses intelligence controlling means cultivated in a pot's control core circuit schematic diagram based on thing networking.
Fig. 5 is the utility model discloses soil moisture sensor circuit module schematic diagram of intelligent controlling means collection cultivated in a pot based on thing networking.
Fig. 6 is the utility model discloses intelligence controlling means cultivated in a pot's light filling circuit schematic diagram based on thing networking.
Fig. 7 is the utility model discloses intelligence controlling means button module circuit schematic diagram cultivated in a pot based on thing networking.
Fig. 8 is the utility model discloses intelligence controlling means motor control circuit schematic diagram cultivated in a pot based on thing networking.
Fig. 9 is the utility model discloses intelligence controlling means supply circuit schematic diagram cultivated in a pot based on thing networking.
Fig. 10 is the utility model discloses intelligence controlling means photo resistance circuit schematic diagram cultivated in a pot based on thing networking machine.
Fig. 11 is the utility model discloses intelligence controlling means temperature and humidity sensor interface circuit schematic diagram cultivated in a pot based on thing networking.
Fig. 12 is the utility model discloses intelligence controlling means display module interface circuit schematic diagram cultivated in a pot based on thing networking.
In fig. 1: 1-intelligent potted plant control device based on internet of things; 2-power supply circuit module; 3-display module; 4-temperature and humidity sensor circuit module; 5-photo-resistor; 6-key module; 7-motor control circuit module; SIM800C telecommunications module; 9-light supplement circuit module; 10-soil moisture sensor circuit module; 11-AT 89C52 control core module;
the specific implementation mode is as follows:
example 1:
the utility model provides an intelligence controlling means cultivated in a pot based on thing networking, its constitution includes: a control device, characterized by: the control device comprises: the device comprises a power supply circuit module, a control core module AT89C52, a photoresistor module, a temperature and humidity sensor module DHT11, a soil humidity sensor circuit module YL-69, a motor control circuit module, a display module LCD1602, a key module, a SIM800C remote communication module and a light supplement circuit module.
Intelligence controlling means cultivated in a pot, characterized by: the power supply circuit module provides stable working voltage for the intelligent potting control device based on the Internet of things, so that other circuit modules can work normally; the control core module AT89C52 is used for realizing the acquisition, processing and transmission of basic data of the control device; the photoresistor module senses the sunlight intensity of the environment where the control device is located and collects information data for the control core module; the temperature and humidity sensor module DHT11 is used for collecting temperature and humidity information of the environment where the potted plant is located; the soil humidity sensor circuit module YL69 is used for collecting potted soil humidity information, and the motor control circuit module is positioned at the bottom of the water bottle and used for realizing potting irrigation; the display module LCD1602 realizes visual display of information; the key module realizes manual control of adding, subtracting, storing and watering of the upper and lower limits of the threshold value of each piece of information; the SIM800C remote communication module is used for realizing remote transmission of collected basic data, and the light supplement circuit module is used for realizing light supplement for potted plants.
Example 2:
the intelligent potting control device of embodiment 1, wherein the connection is via a wire as a connection medium.
Example 3:
the intelligent potting control device according to embodiment 1, wherein the temperature and humidity sensor module is controlled by the acquisition program to acquire temperature and humidity basic data, store the temperature and humidity basic data in a data group with a set format, wait for transmission, and send the temperature and humidity basic data to the control core module AT89C52 for further data processing.
Example 4:
the intelligent potting control device according to embodiment 1 is connected with the photoresistor module through a serial communication interface, and is controlled by a communication program to transmit information data from the SIM800C module, store the information data into a data group with a set format, wait for transmission, and transmit the data to the control core module AT89C52 for further data processing.
Example 5:
according to the intelligent potted plant control device of the embodiment 1, the serial communication interface arranged in the control core module AT89C52 is connected with the SIM800C module, and when the instruction of data transmission is given, the data read and written into the data group with the set format in the embodiments 3 and 4 are further processed in the control core module AT89C52 and then are transmitted to the remote server through the SIM800C network.
Example 6:
the intelligent potting control device according to embodiments 3 to 5 repeats the data collection, processing and transmission processes of embodiments 3 to 5 at the collection frequency strictly set according to the program, and processes the interrupt program or resets and restarts the intelligent potting control device when waiting for executing the abnormal condition processing interrupt program transmitted from the control center.

Claims (4)

1. Intelligence controlling means cultivated in a pot based on thing networking, characterized by: the control device (1) comprises a power supply module (2), a display module LCD1602(3), a temperature and humidity sensor DHT11(4), a photoresistor (5), a key module (6), a motor control circuit (7), a SIM800C remote communication module (8), a light supplement module (9), a soil humidity sensor YL-69(10) and an AT89C52 control core (11).
2. The intelligent potting control device of claim 1, wherein: the power supply module provides stable working voltage for the intelligent potting control device, so that the intelligent potting control device can work normally; the control core module AT89C52 is used for realizing the acquisition, processing and transmission of basic data of the control device; the light intensity of the sunlight of the environment where the photosensitive resistance sensing control device is located is used for controlling the core module to collect information data; the temperature and humidity sensor module DHT11 is used for collecting temperature and humidity information of the environment where the potted plant is located; the soil humidity sensor circuit module YL69 is used for collecting potted soil humidity information, and the motor control circuit module is positioned at the bottom of the water bottle and used for realizing potting irrigation; the display module LCD1602 realizes visual display of information; the key module realizes manual control of adding, subtracting, storing and watering of the upper and lower limits of the threshold value of each piece of information; the SIM800C remote communication module is used for realizing remote transmission of collected basic data, and the light supplement circuit module is used for realizing light supplement for potted plants.
3. The intelligent potting control device of claim 1, wherein: the power supply module is respectively connected with a display module LCD1602(3), a temperature and humidity sensor DHT11(4), a photoresistor (5), a key module (6), a motor control circuit (7), a SIM800C remote communication module (8), a light supplement module (9), a soil humidity sensor YL-69(10) and an AT89C52 control core (11); the control core module is connected with an RS port of the display module through a serial power communication port P P2.5.5 and is connected with an RW port of the display module through a serial communication port P2.6; is connected with the E port of the display module through a serial communication port P2.7, is connected with the DB0 port through a serial communication port P0.0, is connected with the DB1 port through a serial communication port P0.1, is connected with the DB2 port through a serial communication port P0.2, is connected with the DB3 port through a serial communication port P0.3, is connected with the DB4 port through a serial communication port P0.4, is connected with the DB5 port through a serial communication port P0.5, is connected with the DB6 port through a serial communication port P0.6 and is connected with the DB7 port through a serial communication port P0.7; the control core module is connected with a DAT port of the temperature and humidity sensor module through a serial communication port P3.7; the control core module is connected with the port of the photoresistor SUN through a serial communication port P1.0; the control core module is connected with a TXD port of the SIM800C remote communication module through a serial communication port P3.0 and is connected with an RXD port of the SIM800C remote communication module through a serial communication port P3.1; the control core module is connected with a KEY _1 port of the KEY module through a serial communication port P3.2, connected with a KEY _2 port of the KEY module through a serial communication port P3.3 and connected with a KEY _3 port of the KEY module through a serial communication port P3.4; the control core module is connected with an INPUT port of the motor control circuit module through a serial communication port P2.0; the control core module is connected with the ports of the light supplement circuit modules IN1, IN2, IN3 and IN4 through serial communication ports P2.1, P2.2, P2.3 and P2.4; the control core module is connected with a D0 port of the soil humidity sensor circuit module YL-69 through a serial communication port P1.1.
4. The intelligent potting control device of claim 1, wherein: the intelligent potted plant control device based on the Internet of things is characterized in that the connection is realized by using a wire as a connection medium.
CN201920847282.7U 2019-06-06 2019-06-06 Intelligent potting control device based on Internet of things Expired - Fee Related CN210199593U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920847282.7U CN210199593U (en) 2019-06-06 2019-06-06 Intelligent potting control device based on Internet of things

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920847282.7U CN210199593U (en) 2019-06-06 2019-06-06 Intelligent potting control device based on Internet of things

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112556751A (en) * 2020-12-01 2021-03-26 辽宁工程技术大学 Household potted plant monitoring device based on single chip microcomputer

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112556751A (en) * 2020-12-01 2021-03-26 辽宁工程技术大学 Household potted plant monitoring device based on single chip microcomputer

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