CN115316224A

CN115316224A - Green automatic irrigation system of planting based on SSM

Info

Publication number: CN115316224A
Application number: CN202210527310.3A
Authority: CN
Inventors: 李世成
Original assignee: Suzhou Sanrun Landscape Engineering Co ltd
Current assignee: Suzhou Sanrun Landscape Engineering Co ltd
Priority date: 2022-05-16
Filing date: 2022-05-16
Publication date: 2022-11-11

Abstract

The invention relates to an SSM-based green plant automatic irrigation system, which comprises: irrigation water pipe module: the irrigation water pipe module comprises a main water pipe, a water diversion pipe communicated with the main water pipe is arranged corresponding to the green plant, one end of the water diversion pipe is communicated with the main water pipe, and the other end of the water diversion pipe is provided with an irrigation opening; a data acquisition module: the data acquisition module comprises a humidity sensing sensor and a temperature sensor, wherein the humidity sensing sensor is arranged corresponding to the green plants and used for acquiring the humidity of the soil where the green plants are located, and the temperature sensor is used for acquiring the temperature of the soil where the green plants are located; a main control module; an irrigation drive; a PC management device; the main control module receives humidity data and temperature data acquired by the humidity sensing sensor and the temperature sensor, judges irrigation quantity, controls the travelling speed of the irrigation driving piece to obtain the irrigation quantity, and finishes irrigation when the rear humidity data and the temperature data reach a preset value.

Description

Green automatic irrigation system of planting based on SSM

Technical Field

The invention relates to the technical field of green plant maintenance technology and using equipment, in particular to green plant irrigation technology in garden greening, and particularly shows an SSM-based automatic green plant irrigation system.

Background

With the acceleration of urbanization footsteps in China, a management system for greening and watering problems of crops, lawns and parks gradually receives wide attention of people, the pursuit of good life is continuously improved, the pursuit of people for home environment is also continuously improved, and a plurality of people choose to plant green flowers in indoor balconies or outdoor courtyards, so that the quality of life is improved.

However, the pace of life of people is also increasing at present, and certain green plant maintenance knowledge is lacked, so that it is difficult to select green plants suitable for cultivation and scientifically irrigate the green plants timely and properly.

Therefore, there is a need to provide an SSM-based green plant automatic irrigation system to solve the above problems.

Disclosure of Invention

The invention aims to provide an SSM-based green plant automatic irrigation system.

The invention realizes the purpose through the following technical scheme:

an SSM-based green plant automated irrigation system comprising:

an irrigation water pipe module: the irrigation water pipe module comprises a main water pipe, a branch water pipe communicated with the main water pipe is arranged corresponding to the green plant, one end of the branch water pipe is communicated with the main water pipe, and the other end of the branch water pipe is provided with an irrigation opening;

a data acquisition module: the data acquisition module comprises a humidity sensing sensor and a temperature sensor, wherein the humidity sensing sensor is arranged corresponding to the green plants and used for acquiring the humidity of the soil where the green plants are located, and the temperature sensor is used for acquiring the temperature of the soil where the green plants are located;

a main control module: used for receiving the collected information and issuing an irrigation instruction;

irrigation driving part: the main control module is arranged on the main water pipe and is controlled by the main control module;

the irrigation opening corresponds to the driving body: the water distribution pipe is arranged on the water distribution pipe and is matched with the irrigation driving piece;

the PC management device: the PC equipment is wirelessly or wiredly communicated with the main control module and is used for managing and storing the acquired data and the management data;

the main control module receives humidity data and temperature data acquired by the humidity sensing sensor and the temperature sensor, judges irrigation quantity, controls irrigation quantity by the advancing speed of the irrigation driving piece, and finishes irrigation when the rear humidity data and the temperature data reach preset values.

Further, setting a humidity value A, irrigating when the data A1 acquired by the humidity induction sensor is lower than A, and setting the irrigation speed to be B1 when the numerical value of A1 is in an interval of 0.5-1 times A; when the numerical value of A1 is in the range of 0.3-0.5 times A, the irrigation speed is B2; when the numerical value of A1 is in the interval of 0.2-0.3 times A, the irrigation speed is B2; a1 The irrigation speed is B3 when the numerical value is between 0.1 and 0.2 times A.

Furthermore, B3 is 2.3-2.5 times of B2, and B2 is 1.2-1.4 times of B1.

Further, temperature sensor is used for gathering soil temperature C, and soil temperature C is used for predicting the steam evaporation capacity, and the evaluation is after long time D, and green planting needs to irrigate, carries out humidity collection afterwards, further judges the irrigation condition.

Further, irrigate the driving piece including corresponding drive block A and the drive block B that sets up on main water pipe, drive block A and drive block B one side correspond and are connected, and correspond the connection side and be provided with double-end plastic envelope motor, drive block A and drive block B correspond and match main water pipe profile modeling slot portion and all are provided with the drive wheel body, and the drive wheel body receives double-end plastic envelope motor drive.

Further, the surface of the driving wheel body is provided with a driving layer for increasing driving friction.

Further, correspond the driving body on the drive block A and correspond the irrigation mouth and be provided with the drive rack, the drive rack includes the rack main part, and the rack main part corresponds the both ends that the irrigation mouth corresponds the driving body side and all is provided with drive tooth portion.

Furthermore, an idle stroke buffering part is formed between the two driving tooth parts, and the driving block B is provided with a driving power supply module which is matched with the main control module and used for controlling the rotating speed of the double-head plastic package motor.

Further, irrigation mouthful corresponds the driving body including setting up the ball valve in the water diversion pipe, and the ball valve passes through drive rod intercommunication driven gear, and driven gear receives the drive rack drive.

Compared with the prior art, the system and the method have the advantages that the temperature and humidity data of the green plants are collected, displayed and uploaded by comprehensively utilizing the technology of the Internet of things and the sensor, and the green plants are scientifically and automatically irrigated.

Drawings

FIG. 1 is one of the schematic diagrams of the present invention.

FIG. 2 is a second schematic diagram of the present invention.

FIG. 3 is a third schematic diagram of the present invention.

FIG. 4 is a fourth schematic view of the present invention.

Detailed Description

This embodiment shows an SSM-based green plant automatic irrigation system, including:

an irrigation water pipe module: the irrigation water pipe module comprises a main water pipe 100, a water diversion pipe 200 communicated with the main water pipe is arranged corresponding to a green plant place, one end of the water diversion pipe is communicated with the main water pipe, and the other end of the water diversion pipe is provided with an irrigation opening;

irrigation drive 300: the main control module is arranged on the main water pipe and is controlled by the main control module;

Setting a humidity value A, irrigating when the data A1 acquired by the humidity induction sensor is lower than A, and setting the irrigation speed as B1 when the numerical value of A1 is in the range of 0.5-1 times A; when the numerical value of A1 is in the interval of 0.3-0.5 times A, the irrigation speed is B2; when the numerical value of A1 is in the interval of 0.2-0.3 times A, the irrigation speed is B2; when the A1 value is in the interval of 0.1-0.2 times A, the irrigation speed is B3.

B3 is 2.3 to 2.5 times of B2, and B2 is 1.2 to 1.4 times of B1.

Temperature sensor is used for gathering soil temperature C, and soil temperature C is used for predicting the steam evaporation capacity, and the evaluation is after long time D, and green planting needs to irrigate, carries out humidity collection afterwards, further judges the irrigation condition.

Referring to fig. 1-2, irrigation driving member 300 includes that the correspondence sets up drive block A1 and drive block B11 on main water pipe 100, and drive block A1 and drive block B11 one side correspond to be connected, and correspond the connection side and be provided with double-end plastic envelope motor 3, and drive block A1 and drive block B11 correspond the main water pipe profile modeling slot part of matching and all are provided with drive wheel body 2, and drive wheel body 2 is driven by double-end plastic envelope motor 3, corresponds the drive shaft 21 of connecting double-end plastic envelope motor 3.

The surface of the driving wheel body 2 is provided with a driving layer for increasing driving friction.

Correspond the driving body and be provided with drive rack 6 corresponding to the irrigation opening on the drive block A1, drive rack 6 includes rack main part 61, and rack main part 61 corresponds the both ends that the driving body side was corresponded to the irrigation opening and all is provided with drive tooth portion 62.

An idle stroke buffer part 63 is formed between the two driving tooth parts 62, and the driving block B11 is provided with a driving power supply module 4 which is matched with the main control module and used for controlling the rotating speed of the double-end plastic package motor 3.

Referring to fig. 3, the irrigation opening corresponding driving body 5 includes a ball valve 52 disposed in the water distribution pipe 200, the ball valve 52 is communicated with a driven gear 51 through a driving rod 50, and the driven gear 51 is driven by a driving rack 6.

Compared with the prior art, the system and the method realize the acquisition, display and uploading of green plant temperature and humidity data by comprehensively utilizing the technology of the Internet of things and the sensor, and scientifically and automatically irrigate green plants.

What has been described above are merely some of the embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an automatic irrigation system is planted to green based on SSM, the characteristic is: the method comprises the following steps:

irrigation water pipe module: the irrigation water pipe module comprises a main water pipe, a branch water pipe communicated with the main water pipe is arranged corresponding to the green plant, one end of the branch water pipe is communicated with the main water pipe, and the other end of the branch water pipe is provided with an irrigation opening;

the PC management device: the PC equipment is communicated with the main control module wirelessly or in a wired mode and is used for managing and storing the collected data and the management data;

2. The SSM-based green plant robotic irrigation system as claimed in claim 1, further comprising: setting a humidity value A, irrigating when the data A1 acquired by the humidity induction sensor is lower than A, and setting the irrigation speed as B1 when the numerical value of A1 is in the range of 0.5-1 times A; when the numerical value of A1 is in the interval of 0.3-0.5 times A, the irrigation speed is B2; when the numerical value of A1 is in the interval of 0.2-0.3 times A, the irrigation speed is B2; when the A1 value is in the interval of 0.1-0.2 times A, the irrigation speed is B3.

3. The SSM-based green plant robotic irrigation system as claimed in claim 2, wherein: b3 is 2.3 to 2.5 times of B2, and B2 is 1.2 to 1.4 times of B1.

4. An SSM-based green plant robotic irrigation system as claimed in claim 3 wherein: temperature sensor is used for gathering soil temperature C, and soil temperature C is used for predicting the steam evaporation capacity, and the evaluation is after long time D, and green planting needs to irrigate, carries out humidity collection afterwards, further judges the irrigation condition.

5. The SSM-based automatic green plant watering system according to any one of claims 1-4 characterised by: the irrigation driving piece comprises a driving block A and a driving block B which are correspondingly arranged on the main water pipe, one side of the driving block A and one side of the driving block B are correspondingly connected, the corresponding connecting side is provided with a double-head plastic package motor, the driving block A and the driving block B are correspondingly matched with the main water pipe profiling groove portion and are provided with driving wheel bodies, and the driving wheel bodies are driven by the double-head plastic package motor.

6. The SSM-based green plant automatic irrigation system as claimed in claim 5, characterized in that: the surface of the driving wheel is provided with a driving layer used for increasing driving friction.

7. The SSM-based green plant automatic watering system according to claim 6 is characterized by: the driving block A is provided with a driving rack corresponding to the irrigation opening and a driving body, the driving rack comprises a rack main body, and the rack main body corresponds to two ends of the irrigation opening corresponding to the driving body and is provided with a driving tooth part.

8. The SSM-based green plant robotic irrigation system as claimed in claim 7, wherein: an idle stroke buffer part is formed between the two driving tooth parts.

9. The SSM-based green plant robotic irrigation system as claimed in claim 8, further comprising: the driving block B is provided with a driving power supply module which is matched with the main control module and used for controlling the rotating speed of the double-head plastic package motor.

10. The SSM-based green plant robotic irrigation system as claimed in claim 9, further comprising: the driving body corresponding to the irrigation opening comprises a ball valve arranged in the water distribution pipe, the ball valve is communicated with a driven gear through a driving rod, and the driven gear is driven by a driving rack.