CN219122608U - Automatic irrigation monitoring system for greenhouse - Google Patents

Abstract

The utility model discloses an automatic irrigation monitoring system for a greenhouse, which relates to the field of automatic irrigation of the greenhouse, and comprises the following components: the device comprises a processor module, a buzzer module, a data acquisition and measurement module, an operation display screen module, an execution module and a data monitoring module; the automatic irrigation monitoring system comprises a buzzer module, a data acquisition and measurement module, a data monitoring module, an operation display screen module, an execution module and a data monitoring module, wherein the buzzer module, the data acquisition and measurement module, the data monitoring module, the operation display screen module, the execution module and the data monitoring module are connected with the processor module to complete the monitoring of the automatic irrigation of the greenhouse.

Description

Automatic irrigation monitoring system for greenhouse

Technical Field

The utility model relates to the field of automatic irrigation of greenhouses, in particular to an automatic irrigation monitoring system for greenhouses.

Background

The greenhouse is one of the indispensable facilities in plant cultivation production, is used for changing the growth environment of plants, avoiding the adverse effects of external four-season change and bad weather on crop growth, and creates proper good conditions for plant growth. Automatic irrigation technology of greenhouses is currently mainly used for regulating and controlling the environment in the greenhouse by using an accurate microprocessor control program, and the temperature in the greenhouse can be changed in the highest temperature range and the lowest temperature range so as to achieve ideal average temperature in a longer period of time.

However, the ecological environment condition of the conventional greenhouse needs to be manually detected and then manually adjusted, for example: when workers observe that the temperature value detected by the thermometer in the greenhouse is too high, the rolling curtain is manually opened, and when the workers observe that the soil in the greenhouse is drought, the spraying device is manually started to spray water to plants and the soil so as to adjust the soil humidity.

Traditional warmhouse booth plants through manual observation, adjusts the mode of ecological environment in the big-arch shelter, needs to consume a large amount of manpowers, and is with high costs.

Therefore, providing a new technical solution to improve the above problems is an urgent need for those skilled in the art.

Disclosure of Invention

In view of the above, the present utility model provides an automatic irrigation monitoring system for a greenhouse, which can be freely adjusted under the condition of using the lowest energy consumption and optimally utilizing the existing equipment in the greenhouse, and introduces the microprocessor technology, the automatic control technology and the sensor technology into the greenhouse, so as to realize the functions of the automatic irrigation monitoring system for the greenhouse, so as to solve the above technical problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an automatic irrigation monitoring system for a greenhouse, comprising: the device comprises a processor module, a buzzer module, a data acquisition and measurement module, an operation display screen module, an execution module and a data monitoring module; the buzzer module, the data acquisition and measurement module, the operation display screen module, the execution module and the data monitoring module are connected with the processor module, so that automatic irrigation monitoring of the greenhouse is completed.

In the above scheme, the processor module includes a CPU microprocessor and a FLASH memory; the data acquisition and measurement module comprises a temperature sensor, a soil humidity sensor and an A/D conversion module; the temperature sensor and the soil humidity sensor are respectively connected with the A/D conversion module, and the A/D conversion module is electrically connected with the CPU microprocessor; the operation display screen module comprises a touch display screen and a fingerprint switch key; the execution module comprises an electromagnetic valve and a water valve; the data monitoring module comprises a wireless camera.

In summary, the beneficial effects of the utility model are as follows: according to the utility model, by combining with a micro-processing technology and an automatic control technology, the temperature data and the soil humidity data in the greenhouse are obtained in real time by a sensor technology, when the temperature and the soil humidity in the greenhouse are abnormal, a buzzer alarms, and meanwhile, a control signal sent by a processor is used for carrying out spray irrigation control on the interior of the greenhouse; the user can know the conditions of the temperature and the soil humidity in the greenhouse in real time through the operation display screen module; the monitoring system can send information monitored in real time to the display screen and store the information in the FLASH storage device, so that a user can conveniently check the historical data of the temperature and the soil humidity in the greenhouse, the informationized and automatic management of the greenhouse is realized, conditions are created for high yield and high quality of crops, and the system helps the user to improve efficiency, reduce cost and increase income.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model.

Fig. 1 is a schematic diagram of a processor module of an automatic irrigation monitoring system for a greenhouse according to the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the following embodiments and the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent. The exemplary embodiments of the present utility model and the descriptions thereof are used herein to explain the present utility model, but are not intended to limit the utility model.

As shown in fig. 1, an automatic irrigation monitoring system for a greenhouse of the present utility model includes: the device comprises a processor module, a buzzer module, a data acquisition and measurement module, an operation display screen module, an execution module and a data monitoring module.

The connection relationship between the above modules of the present utility model will be described in further detail with reference to the accompanying drawings.

The buzzer module, the data acquisition and measurement module, the operation display screen module, the execution module and the data monitoring module are connected with the processor module, so that automatic irrigation monitoring of the greenhouse is completed.

As shown in FIG. 1, the composition of the processor module of the automatic irrigation monitoring system for the greenhouse according to the utility model is schematically shown.

In this embodiment, the processor module includes a CPU microprocessor and a FLASH memory; the processor module is used for processing the acquired temperature and soil humidity data in the greenhouse and storing the acquired data; the buzzer module performs buzzer alarm when the temperature and the soil humidity in the greenhouse are abnormal; the data acquisition and measurement module is used for acquiring temperature data and soil humidity data in the greenhouse; the operation display screen module is used for displaying temperature data and soil humidity data in the greenhouse, receiving information of operation performed by a user and sending the information to the processor module; the execution module is used for carrying out sprinkling irrigation control on the interior of the greenhouse according to the control signal sent by the processor module; the data monitoring module is used for monitoring the collected temperature data and soil humidity data in the greenhouse in real time and feeding the data back to the processor module.

As shown in fig. 1, a schematic diagram of a data collector module of an automatic irrigation monitoring system for a greenhouse according to the present utility model is shown; the data acquisition and measurement module comprises a temperature sensor, a soil humidity sensor and an A/D conversion module.

In this embodiment, the data acquisition and measurement module includes a temperature sensor, a soil humidity sensor, and an a/D conversion module; the temperature sensor and the soil humidity sensor are respectively connected with the A/D conversion module; the humidity sensor and the A/D converter are used for measuring temperature and soil humidity data in the greenhouse, sending the data to the A/D converter for A/D conversion and sending the data to the processor module, analyzing and comparing the data signals converted by the A/D converter with preset values by the processing module, and storing the data signals in the FLASH memory, and simultaneously sending the processing signals to the monitoring module and the operation display screen module.

As shown in FIG. 1, the operation display screen module in the automatic irrigation monitoring system for the greenhouse comprises a touch display screen and a fingerprint switch key.

In this embodiment, the operation display screen receives the processing signal and displays the processing signal on the operation display screen module, so that the user can conveniently read and retrieve the historical data; the fingerprint switch key is used for a user to open and close the operation display screen.

As shown in fig. 1, a schematic diagram of a middle execution module of an automatic irrigation monitoring system for a greenhouse according to the present utility model is shown; the execution module comprises an electromagnetic valve and a water valve.

In this embodiment, the execution module receives an execution signal sent by the processor module to execute the execution signal; and irrigation is carried out on the interior of the greenhouse by opening the electromagnetic valve and the water valve.

As shown in fig. 1, a schematic diagram of a data monitoring module of an automatic irrigation monitoring system for a greenhouse according to the present utility model is shown; the data monitoring module comprises a wireless camera.

In this embodiment, the data monitoring module includes wireless camera for real-time supervision warmhouse booth internal environment condition makes things convenient for the user to look over warmhouse booth internal environment in real time.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and various modifications and variations can be made to the embodiments of the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. An automatic irrigation monitoring system for a greenhouse, comprising: the device comprises a processor module, a buzzer module, a data acquisition and measurement module, an operation display screen module, an execution module and a data monitoring module;

the processor module is used for processing the acquired temperature and soil humidity data in the greenhouse and storing the acquired data;

the buzzer module is electrically connected with the processor module and is used for performing buzzer alarm when the temperature and the soil humidity in the greenhouse are abnormal;

the data acquisition and measurement module is electrically connected with the processor module and is used for acquiring temperature data and soil humidity data in the greenhouse;

the operation display screen module is electrically connected with the processor module and is used for a user to check temperature data inside the greenhouse and display soil humidity data, and information of operation performed by the user is received and sent to the processor module;

the execution module is electrically connected with the processor module and is used for controlling spraying irrigation in the greenhouse according to the control signals sent by the processor module;

the data monitoring module is electrically connected with the processor module and feeds data back to the processor module.

2. The automatic irrigation monitoring system for a greenhouse of claim 1, wherein the processor module comprises a CPU microprocessor and FLASH memory.

3. The automatic irrigation monitoring system for a greenhouse of claim 2, wherein the data acquisition measurement module comprises a temperature sensor, a soil moisture sensor, and an a/D conversion module; the temperature sensor and the soil humidity sensor are connected with the A/D conversion module, and the A/D conversion module is electrically connected with the CPU microprocessor.

4. The automatic irrigation monitoring system for a greenhouse of claim 1, wherein the operation display screen module comprises a touch display screen and a fingerprint switch key.

5. The automatic irrigation monitoring system for a greenhouse of claim 1, wherein the execution module comprises a solenoid valve and a water valve.

6. The automatic irrigation monitoring system for a greenhouse of claim 1, wherein the data monitoring module comprises a wireless camera.

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