CN213463258U - Robinia pseudoacacia planting is with driping irrigation device - Google Patents

Abstract

The utility model discloses a drip irrigation device for planting golden locust, which comprises a data acquisition module, a main control module and a driving module; the first wireless communication module, the storage module, the WIFI wireless communication module, the human-computer interaction interface and the automatic alarm device are respectively connected with the controller; the soil temperature and humidity detector is electrically connected with the second wireless communication module, the soil PH value detector is electrically connected with the third wireless communication module, the illuminance sensor is electrically connected with the fourth wireless communication module, the moisture detector is electrically connected with the fifth wireless communication module, the oxygen diffusivity measuring instrument is electrically connected with the sixth wireless communication module, the air temperature and humidity sensor is electrically connected with the seventh wireless communication module, and the nutrient detector is electrically connected with the eighth wireless communication module; through the design, the purposes of detecting various data influencing the growth of crops, regulating and controlling through various devices and ensuring the optimal environment for the growth of the crops are achieved.

Description

Robinia pseudoacacia planting is with driping irrigation device

Technical Field

The utility model relates to an farming technical field especially relates to a gold pagoda tree is planted with driping irrigation device.

Background

The drip irrigation technology is a water-saving irrigation mode widely applied at present, and water is sent to the root accessories of crops for local irrigation by using a pipeline through micropores on a capillary or an irrigator. The water-saving irrigation method is the most effective water-saving irrigation method in arid water-deficient areas at present, the utilization rate of water reaches 95%, and meanwhile, fertilization and medication can be combined to form a water-fertilizer-medication integrated technology, so that the fertilizer efficiency and the pesticide effect are greatly improved. The drip irrigation can be suitable for fruit trees, vegetables and economic plants and greenhouse large irrigation, and can also be used for field crop irrigation in arid water-deficient places.

The existing authorized utility model patent, such as patent application No. CN201821589613.3, named as a utility model patent of an automatic drip irrigation system, comprises a controller, and a sensor, an automatic alarm device, a user terminal and a driving circuit which are connected with the controller, wherein the sensor comprises a soil humidity sensor, an air temperature and humidity sensor, an illumination sensor and an air speed sensor; the driving circuit is connected with each path of electromagnetic valve of the drip irrigation device; the growth environment of the crops is detected through the sensor, and is compared with the preset conditions, so that the opening or closing of the electromagnetic valve of the drip irrigation device is controlled, and the full-automatic drip irrigation operation of the crops is realized.

However, the influence of illumination intensity is also huge in the crop planting process neglected by the scheme, meanwhile, in the fertilizing process, a targeted fertilizer is used according to the pH value of soil, the oxygen content in the soil is also very important to crops, the more watering is performed, the better watering is performed, and the soil water content reaching the standard is most appropriate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: neglect the problem that soil pH valve directly fertilizied in order to solve current drip irrigation equipment, solve the not enough problem of illuminance in the crops growth process simultaneously to and solve soil oxygen content and can appear not enough problem.

The utility model aims at realizing through the following technical scheme:

a drip irrigation device for planting of Sophora japonica is characterized by comprising a data acquisition module, a main control module and a driving module;

the data acquisition module comprises a soil temperature and humidity detector, a soil pH value detector, a illuminance sensor, a moisture detector, an oxygen diffusivity measuring instrument, an air temperature and humidity sensor, a nutrient detector, a second wireless communication module, a third wireless communication module, a fourth wireless communication module, a fifth wireless communication module, a sixth wireless communication module, a seventh wireless communication module and an eighth wireless communication module;

the soil temperature and humidity detector is electrically connected with the second wireless communication module, the soil PH value detector is electrically connected with the third wireless communication module, the illuminance sensor is electrically connected with the fourth wireless communication module, the moisture detector is electrically connected with the fifth wireless communication module, the oxygen diffusivity measuring instrument is electrically connected with the sixth wireless communication module, the air temperature and humidity sensor is electrically connected with the seventh wireless communication module, and the nutrient detector is electrically connected with the eighth wireless communication module;

the main control module comprises a first wireless communication module, a storage module, a WIFI wireless communication module, a human-computer interaction interface, an automatic alarm device and a controller, and the first wireless communication module, the storage module, the WIFI wireless communication module, the human-computer interaction interface and the automatic alarm device are respectively connected with the controller;

the second wireless communication module, the third wireless communication module, the fourth wireless communication module, the fifth wireless communication module, the sixth wireless communication module, the seventh wireless communication module and the eighth wireless communication module are respectively in communication connection with the first wireless communication module;

the driving module comprises a watering pipe flow control valve regulator, an acid fertilizer pipe flow control valve regulator, an alkaline fertilizer pipe flow control valve regulator, a light supplement lamp power regulator, an oxygen supplement pipe flow control valve regulator, a watering device driver, a watering pipe flow control valve, an acid fertilizer pipe flow control valve, an alkaline fertilizer pipe flow control valve, a light supplement lamp, an oxygen supplement pipe flow control valve and a watering device;

the watering pipe flow control valve regulator is connected with the controller, and the watering pipe flow control valve is connected with the watering pipe flow control valve regulator; the acid fertilizer pipe flow control valve regulator is connected with the controller, and the acid fertilizer pipe control valve is connected with the acid fertilizer pipe control valve regulator; the alkaline fertilizer pipe flow control valve regulator is connected with the controller, and the alkaline fertilizer pipe control valve is connected with the alkaline fertilizer pipe control valve regulator; the light supplement lamp power regulator is connected with the controller, and the light supplement lamp is connected with the light supplement lamp power regulator; the oxygen supply pipe flow control valve regulator is connected with the controller, and the oxygen supply pipe flow control valve is connected with the oxygen supply pipe flow control valve regulator; the sprinkler driver is connected with the controller, and the sprinkler is connected with the sprinkler driver.

Further, the oxygenating pipe flow control valve is arranged at an air inlet of the oxygenating pipe, and the oxygenating pipe is arranged in the soil of the planting field.

Furthermore, the water spraying device adopts a water mist spraying device, and a nozzle of the water mist spraying device sprays obliquely towards the branches and leaves of the plants.

Furthermore, the light filling lamp sets up around planting the ground, and the light filling lamp adopts the plant light filling lamp.

Further, a soil moisture standard comparison value, a plant illumination standard comparison value, an oxygen diffusivity standard comparison value, a temperature and humidity control standard comparison value, a nutrient standard comparison value and a soil pH value standard comparison value are preset in the storage module.

Furthermore, the WIFI wireless communication module is used for connecting the controller with the terminal server.

Furthermore, the human-computer interaction interface comprises a display screen and a key, and the key can be used for setting a standard comparison value in the storage module.

Further, the controller is further connected with a power supply module, the power supply module comprises a power supply switching module, a commercial power supply module and a standby battery pack power supply module, the power supply switching module is connected with the controller, and the commercial power supply module and the standby battery pack power supply module are respectively connected with the power supply switching module.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a design of soil pH value detector, nourishment detector, acid fertilizer jar, alkaline fertilizer jar for can be under the condition of soil lack of nutrients, use corresponding acid-base fertilizer according to soil pH valve and crops characteristic.

2. The utility model discloses a design of illuminance sensor, light filling lamp can detect illumination intensity to carry out illumination compensation according to the most suitable illumination intensity of crops, satisfy the illumination needs of crops.

3. The utility model discloses a design of soil temperature and humidity detector, moisture detector, watering pipe for can water according to soil needs, and when moisture reached the standard value, the device that waters of self-closing avoided the too much problem of soil moisture content.

4. The utility model discloses an air temperature and humidity sensor, watering device's design for can detect the humiture in the air, and carry out the watering, guarantee the new freshness of branch and leaf or fruit of crops.

Drawings

FIG. 1 is an overall system diagram of the present invention;

fig. 2 is a detailed system diagram of the controller and the driving module according to the present invention;

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A drip irrigation device for planting of Sophora japonica is characterized by comprising a data acquisition module, a main control module and a driving module;

the data acquisition module comprises a soil temperature and humidity detector, a soil pH value detector, a illuminance sensor, a moisture detector, an oxygen diffusivity measuring instrument, an air temperature and humidity sensor, a nutrient detector, a second wireless communication module, a third wireless communication module, a fourth wireless communication module, a fifth wireless communication module, a sixth wireless communication module, a seventh wireless communication module and an eighth wireless communication module;

the soil temperature and humidity detector is electrically connected with the second wireless communication module, the soil PH value detector is electrically connected with the third wireless communication module, the illuminance sensor is electrically connected with the fourth wireless communication module, the moisture detector is electrically connected with the fifth wireless communication module, the oxygen diffusivity measuring instrument is electrically connected with the sixth wireless communication module, the air temperature and humidity sensor is electrically connected with the seventh wireless communication module, and the nutrient detector is electrically connected with the eighth wireless communication module;

the main control module comprises a first wireless communication module, a storage module, a WIFI wireless communication module, a human-computer interaction interface, an automatic alarm device and a controller, and the first wireless communication module, the storage module, the WIFI wireless communication module, the human-computer interaction interface and the automatic alarm device are respectively connected with the controller;

the second wireless communication module, the third wireless communication module, the fourth wireless communication module, the fifth wireless communication module, the sixth wireless communication module, the seventh wireless communication module and the eighth wireless communication module are respectively in communication connection with the first wireless communication module;

the driving module comprises a watering pipe flow control valve regulator, an acid fertilizer pipe flow control valve regulator, an alkaline fertilizer pipe flow control valve regulator, a light supplement lamp power regulator, an oxygen supplement pipe flow control valve regulator, a watering device driver, a watering pipe flow control valve, an acid fertilizer pipe flow control valve, an alkaline fertilizer pipe flow control valve, a light supplement lamp, an oxygen supplement pipe flow control valve and a watering device;

the watering pipe flow control valve regulator is connected with the controller, and the watering pipe flow control valve is connected with the watering pipe flow control valve regulator; the acid fertilizer pipe flow control valve regulator is connected with the controller, and the acid fertilizer pipe control valve is connected with the acid fertilizer pipe control valve regulator; the alkaline fertilizer pipe flow control valve regulator is connected with the controller, and the alkaline fertilizer pipe control valve is connected with the alkaline fertilizer pipe control valve regulator; the light supplement lamp power regulator is connected with the controller, and the light supplement lamp is connected with the light supplement lamp power regulator; the oxygen supply pipe flow control valve regulator is connected with the controller, and the oxygen supply pipe flow control valve is connected with the oxygen supply pipe flow control valve regulator; the sprinkler driver is connected with the controller, and the sprinkler is connected with the sprinkler driver.

The working principle of the scheme is briefly described as follows:

in the utility model, the temperature and humidity in the soil are detected by a soil temperature and humidity sensor, a moisture detector detects the water content in the soil and sends the water content to a first wireless communication module connected with a controller by a second wireless communication module and a fifth wireless communication module respectively, the controller extracts preset standard water content data from a storage module for processing and analysis after receiving real-time data, when the water content is insufficient, a watering pipe flow control valve regulator is controlled to open a watering pipe flow control valve to drip irrigation and water crops, the watering speed is regulated by the watering pipe flow control valve in the watering process, over-vigorous watering is avoided, after watering, the water content of the soil is increased, when a set threshold value is reached, the controller controls the watering pipe flow control valve regulator to close the watering pipe, the purpose of accurate watering is realized, and a nutrient detector detects nutrients required by crops in the soil, the soil pH value detector detects the pH value of soil, and respectively through eighth wireless communication module, the controller is sent to the second wireless communication module, when the nourishment content does not reach the threshold value of settlement, the controller corresponds the acid-base fertilizer jar according to the pH value control that the soil pH value detector detected again, if soil obviously is sour, alkaline fertilizer pipe control valve is opened to controller control alkaline fertilizer pipe control valve regulator then, the same way, if soil pH value obviously is basicity, alkaline fertilizer pipe control valve is opened to controller control alkaline fertilizer pipe control valve regulator then, the pH value of soil is neutralized in the fertilization simultaneously, make the better growth of plant. The illumination intensity sensor detects the illumination intensity that crops received to send for the controller through fourth wireless communication module, when illumination intensity did not reach the threshold value of setting for, the controller will control light filling lamp power adjuster and open crops light filling lamp all around, carry out the light filling to crops and handle. The oxygen diffusivity measuring instrument detects the oxygen diffusion rate in the soil, and send data to the controller through the sixth wireless communication module, when the oxygen diffusion rate is lower than the threshold value of settlement, then the oxygen content in the soil is not enough this moment, the controller will control oxygenating pipe flow control valve regulator to open oxygenating pipe flow control valve, from external input oxygen in the soil, know that oxygen content rate reaches the standard value of settlement, air temperature and humidity sensor detects the humiture in the air around the crops, and send to the controller through the seventh wireless communication module, if the humiture numerical value in the air does not reach the threshold value of settlement, the controller will control sprinkler driver to open sprinkler, the shower nozzle sprays water smoke upwards, water smoke falls on the leaf of crops or on the fruit and for their supplementary moisture, keep fresh. The data acquisition module and the controller are connected through the wireless communication module, the wiring step with a complex wired wiring mode is omitted, the position of the control system is not limited, the control system can be placed in a safer and more reasonable position, meanwhile, when any data goes wrong, the controller processes the data, and if the data does not change, the automatic alarm device starts to indicate that the equipment goes wrong at the moment and needs to be processed in time.

Furthermore, the oxygen supply pipe flow control valve is arranged at an air inlet of the oxygen supply pipe, the oxygen supply pipe is arranged in soil of the planting field, oxygen content of the soil is improved by injecting oxygen into the soil, and sufficient oxygen is provided for growth of crops.

Furthermore, the water spraying device adopts a water mist spraying device, a nozzle of the water mist spraying device sprays water obliquely towards the branches and leaves of the plants, and the freshness of the branches and leaves and the freshness of the fruits are kept through water spraying.

Further, the light filling lamp sets up around planting the ground, and the light filling lamp adopts the plant light filling lamp, provides sufficient illumination for crops through the plant light filling lamp, promotes the photosynthesis of crops.

Furthermore, soil moisture standard comparison value, plant illuminance standard comparison value, oxygen diffusivity standard comparison value, control humiture standard comparison value, nutrient standard comparison value and soil pH value standard comparison value are preset in the storage module, and the controller is convenient to analyze and process through preset standard numerical values, so that the design difficulty is reduced, and the implementation is easier.

Further, WIFI wireless communication module is used for connection director and terminal server, gives terminal server with data transmission, conveniently preserves data, and the later stage is according to data improvement system.

Furthermore, the human-computer interaction interface comprises a display screen and a key, the key can be used for setting a standard comparison value in the storage module, various environmental standard values of different crops are different, the setting can be directly performed through the key, and the operation is simple.

Further, the controller is connected with a power supply module, the power supply module comprises a power supply switching module, a mains supply module and a standby battery pack power supply module, the power supply switching module is connected with the controller, the mains supply module and the standby battery pack power supply module are respectively connected with the power supply switching module, power is supplied alternately through mains supply and a standby power supply, and when the mains supply is insufficient, normal operation of the system is guaranteed.

It is worth noting that: soil humiture detector in this scheme, soil pH value detector, light intensity sensor, moisture detector, oxygen diffusivity measuring apparatu, air temperature and humidity sensor, the nourishment detector, wireless communication module, a controller, human-computer interaction interface, storage module, autoalarm, WIFI wireless communication module, terminal server, flow control valve regulator, flow control valve, the light filling lamp, watering device etc. are common circuit or the material object among the prior art, the innovation of this scheme does not lie in single circuit, but several module and the cooperation of circuit are used and are reached and detect each item data that influence crops growth, and regulate and control through various equipment, guarantee the purpose of the best environment of crops growth.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. A drip irrigation device for planting of Sophora japonica is characterized by comprising a data acquisition module, a main control module and a driving module;

the data acquisition module comprises a soil temperature and humidity detector, a soil pH value detector, a illuminance sensor, a moisture detector, an oxygen diffusivity measuring instrument, an air temperature and humidity sensor, a nutrient detector, a second wireless communication module, a third wireless communication module, a fourth wireless communication module, a fifth wireless communication module, a sixth wireless communication module, a seventh wireless communication module and an eighth wireless communication module;

the soil temperature and humidity detector is electrically connected with the second wireless communication module, the soil PH value detector is electrically connected with the third wireless communication module, the illuminance sensor is electrically connected with the fourth wireless communication module, the moisture detector is electrically connected with the fifth wireless communication module, the oxygen diffusivity measuring instrument is electrically connected with the sixth wireless communication module, the air temperature and humidity sensor is electrically connected with the seventh wireless communication module, and the nutrient detector is electrically connected with the eighth wireless communication module;

the main control module comprises a first wireless communication module, a storage module, a WIFI wireless communication module, a human-computer interaction interface, an automatic alarm device and a controller, and the first wireless communication module, the storage module, the WIFI wireless communication module, the human-computer interaction interface and the automatic alarm device are respectively connected with the controller;

the second wireless communication module, the third wireless communication module, the fourth wireless communication module, the fifth wireless communication module, the sixth wireless communication module, the seventh wireless communication module and the eighth wireless communication module are respectively in communication connection with the first wireless communication module;

the driving module comprises a watering pipe flow control valve regulator, an acid fertilizer pipe flow control valve regulator, an alkaline fertilizer pipe flow control valve regulator, a light supplement lamp power regulator, an oxygen supplement pipe flow control valve regulator, a watering device driver, a watering pipe flow control valve, an acid fertilizer pipe flow control valve, an alkaline fertilizer pipe flow control valve, a light supplement lamp, an oxygen supplement pipe flow control valve and a watering device;

the watering pipe flow control valve regulator is connected with the controller, and the watering pipe flow control valve is connected with the watering pipe flow control valve regulator; the acid fertilizer pipe flow control valve regulator is connected with the controller, and the acid fertilizer pipe control valve is connected with the acid fertilizer pipe control valve regulator; the alkaline fertilizer pipe flow control valve regulator is connected with the controller, and the alkaline fertilizer pipe control valve is connected with the alkaline fertilizer pipe control valve regulator; the light supplement lamp power regulator is connected with the controller, and the light supplement lamp is connected with the light supplement lamp power regulator; the oxygen supply pipe flow control valve regulator is connected with the controller, and the oxygen supply pipe flow control valve is connected with the oxygen supply pipe flow control valve regulator; the sprinkler driver is connected with the controller, and the sprinkler is connected with the sprinkler driver.

2. The drip irrigation device for planting of the robinia pseudoacacia flowers according to claim 1, wherein the oxygen supply pipe flow control valve is arranged at an air inlet of the oxygen supply pipe, and the oxygen supply pipe is arranged in soil of a planting field.

3. The drip irrigation device for planting of the sophora japonica according to claim 1, wherein the water spraying device is a water mist spraying device, and a nozzle of the water mist spraying device sprays obliquely towards branches and leaves of the plants.

4. The drip irrigation device for planting of robinia pseudoacacia as claimed in claim 1, wherein the light supplement lamp is arranged around the planting field, and the light supplement lamp is a plant light supplement lamp.

5. The drip irrigation device for planting of the robinia pseudoacacia according to claim 1, wherein a soil moisture standard comparison value, a plant illumination standard comparison value, an oxygen diffusivity standard comparison value, a temperature and humidity control standard comparison value, a nutrient standard comparison value and a soil pH value standard comparison value are preset in the storage module.

6. The drip irrigation device for planting of the robinia pseudoacacia flowers according to claim 1, wherein the WIFI wireless communication module is used for connecting the controller and a terminal server.

7. The drip irrigation device for planting of the robinia pseudoacacia according to claim 1, wherein the human-computer interaction interface comprises a display screen and a key, and the key can be used for setting a standard comparison value in the storage module.

8. The drip irrigation device for planting of the golden locust trees according to claim 1, wherein the controller is further connected with a power supply module, the power supply module comprises a power supply switching module, a mains supply power supply module and a standby battery pack power supply module, the power supply switching module is connected with the controller, and the mains supply power supply module and the standby battery pack power supply module are respectively connected with the power supply switching module.

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