CN205266527U - Thing networking water -saving irrigation automated control system - Google Patents

Abstract

<b>The utility model relates to the technical field of agricultural water-saving irrigation automation, which is a water-saving irrigation automation control system of the Internet of Things, which includes a remote control terminal, a website server and at least one remote control valve, and the remote control valve includes a control module transceiver , control valve body, solar module, battery, motor, each module is integrated on the control valve body through plugging, the remote control terminal is electrically connected to the website server through the Internet, the website server is electrically connected to the transceiver of the control module through the Internet, and the control module The transceiver and the control valve body are respectively electrically connected to the storage battery. The utility model has a reasonable and compact structure and is convenient to use. It realizes simple and intuitive remote control of the remote control valve in the field, real-time monitoring of the failure of the remote control valve in the field, and ensures the normal operation of the automatic control system for water-saving irrigation. Simple and efficient features. </b>

Description

Internet of things water-saving irrigation automation control system

technical field

The utility model relates to the technical field of automatic control of agricultural water-saving irrigation, and is an automatic control system for water-saving irrigation of the Internet of Things.

Background technique

In modern agricultural production, automatic water-saving irrigation gradually replaces manual water-saving irrigation. Due to low efficiency and waste of resources, manual water-saving irrigation can no longer meet the modern agricultural production methods. Automatic water-saving irrigation is usually controlled by terminal control, electric valves, etc. device composition. Among them, the power consumption of the traditional electric valve is high, and it is difficult to realize the power supply of the electric valve by pulling wires and laying out the power grid. In the prior art, automatic water-saving irrigation only focuses on timing control or humidity control, and cannot be networked for centralized management, especially for pipeline pressure detection, equipment failure maintenance, water flow detection, and remote control. At present, there is no ideal Internet-based automatic control system on the market that can monitor the faults of the automatic water-saving irrigation control system in a simple and clear manner in real time.

Contents of the invention

The utility model provides an automatic control system for water-saving irrigation of the Internet of Things, which overcomes the above-mentioned deficiencies in the prior art, and can effectively solve the problems existing in the existing automatic irrigation technology that the field terminal cannot be remotely controlled simply and intuitively, and cannot be monitored in real time Real-time failure of the automation control system and field terminals to ensure the normal operation of the water-saving irrigation automation control system.

The technical scheme of the utility model is realized through the following measures: an automatic control system for water-saving irrigation of the Internet of Things, including a remote control terminal, a website server and at least one remote control valve, the remote control valve includes a control module transceiver, a control valve The body, solar module, battery, motor, control module transceiver, control valve body, solar module, battery, and motor are respectively integrated on the control valve body through plugging. The remote control terminal is electrically connected to the website server through the Internet, and the website server is connected through the Internet. It is electrically connected with the control module transceiver, and the control module transceiver and the control valve body are respectively electrically connected with the storage battery.

Below is the further optimization or/and improvement to above-mentioned utility model technical scheme:

The above-mentioned remote control valve also includes a wireless short-wave communication module or a Beidou satellite positioning module, and the wireless short-wave communication module or the Beidou satellite positioning module is electrically connected to the website server through the Internet.

The above-mentioned remote control terminal includes a computer with Internet access function or a mobile terminal with wireless Internet access function.

The remote control terminal and the web server are electrically connected via the Internet, and the web server and the remote control valve are electrically connected via the Internet.

The utility model has a reasonable and compact structure and is easy to use. It establishes a website of a water-saving irrigation automation control system, adopts an intuitive and simple operation interface through smart terminals such as mobile phones and computers, and controls the field water-saving irrigation terminals through the Internet; simple and intuitive The operation interface refers to the area map. Staff of various cultural levels can find the area where the remote control valve they manage is located through the area map displayed on the interface, and click to enter the next level of the area. Area, and so on, click the area displayed on the interface until you find the pipe network layout diagram of the Internet of Things water-saving irrigation automation control system within the management authority of the area, and then click the analog control valve body to be opened, through the pop-up window After confirming the opening and closing of the switch, the field control valve body can be opened and closed remotely; the page is designed with an automatic rotation irrigation function, and by clicking on the analog control valve body to edit and select, you can realize the independent grouping of the system's field terminals, automatic rotation Irrigation; On the pipe network layout diagram of the Internet of Things water-saving irrigation automation control system, the green light of the analog terminal shows the irrigation status of the field terminal, the green dimming shows the open status of the field terminal, and the gray light shows the running status of the field terminal is shutting down irrigation. The gray becomes dark to show the closed state of the field terminal; when the field terminal fails, the analog terminal on the field terminal layout plan should display red light and keep flashing to remind the management personnel; the control area of the irrigation control valve body is automatically deepened Correspondingly cover the rendering color on the floor plan of the field terminal, you can intuitively understand the irrigated area and the unirrigated area on the field terminal floor plan, and understand the irrigation situation of field crops controlled by the system in real time; relevant information data such as the current operation of the control valve body battery The power, the instantaneous current of the motor running, the current working current of the circuit board, whether the solar charging board is currently charging, the charging current, and the working status of each functional component are hidden in the background, which can be viewed immediately after adjustment; it is safe, labor-saving, simple, Efficient features.

Description of drawings

Accompanying drawing 1 is the structure schematic diagram of the utility model embodiment one.

Accompanying drawing 2 is the structure diagram of the second embodiment of the utility model.

Accompanying drawing 3 is a functional block diagram of the utility model.

The codes in the drawings are: 1 is the remote control terminal, 2 is the remote control valve, 3 is the control module transceiver, 4 is the control valve body, 5 is the battery, 6 is the wireless short-wave communication module or Beidou satellite positioning module, 7 is a computer, 8 is a mobile terminal, 9 is a website server, and 10 is a solar module.

detailed description

The utility model is not limited by the following examples, and the specific implementation manner can be determined according to the technical scheme of the utility model and actual conditions.

In this utility model, for the convenience of description, the description of the relative positional relationship of each component is described according to the layout method of Fig. The relationship is determined according to the layout direction of the drawings in the description.

Below in conjunction with embodiment and accompanying drawing, the utility model is further described:

Embodiment 1: As shown in accompanying drawings 1 and 3, the water-saving irrigation automation control system of the Internet of Things includes a remote control terminal 1, a website server 9 and at least one remote control valve 2, and the remote control valve 2 includes a control module transceiver 3 , the control valve body 4, the solar module 10, the battery 5, the motor, the control module transceiver 3, the control valve body 4, the solar module 10, the battery 5, and the motor are respectively integrated on the control valve body 4 through plugging, and the remote control terminal 1 The website server 9 is electrically connected through the Internet, the website server 9 is electrically connected with the control module transceiver 3 through the Internet, and the control module transceiver 3 and the control valve body 4 are electrically connected with the storage battery 5 respectively. The water-saving irrigation automation control system provided by the utility model realizes simple and intuitive remote control of the field remote control valve 2, monitors the failure of the field remote control valve 2 in real time, and ensures the normal operation of the water-saving irrigation automation control system.

According to actual needs, the above-mentioned device A can be further optimized or/and improved:

As shown in accompanying drawings 1 and 3, the above-mentioned remote control valve 2 also includes a wireless short-wave communication module or a Beidou satellite positioning module 6, which is electrically connected to a website server 9 through the Internet. When each functional part of the field water-saving irrigation terminal (that is, the remote control valve 2) fails, the information of the faulty part can be uploaded to the website server 9 in real time, and the website server 9 can immediately distribute the failure information to the handheld smart terminal, and the on-site maintenance personnel According to the fault information provided by the handheld smart terminal, the geographical location of the faulty control valve body 4 can be navigated to the faulty remote control valve 2, and the faulty functional components of the remote control valve 2 can be replaced.

As shown in Figures 1 and 3, the remote control terminal 1 includes a mobile terminal 8 with a wireless Internet access function. In this way, the user can log in to the website server 9 to control the remote control valve 2 after the mobile terminal 8 such as a mobile phone is directly connected to the Internet; or after downloading the relevant mobile phone application, the user can log in to the website server 9 to control the remote control valve 2.

As shown in Figures 1 and 3, the remote control terminal 1 is electrically connected to the web server 9 via the Internet, and the web server 9 is electrically connected to the remote control valve 2 via the Internet. The wireless communication device can be 2G, 3G or 4G, or even a more advanced wireless network.

Embodiment 2: This embodiment is basically the same as Embodiment 1, the difference is that: as shown in Figures 1 and 2, the above-mentioned remote control terminal 1 includes a computer 7 with an Internet access function. In this way, the user can log in to the web server 9 through the computer 7 to control the remote control valve 2 .

Embodiment three: the use method of the above-mentioned Internet of Things water-saving irrigation automation control system is carried out according to the following steps:

Step 1, log in to the website server 9 through the remote control terminal 1;

Step 2, remotely open and close the control valve body 4 , perform automatic rotation irrigation, check the working status of the control valve body 4 , and navigate the geographic location of the faulty control valve body 4 .

The use process of the utility model embodiment:

The water-saving irrigation automation control system of the Internet of Things establishes a water-saving irrigation control website, uses an intuitive and simple operation interface through smart terminals such as mobile phones and computers 7, and controls the field water-saving irrigation terminal (that is, the remote control valve 2) through the Internet. ;The simple and intuitive operation interface refers to the area map. Staff of various cultural levels can find the area where the remote control valve 2 is managed by themselves through the area map displayed on the interface, and click to enter the area. The next-level area of the area, and so on, by clicking the area displayed on the interface until the pipe network layout is found, and then clicking the control valve body 4 to be opened, the field control valve body 4 can be switched on and off remotely. close operation.

The automatic wheel irrigation operation of the remote control valve 2 in the field can also be performed on this operation interface;

The current state of the control valve body 4 can be displayed on the operation interface. The various components of the field remote control valve 2 are divided into different functional parts according to their functions, such as the control module transceiver 3, the control valve body 4, the solar module 10, Battery 5, each functional component adopts plug-and-play mode. If a component fails, just pull out the faulty component and replace it with a non-faulty component; you can also query the status of each functional component, such as the remaining power of the battery, the circuit Whether the board running state is normal, whether the solar module 10 is working normally, whether the motor is working normally, etc.

When each functional part of the field water-saving irrigation terminal (that is, the remote control valve 2) fails, the information of the faulty part can be uploaded to the website server 9 in real time, and the website server 9 can immediately distribute the failure information to the handheld smart terminal, and the on-site maintenance personnel According to the fault information provided by the handheld smart terminal, the geographical location of the faulty control valve body 4 can be navigated to the faulty remote control valve 2, and the faulty functional components of the remote control valve 2 can be replaced.

Staff of various cultural levels can find the area where the remote control valve is managed by themselves through the area map displayed on the interface, and click to enter the next level of the area, and so on, by clicking The area displayed on the interface until you find the pipe network layout diagram of the Internet of Things water-saving irrigation automation control system within the management authority of the area, and then click the analog control valve body 4 to be opened, and after the pop-up window confirms the switch is turned on and off, the The field control valve body 4 can be switched on and off remotely; the page is designed with an automatic wheel irrigation function, and by clicking on the analog control valve body 4 to edit, you can realize the independent grouping of the system's field terminals and automatic wheel irrigation; the Internet of Things node On the layout diagram of the pipe network of the water irrigation automation control system, the green light of the simulation terminal shows the irrigation status of the field terminal, the green dimming shows the open status of the field terminal, the gray light shows the operation status of the field terminal is shutting down irrigation, and the gray dimming shows the field terminal The terminal is in the closed state; when the field terminal fails, the analog terminal on the field terminal layout plan should appear red and light up and flash continuously to remind the management personnel; the control area of the irrigation control valve body 4 is automatically deepened to cover the field terminal correspondingly The rendering color on the floor plan can intuitively understand the irrigated area and the unirrigated area on the field terminal floor plan, and understand the irrigation situation of field crops controlled by the system in real time; relevant information data such as the current operation of the control valve body 4 battery power, circuit The current working current of the board, whether the solar charging board is currently charging, what the charging current is, the instantaneous running current and the working status of each functional component, etc., are hidden in the background, which can be viewed immediately after adjustment.

The above description is only the preferred embodiment of the present utility model, and it should be pointed out that for those of ordinary skill in the art, without departing from the premise of the present utility model, some improvements and supplements can also be made to the present utility model. These improvements And complement, also should be regarded as the protection scope of the present utility model.

Claims (5)

1. a thing networking water saving irrigation automation control system, it is characterized in that comprising remote control terminal, Website server and at least one Remote control valve, Remote control valve comprises control module transceiver, control valve body, solar energy module, store battery, motor, control module transceiver, control valve body, solar energy module, store battery, motor is integrated on control valve body by grafting respectively, remote control terminal is electrically connected with Website server by internet, Website server is electrically connected with control module transceiver by internet, control module transceiver, control valve body is connected with storage battery respectively.

2. thing according to claim 1 networking water saving irrigation automation control system, it is characterized in that Remote control valve also comprises wireless short wave communication module or big-dipper satellite locating module, wireless short wave communication module or big-dipper satellite locating module are electrically connected with Website server by internet.

3. thing according to claim 1 and 2 networking water saving irrigation automation control system, it is characterised in that remote control terminal comprises the computer with function of surfing the Net or the mobile terminal with wireless networking capabilities.

4. thing according to claim 1 and 2 networking water saving irrigation automation control system, it is characterised in that be electrically connected by internet between remote control terminal with Website server, be electrically connected by internet between Website server with Remote control valve.

5. thing according to claim 3 networking water saving irrigation automation control system, it is characterised in that be electrically connected by internet between remote control terminal with Website server, be electrically connected by internet between Website server with Remote control valve.