CN111201993A

CN111201993A - Intelligent irrigation system based on Internet of things

Info

Publication number: CN111201993A
Application number: CN202010029012.2A
Authority: CN
Inventors: 周庆燕
Original assignee: Anhui Agricultural University AHAU
Current assignee: Anhui Agricultural University AHAU
Priority date: 2020-01-12
Filing date: 2020-01-12
Publication date: 2020-05-29

Abstract

The utility model provides a pair of intelligence irrigation system based on thing networking, humidity transducer detect soil moisture, and temperature sensor detects ambient temperature, and weather information acquirer acquires future weather information, and the high in the clouds server controls irrigation assembly work according to the parameter that humidity transducer, temperature sensor detected and the weather information that weather information acquirer acquireed to, portable electronic equipment passes through the high in the clouds server and controls irrigation assembly work. According to the scheme, automatic operation can be achieved, the humidity parameter of soil, the temperature parameter of the environment and weather information can be collected, the cloud server controls irrigation components to work according to relevant information, labor intensity of operators is reduced, irrigation opportunity is facilitated to be mastered, and performance of an intelligent irrigation system based on the Internet of things is optimized.

Description

Intelligent irrigation system based on Internet of things

Technical Field

The utility model relates to an intelligence agricultural technology field, in particular to intelligence irrigation system based on thing networking.

Background

With the rapid development of scientific technology, the internet of things is applied more and more in industry, and the internet of things has the capability of remote interference, so that the labor intensity of operators is greatly reduced, and the degree of related operations is improved.

In the prior art, the internet of things technology is applied more and more in the fields of monitoring and the like, the technology is more and more mature, however, in the prior art, the application of the internet of things technology in agriculture is less, the labor intensity of operators is reduced by adopting the mechanical technology in the field of agriculture, but the mechanical technology is applied more in early-stage sowing and later-stage harvesting, and the management and the application of the mechanical technology to crops in the middle stage are less. For example, in the irrigation technology in crop middle-term management, in the prior art, irrigation is controlled in a manual control mode, and the control mode is not low in mastering of the irrigation time and is not beneficial to the growth of crops.

Disclosure of Invention

The utility model provides a pair of intelligence irrigation system based on thing networking aims at solving among the prior art agricultural irrigation technical problem that operating personnel intensity of labour is big, the irrigation opportunity is difficult for mastering.

The intelligent irrigation system based on the Internet of things provided by the disclosure comprises a humidity sensor for collecting soil humidity;

a temperature sensor for collecting ambient temperature;

a weather information acquirer for acquiring future weather data;

a cloud server having data processing capabilities;

portable electronic device with network access capability

And an irrigation assembly;

the portable electronic equipment comprises a humidity sensor, a temperature sensor, a weather information acquirer, a portable electronic device and a cloud server, wherein the humidity sensor, the temperature sensor, the weather information acquirer and the portable electronic device are all in communication with the cloud server, the cloud server controls the irrigation assembly to work according to parameters detected by the humidity sensor, the humidity sensor and the weather information acquirer, and the portable electronic device controls the irrigation assembly to work through the cloud server.

In this scheme, humidity transducer detects soil moisture, and temperature sensor detects ambient temperature, and weather information acquirer acquires future weather information, and the high in the clouds server controls irrigation assembly work according to the weather information that humidity transducer, temperature sensor detected and weather information acquirer acquireed to, portable electronic equipment passes through high in the clouds server control irrigation assembly work. According to the scheme, automatic operation can be achieved, the humidity parameter of soil, the temperature parameter of the environment and weather information can be collected, the cloud server controls irrigation components to work according to relevant information, labor intensity of operators is reduced, irrigation opportunity is facilitated to be mastered, and performance of an intelligent irrigation system based on the Internet of things is optimized.

Preferably, the intelligent irrigation system based on the Internet of things further comprises a solar power supply assembly, and the solar power supply assembly supplies power to the humidity sensor and the temperature sensor.

The solar power supply assembly reduces the use cost of the intelligent irrigation system based on the Internet of things.

Preferably, the solar power supply assembly comprises a base preset in soil, a support is arranged on the base, a solar cell panel is arranged on the support and comprises at least two solar cells, and the at least two solar cells face different directions respectively.

At least one solar cell piece faces the sun, and the performance of the solar power supply assembly is optimized.

Preferably, the support passes through the bolt fastening and is in on the base, solar cell panel rotate connect in on the support, solar cell panel includes the frame be provided with the sleeve on the frame be provided with on the support with sleeve complex pivot the cover is equipped with in the pivot and restricts the torsional spring of solar cell panel orientation, the one end of torsional spring with the pivot is fixed, the other end of torsional spring with the sleeve is fixed.

The solar cell panel can rotate in a certain angle, and when the solar cell panel is under severe weather conditions such as strong wind, the solar cell panel is not easy to be damaged, so that the service life of the solar power supply assembly is prolonged.

Preferably, the weather information acquirer has a network access capability, and acquires weather data of at least seven days in the future, wherein the weather acquirer acquires the weather data of at least seven days in the future by a weather forecast service, and the weather acquirer is integrated with the cloud server.

The weather information acquirer is reasonable in setting, and the performance of the intelligent irrigation system based on the Internet of things is optimized.

Preferably, the cloud server sends prompt information to the portable electronic device according to the parameters acquired by the weather information acquirer and the parameters acquired by the humidity sensor, a soil humidity threshold value is preset in the cloud server, wherein when the parameters detected by the humidity sensor are smaller than the soil humidity threshold value and the parameters acquired by the weather information acquirer do not have rainfall weather, the cloud server sends the prompt information to the portable electronic device, and the portable electronic device automatically controls the irrigation assembly to work after receiving the prompt information for 72 hours without control information operation of the irrigation assembly.

The scheme is beneficial to personnel to carry out relevant control on the irrigation assembly, and the performance of the intelligent irrigation system based on the Internet of things is further optimized.

Preferably, the irrigation assembly comprises a water pump and a water nozzle, the water pump supplies water to the water nozzle through a water pipe, the irrigation assembly further comprises a controller for controlling the water pump to work, the controller comprises a control signal receiver, the cloud server comprises a control signal transmitter, the cloud server sends a control signal to the control signal receiver through the control signal transmitter, and the controller controls the water pump to work according to the control signal received by the control signal receiver.

Preferably, the water pipe is preset in soil, the water nozzle is fixed on the water pipe through threads, a cover body for preventing the water nozzle from being blocked is further arranged on the water pipe, and the cover body is sleeved on the water pipe.

The setting of the cover body can avoid the water nozzle to be blocked up, has optimized the performance of intelligent irrigation system based on the thing networking.

Preferably, the cover body comprises an inner layer supporting net and an outer layer supporting net, a non-woven fabric is arranged between the inner layer supporting net and the outer layer supporting net, and the inner layer supporting net and the outer layer supporting net are bound together through metal wires.

The cover body is reasonable in structure, and the service life of the cover body is prolonged.

Preferably, the water pipe comprises pipe sections, and the pipe sections are spliced to form the water pipe.

The cover body is easily assembled with the water pipe, and the use cost of the intelligent irrigation system based on the Internet of things is reduced.

Compared with the prior art, this disclosed intelligent irrigation system based on thing networking, humidity transducer detect soil moisture, and temperature sensor detects ambient temperature, and weather information acquirer acquires future weather information, and the high in the clouds server controls irrigation assembly work according to the weather information that humidity transducer, temperature sensor detected and weather information acquirer acquireed to, portable electronic equipment passes through high in the clouds server control irrigation assembly work. According to the scheme, automatic operation can be achieved, the humidity parameter of soil, the temperature parameter of the environment and weather information can be collected, the cloud server controls irrigation components to work according to relevant information, labor intensity of operators is reduced, irrigation opportunity is facilitated to be mastered, and performance of an intelligent irrigation system based on the Internet of things is optimized.

Drawings

FIG. 1 is a schematic illustration of one embodiment of the present disclosure.

Figure 2 is a schematic diagram of one embodiment of a solar powered assembly.

FIG. 3 is a schematic view of one embodiment of a water tube.

Detailed Description

The intelligent irrigation system based on the internet of things is further described below. The following description is given for the purpose of illustration only and not for the purpose of limitation, the nature and operation of which will become apparent from the following description.

As shown in fig. 1, an intelligent irrigation system based on the internet of things is provided with a humidity sensor 1 for collecting soil humidity;

a temperature sensor 2 for collecting ambient temperature;

a weather information acquirer 3 for acquiring future weather data;

a cloud server 4 having data processing capability;

portable electronic device 5 with network access capability

And an irrigation assembly 6;

humidity transducer 1, temperature sensor 2, weather information acquirer 3, portable electronic device 5 all with high in the clouds server 4 communication, high in the clouds server 4 is according to the parameter control that humidity transducer 1, weather information acquirer 3 detected irrigate subassembly 6 work, portable electronic device 5 passes through high in the clouds server 4 control irrigate subassembly 6 work.

In the scheme, the humidity sensor 1 and the temperature sensor 2 both have network access capability, and for example, communication with the cloud server 4 can be realized through communication technologies such as 3G/4G/5G.

This scheme lies in for prior art's advantage, by humidity transducer 1, temperature sensor 2 and weather information acquisition ware 3 acquisition relevant information, then, high in the clouds server 4 acquires this information to send corresponding control information according to this information, thereby realize automatic irrigation, reduced operating personnel's intensity of labour, and, do not need artifical too much intervention among the whole irrigation process, be favorable to in time irrigating crops.

As shown in fig. 2, in a possible embodiment, the intelligent irrigation system based on the internet of things further comprises a solar power supply assembly 7, and the solar power supply assembly 7 supplies power to the humidity sensor 1 and the temperature sensor 2.

The solar power supply assembly 7 comprises a base 701 preset in soil, a support 702 is arranged on the base 701, a solar cell panel 703 is arranged on the support 702, the solar cell panel 703 comprises at least two solar cells, and the at least two solar cells face different directions respectively.

The solar cell panel 703 is rotatably connected to the support 702, the solar cell panel 703 comprises a frame, a sleeve 704 is arranged on the frame, a rotating shaft 705 matched with the sleeve 704 is arranged on the support 702, a torsion spring 706 limiting the orientation of the solar cell panel 703 is sleeved on the rotating shaft 705, one end of the torsion spring 706 is fixed to the rotating shaft 705, and the other end of the torsion spring 706 is fixed to the sleeve 704.

Solar energy power supply unit 7 has mainly been introduced to this scheme because temperature sensor 2, humidity transducer 1's quantity probably has a plurality ofly to distribute in the different positions department in farmland, consequently, adopt the power supply of solar energy power supply unit 7, can reduce the power supply cost, reduce the erectting of cable.

Because the solar power supply assembly 7 is adopted for supplying power, cables do not need to be laid in the farmland, and the relevant operation of the farmland is facilitated.

In a possible embodiment, the weather information acquirer 3 has a network access capability, and the weather information acquirer 3 acquires weather data of at least seven days in the future, wherein the weather acquirer acquires the weather data of at least seven days in the future by a weather forecast service, and the weather acquirer is integrated with the cloud server 4.

The cloud server 4 sends prompt information to the portable electronic device 5 according to the parameters acquired by the weather information acquirer 3 and the parameters acquired by the humidity sensor 1, a soil humidity threshold value is preset in the cloud server 4, wherein when the parameters detected by the humidity sensor 1 are smaller than the soil humidity threshold value and the parameters acquired by the weather information acquirer 3 do not have rainfall weather, the cloud server 4 sends the prompt information to the portable electronic device 5, and after the portable electronic device 5 receives the prompt information and does not operate the control information for controlling the irrigation assembly 6 within 72 hours, the cloud server 4 automatically controls the irrigation assembly 6 to work.

In the scheme, the cloud server 4 at least comprises a memory, and the soil humidity threshold is preset in the memory, specifically, the soil humidity threshold is preset by related personnel, specifically, the soil humidity threshold reflects whether crops are dry or not, and therefore, the soil humidity threshold is different according to different crops.

The cloud server 4 further comprises a comparator, the humidity sensor 1 and the acquired data are a set of parameters, and the parameters of the humidity sensor 1 and the soil humidity threshold value are compared by the comparator, so that whether crops are dry or not is obtained.

In this embodiment, the temperature sensor 2 acquires a set of parameters and the weather information acquirer 3 acquires a set of parameters, which can be compared with the comparator conveniently. For example, a temperature threshold and a weather information threshold should be preset in the memory. And comparing the parameters to obtain whether irrigation is needed.

For example, when the threshold of the weather information is triggered, for example, there is no rainfall in the future seven days, and the temperature parameter is triggered, for example, when the temperature of the day exceeds 22 ℃, it may be determined that the crop is in a drought state, and the cloud server 4 may send related information or directly control the irrigation component 6 to irrigate the crop.

In a possible embodiment, as shown in fig. 3, the irrigation assembly 6 includes a water pump and a water nozzle 601, the water pump supplies water to the water nozzle 601 through a water pipe 606, the irrigation assembly 6 further includes a controller for controlling the operation of the water pump, the controller includes a control signal receiver, the cloud server 4 includes a control signal transmitter, the cloud server 4 transmits a control signal to the control signal receiver through the control signal transmitter, and the controller controls the operation of the water pump according to the control signal received by the control signal receiver.

The water pipe 606 is preset in soil, the water nozzle 601 is fixed on the water pipe 606 through threads, a cover body 602 for preventing the water nozzle 601 from being blocked is further arranged on the water pipe 606, and the cover body 602 is sleeved on the water pipe 606.

The cover body 602 comprises an inner layer supporting net 603 and an outer layer supporting net 604, a non-woven fabric 605 is arranged between the inner layer supporting net 603 and the outer layer supporting net 604, and the inner layer supporting net 603 and the outer layer supporting net 604 are bound together through metal wires.

The water tube 606 comprises segments of tubing that are spliced to form the water tube 606.

This scheme provides a possible scheme of irrigation subassembly 6, because the farmland probably need turn over the ground, sow operation etc. consequently, water pipe 606 should preset in soil depths, from bottom to top irrigates to crops. The scheme can effectively reduce the loss of water and optimize the irrigation performance.

The irrigation time of the irrigation component 6 can be automatically controlled by the cloud server 4, for example, a timer is further integrated in the cloud server 4, when the irrigation component 6 starts irrigation, the timer starts to time, and after the timer times, the irrigation component 6 stops working.

Water nozzles 601 should be evenly distributed on water pipe 606 to optimize the irrigation performance of irrigation assembly 6.

The technical scheme and the technical characteristics disclosed in the scheme can be combined and used on the premise of no conflict so as to obtain better performance.

In the above scheme, the portable electronic device 5 may be an electronic device with network access capability, such as a smart phone, a tablet computer, or a notebook computer.

The above are only preferred embodiments of the present disclosure, which are intended to embody the prominent technical effects and advantages of the present disclosure, and not to limit the technical solutions of the present disclosure. Those skilled in the art should understand that all modifications, variations or alternative technical features made based on the technical contents of the present disclosure should be included in the technical scope of the claims appended to the present disclosure.

Claims

1. An intelligent irrigation system based on the Internet of things is characterized by comprising a humidity sensor (1) for collecting soil humidity;

a temperature sensor (2) for collecting ambient temperature;

a weather information acquirer (3) for acquiring future weather data;

a cloud server (4) with data processing capability;

portable electronic equipment with network access capability (5)

And an irrigation assembly (6);

the irrigation assembly (6) works, wherein the humidity sensor (1), the temperature sensor (2), the weather information acquirer (3) and the portable electronic device (5) are communicated with the cloud server (4), the cloud server (4) controls the irrigation assembly (6) to work according to parameters detected by the humidity sensor (1), the humidity sensor (1) and the weather information acquirer (3), and the portable electronic device (5) controls the irrigation assembly (6) to work through the cloud server (4).

2. The intelligent irrigation system based on the internet of things of claim 1, wherein: this intelligent irrigation system based on thing networking still includes solar energy power supply subassembly (7), solar energy power supply subassembly (7) to humidity transducer (1), temperature sensor (2) power supply.

3. The intelligent irrigation system based on the internet of things of claim 2, wherein: the solar power supply assembly (7) comprises a base (701) which is arranged in soil in advance, a support (702) is arranged on the base (701), a solar cell panel (703) is arranged on the support (702), the solar cell panel (703) comprises at least two solar cells, and the at least two solar cells face different directions respectively.

4. The intelligent irrigation system based on the internet of things of claim 3, wherein: the solar cell panel comprises a base (701), a support (702) is fixed on the base (701) through bolts, a solar cell panel (703) is rotatably connected onto the support (702), the solar cell panel (703) comprises a frame, a sleeve (704) is arranged on the frame, a rotating shaft (705) matched with the sleeve (704) is arranged on the support (702), a torsion spring (706) limiting the orientation of the solar cell panel (703) is sleeved on the rotating shaft (705), one end of the torsion spring (706) is fixed to the rotating shaft (705), and the other end of the torsion spring (706) is fixed to the sleeve (704).

5. The intelligent irrigation system based on the internet of things of claim 1, wherein: the weather information acquirer (3) has network access capability, and the weather information acquirer (3) acquires weather data of at least seven days in the future, wherein the weather acquirer acquires the weather data of at least seven days in the future by a weather forecast service and is integrated in the cloud server (4).

6. The intelligent irrigation system based on the internet of things of claim 5, wherein: the cloud server (4) sends prompt information to the portable electronic device (5) according to the parameters acquired by the weather information acquirer (3) and the parameters acquired by the humidity sensor (1), a soil humidity threshold value is preset in the cloud server (4), wherein when the parameters detected by the humidity sensor (1) are smaller than the soil humidity threshold value and the parameters acquired by the weather information acquirer (3) do not have rainfall weather, the cloud server (4) sends the prompt information to the portable electronic device (5), and after the portable electronic device (5) receives the prompt information for 72 hours and does not control the control information operation of the irrigation assembly (6), the cloud server (4) automatically controls the irrigation assembly (6) to work.

7. The intelligent irrigation system based on the internet of things of claim 1, wherein: irrigation subassembly (6) include water pump and water spout (601), the water pump passes through water pipe (606) to water spout (601) supplies water, irrigation subassembly (6) still include control the controller of water pump work, the controller includes control signal receiver, high in the clouds server (4) include control signal sender, high in the clouds server (4) through control signal sender to control signal receiver sends control signal, the controller is according to the control signal control that control signal receiver received the water pump work.

8. The intelligent irrigation system based on the internet of things of claim 7, wherein: the water pipe (606) is preset in soil, the water spray nozzle (601) is fixed on the water pipe (606) through threads, a cover body (602) for preventing the water spray nozzle (601) from being blocked is further arranged on the water pipe (606), and the cover body (602) is sleeved on the water pipe (606).

9. The intelligent irrigation system based on the internet of things of claim 8, wherein: the mask body (602) comprises an inner layer supporting net (603) and an outer layer supporting net (604), a non-woven fabric (605) is arranged between the inner layer supporting net (603) and the outer layer supporting net (604), and the inner layer supporting net (603) and the outer layer supporting net (604) are bound together through metal wires.

10. The intelligent irrigation system based on the internet of things of claim 9, wherein: the water pipe (606) comprises pipe sections that are spliced to form the water pipe (606).