CN204860410U - Intelligence farmland irrigation system based on public network mobile terminal - Google Patents

Abstract

The utility model discloses an intelligence farmland irrigation system based on public network mobile terminal, including monitoring module, irrigate the module, the zigBee module, wi -Fi network and mobilephone terminal, monitoring module includes unable adjustment base, unable adjustment base's top is equipped with the dead lever, be equipped with the horizontal pole on the dead lever, the one end that the dead lever was kept away from to the horizontal pole is equipped with the sleeve, installation soil moisture sensor in the sleeve, the soil moisture sensor is connected with the zigBee module, wi -Fi network and mobile phone terminal connection are passed through to the zigBee module, the zigBee module still is connected with the irrigation module, it includes the solenoid valve to irrigate the module, the trunk line, the sprinkling irrigation pipeline, drip irrigation pipeline and shower nozzle. The beneficial effects of the utility model are that: wireless network replaces the cable network makes set -up work simple, convenient, does not receive the restriction of equipment riding position, use the mobilephone terminal direct control field irrigation condition, and the cell -phone carries conveniently for can monitor at any time, it is simple and convenient, distinguishing as required with a field, the arbitrary selection adopts sprinkling irrigation or the mode of driping irrigation.

Description

A kind of intelligent farm irrigation system based on public network mobile terminal

Technical field

The utility model relates generally to field irrigation technical field, specifically a kind of intelligent farm irrigation system based on public network mobile terminal.

Background technology

Along with increasingly sharpening of global the contradiction of supply and demand for the water resource, countries in the world, particularly developed country are all using the important measures of Development of Water-Saving Irrigation high-efficiency agriculture as Sustainable Development of Modern Agriculture.The external intelligent water-saving Irrigation Development time is long, and electronic technology level is higher, and cost of labor is high, also comparatively to improve and advanced so irrigate with intelligent water-saving the automatic control system that matches.Intelligent irrigation module take information technology as means, improves and irrigate precision, implement rational irrigation program, improves the availability of water.At present, from the external agricultural water-saving irrigation monitoring system introduced, certain positive role is served for the raising of irrigation level and saving water resource, but there is following problem in the intelligent farm irrigation system of China at present:

1, generally adopt wireline networking techniques, network construction is numerous and diverse and by the impact in geographical position, install inconvenient.

2, the general computer terminal that uses controls, and is inconvenient to carry out remote monitoring when people goes on a journey.

3, general same field district can only adopt a kind of irrigation means, can not according to the needs realization sprinkling irrigation of crop and choosing at random of drip irrigation.

Utility model content

The purpose of this utility model is to provide a kind of intelligent farm irrigation system based on public network mobile terminal, it can solve deficiency of the prior art, substitute cable network by wireless network and decrease numerous and diverse network construction work, and wireless network is not by the restriction of network equipment riding position, installs simple and convenient; Use mobile phone terminal directly to control field irrigation situation, and mobile phone is convenient for carrying, and makes it possible to monitor at any time, simple and convenient; Same field district can select arbitrarily sprinkling irrigation or drip irrigation means as required.

The utility model for achieving the above object, is achieved through the following technical solutions:

A kind of intelligent farm irrigation system based on public network mobile terminal, comprise monitoring modular, irrigate module, ZigBee module, Wi-Fi network and mobile phone terminal, described monitoring modular comprises firm banking, the top of described firm banking is provided with dead lever, described dead lever is provided with cross bar, described cross bar is provided with sleeve away from one end of dead lever, in described sleeve, soil humidity sensor is installed, the bottom of described sleeve is provided with the baffle plate of middle its central band through hole, the probe of described through hole and soil humidity sensor matches, the probe of described soil humidity sensor inserts in soil, described soil humidity sensor is connected with ZigBee module, described ZigBee module is connected with mobile phone terminal by Wi-Fi network, described ZigBee module also with irrigation model calling, described irrigation module comprises magnetic valve, main pipeline, irrigation pipe, droping irrigating pipe and shower nozzle, described main pipeline connects irrigation pipe, described irrigation pipe connects droping irrigating pipe and shower nozzle, between described main pipeline and irrigation pipe, between irrigation pipe and droping irrigating pipe, all connected by magnetic valve between irrigation pipe and shower nozzle, described magnetic valve is connected with ZigBee module.

Described monitoring modular also comprises temperature sensor, and described temperature sensor is connected with ZigBee module, and described temperature sensor is installed on dead lever.

Described monitoring modular also comprises optical sensor, and described optical sensor is connected with ZigBee module, and described optical sensor is installed on dead lever.

Described monitoring modular also comprises wireless camera, and described wireless camera is connected with ZigBee module, and described wireless camera is installed on dead lever one end away from firm banking.

Described dead lever is provided with scale.

The bottom of described firm banking is provided with fixing feet, and described fixing feet is inserted in soil.

Described dead lever is expansion link.

Contrast prior art, the utility model beneficial effect is:

1, the utility model building mode substitutes cable network by wireless network and greatly reduces numerous and diverse network construction work, and wireless network is not by the restriction of network equipment riding position, installs simple and convenient; Use mobile phone terminal directly to control field irrigation situation, and mobile phone is convenient for carrying, and makes it possible to remote monitoring at any time, simple and convenient; Same field district can select arbitrarily sprinkling irrigation or drip irrigation means as required.

2, temperature sensor is that mobile phone terminal judges that evaporation in the field amount and Crop transpirstion amount provide foundation.

3, optical sensor is by judging field radiation event, and for mobile phone terminal determination crop photosynthesis water requirement provides basis for estimation, the data transmitted with soil humidity sensor, temperature sensor coordinate to be considered, realizes the better scheme of irrigating.

4, wireless camera is mainly monitored plant growth situation, as crop green intensity, crop plant height, crop flower form etc., for judging that crop growth stage and health degree provide foundation, make the growing state that can be directly acquainted with crop from mobile phone terminal.

5, the change of crop plant height can be found out intuitively by the scale on dead lever, simple and convenient, directly can also be observed from mobile phone terminal by wireless camera.

6, fixing feet is inserted in soil, can strengthen the stability of monitoring modular.

7, dead lever is the height that expansion link makes it possible to regulate at any time dead lever, makes it adapt to different height requirement.

Accompanying drawing explanation

Accompanying drawing 1 is structured flowchart of the present utility model.

Accompanying drawing 2 is structural representations of monitoring modular.

Accompanying drawing 3 is the structural representations of irrigating module.

Label shown in accompanying drawing: 1, monitoring modular; 2, module is irrigated; 3, ZigBee module; 4, Wi-Fi network; 5, mobile phone terminal; 6, firm banking; 7, dead lever; 8, cross bar; 9, sleeve; 10, soil humidity sensor; 11, baffle plate; 12, through hole; 13, probe; 14, magnetic valve; 15, main pipeline; 16, irrigation pipe; 17, droping irrigating pipe; 18, shower nozzle; 19, temperature sensor; 20, optical sensor; 21, wireless camera; 22, fixing feet.

Embodiment

By reference to the accompanying drawings and specific embodiment, the utility model is described in further detail.Should be understood that these embodiments are only not used in restriction scope of the present utility model for illustration of the utility model.In addition should be understood that those skilled in the art can make various changes or modifications the utility model, and these equivalent form of values fall within the application's appended claims limited range equally after the content of having read the utility model instruction.

Based on an intelligent farm irrigation system for public network mobile terminal, comprise monitoring modular 1, irrigate module 2, ZigBee module 3, Wi-Fi network 4 and mobile phone terminal 5.Described monitoring modular 1 comprises firm banking 6, and the top of described firm banking 6 is provided with dead lever 7, and described dead lever 7 is provided with cross bar 8, and described cross bar 8 is provided with sleeve 9 away from one end of dead lever 7.In described sleeve 9, soil humidity sensor 10 is installed, the bottom of described sleeve 9 is provided with the baffle plate 11 of middle its central band through hole 12, described through hole 12 matches with the probe 13 of soil humidity sensor 10, through hole 12 makes the probe 13 of soil humidity sensor 10 to pass through, but the top memory module of soil humidity sensor 10 can not be exposed, thus soil humidity sensor 10 is placed in sleeve 9 can not skid off.The probe 13 of described soil humidity sensor 10 inserts in soil, the humidity condition of detection soil.Described soil humidity sensor 10 is connected with ZigBee module 3, and ZigBee module 3 receives the signal that soil humidity sensor 10 transmits, and transfers to mobile phone terminal 5 after process.Described ZigBee module 3 is connected with mobile phone terminal 5 by Wi-Fi network 4, by Wi-Fi network 4 by the Signal transmissions handled by ZigBee module 3 to mobile phone terminal 5, simultaneously ZigBee module 3 can receive instruction that mobile phone terminal 5 transmits and carrys out control irrigation module 2 and irrigate.Described ZigBee module 3 is also connected with irrigation module 2, and described irrigation module 2 comprises magnetic valve 14, main pipeline 15, irrigation pipe 16, droping irrigating pipe 17 and shower nozzle 18.Described main pipeline 15 connects irrigation pipe 16, described irrigation pipe 16 connects droping irrigating pipe 17 and shower nozzle 18, realize sprinkling irrigation by the shower nozzle 18 that irrigation pipe 16 connects, realize drip irrigation by the droping irrigating pipe 17 that irrigation pipe 16 connects.Between described main pipeline 15 and irrigation pipe 16, all connected by magnetic valve 14 between irrigation pipe 16 and droping irrigating pipe 17, between irrigation pipe 16 and shower nozzle 18, described magnetic valve 14 is connected with ZigBee module 3.ZigBee module 3 controls the switch of each magnetic valve 14 by the instruction received, thus realizes sprinkling irrigation and drip irrigation.

Principle of the present utility model: ZigBee module 3 receives and processes the signal of soil humidity sensor 10 transmission, by Wi-Fi network 4 by handled Signal transmissions to mobile phone terminal 5, simultaneously ZigBee module 3 receives the switch that instruction that mobile phone terminal 5 transmits carrys out each magnetic valve 14 of control irrigation module 2, irrigate, any field district can be selected to carry out spraying or drip irrigation by the switch-mode regulation of magnetic valve 14.

Described monitoring modular 1 also comprises temperature sensor 19, and described temperature sensor 19 is connected with ZigBee module 3, and described temperature sensor 19 is installed on dead lever 7, and temperature sensor 19 judges that evaporation in the field amount and Crop transpirstion amount provide foundation for mobile phone terminal 5.

Described monitoring modular 1 also comprises optical sensor 20, described optical sensor 20 is connected with ZigBee module 3, described optical sensor 20 is installed on dead lever 7, and optical sensor 20 is by judging field radiation event, for mobile phone terminal 5 determines that crop photosynthesis water requirement judges foundation.

Described monitoring modular 1 also comprises wireless camera 21, described wireless camera 21 is connected with ZigBee module 3, described wireless camera 21 is installed on dead lever 7 one end away from firm banking 6, wireless camera 21 is mainly monitored plant growth situation, as crop green intensity, crop plant height, crop flower form etc., for judging that crop growth stage and health degree provide foundation.

Described dead lever 7 is provided with scale, can be found out the change of crop plant height by the scale on dead lever 7 intuitively, simple and convenient.

The bottom of described firm banking 6 is provided with fixing feet 22, and described fixing feet 22 is inserted in soil, and fixing feet 22 can strengthen the stability of monitoring modular 1.

Described dead lever 7 is expansion link, by regulating the height of dead lever 7, makes it adapt to different height requirement.

Embodiment:

Embodiment 1:

Based on an intelligent farm irrigation system for public network mobile terminal, comprise monitoring modular 1, irrigate module 2, ZigBee module 3, Wi-Fi network 4 and mobile phone terminal 5.Described monitoring modular 1 comprises firm banking 6, and the top of described firm banking 6 is provided with dead lever 7, and described dead lever 7 is provided with cross bar 8, and described cross bar 8 is provided with sleeve 9 away from one end of dead lever 7, installs soil humidity sensor 10 in described sleeve 9.The bottom of described sleeve 9 is provided with the baffle plate 11 of middle its central band through hole 12, and described through hole 12 matches with the probe 13 of soil humidity sensor 10, and the probe 13 of described soil humidity sensor 10 inserts in soil.Described soil humidity sensor 10 is connected with ZigBee module 3, and described ZigBee module 3 is connected with mobile phone terminal 5 by Wi-Fi network 4, and described ZigBee module 3 is also connected with irrigation module 2.Described monitoring modular 1 also comprises temperature sensor 19, and described temperature sensor 19 is connected with ZigBee module 3, and described temperature sensor 19 is installed on dead lever 7.Described monitoring modular 1 also comprises optical sensor 20, and described optical sensor 20 is connected with ZigBee module 3, and described optical sensor 20 is installed on dead lever 7.Described monitoring modular 1 also comprises wireless camera 21, and described wireless camera 21 is connected with ZigBee module 3, and described wireless camera 21 is installed on dead lever 7 one end away from firm banking 6.Described dead lever 7 is provided with scale.Described irrigation module 2 comprises magnetic valve 14, main pipeline 15, irrigation pipe 16, droping irrigating pipe 17 and shower nozzle 18.Described main pipeline 15 connects irrigation pipe 16, described irrigation pipe 16 connects droping irrigating pipe 17 and shower nozzle 18.Between described main pipeline 15 and irrigation pipe 16, all connected by magnetic valve 14 between irrigation pipe 16 and droping irrigating pipe 17, between irrigation pipe 16 and shower nozzle 18, described magnetic valve 14 is connected with ZigBee module 3.The beneficial effect of the present embodiment is: temperature sensor 19 judges that evaporation in the field amount and Crop transpirstion amount provide foundation for mobile phone terminal 5, optical sensor 20 is by judging field radiation event, for mobile phone terminal 5 determines that crop photosynthesis water requirement judges foundation, the aggregation of data transmitted with soil humidity sensor 10 is considered, realizes the better scheme of irrigating.Wireless camera 21 is mainly monitored plant growth situation, as crop green intensity, crop plant height, crop flower form etc., for judging that crop growth stage and health degree provide foundation; The change of crop plant height can be found out intuitively by the scale on dead lever 7, simple and convenient, directly can also be observed from mobile phone terminal 5 by wireless camera 21.

Embodiment 2:

Based on an intelligent farm irrigation system for public network mobile terminal, comprise monitoring modular 1, irrigate module 2, ZigBee module 3, Wi-Fi network 4 and mobile phone terminal 5.Described monitoring modular 1 comprises firm banking 6, and the bottom of described firm banking 6 is provided with fixing feet 22, and described fixing feet 22 is inserted in soil.The top of described firm banking 6 is provided with dead lever 7, and described dead lever 7 is expansion link.Described dead lever 7 is provided with cross bar 8, and described cross bar 8 is provided with sleeve 9 away from one end of dead lever 7, installs soil humidity sensor 10 in described sleeve 9.The bottom of described sleeve 9 is provided with the baffle plate 11 of middle its central band through hole 12, and described through hole 12 matches with the probe 13 of soil humidity sensor 10, and the probe 13 of described soil humidity sensor 10 inserts in soil.Described soil humidity sensor 10 is connected with ZigBee module 3, and described ZigBee module 3 is connected with mobile phone terminal 5 by Wi-Fi network 4, and described ZigBee module 3 is also connected with irrigation module 2.Described irrigation module 2 comprises magnetic valve 14, main pipeline 15, irrigation pipe 16, droping irrigating pipe 17 and shower nozzle 18.Described main pipeline 15 connects irrigation pipe 16, described irrigation pipe 16 connects droping irrigating pipe 17 and shower nozzle 18.Between described main pipeline 15 and irrigation pipe 16, all connected by magnetic valve 14 between irrigation pipe 16 and droping irrigating pipe 17, between irrigation pipe 16 and shower nozzle 18, described magnetic valve 14 is connected with ZigBee module 3.The beneficial effect of the present embodiment is: the setting of fixing feet 22 enhances the stability of monitoring modular 1, and the dead lever 7 of monitoring modular 1 is the design of expansion link, can regulate the height of dead lever 7 at any time, makes it adapt to different height requirement.

Claims (7)

1. the intelligent farm irrigation system based on public network mobile terminal, it is characterized in that: comprise monitoring modular (1), irrigate module (2), ZigBee module (3), Wi-Fi network (4) and mobile phone terminal (5), described monitoring modular (1) comprises firm banking (6), the top of described firm banking (6) is provided with dead lever (7), described dead lever (7) is provided with cross bar (8), described cross bar (8) is provided with sleeve (9) away from one end of dead lever (7), in described sleeve (9), soil humidity sensor (10) is installed, the bottom of described sleeve (9) is provided with the baffle plate (11) of middle its central band through hole (12), described through hole (12) matches with the probe (13) of soil humidity sensor (10), the probe (13) of described soil humidity sensor (10) inserts in soil, described soil humidity sensor (10) is connected with ZigBee module (3), described ZigBee module (3) is connected with mobile phone terminal (5) by Wi-Fi network (4), described ZigBee module (3) is also connected with irrigation module (2), described irrigation module (2) comprises magnetic valve (14), main pipeline (15), irrigation pipe (16), droping irrigating pipe (17) and shower nozzle (18), described main pipeline (15) connects irrigation pipe (16), described irrigation pipe (16) connects droping irrigating pipe (17) and shower nozzle (18), between described main pipeline (15) and irrigation pipe (16), between irrigation pipe (16) and droping irrigating pipe (17), all connected by magnetic valve (14) between irrigation pipe (16) and shower nozzle (18), described magnetic valve (14) is connected with ZigBee module (3).

2. a kind of intelligent farm irrigation system based on public network mobile terminal according to claim 1, it is characterized in that: described monitoring modular (1) also comprises temperature sensor (19), described temperature sensor (19) is connected with ZigBee module (3), and described temperature sensor (19) is installed on dead lever (7).

3. a kind of intelligent farm irrigation system based on public network mobile terminal according to claim 1, it is characterized in that: described monitoring modular (1) also comprises optical sensor (20), described optical sensor (20) is connected with ZigBee module (3), and described optical sensor (20) is installed on dead lever (7).

4. a kind of intelligent farm irrigation system based on public network mobile terminal according to claim 1, it is characterized in that: described monitoring modular (1) also comprises wireless camera (21), described wireless camera (21) is connected with ZigBee module (3), and described wireless camera (21) is installed on dead lever (7) one end away from firm banking (6).

5. a kind of intelligent farm irrigation system based on public network mobile terminal according to claim 1, is characterized in that: described dead lever (7) is provided with scale.

6. a kind of intelligent farm irrigation system based on public network mobile terminal according to claim 1, is characterized in that: the bottom of described firm banking (6) is provided with fixing feet (22), and described fixing feet (22) is inserted in soil.

7. a kind of intelligent farm irrigation system based on public network mobile terminal according to claim 1, is characterized in that: described dead lever (7) is expansion link.