CN204104453U - Wireless farmland irrigation system - Google Patents

Abstract

The utility model relates to a kind of Wireless Farmland irrigation system, comprise master control borad, display board, control panel, the first communication board, control valve, sensor assembly, power module, video acquisition module, wherein the first communication board comprises serial communication interface, GPRS module, ZIGBEE module, WIFI module, WCDMA module, TD-LTE module, and serial communication interface is connected with master control borad.The beneficial effects of the utility model are: structure of the present utility model adopts modularized design, and modularized design makes Total Product reliability higher, and arithmetic speed improves greatly; Product structure advantages of simple, easy for installation, Parameter adjustable, certainty of measurement are high, have of many uses, be easy to expansion, portable good feature.

Description

Wireless Farmland irrigation system

Technical field

The utility model relates to a kind of Wireless Farmland irrigation system.

Background technology

In recent years, along with the development of society and the raising of people's living standard, the development of agricultural automation, the automation of farm irrigation system is required that degree is also more and more higher, rural area farmland area is wide, add the continuous increase along with population, about increasing to the demand of water resource, using water wisely has become the theme of social development.Along with the development in city and concentrating of population, the various greenery area in city is increasing, and the pressure of urban water supply becomes increasingly conspicuous.Traditional irrigation method can not meet modern requirement of irrigating using water wisely automation, adopts irrigation method that is efficient, automation extremely urgent.At present, traditional irrigation method mainly adopts manual type to control, and is also only installed some water saving fixtures in water saving, and in the process of irrigating, be difficult to the basic condition grasping field irrigation, efficiency and the cost of irrigation increase greatly.

Utility model content

A kind of general Wireless Farmland irrigation system that the purpose of this utility model is to avoid the weak point in above-mentioned background technology and provides, this system adopts modern advanced wireless communication technology, by wireless transmission, can Long-distance Control farm irrigation system, realize the automation of irrigating.Modularized design of the present utility model can solve the problem that multiple industry irrigates demand, thus improves product versatility significantly.This Wireless Farmland irrigation system has reasonable in design, easy for installation, that intelligence degree is high feature, on-the-spot unmanned, decrease administrative staff, save administrative expenses, improve economic benefit, really accomplish energy-saving and environmental protection, water-saving object, can just observe the ruuning situation of irrigation system at Control Room by computer monitor screen, and automatically record is carried out to the ruuning situation of system, analyze.

The purpose of this utility model realizes like this, a kind of Wireless Farmland irrigation system, comprise master control borad, display board, control panel, first communication board, control valve, sensor assembly, power module, video acquisition module, second communication plate side is connected with remote monitoring platform, opposite side carries out data communication by wireless transmission and the utility model Wireless Farmland irrigation system first communication board, first communication board is connected with master control borad, first communication board is responsible for sending by interface the data received from remote monitoring platform to master control borad, also the data after master control borad process can be transferred to remote monitoring platform, interface supports RS-232/485 interface type, master control borad sends the data result after process to first communication board, remote monitoring platform is transferred to by the first communication board, master control borad side is connected with sensor assembly, control valve, power module, video acquisition module respectively, and sensor assembly is responsible for the water pressure condition data gathering irrigation system, and this sensor is a kind of pressure sensor, and sends water pressure condition data to master control borad, display board is connected with master control borad, the data after master control borad process are responsible for be shown on Wireless Farmland irrigation system display screen, display board supports multiple display modes, as industry control screen, liquid crystal display, touch-screen, external VGA video, connects different display product according to different demand, control panel is connected with master control borad, is responsible for exporting all kinds of control signal to master control borad, as control signals such as Control, the control of motor positive-negative sequence, switch control rule, pulsed quantity controls, can control different equipment by changing control panel, master control borad is responsible for coordinating master control borad, display board, control panel, the first communication board, the relation between control valve, sensor assembly, power module, video acquisition module several pieces of boards, and can carry out data operation and data storage, is core board.

The utility model is compared with background technology, and tool has the following advantages:

(1) structure of the present utility model adopts modularized design, and modularized design makes Total Product reliability higher, and arithmetic speed improves greatly;

(2) the utility model is simple and reasonable, easy for installation;

(3) high, the Parameter adjustable of the utility model certainty of measurement;

(4) the utility model of many uses, be easy to expansion, portable good.

Accompanying drawing explanation

Fig. 1 is the utility model block diagram of system.

Fig. 2 is the inside composition frame chart of the utility model first communication board.

Embodiment

As Fig. 1, a kind of Wireless Farmland irrigation system described in the utility model embodiment, comprise master control borad 200, display board 300, control panel 400, first communication board 100, control valve 1000, sensor assembly 700, power module 600, video acquisition module 1050, each parts connect according to Fig. 1.First communication board 100 opposite side is connected with master control borad 200, first communication board 100 is responsible for the data receiving remote monitoring platform 900 transmission, remote monitoring platform 900 sends director data to first communication board 100 by second communication plate 800 with wireless transmission method, master control borad 200 is sent to by interface after first communication board receives the director data of remote monitoring platform, also the hydraulic pressure data after master control borad 200 can being processed send remote monitoring platform 900 to by the form of wireless transmission, master control borad and the first communication board interface support RS-232/485 interface type, transmission means comprises GPRS, ZIGBEE, WIFI, WCDMA, TD-LTE mode, master control borad 200 sends the data result after process to first communication board 100, second communication plate 800 is transferred to by the first communication board 100, second communication plate 800 sends the data received to remote monitoring platform 900, display board 300 is connected with master control borad 200, being responsible for the data after being processed by master control borad 200 is shown on display screen, display board 300 supports multiple display modes, as industry control screen, liquid crystal display, touch-screen, external VGA video, connects different display product according to different demand, control panel 400 is connected with master control borad 200, is responsible for exporting all kinds of control signal to control panel 400 by master control borad 200, as control signals such as Control, the control of motor positive-negative sequence, switch control rule, pulsed quantity controls, master control borad 200 and sensor assembly 700, control valve 1000, power module 600, video acquisition module 1050 connects, when after power-off, power module 600 gives system power supply, sensor assembly 700 is a kind of pressure sensors, the water pressures of irrigation system can be gathered, and send pressure condition data to remote monitoring platform 900 by master control borad 200, remote monitoring platform 900 finds that hydraulic pressure is much, water flow pressure threshold values data are sent when current are too urgent, the first communication board 100 is sent to by second communication plate 800, after first communication board 100 receives hydraulic valve Value Data, send data to master control borad, master control borad is according to threshold values data, director data is sent to control valve 1000, control valve 1000 adjusts the mouth of a river automatically according to director data, to reach hydraulic pressure control object.Master control borad 200 is responsible for coordinating the relation between display board 300, control panel 400, first communication board 100, control valve 1000, sensor assembly 700, power module 600, video acquisition module more than 1050 pieces of boards, and data operation and data storage can be carried out, be core board.

As Fig. 2, it is the utility model first communication board interior block diagram, comprise serial communication interface 101, GPRS module 102, ZIGBEE module 103, WIFI module 104, WCDMA module 105, TD-LTE module 106, serial communication interface 101 and GPRS module 102, ZIGBEE module 103, WIFI module 104, WCDMA module 105, TD-LTE module 106 connects, serial communication interface 101 opposite side is connected with master control borad 200, after remote monitoring platform 900 selects transmission means, data are sent to second communication plate 800, second communication plate 800 structure is identical with the first communication board 100 structure, transmission means selectively selects respective transmissions module, data are sent to master control borad 200 after respective modules receives data.

Operation principle of the present utility model:

When the utility model Wireless Farmland irrigation system is run, first user sends enabled instruction data by remote monitoring platform, after sending startup or closing control instruction by wireless transmission to this Wireless Farmland irrigation system, first communication board 100 of this Wireless Farmland irrigation system receives the startup or out code data that remote terminal sends, director data is sent to control panel 400 by master control borad 200, after control panel 400 receives signal data, enabled instruction is sent to active plate 200, enabled instruction is sent to control valve 1000 by active plate 200, control valve 1000 opens irrigation system automatically, system operationally, sensor assembly 700 monitors hydraulic pressure data cases at any time, by hydraulic pressure data upload to master control borad 200, second communication plate 800 is sent to again by the first communication board 100, be ultimately delivered to remote monitoring platform 900, after remote monitoring platform 900 receives hydraulic pressure data, if exceed hydraulic valve Value Data, automatic transmission hydraulic pressure control data, hydraulic pressure control data send master control borad 200 to by second communication plate 800 and the first communication board 100, master control borad 200 sends the data to control panel 400, control panel 400 assigns director data, control valve 1000 is sent to by master control borad 200, thus realize the control of hydraulic pressure.

The utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but any change is done in its shape or structure; every have the same or analogous technical scheme with the application, all drops within protection domain of the present utility model.

Claims (2)

1. a Wireless Farmland irrigation system, comprises master control borad (200), display board (300), control panel (400), first communication board (100), control valve (1000), sensor assembly (700), power module (600), video acquisition module (1050), is characterized in that: the first communication board (100) is connected with master control borad (200), master control borad (200) side respectively with sensor assembly (700), control valve (1000), power module (600), video acquisition module (1050) connects, control panel (400) is connected with master control borad (200), be responsible for exporting all kinds of control signal to master control borad (200), master control borad (200) is responsible for coordinating master control borad (200), display board (300), control panel (400), first communication board (100), control valve (1000), sensor assembly (700), power module (600), relation between video acquisition module (1050) several pieces of boards is core board.

2. Wireless Farmland irrigation system according to claim 1, it is characterized in that: described the first communication board (100) comprises serial communication interface (101), GPRS module (102), ZIGBEE module (103), WIFI module (104), WCDMA module (105), TD-LTE module (106), serial communication interface (101) side and GPRS module (102), ZIGBEE module (103), WIFI module (104), WCDMA module (105), TD-LTE module (106) connects, opposite side is connected with master control borad (200).