CN203397191U - Intelligent orchard irrigation control device - Google Patents
Intelligent orchard irrigation control device Download PDFInfo
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- CN203397191U CN203397191U CN201320480513.8U CN201320480513U CN203397191U CN 203397191 U CN203397191 U CN 203397191U CN 201320480513 U CN201320480513 U CN 201320480513U CN 203397191 U CN203397191 U CN 203397191U
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Abstract
An intelligent orchard irrigation control device is designed by adopting a CC2530 wireless single-chip microcontroller complying with a ZigBee protocol as a core and by combining a sensor detection technology, a liquid crystal touch screen control technology, and an electromagnetic valve control technology. The intelligent orchard irrigation control device comprises a sensor acquisition node, a coordinator node, and an electromagnetic valve control node; the sensor acquisition node collects parameter values of an orchard such as soil moisture, soil temperature, light intensity, and air temperature and humidity; the coordinator node gathers data collected by the sensor acquisition node; the liquid crystal touch screen is used for displaying, touch control, and setting a parameter value range; and when a collected parameter value exceeds the parameter value range, a wireless instruction is sent to the electromagnetic valve control node, so that the on-off of the electromagnetic valve is controlled. The intelligent orchard irrigation control device has the significant characteristics of being high in intelligence degree, convenient and flexible in installation, high in practicability, simple and vivid in manipulation, and the like.
Description
Technical field
The utility model relates to ZigBee wireless singlechip control technology, sensor detecting, liquid crystal touch screen control technology, solenoid control technology etc., especially a kind of orchard irrigation intelligent control device.
Background technology
Water-saving, intelligent irrigation technique is the needs of China's strategy of sustainable development, and science, intelligentized irrigation orchard can effectively be improved orchard Yield and quality and reduce production costs.Along with the fast-developing ,Wei orchard of control technology, wireless communication technology, sensor technology is intelligent, irrigates strong technical support is provided.
CC2530 has the enhancement mode 8051CPU of industrywide standard and combines leading RF transceiver, and it can set up powerful network node with low-down material cost.It is that core design goes out a kind of orchard irrigation intelligent control device that this device adopts CC2530 wireless singlechip.
Summary of the invention
The purpose of this utility model is to provide a kind of orchard irrigation intelligent control device, obtains soil moisture, the soil moisture, intensity of illumination, each parameter value of Atmosphere temp.and RH in orchard by sensor acquisition node; Coordinator node converges the data that sensor acquisition node gathers, and by liquid crystal touch screen show, touch control, parameters value scope, when the parameter value gathering exceeds the range of parameter values of setting, send wireless instructions to solenoid control node, realize the control of solenoid valve break-make.
The utility model solves the technical scheme that its technical matters adopts: the CC2530 wireless singlechip of following Zigbee protocol of take is core combined sensor detection technique, liquid crystal touch screen control technology, solenoid control technology designs, by sensor acquisition node, coordinator node, solenoid control node forms jointly, it is characterized in that: sensor acquisition node is by CC2530 wireless singlechip (1), TDC220D soil moisture sensor module (2), SLST1 soil temperature sensor module (3), ISL29010 intensity of illumination sensor assembly (4), AM2302 Temperature Humidity Sensor module (5) forms jointly, coordinator node consists of jointly CC2530 wireless singlechip (6), HY32C liquid crystal touch screen (7), solenoid control node consists of jointly CC2530 wireless singlechip (8), 9012 triode drivers (9), HF32 relay switch (10), 2W025-08 solenoid valve (11), the P1.0 port of CC2530 wireless singlechip (1) connects the SDI-12 bus port of TDC220D, P1.1 port connects the SDI-12 bus port of SLST1, P1.2, P1.3 port connect SDI, the SCLK port of ISL29010, P1.4 port connects the SDI-12 bus port of AM2302, gathers soil moisture, the soil moisture, intensity of illumination, each parameter value of Atmosphere temp.and RH and is wirelessly sent to CC2530 wireless singlechip (6), the P0.0-P0.7 of CC2530 wireless singlechip (6), P1.0-P1.7 port connect the FPDP of HY32C, and P2.0-P2.7, P3.0-P3.4 port connect the control port of HY32C, realize liquid crystal touch screen show, touch control, range of parameter values setting, the P1.0 port of CC2530 wireless singlechip (8) connects 9012 base stage, 9012 collector and connects the control port that HF32 input port, HF32 output port meet 2W025-08, CC2530 wireless singlechip (6) contrasts the parameter value gathering with the range of parameter values of setting, when the parameter value gathering exceeds the range of parameter values of setting, CC2530 wireless singlechip (6) sends wireless instructions to CC2530 wireless singlechip (8), CC2530 wireless singlechip (8) is received after instruction the break-make of pilot relay switch, is realized the control of solenoid valve break-make.
The beneficial effects of the utility model are: take follow Zigbee protocol CC2530 wireless singlechip as core combined sensor detection technique, liquid crystal touch screen control technology, solenoid control technology design, by sensor acquisition node, obtain soil, the atmospheric environmental parameters value in orchard; Coordinator node converges the data that sensor acquisition node gathers, and by liquid crystal touch screen show, touch control, parameters value scope, when the parameter value gathering exceeds the range of parameter values of setting, send wireless instructions to solenoid control node, realize the control of solenoid valve break-make; Device has that intelligent degree is high, convenient and flexible installation, practical, control the distinguishing features such as directly perceived simple.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the utility model will be further described.
It shown in Fig. 1, is theory structure block diagram of the present utility model, in figure: 1.CC2530 wireless singlechip, 2.TDC220D soil moisture sensor module, 3.SLST1 soil temperature sensor module, 4.ISL29010 intensity of illumination sensor assembly, 5.AM2302 Temperature Humidity Sensor module, 6.CC2530 wireless singlechip, 7.HY32C liquid crystal touch screen, 8.CC2530 wireless singlechip, 9.9012 triode drivers, 10.HF32 relay switch, 11.2W025-08 solenoid valve.
Embodiment
Referring to Fig. 1 the utility model, by sensor acquisition node, coordinator node, Control node, jointly formed.
Sensor acquisition node consists of jointly CC2530 wireless singlechip (1), TDC220D soil moisture sensor module (2), SLST1 soil temperature sensor module (3), ISL29010 intensity of illumination sensor assembly (4), AM2302 Temperature Humidity Sensor module (5).Soil moisture sensor module TDC220D, soil temperature sensor module SLST1, Atmosphere temp.and RH sensor assembly modules A M2302 adopt the communication of SDI-12 bus end, the P1.0 port of CC2530 wireless singlechip (1) connects the SDI-12 bus port of TDC220D, P1.1 port connects the SDI-12 bus port of SLST1, P1.4 port connects the SDI-12 bus port of AM2302, and the mode of its data acquisition realizes by writing command control word to module; First sending acquisition control word is that sensor assembly is made response, control word format be " aM! ", ' a ' represents address, ' M ' represents acquisition, '! ' expression control word end mark; Then sensor assembly is made response, and data layout is " atttn ", and ' a ' is expressed as the address of this sensor, the time that " ttt " represents this measurement, ' n ' represented data volume in seconds, and this arranges TDC220D module and returns to 1, SLST1 module is returned to 1, AM2302 module and is returned to 2; Again send data acquisition control word " aD0! " can obtain the data of sensor assembly, AM2302 module is returned to atmospheric temperature and two values of humidity, and between data, module is from employing '+' character separately.Intensity of illumination sensor assembly ISL29010 adopts IIC interface to communicate, the P1.2 of CC2530 wireless singlechip (1), P1.3 port connect SDI, the SCLK port Simulation with I IC sequential of ISL29010, by IIC interface, to ISL29010, write control word and obtain illumination intensity value, " COMMAND " control word arranges the inner ADC mode of operation of ISL29010, device mode of operation, timer internal pattern, inner photosensitive number of diodes according to pattern, resolution setting, this arranges COMMAND=0x88, and CONTROL=0x0C is used for arranging the gain of ISL29010 internal amplifier; CC2530 wireless singlechip (1) obtains light intensity intensity level by read data register address 0x04 and 0x05.Soil moisture, the soil moisture, intensity of illumination, each parameter value of Atmosphere temp.and RH of gathering are wirelessly sent to CC2530 wireless singlechip (6).
Coordinator node consists of jointly CC2530 wireless singlechip (6), HY32C liquid crystal touch screen (7).The P0.0-P0.7 of CC2530 wireless singlechip (6), P1.0-P1.7 port connect the FPDP of HY32C, and P2.0-P2.7, P3.0-P3.4 port connect the control port of HY32C, realize liquid crystal touch screen show, touch control, range of parameter values setting.
Solenoid control node is by CC2530 wireless singlechip (8), 9012 triode drivers (9), HF32 relay switch (10), 2W025-08 solenoid valve (11) forms jointly, the P1.0 port of CC2530 wireless singlechip (8) connects 9012 base stage, 9012 collector connects HF32 input port, HF32 output port connects the control port of 2W025-08, CC2530 wireless singlechip (6) contrasts the parameter value gathering with the range of parameter values of setting, when the parameter value gathering exceeds the range of parameter values of setting, CC2530 wireless singlechip (6) sends wireless instructions to CC2530 wireless singlechip (8), CC2530 wireless singlechip (8) is received after instruction the break-make of pilot relay switch, realize the control of solenoid valve break-make.
Claims (1)
1. an orchard irrigation intelligent control device, by sensor acquisition node, coordinator node, solenoid control node, jointly being formed, it is characterized in that: a). sensor acquisition node consists of jointly CC2530 wireless singlechip (1), TDC220D soil moisture sensor module (2), SLST1 soil temperature sensor module (3), ISL2900 intensity of illumination sensor assembly (4), AM2302 Temperature Humidity Sensor module (5); B). coordinator node consists of jointly CC2530 wireless singlechip (6), HY32C liquid crystal touch screen (7); C). solenoid control node consists of jointly CC2530 wireless singlechip (8), 9012 triode drivers (9), HF32 relay switch (10), 2W025-08 solenoid valve (11); D) the P1.0 port of .CC2530 wireless singlechip (1) connects the SDI-12 bus port of TDC220D, P1.1 port connects the SDI-12 bus port of SLST1, P1.2, P1.3 port connect SDI, the SCLK port of ISL29010, P1.4 port connects the SDI-12 bus port of AM2302, gathers soil moisture, the soil moisture, intensity of illumination, each parameter value of Atmosphere temp.and RH and is wirelessly sent to CC2530 wireless singlechip (6); E) P0.0-P0.7 of .CC2530 wireless singlechip (6), P1.0-P1.7 port connect the FPDP of HY32C, P2.0-P2.7, P3.0-P3.4 port connect the control port of HY32C, realize liquid crystal touch screen show, touch control, range of parameter values setting; F) the P1.0 port of .CC2530 wireless singlechip (8) connects 9012 base stage, 9012 collector and connects the control port that HF32 input port, HF32 output port meet 2W025-08, CC2530 wireless singlechip (6) contrasts the parameter value gathering with the range of parameter values of setting, when the parameter value gathering exceeds the range of parameter values of setting, CC2530 wireless singlechip (6) sends wireless instructions to CC2530 wireless singlechip (8), CC2530 wireless singlechip (8) is received after instruction the break-make of pilot relay switch, is realized the control of solenoid valve break-make.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320480513.8U CN203397191U (en) | 2013-08-03 | 2013-08-03 | Intelligent orchard irrigation control device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320480513.8U CN203397191U (en) | 2013-08-03 | 2013-08-03 | Intelligent orchard irrigation control device |
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| CN203397191U true CN203397191U (en) | 2014-01-15 |
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| CN201320480513.8U Expired - Fee Related CN203397191U (en) | 2013-08-03 | 2013-08-03 | Intelligent orchard irrigation control device |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105706859A (en) * | 2015-01-09 | 2016-06-29 | 陕西理工学院 | Monitoring and irrigating device for urban gardening |
| CN105941102A (en) * | 2016-06-27 | 2016-09-21 | 北京紫荆捷控科技有限公司 | Farmland irrigation control system |
-
2013
- 2013-08-03 CN CN201320480513.8U patent/CN203397191U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105706859A (en) * | 2015-01-09 | 2016-06-29 | 陕西理工学院 | Monitoring and irrigating device for urban gardening |
| CN105941102A (en) * | 2016-06-27 | 2016-09-21 | 北京紫荆捷控科技有限公司 | Farmland irrigation control system |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140115 Termination date: 20140803 |
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| EXPY | Termination of patent right or utility model |