CN204421963U - A kind of cherry orchard environmental parameter monitoring device - Google Patents

A kind of cherry orchard environmental parameter monitoring device Download PDF

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Publication number
CN204421963U
CN204421963U CN201520137006.3U CN201520137006U CN204421963U CN 204421963 U CN204421963 U CN 204421963U CN 201520137006 U CN201520137006 U CN 201520137006U CN 204421963 U CN204421963 U CN 204421963U
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China
Prior art keywords
module
port
soil
chip microcomputer
parameter
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Expired - Fee Related
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CN201520137006.3U
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Chinese (zh)
Inventor
邹志勇
周曼
许丽佳
康志亮
黄鹏
刘明丹
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Sichuan Agricultural University
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Sichuan Agricultural University
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Priority to CN201520137006.3U priority Critical patent/CN204421963U/en
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Expired - Fee Related legal-status Critical Current
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Abstract

A kind of cherry orchard environmental parameter monitoring device, by singlechip controller (1), soil pH sensor assembly (2), intensity of illumination sensor assembly (3), air velocity transducer module (4), soil moisture sensor module (5), GPRS module (6), LCD liquid crystal display (7) form jointly; Realize cherry orchard soil pH environmental parameter, intensity of illumination environmental parameter, wind speed environments parameter, soil moisture environment parameter acquisition function; And use LCD liquid crystal display to realize field Presentation Function; By each environmental parameter that GPRS module remote transmission gathers; For supvr is convenient, provide each environmental parameter in time; Device have practical, install simple, use the distinguishing features such as flexible.

Description

A kind of cherry orchard environmental parameter monitoring device
Technical field
The utility model relates to single-chip microcomputer control technology, sensor assembly technology, GPRS module technology, LCD LCD Technology, especially a kind of cherry orchard environmental parameter monitoring device.
Background technology
Cherry is a kind of nutritious fruit, the fruit that especially iron-holder is high.Cherry not only mouthfeel is sweet, and has suitable medical value.Its significant economic benefit, impels plantation amount increasing.Along with the change of climatic environment, plantation quality more and more Customers ' Legal Right and the raising of cherry.
This device adopts high performance-price ratio Atmega128 single-chip microcomputer to be the technology such as core combined sensor, for cherry orchard provides a kind of effective environmental parameter harvester.
Summary of the invention
The purpose of this utility model is to provide a kind of cherry orchard environmental parameter monitoring device, realizes soil pH, intensity of illumination, wind speed, soil moisture environment parameter acquisition by sensor assembly; By the environmental parameter that GPRS module remote transmission gathers; Each environmental parameter is shown by LCD liquid crystal display.
The utility model solves the technical scheme that its technical matters adopts: the utility model with high performance-price ratio Atmega128 single-chip microcomputer for core combined sensor building block technique, GPRS module technology, LCD LCD Technology design, it is characterized in that: by singlechip controller (1), soil pH sensor assembly (2), intensity of illumination sensor assembly (3), air velocity transducer module (4), soil moisture sensor module (5), GPRS module (6), LCD liquid crystal display (7) form jointly; Form singlechip controller (1) by Atmega128 single-chip microcomputer, by SM2102A module composition soil pH sensor assembly (2), by ISL29010 module composition intensity of illumination sensor assembly (3), by HL-FS2Z05V module composition air velocity transducer module (4), by TDC220D module composition soil moisture sensor module (5), by MC39i module composition GPRS module (6), be jointly made up of JLX12864G-109-P module composition LCD liquid crystal display (7); PD2, PD3 port of Atmega128 single-chip microcomputer connects TXD, RXD port of SM2102A module, gathers soil pH parameter; PA1, PA2 port of Atmega128 single-chip microcomputer connects SDI, SCLK port of ISL29010 module, gathers intensity of illumination parameter; The analog to digital conversion input port ADC1 of Atmega128 single-chip microcomputer connects the analog voltage output port of HL-FS2Z05V module, gathers wind speed parameter; The PA3 port of Atmega128 single-chip microcomputer connects the SDI-12 port of TDC220D module, gathers soil moisture parameter; PE0, PE1 port of Atmega128 single-chip microcomputer connects TXD, RXD port of MC39i module, realizes soil pH, intensity of illumination, wind speed, the transmission of soil moisture environment parameters remote; The PC0-PC7 port of Atmega128 single-chip microcomputer connects the FPDP of JLX12864G-109-P module, and PG3-PG7 port connects the control port of JLX12864G-109-P module, realizes soil pH, intensity of illumination, wind speed, soil moisture environment parameter display.
The beneficial effects of the utility model are: adopt high performance-price ratio Atmega128 single-chip microcomputer to be that the technology such as core combined sensor design, realize cherry orchard soil pH environmental parameter, intensity of illumination environmental parameter, wind speed environments parameter, soil moisture environment parameter acquisition function; And use LCD liquid crystal display to realize field Presentation Function; By each environmental parameter that GPRS module remote transmission gathers; For supvr is convenient, provide each environmental parameter in time; Device have practical, install simple, use the distinguishing features such as flexible.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the utility model will be further described.
Theory structure block diagram of the present utility model shown in Fig. 1, in figure: 1. singlechip controller, 2. soil pH sensor assembly, 3. intensity of illumination sensor assembly, 4. air velocity transducer module, 5. soil moisture sensor module, 6.GPRS module, 7.LCD liquid crystal display.
Embodiment
See Fig. 1 the utility model by singlechip controller (1), soil pH sensor assembly (2), intensity of illumination sensor assembly (3), air velocity transducer module (4), soil moisture sensor module (5), GPRS module (6), LCD liquid crystal display (7) form jointly.
Singlechip controller (1) is formed by Atmega128 single-chip microcomputer, by SM2102A module composition soil pH sensor assembly (2), SM2102A module adopts RS232 interface communication, PD2, PD3 port of Atmega128 single-chip microcomputer connects TXD, RXD port of SM2102A module, gathers soil pH parameter.
By ISL29010 module composition intensity of illumination sensor assembly (3), PA1, PA2 port of Atmega128 single-chip microcomputer connects SDI, SCLK port of ISL29010 module, Atmega128 single-chip microcomputer obtains illumination intensity value to ISL29010 module write control word, Atmega128 single-chip microcomputer write " COMMAND " control word arranges the inner ADC mode of operation of ISL29010, devices function pattern, timer internal pattern, inner photosensitive number of diodes according to pattern, resolution setting, and this arranges COMMAND=0x88; Atmega128 single-chip microcomputer write " CONTROL " control word arranges the gain of ISL29010 internal amplifier, and this arranges CONTROL=0x0C; Data register address 0x04 and 0x05 of the machine-readable ISL29010 module of Atmega128 monolithic can obtain intensity of illumination parameter.
By HL-FS2Z05V module composition air velocity transducer module (4), the analog to digital conversion input port ADC1 of Atmega128 single-chip microcomputer connects the analog voltage output port of HL-FS2Z05V module, gathers wind speed parameter.
By TDC220D module composition soil moisture sensor module (5), the mode of its data acquisition of SDI-12 port is realized by four steps, first writes acquisition control word and sensor device module makes response, control word format be " aM! ", ' a ' represents address, and this device is all set to 0 to the address of each sensor assembly, and ' M ' represents acquisition, '! ' represent control word end mark; Then sensor assembly makes response, and data layout is " atttn ", the address that ' a ' is expressed as this sensor assembly that is 0, and " ttt " represents this time of measuring, and in seconds, ' n ' represents data volume; Again write data acquisition control word " aD0! ", can soil moisture parameter be obtained.
Connect TXD, RXD port of MC39i module by PE0, PE1 port of MC39i module composition GPRS module (6), Atmega128 single-chip microcomputer, realize soil pH, intensity of illumination, wind speed, the transmission of soil moisture environment parameters remote.
By JLX12864G-109-P module composition LCD liquid crystal display (7), the PC0-PC7 port of Atmega128 single-chip microcomputer connects the FPDP of JLX12864G-109-P module, PG3-PG7 port connects the control port of JLX12864G-109-P module, realizes soil pH, intensity of illumination, wind speed, soil moisture environment parameter display.

Claims (1)

1. a cherry orchard environmental parameter monitoring device, by singlechip controller (1), soil pH sensor assembly (2), intensity of illumination sensor assembly (3), air velocity transducer module (4), soil moisture sensor module (5), GPRS module (6), LCD liquid crystal display (7) forms jointly, it is characterized in that: a). form singlechip controller (1) by Atmega128 single-chip microcomputer, by SM2102A module composition soil pH sensor assembly (2), by ISL29010 module composition intensity of illumination sensor assembly (3), by HL-FS2Z05V module composition air velocity transducer module (4), by TDC220D module composition soil moisture sensor module (5), by MC39i module composition GPRS module (6), jointly be made up of JLX12864G-109-P module composition LCD liquid crystal display (7), b) PD2, PD3 port of .Atmega128 single-chip microcomputer connects TXD, RXD port of SM2102A module, gathers soil pH parameter, c) PA1, PA2 port of .Atmega128 single-chip microcomputer connects SDI, SCLK port of ISL29010 module, gathers intensity of illumination parameter, d) the analog to digital conversion input port ADC1 of .Atmega128 single-chip microcomputer connects the analog voltage output port of HL-FS2Z05V module, gathers wind speed parameter, e) the PA3 port of .Atmega128 single-chip microcomputer connects the SDI-12 port of TDC220D module, gathers soil moisture parameter, f) PE0, PE1 port of .Atmega128 single-chip microcomputer connects TXD, RXD port of MC39i module, realizes soil pH, intensity of illumination, wind speed, the transmission of soil moisture environment parameters remote, g) the PC0-PC7 port of .Atmega128 single-chip microcomputer connects the FPDP of JLX12864G-109-P module, PG3-PG7 port connects the control port of JLX12864G-109-P module, realizes soil pH, intensity of illumination, wind speed, soil moisture environment parameter display.
CN201520137006.3U 2015-03-11 2015-03-11 A kind of cherry orchard environmental parameter monitoring device Expired - Fee Related CN204421963U (en)

Priority Applications (1)

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CN201520137006.3U CN204421963U (en) 2015-03-11 2015-03-11 A kind of cherry orchard environmental parameter monitoring device

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Application Number Priority Date Filing Date Title
CN201520137006.3U CN204421963U (en) 2015-03-11 2015-03-11 A kind of cherry orchard environmental parameter monitoring device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112449975A (en) * 2020-11-30 2021-03-09 杭州市农业科学研究院 Method for preventing and treating fruit cracking of sweet cherries based on Internet of things technology

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112449975A (en) * 2020-11-30 2021-03-09 杭州市农业科学研究院 Method for preventing and treating fruit cracking of sweet cherries based on Internet of things technology

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CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150624

Termination date: 20160311