CN206805246U - A kind of reservoir rainfall, water turbidity, water level parameters monitoring device - Google Patents
A kind of reservoir rainfall, water turbidity, water level parameters monitoring device Download PDFInfo
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- CN206805246U CN206805246U CN201720735893.3U CN201720735893U CN206805246U CN 206805246 U CN206805246 U CN 206805246U CN 201720735893 U CN201720735893 U CN 201720735893U CN 206805246 U CN206805246 U CN 206805246U
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Abstract
A kind of reservoir rainfall, water turbidity, water level parameters monitoring device, it is designed by core combination rainwater flow sensor technology, water turbidity sensor technology, radar type level sensor technology, GPRS technologies, LCD Display Techniques, solar powered technology of high performance-price ratio dsp controller, by dsp controller(1), rainfall observation circuit(2), water turbidity observation circuit(3), water level monitoring circuit(4), GPRS module(5), LCD display circuit(6), solar powered module(7)Collectively constitute, realize the rainfall parameter monitoring function, water turbidity parameter monitoring function, water level parameters monitoring function of reservoir;By GPRS module, the remote transmission function of each parameter is realized;By LCD display circuit, the display function of each parameter is realized;Using solar powered;Device has the distinguishing feature such as practical.
Description
Technical field
It the utility model is related to dsp controller technology, rainwater flow sensor technology, water turbidity sensor technology, radar
Formula level sensor technology, GPRS technologies, LCD Display Techniques, solar powered technology, especially a kind of reservoir rainfall, water
Turbidity, water level parameters monitoring device.
Background technology
Reservoir arid season rise water supply operation, the water reservation from flood season, therefore the importance of reservoir do not say and
Analogy.For scientific and effective monitoring reservoir level, rainfall, water turbidity situation, the present apparatus is using high performance-price ratio dsp controller as core
Shown with reference to rainwater flow sensor technology, water turbidity sensor technology, radar type level sensor technology, GPRS technologies, LCD
Technology, solar powered Technology design go out a kind of reservoir rainfall, water turbidity, water level parameters monitoring device.
The content of the invention
The purpose of this utility model is to provide a kind of reservoir rainfall, water turbidity, water level parameters monitoring device, passes through drop
Rainfall monitoring circuit, realize the rainfall parameter monitoring function of reservoir;By water turbidity observation circuit, the water turbidity of reservoir is realized
Parameter monitoring function;By water level monitoring circuit, the water level parameters monitoring function of reservoir is realized;By GPRS module, water is realized
Rainfall, water turbidity, the water level parameters remote transmission function in storehouse;By LCD display circuit, realize that the rainfall of reservoir, water are turbid
Degree, water level parameters display function;By solar powered module positive 5V DC voltages are provided for device.
Technical scheme is used by the utility model solves its technical problem:The utility model is controlled with high performance-price ratio DSP
Device processed is core combination rainwater flow sensor technology, water turbidity sensor technology, radar type level sensor technology, GPRS skills
Art, LCD Display Techniques, solar powered technology are designed, by dsp controller(1), rainfall observation circuit(2), water turbidity
Observation circuit(3), water level monitoring circuit(4), GPRS module(5), LCD display circuit(6), solar powered module(7)Jointly
Composition, it is characterised in that:Dsp controller is formed by TMS320F2812 controllers(1), passed by XT-LDE current mode rainwater flow
Sensor, MAX472IVC chips, 200 ohm of carbon film precision resistances form rainfall observation circuit(2), sensed by ZS710 water turbidities
Device, MAX485 interface chips form water turbidity observation circuit(3), supervised by CS477 radar type level sensor module compositions water level
Slowdown monitoring circuit(4), by SIM800L module composition GPRS modules(5), by LCD-1602 module composition LCD display circuits(6), by
12V-30W monocrystalline solar cells plate, IN5408 commutation diodes, 12V-8AH batteries, LM7805 voltage stabilizing chips form the sun
Can power supply module(7);First port, the second port of XT-LDE current mode rainwater flow sensors connect MAX472IVC cores respectively
The VP ports of piece, the 3rd port of LM7805 voltage stabilizing chips, first port, the second port point of 200 ohm of carbon film precision resistances
VP ports, the TL ports of MAX472IVC chips are not connect, and the AIN1 ports of TMS320F2812 controllers connect MAX472IVC chips
VOUT ports, XT-LDE current mode rainwater flow sensor be arranged on reservoir bank, realize reservoir rainfall parameter prison
Brake;A ports, the B ports of ZS710 water turbidity sensors connect the B ports of MAX485 interface chips, A ports respectively,
GPIOA0 ports, GPIOA1 ports, the GPIOA2 ports of TMS320F2812 controllers connect the DI ends of MAX485 interface chips respectively
Mouth, RO ports, DE ports, ZS710 water turbidities sensor are arranged in the water of reservoir, realize the water turbidity parameter monitoring work(of reservoir
Energy;GPIOA4 ports, GPIOA5 ports, the GPIOA6 ports of TMS320F2812 controllers connect CS477 radar types water level biography respectively
Sensor module SDI ports, SCK ports, CS ports, CS477 radar type level sensor modules are arranged on reservoir by retort stand
Bank, realize the water level parameters monitoring function of reservoir;TXDA ports, the RXDA ports of TMS320F2812 controllers connect respectively
RXD ports, the TXD ports of SIM800L modules, realize the rainfall, water turbidity, water level parameters remote transmission function of reservoir;
The GPIOB1-GPIOB8 ports of TMS320F2812 controllers meet the D0-D7 ports of LCD-1602 modules, TMS320F2812 respectively
GPIOA9 ports, GPIOA10 ports, the GPIOA11 ports of controller connect respectively the RW ports of LCD-1602 modules, EN ports,
RS ports, realize the rainfall, water turbidity, water level parameters display function of reservoir;The positive pole of 12V-30W monocrystalline solar cells plates
Port, negative pole port meet the anode port of IN5408 commutation diodes, the 3rd port of LM7805 voltage stabilizing chips, IN5408 respectively
The negative electrode port of commutation diode connects the positive pole port of 12V-8AH batteries, the first port of LM7805 voltage stabilizing chips, the 3rd end
Mouth connects positive pole port, the negative pole port of 12V-8AH batteries respectively, is provided by the second port of LM7805 voltage stabilizing chips for device
Positive 5V DC voltages.
The beneficial effects of the utility model are:The utility model is using high performance-price ratio dsp controller as core combination rainwater stream
Quantity sensor technology, water turbidity sensor technology, radar type level sensor technology, GPRS technologies, LCD Display Techniques, the sun
Energy power supply technique is designed, and realizes rainfall parameter monitoring function, water turbidity parameter monitoring function, the water level parameters prison of reservoir
Brake;By GPRS module, the remote transmission function of each parameter is realized;By LCD display circuit, the display of each parameter is realized
Function;Using solar powered;Device has the distinguishing feature such as practical.
Brief description of the drawings
The utility model will be further described below in conjunction with the accompanying drawings.
It is theory structure block diagram of the present utility model shown in Fig. 1, in figure:1. dsp controller, 2. rainfall observation circuits,
3. water turbidity observation circuit, 4. water level monitoring circuits, 5. GPRS modules, 6. LCD display circuits, 7. solar powered modules.
Embodiment
Referring to Fig. 1 the utility model by dsp controller(1), rainfall observation circuit(2), water turbidity observation circuit(3)、
Water level monitoring circuit(4), GPRS module(5), LCD display circuit(6), solar powered module(7)Collectively constitute, by
TMS320F2812 controllers form dsp controller(1).
Drop is formed by XT-LDE current mode rainwater flow sensor, MAX472IVC chips, 200 ohm of carbon film precision resistances
Rainfall monitoring circuit(2), first port, the second port of XT-LDE current mode rainwater flow sensors meet MAX472IVC respectively
The VP ports of chip, the 3rd port of LM7805 voltage stabilizing chips, first port, the second port of 200 ohm of carbon film precision resistances
VP ports, the TL ports of MAX472IVC chips are connect respectively, and the AIN1 ports of TMS320F2812 controllers connect MAX472IVC cores
The VOUT ports of piece, XT-LDE current mode rainwater flow sensor are arranged on the bank of reservoir, realize the rainfall parameter of reservoir
Monitoring function.
Water turbidity observation circuit is formed by ZS710 water turbidities sensor, MAX485 interface chips(3), ZS710 water turbidities biography
A ports, the B ports of sensor meet the B ports of MAX485 interface chips, A ports, the GPIOA0 of TMS320F2812 controllers respectively
Port, GPIOA1 ports, GPIOA2 ports connect the DI ports, RO ports, DE ports of MAX485 interface chips, ZS710 water respectively
Turbidity transducer is arranged in the water of reservoir, realizes the water turbidity parameter monitoring function of reservoir.
By CS477 radar type level sensor module composition water level monitoring circuits(4), TMS320F2812 controllers
GPIOA4 ports, GPIOA5 ports, GPIOA6 ports connect CS477 radar type level sensor module SDI ports, SCK ends respectively
Mouth, CS ports, CS477 radar type level sensor modules are arranged on the bank of reservoir by retort stand, realize the water level of reservoir
Parameter monitoring function.
By SIM800L module composition GPRS modules(5), the TXDA ports of TMS320F2812 controllers, RXDA ports difference
RXD ports, the TXD ports of SIM800L modules are connect, realizes the rainfall, water turbidity, water level parameters remote transmission function of reservoir.
By LCD-1602 module composition LCD display circuits(6), the GPIOB1-GPIOB8 ports of TMS320F2812 controllers
Connect the D0-D7 ports of LCD-1602 modules respectively, the GPIOA9 ports of TMS320F2812 controllers, GPIOA10 ports,
GPIOA11 ports connect the RW ports, EN ports, RS ports of LCD-1602 modules respectively, realize the rainfall of reservoir, water turbidity,
Water level parameters display function.
By 12V-30W monocrystalline solar cells plate, IN5408 commutation diodes, 12V-8AH batteries, LM7805 voltage stabilizing cores
Piece forms solar powered module(7), positive pole port, the negative pole port of 12V-30W monocrystalline solar cells plates connect respectively
The anode port of IN5408 commutation diodes, the 3rd port of LM7805 voltage stabilizing chips, the cathode terminal of IN5408 commutation diodes
Mouth connects the positive pole port of 12V-8AH batteries, and the first port of LM7805 voltage stabilizing chips, the 3rd port connect 12V-8AH storages respectively
Positive pole port, the negative pole port of battery, positive 5V DC voltages are provided for device by the second port of LM7805 voltage stabilizing chips.
Claims (1)
1. a kind of reservoir rainfall, water turbidity, water level parameters monitoring device, by dsp controller(1), rainfall observation circuit
(2), water turbidity observation circuit(3), water level monitoring circuit(4), GPRS module(5), LCD display circuit(6), solar powered mould
Block(7)Collectively constitute, it is characterised in that:Dsp controller is formed by TMS320F2812 controllers(1), by XT-LDE current mode rain
Water flow sensor, MAX472IVC chips, 200 ohm of carbon film precision resistances form rainfall observation circuit(2), by ZS710 water
Turbidity transducer, MAX485 interface chips form water turbidity observation circuit(3), by CS477 radar type level sensor module structures
Into water level monitoring circuit(4), by SIM800L module composition GPRS modules(5), by LCD-1602 module composition LCD display circuits
(6), by 12V-30W monocrystalline solar cells plate, IN5408 commutation diodes, 12V-8AH batteries, LM7805 voltage stabilizing chip structures
Into solar powered module(7);First port, the second port of XT-LDE current mode rainwater flow sensors connect respectively
The VP ports of MAX472IVC chips, the 3rd port of LM7805 voltage stabilizing chips, the first end of 200 ohm of carbon film precision resistances
Mouth, second port connect the VP ports of MAX472IVC chips, TL ports respectively, and the AIN1 ports of TMS320F2812 controllers connect
The VOUT ports of MAX472IVC chips, XT-LDE current mode rainwater flow sensor are arranged on the bank of reservoir, realize reservoir
Rainfall parameter monitoring function;A ports, the B ports of ZS710 water turbidity sensors connect the B ends of MAX485 interface chips respectively
Mouth, A ports, GPIOA0 ports, GPIOA1 ports, the GPIOA2 ports of TMS320F2812 controllers connect MAX485 interfaces respectively
DI ports, RO ports, the DE ports of chip, ZS710 water turbidities sensor are arranged in the water of reservoir, realize the water turbidity of reservoir
Parameter monitoring function;GPIOA4 ports, GPIOA5 ports, the GPIOA6 ports of TMS320F2812 controllers meet CS477 respectively
Radar type level sensor module SDI ports, SCK ports, CS ports, CS477 radar type level sensor modules pass through iron branch
Frame is arranged on the bank of reservoir, realizes the water level parameters monitoring function of reservoir;The TXDA ports of TMS320F2812 controllers,
RXDA ports connect the RXD ports of SIM800L modules, TXD ports respectively, realize that the rainfall, water turbidity, water level parameters of reservoir are remote
Journey transfer function;The GPIOB1-GPIOB8 ports of TMS320F2812 controllers connect the D0-D7 ends of LCD-1602 modules respectively
Mouthful, GPIOA9 ports, GPIOA10 ports, the GPIOA11 ports of TMS320F2812 controllers connect LCD-1602 modules respectively
RW ports, EN ports, RS ports, realize the rainfall, water turbidity, water level parameters display function of reservoir;The 12V-30W monocrystalline sun
Can positive pole port, the negative pole port of cell panel connect the anode ports of IN5408 commutation diodes, LM7805 voltage stabilizing chips respectively
3rd port, the negative electrode port of IN5408 commutation diodes connect the positive pole port of 12V-8AH batteries, LM7805 voltage stabilizing chips
First port, the 3rd port connect the positive pole port of 12V-8AH batteries, negative pole port respectively, by the of LM7805 voltage stabilizing chips
Two-port netwerk provides positive 5V DC voltages for device.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720735893.3U CN206805246U (en) | 2017-06-23 | 2017-06-23 | A kind of reservoir rainfall, water turbidity, water level parameters monitoring device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720735893.3U CN206805246U (en) | 2017-06-23 | 2017-06-23 | A kind of reservoir rainfall, water turbidity, water level parameters monitoring device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN206805246U true CN206805246U (en) | 2017-12-26 |
Family
ID=60747598
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201720735893.3U Expired - Fee Related CN206805246U (en) | 2017-06-23 | 2017-06-23 | A kind of reservoir rainfall, water turbidity, water level parameters monitoring device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN206805246U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113465661A (en) * | 2021-05-25 | 2021-10-01 | 水利部交通运输部国家能源局南京水利科学研究院 | Full-automatic remote reservoir water regime monitoring and early warning device and use method thereof |
-
2017
- 2017-06-23 CN CN201720735893.3U patent/CN206805246U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113465661A (en) * | 2021-05-25 | 2021-10-01 | 水利部交通运输部国家能源局南京水利科学研究院 | Full-automatic remote reservoir water regime monitoring and early warning device and use method thereof |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| 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: 20171226 Termination date: 20180623 |