CN109900876A - Utilize the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply - Google Patents
Utilize the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply Download PDFInfo
- Publication number
- CN109900876A CN109900876A CN201910125203.6A CN201910125203A CN109900876A CN 109900876 A CN109900876 A CN 109900876A CN 201910125203 A CN201910125203 A CN 201910125203A CN 109900876 A CN109900876 A CN 109900876A
- Authority
- CN
- China
- Prior art keywords
- monitoring
- power supply
- wireless transmission
- groundwater
- module
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Photovoltaic Devices (AREA)
Abstract
The present invention relates to environment measuring equipment technical fields, specially a kind of groundwater dynamic monitoring wireless transmission controller using solar energy uninterrupted power supply, including, solar power supply apparatus, wireless transmission controller and groundwater monitoring equipment, the solar power supply apparatus includes, sequentially connected photovoltaic panel, photovoltaic control circuit and energy-storage battery, the photovoltaic panel is for obtaining solar energy and being converted into electric energy, and to the photovoltaic control circuit output voltage, the photovoltaic control circuit is for clamping down on the output voltage of the photovoltaic panel in maximum power point, and it charges to the energy-storage battery, the energy-storage battery is electrically connected with the wireless transmission controller and the groundwater monitoring equipment respectively, electric power is provided for it, the data output end data connection of the wireless transmission controller and groundwater monitoring equipment, the nothing Line transmission control unit (TCU) and the receiver data of control centre connect.
Description
Technical field
The present invention relates to environment measuring equipment technical field, specially a kind of underground water using solar energy uninterrupted power supply
Dynamic monitoring wireless transmission controller.
Background technique
Monitor and grasp underground water dynamic change characterization be scientific evaluation groundwater resources, formulate rational exploitation and utilization with
Effective protection measure, mitigation and the important foundation for preventing and treating underground water pollution and related geological disaster.Traditional groundwater level and
Water quality monitoring usually utilizes single wellhole facility, for single target water-bearing layer or mixing water-bearing layer, takes live prison
It surveys, the long-range method progress monitored and wellhole samples.
It often uses battery as power supply groundwater monitoring in some remote points at present, is had using the time
Limit, needs ordinary replacement, increases maintenance cost.
Summary of the invention
In view of the deficiencies of the prior art, the present invention provides a kind of groundwater dynamic prisons using solar energy uninterrupted power supply
Wireless transmission controller is surveyed, including, solar power supply apparatus, wireless transmission controller and groundwater monitoring equipment, the sun
Energy power supply unit includes sequentially connected photovoltaic panel, photovoltaic control circuit and energy-storage battery, and the photovoltaic panel is for obtaining the sun
It can and be converted into electric energy, and to the photovoltaic control circuit output voltage, the photovoltaic control circuit is used for the photovoltaic panel
Output voltage clamp down in maximum power point, and charge to the energy-storage battery, the energy-storage battery respectively with the nothing
Line transmission control unit (TCU) and groundwater monitoring equipment electrical connection, provide electric power, the wireless transmission controller and underground for it
The receiver data of the data output end data connection of water monitoring apparatus, the wireless transmission controller and control centre connects
It connecing, the receiver is connected with the control processor of control centre, the control processor and warning device data connection, when
When the monitoring data received exceed the numerical value of national regulation early warning line, the control processor controls the warning device and issues
Warning information is reminded, and the warning information can be any one of sound, light or text.
Preferably, the wireless transmission controller, including nucleus module and serial communication module connected to it, ether
Net module, 4G module, GPS module, digital quantity input module, Analog input mModule, indicating lamp module and SD card module;It is described
Energy-storage battery is nucleus module, serial communication module, ethernet module, 4G module, GPS module, digital quantity input module, simulation
It measures input module, indicating lamp module and SD card module and electric energy supply is provided;The serial communication module connects the underground water
The data output end of monitoring device, the ethernet module and 4G module are used to realize that data are logical with the receiver of control centre
News;The GPS module is for obtaining geographical location locating for the groundwater monitoring device.
Preferably, the groundwater monitoring device includes, including monitoring pipe, the monitoring pipe interior parallel is in axis side
To several monitoring channels are offered, several monitoring holes groups are respectively arranged on the tube wall of the monitoring pipe, each described monitoring
Hole group distinguishes corresponding monitoring channel connection, and the position height of the monitoring holes group is all different;The monitoring channel
Lower fragment position at be provided with telescoping cylinder, telescopic rod and piston engaged therewith, the work are provided at the top of the telescoping cylinder
Plug moves up and down in orbit, and water monitoring device, water level monitoring device, water temperature detection device are provided on the piston;Institute
The upper section that monitoring holes group is located at the piston stroke range is stated, end socket of the both ends setting of the monitoring pipe for sealing is described
Water monitoring device, water level monitoring device are connected on water temperature detection device with the serial communication module.
Preferably, being enclosed with strainer in the monitoring holes group, the lower end of the telescoping cylinder is fixed on support base, institute
The outer wall for stating support base is threadably connect with the inner wall in the monitoring channel, and the support base is concave structure, including with
The inner concave of the telescoping cylinder cooperation, the contact surface cooperated with the track and the bottom surface for being provided with adjusting hole location.
Preferably, the solar power supply apparatus further includes processor, display and first comparator, first ratio
It is connect respectively with the photovoltaic control circuit, the energy-storage battery and the processor compared with device, in which: the first comparator
It is poor for detecting the first voltage between the photovoltaic control circuit and the energy-storage battery, and the first voltage difference is sent
To the processor;The processor is used to be handled to obtain to the first voltage difference the first current value, and by described the
One current value is sent to the display progress first current value and shows.
Preferably, the solar power supply apparatus further includes the second comparator, second comparator respectively with it is described
Photovoltaic control circuit is connected with the processor, and second comparator is also used to connect with the groundwater monitoring equipment,
In: second comparator is used to detect the second voltage between the photovoltaic control circuit and the groundwater monitoring equipment
Difference, and the second voltage difference is sent to the processor;The processor is for handling the second voltage difference
The second current value is obtained, and second current value is sent to the display progress second current value and is shown.
Preferably, the solar power supply apparatus further includes inverter, the inverter is connect with the storage batteries,
The inverter is also used to connect with the groundwater monitoring equipment, and the direct current that the storage batteries export is converted into exchanging
Electricity is input to the groundwater monitoring equipment.
Preferably, the solar power supply apparatus further includes mounting rack, the mounting rack includes fixing seat, and upper surface is set
There is fixed bracket;Support rod is set as one or more, is set to fixed pedestal upper end and connect with fixed holder pivots;Cross bar, water
It is flat to be fixedly installed in position among the fixed bracket;Driving device is fixedly installed in the middle position of fixing seat upper surface, institute
Driving device is stated to include the driving motor for being set to fixing seat upper surface, the driving gear being sheathed in driving motor output shaft, consolidate
The chain that Dingan County is loaded on support rod both ends and engages with driving gear;The photovoltaic panel is set as one or more, is fixedly installed in
Support rod upper surface, the photovoltaic panel upper surface are additionally provided with photosensitive sensor.
Preferably, the driving device further includes the first rotating shaft for being fixedly installed in cross bar one end, is fixedly installed in cross
The second shaft, the first gear in first rotating shaft, the second gear in the second shaft of the bar other end, described first
Gear and second gear are engaged with chain respectively, and the photovoltaic panel is fixedly installed in support rod upper surface by multiple connectors,
The driving motor and photosensitive sensor are electrically connected with the processor respectively.
Other features and advantages of the present invention will be illustrated in the following description, also, partly becomes from specification
It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention can be by written explanation
Book, power.Specifically noted structure is achieved and obtained in sharp claim and attached drawing.
Below by drawings and examples, technical scheme of the present invention will be described in further detail.
Detailed description of the invention
Attached drawing is used to provide further understanding of the present invention, and constitutes part of specification, with reality of the invention
It applies example to be used to explain the present invention together, not be construed as limiting the invention.In the accompanying drawings:
Fig. 1 is to be wirelessly transferred control using the groundwater dynamic monitoring of solar energy uninterrupted power supply in one embodiment of the invention
Device connection schematic diagram processed;
Fig. 2 is solar power supply apparatus structure connection diagram in one embodiment of the invention;
Fig. 3 is mounting rack structural schematic diagram in one embodiment of the invention;
Fig. 4 is bar structure schematic diagram in one embodiment of the invention;
Fig. 5 is wireless transmission controller structure connection diagram in one embodiment of the invention;
Fig. 6 is the structural schematic diagram of groundwater monitoring device in one embodiment of the invention;
Fig. 7 is the sectional view that channel is monitored in one embodiment of the invention.
Specific embodiment
Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, it should be understood that preferred reality described herein
Apply example only for the purpose of illustrating and explaining the present invention and is not intended to limit the present invention.
As shown in Figure 1,
A kind of groundwater dynamic monitoring wireless transmission controller using solar energy uninterrupted power supply provided by the invention, too
Positive energy power supply unit 1, wireless transmission controller 2 and groundwater monitoring equipment 3, the solar power supply apparatus 1 include successively connecting
Photovoltaic panel 1-1, the photovoltaic control circuit 1-2 and energy-storage battery 1-3, the photovoltaic panel 1-1 connect is for obtaining solar energy and converting
For electric energy, and to the photovoltaic control circuit 1-2 output voltage, the photovoltaic control circuit 1-2 is used for the photovoltaic panel
Output voltage is clamped down in maximum power point, and is charged to the energy-storage battery 1-3, the energy-storage battery 1-3 respectively with institute
Wireless transmission controller 2 and the groundwater monitoring equipment 3 electrical connection are stated, provides electric power, the wireless transmission controller 2 for it
With the data output end data connection of groundwater monitoring equipment 3, the receiver number of the wireless transmission controller 3 and control centre
According to connection, the receiver is connected with the control processor of control centre, and the control processor and warning device data connect
It connects, when the monitoring data received exceed the numerical value of national regulation early warning line, the control processor controls the alarm dress
The prompting that sends a warning is set, the warning information can be any one of sound, light or text.
The working principle and beneficial effect of above-mentioned technical proposal are as follows:
In the present invention, for obtaining solar energy and being converted into electric energy, photovoltaic control circuit is used for photovoltaic panel photovoltaic panel
Output voltage clamp down in maximum power point, and charge to the energy-storage battery, energy-storage battery is wireless transmission controller
Electric power is provided with groundwater monitoring equipment, groundwater monitoring equipment is used to monitor the real-time status of underground water, including water level, temperature
Etc. data, and transfer data to wireless transmission controller, wireless transmission controller transfers data to connecing for control centre again
Device is received, the receiver is connected with the control processor of control centre, the control processor and warning device data connection,
When the monitoring data received exceed the numerical value of national regulation early warning line, the control processor controls the warning device hair
Warning information is reminded out, and the warning information can be any one of sound, light or text.
The present invention compared to the prior art, by the way of solar energy accumulation power supply, gives wireless transmission controller and underground
Water monitoring apparatus, which provides electric power, can provide electric power for a long time using dynamical battery for electrical equipment of the invention, i.e.,
Make in the case where a period of time is without sunlight, still can steady operation, reach and uninterruptedly to groundwater monitoring and carry out automatic
The purpose of alarm.
As shown in Fig. 2, in one embodiment,
The solar power supply apparatus 2 further includes processor 1-4, display 1-5 and first comparator 1-6, and described first
Comparator 1-6 is connect with the photovoltaic control circuit 1-2, the energy-storage battery 1-3 and the processor 1-4 respectively, in which:
The first comparator 1-6 is used to detect the first voltage between the photovoltaic control circuit 1-2 and the energy-storage battery 1-3
Difference, and the first voltage difference is sent to the processor 1-4;The processor 1-4 be used for the first voltage difference into
Row processing obtains the first current value, and first current value is sent to the display 1-5 and carries out first current value
Display.
In the present embodiment, the solar power supply apparatus 1 further includes the second comparator 1-7, the second comparator 1-7
It is connect respectively with the photovoltaic control circuit 1-2 and the processor 1-4, the second comparator 1-7 is also used to described
Lower water monitoring apparatus 3 connects, in which: the second comparator 1-7 is for detecting the photovoltaic control circuit 1-2 and the underground
Second voltage between water monitoring apparatus 3 is poor, and the second voltage difference is sent to the processor 1-4;The processor
1-4 is used to be handled the second voltage difference to obtain the second current value, and second current value is sent to described show
Show that device 1-5 carries out second current value and shows.
In the present embodiment, the solar power supply apparatus 1 further includes inverter 1-8, the inverter 1-8 and the storage
Battery 1-3 connection, the inverter 1-8 are also used to connect with the groundwater monitoring equipment 3, by the storage batteries 1-3
The converting direct-current power into alternating-current power of output is input to the groundwater monitoring equipment 3.
The working principle and beneficial effect of above-mentioned technical proposal are as follows:
The solar power supply apparatus further includes first comparator, wherein the first comparator respectively with the photovoltaic
Control circuit, energy-storage battery and processor connection, it is preferred that the first comparator by conducting wire respectively with the photovoltaic control
Circuit, energy-storage battery and processor electrical connection processed, to realize the transmission of data.
Further, the first comparator is used to detect the first electricity between the photovoltaic control circuit and energy-storage battery
Pressure difference, and the first voltage difference is sent to the processor, wherein the first comparator can compare for first voltage
Device, the first comparator may be the first current comparator, by taking the first current comparator as an example, pass through first electric current
Photovoltaic panel end is input to the change in pressure drop of energy-storage battery detecting photovoltaic control circuit and is converted into electric signal and sends by comparator
To the processor.Wherein, the model of the first comparator can be LM258 (8 hem facing piece IC).
Further, the processor is used to be handled to obtain to the first voltage difference the first current value, and by institute
It states the first current value and is sent to the display and carries out first current value and show, to make the progress of the first current value
It has been shown that, can estimate the filling time of the energy-storage battery according to the first current value.
In the present embodiment, the solar power supply apparatus further includes the second comparator, second comparator respectively with
The photovoltaic control circuit is connected with the processor, and second comparator is also used to connect with the electrical appliance, wherein institute
It states the second comparator to be electrically connected with the photovoltaic control circuit and the processor respectively by conducting wire, to realize electricity or data
Transmission, second comparator also passes through conducting wire and is electrically connected with the electrical appliance, to realize the transmission of data.
Wherein, second comparator is used to detect the second voltage between the photovoltaic control circuit and the electrical appliance
Difference, and the second voltage difference is sent to the processor, wherein second comparator can compare for second voltage
Device, second comparator may be the second current comparator, by taking the second current comparator as an example, pass through second electric current
Solar panel end is output to the change in pressure drop of electrical appliance detecting photovoltaic control circuit and is converted into electric signal by comparator
It is sent to the processor.Wherein, the model of second comparator can be LM258 (8 hem facing piece IC).
Further, the processor is used to be handled to obtain to the second voltage difference the second current value, and by institute
It states the second current value and is sent to the display and carries out second current value and show, thus show the first current value,
The discharge time of the energy-storage battery can be estimated according to the first current value.
In the present embodiment, the solar power supply apparatus further includes inverter, wherein the inverter and the photovoltaic
Control circuit connection, the inverter is also used to connect with the electrical appliance to be converted into exchanging by the direct current of energy-storage battery output
Electricity is input to electrical appliance i.e. groundwater monitoring equipment.
Specifically, the effect of the inverter is to provide difference by converting direct-current power into alternating-current power, then to the electrical appliance
The voltage of grade, according to actual power supply needs and the power consumption of the electrical appliance, to determine the voltage provided to electrical appliance
Size.
As shown in figure 4, in one embodiment,
The solar power supply apparatus 1 further includes mounting rack 4, and the mounting rack 4 includes fixing seat 4-1, and upper surface is equipped with
Fixed bracket 4-2;Support rod 4-3 is set as one or more, is set to the fixed upper end bracket 4-2 and connects with fixed bracket 4-2 rotation
It connects;Cross bar 4-4, level are fixedly installed in position among the fixed bracket 4-2;Driving device 4-5, is fixedly installed in fixing seat
The middle position of the upper surface 4-1, the driving device 4-5 include the driving motor 4-51 for being set to the upper surface fixing seat 4-1, are arranged
In on driving motor 4-51 output shaft driving gear 4-52, be fixedly installed in the both ends support rod 4-3 and with driving gear 4-52
The chain 4-53 of engagement;The photovoltaic panel 4-6 is set as one or more, is fixedly installed in the upper surface support rod 4-3, the light
The volt upper surface plate 4-6 is additionally provided with photosensitive sensor 4-61.
In the present embodiment, the driving device 4-5 further includes the first rotating shaft 4- for being fixedly installed in the one end cross bar 4-4
54, it is fixedly installed in the second shaft 4-55 of the cross bar 4-4 other end, the first gear 4-56 on first rotating shaft 4-54, sets
In the second gear 4-57 on the second shaft 4-55, the first gear 4-56 and second gear 4-57 are nibbled with chain 4-53 respectively
It closing, the photovoltaic panel 4-6 is fixedly installed in the upper surface support rod 4-3 by multiple connector 4-7, the driving motor 4-51,
It is electrically connected respectively with the processor 1-4 with photosensitive sensor 4-61.
The working principle and beneficial effect of above-mentioned technical proposal are as follows:
Light intensity signal is incuded by photosensitive sensor and passes it to processor, and driving is controlled by processor again
The direction of motor adjustment photovoltaic panel remains optimal charging angle so that sunlight light can be irradiated in photovoltaic panel always
Degree.
As shown in figure 5, in one embodiment,
The wireless transmission controller 2, including nucleus module 2-1 and serial communication module 2-2 connected to it, Ethernet
Module 2-3,4G module 2-4, GPS module 2-5, digital quantity input module 2-6, Analog input mModule 2-7, indicating lamp module 2-
8 and SD card module 2-9;The energy-storage battery 1-3 is nucleus module 2-1, serial communication module 2-2, ethernet module 2-3,4G
Module 2-4, GPS module 2-5, digital quantity input module 2-6, Analog input mModule 2-7, indicating lamp module 2-8 and SD card mould
Block 2-9 provides electric energy supply;The serial communication module 2-2 connects the data output end of the groundwater monitoring equipment 3, institute
Ethernet module 2-3 and 4G module 2-4 is stated for realizing data communication with the receiver of control centre;The GPS module 2-5
For obtaining geographical location locating for the groundwater monitoring device 3.
The working principle and beneficial effect of above-mentioned technical proposal are as follows:
In the present embodiment, power module is powered using DC 9-35V Width funtion or 12V/2A power supply adaptor is powered.Tool
There is anti-reverse power connection function, while there is two kinds of connecting terminal, attaching plug modes of connection, can satisfy the requirement of power supply, fits
Answer a variety of different power supply modes.
The PORT COM of serial communication module is 1 road RS485, and PORT COM is equipped with photoelectric isolating circuit.
Ethernet module includes isolating transformer and RTL8211E chip.Support 10M/100M/1000M network interface adaptive,
Support standard ethernet communication protocol that can effectively enhance letter using isolating transformer such as TCP, UDP and other common protocols
Number, keep its transmission range farther, while be isolated from the outside ethernet module, anti-interference ability greatly enhances.
Power amplification circuit is equipped in GPS module, it can be adaptable by connecting various active antennas.
4G data acquisition transmission control unit (TCU) with GPS positioning function further includes shell, is equipped with ventilation at left and right sides of shell
Grid hole, it is logical that the front side of shell is equipped with power module interface, Ethernet interface, 4G interface, serial communication RS485 interface, RS232
Communication interface and with the one-to-one indicator light of interface, above-mentioned indicator light constitutes indicating lamp module.Active day is additionally provided on shell
Line.
Power module interface indicator light power on it is i.e. bright, by hardware controls;Indicator light cable network connects at Ethernet interface
Logical Shi Changliang, when access failure, go out;4G interface indicator has 4G or WiFi to be always on when being connected to, and goes out when not being connected to;RS2322 is logical
It is always on when indicator light has data communication at communication interface;When serial communication RS485 interface list slave, it is always on when having data communication, nothing
It goes out when data communication, when more slave, there is the bright of data communication, no data communication is gone out;
Data acquisition transmission control unit (TCU) is powered on when in use, after indicator light lights at Ethernet interface, insertion has
The SD card of file, serial communication RS485 interface indicator light light, if configuration is completed, serial communication RS485 interface refers to
Show that lamp goes out;If configuration failure, indicator light, serial communication RS485 interface indicator light are all bright at RS232 communication interface.
Nucleus module is the MPU based on ARM Cortex-A8.Dominant frequency highest supports 1GHz;512MB DDR3 memory;UI and
3D function integrates 3D graphics accelerator and display controller;Integrated Ethernet interface, UART serial ports, CAN transceiver etc.;It provides
Up to 4 groups of GPIO ports, every group 32, section ports can configure up to 7 kinds multiplexing functions;Support Linux3.2,
Android4.0 operating system;Operating ambient temperature range: -40 DEG C to 85 DEG C.
As shown in fig. 6, in one embodiment,
The groundwater monitoring device 3 includes, including monitoring pipe 3-1, and the monitoring pipe 3-1 interior parallel is in axis direction
Several monitoring channel 3-2 are offered, are respectively arranged with several monitoring holes group 3-3 on the tube wall of the monitoring pipe 3-1, each institute
It states monitoring holes group 3-3 and distinguishes corresponding monitoring channel 3-2 connection, and the position height of the monitoring holes group 3-3 not phase
Together;It is provided with telescoping cylinder 3-4 at the lower fragment position of the monitoring channel 3-2, is provided at the top of the telescoping cylinder 3-4 and matches with it
The telescopic rod 3-5 of conjunction and piston 3-6, the piston 3-6 are moved up and down in track 3-7, are provided with water quality on the piston 3-6
Monitoring device 3-8, water level monitoring device 3-9, water temperature detection device 3-10;The monitoring holes group 3-3 is located at the piston 3-6 row
The upper section of journey range, end socket 3-11, the water monitoring device 3-8, water of the both ends setting of the monitoring pipe 3-1 for sealing
It is connected with the serial communication module 2-2 on position monitoring device 3-9, water temperature detection device 3-10.
Strainer is enclosed on the monitoring holes group 3-3, the lower end of the telescoping cylinder 3-4 is fixed on support base 3-12,
The outer wall of the support base 3-12 is threadably connect with the inner wall of the monitoring channel 3-2, and the support base 3-12 is recessed
Shape structure, including cooperate with the telescoping cylinder 3-4 inner concave 3-13, with the track 3-7 cooperation contact surface 3-14 and set
It is equipped with the bottom surface 3-15 for adjusting hole location 3-16.
The working principle and beneficial effect of above-mentioned technical proposal are as follows:
In the present embodiment, the quantity in the monitoring channel is 6, and is uniformly distributed around the axis of the monitoring pipe.
When specifically used, it is inserted into and is adjusted in hole location by regulation handle, can adjustment seat be rotated, to adjusting
The height of seat carries out a small amount of adjustings, so that the height of telescoping cylinder reaches working depth appropriate.
In actual use, it is described monitoring pipe material be pvc material, have good heat resistance, toughness and
Hardness, corrosion-resistant, firm and durable tortuous can be readily transported during transportation, and can restore original again after removing external force
State, be not easy to deform, compressive resistance is high, has stronger resistivity to the pressure of monitoring well inner periphery, can monitor depth
Layer underground reservoir water level water quality situation.The end socket at both ends can using be unlikely to deform, not perishable rubber material is made.
The unspecified content of the present invention, can be used the prior art, therefore do not repeating.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to include these modifications and variations.
Claims (9)
1. utilizing the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply, which is characterized in that including the sun
Can power supply unit (1), wireless transmission controller (2) and groundwater monitoring equipment (3), the solar power supply apparatus (1) include,
Sequentially connected photovoltaic panel (1-1), photovoltaic control circuit (1-2) and energy-storage battery (1-3), the photovoltaic panel (1-1) is for obtaining
It takes solar energy and is converted into electric energy, and to photovoltaic control circuit (1-2) output voltage, the photovoltaic control circuit (1-2)
For charging to the energy-storage battery (1-3), the energy-storage battery (1-3) respectively with the wireless transmission controller (2)
It is electrically connected with the groundwater monitoring equipment (3), the data of the wireless transmission controller (2) and groundwater monitoring equipment (3)
Output end data connection, the wireless transmission controller (3) connect with the receiver data of control centre, the receiver and control
The control processor at center processed is connected, the control processor and warning device data connection, when the monitoring data received
When numerical value beyond national regulation early warning line, the control processor controls the warning device and sends a warning prompting, institute
State any one that warning information can be sound, light or text.
2. the groundwater dynamic monitoring wireless transmission controller according to claim 1 using solar energy uninterrupted power supply,
It is characterized in that, the wireless transmission controller (2), including nucleus module (2-1) and serial communication module (2- connected to it
2), ethernet module (2-3), 4G module (2-4), GPS module (2-5), digital quantity input module (2-6), analog input mould
Block (2-7), indicating lamp module (2-8) and SD card module (2-9);The energy-storage battery (1-3) is nucleus module (2-1), serial ports
Communication module (2-2), ethernet module (2-3), 4G module (2-4), GPS module (2-5), digital quantity input module (2-6), mould
Analog quantity input module (2-7), indicating lamp module (2-8) and SD card module (2-9) provide electric energy supply;The serial communication mould
Block (2-2) connects the data output end of the groundwater monitoring equipment (3), the ethernet module (2-3) and 4G module (2-4)
For realizing data communication with the receiver of control centre;The GPS module (2-5) is for obtaining the groundwater monitoring dress
Set geographical location locating for (3).
3. the groundwater dynamic monitoring wireless transmission controller according to claim 2 using solar energy uninterrupted power supply,
It is characterized in that, the groundwater monitoring device (3) includes, including monitoring pipe (3-1), (3-1) interior parallel is managed in the monitoring
Several monitoring channels (3-2) are offered in axis direction, are respectively arranged with several monitoring holes on the tube wall of the monitoring pipe (3-1)
Group (3-3), corresponding monitoring channel (3-2) connection of each monitoring holes group (3-3) difference, and the monitoring holes group
The position height of (3-3) is all different;It is provided with telescoping cylinder (3-4) at the lower fragment position of monitoring channel (3-2), it is described to stretch
Telescopic rod engaged therewith (3-5) and piston (3-6) are provided at the top of contracting cylinder (3-4), the piston (3-6) is in track (3-
7) it is moved up and down in, water monitoring device (3-8), water level monitoring device (3-9), water temperature prison is provided on the piston (3-6)
It surveys device (3-10);The monitoring holes group (3-3) is located at the upper section of the piston (3-6) stroke range, and (3-1) is managed in the monitoring
Both ends setting for sealing end socket (3-11), the water monitoring device (3-8), water level monitoring device (3-9), water temperature prison
It surveys on device (3-10) and is connected with the serial communication module (2-2).
4. the groundwater dynamic monitoring wireless transmission controller according to claim 3 using solar energy uninterrupted power supply,
It is characterized in that, being enclosed with strainer on the monitoring holes group (3-3), the lower end of the telescoping cylinder (3-4) is fixed on support base
On (3-12), the outer wall of the support base (3-12) is threadably connect with the inner wall of monitoring channel (3-2), the branch
Supportting seat (3-12) is concave structure, including the inner concave (3-13) cooperated with the telescoping cylinder (3-4) and the track (3-7)
The contact surface (3-14) of cooperation and the bottom surface (3-15) for being provided with adjusting hole location (3-16).
5. the groundwater dynamic monitoring wireless transmission controller according to claim 1 using solar energy uninterrupted power supply,
It is characterized in that, the solar power supply apparatus (2) further includes processor (1-4), display (1-5) and first comparator (1-
6), the first comparator (1-6) respectively with the photovoltaic control circuit (1-2), the energy-storage battery (1-3) and the place
Manage device (1-4) connection, in which: the first comparator (1-6) is for detecting the photovoltaic control circuit (1-2) and the energy storage
First voltage between battery (1-3) is poor, and the first voltage difference is sent to the processor (1-4);The processor
(1-4) is used to be handled to obtain to the first voltage difference the first current value, and first current value is sent to described
Display (1-5) carries out first current value and shows.
6. the groundwater dynamic monitoring wireless transmission controller according to claim 5 using solar energy uninterrupted power supply,
It is characterized in that, the solar power supply apparatus (1) further includes the second comparator (1-7), second comparator (1-7) is respectively
Connect with the photovoltaic control circuit (1-2) and the processor (1-4), second comparator (1-7) be also used to it is described
Groundwater monitoring equipment (3) connection, in which: second comparator (1-7) for detect the photovoltaic control circuit (1-2) with
Second voltage between the groundwater monitoring equipment (3) is poor, and the second voltage difference is sent to the processor (1-
4);The processor (1-4) is used to be handled to obtain to the second voltage difference the second current value, and by second electric current
Value is sent to the display (1-5) progress second current value and shows.
7. the groundwater dynamic monitoring wireless transmission controller according to claim 6 using solar energy uninterrupted power supply,
It is characterized in that, the solar power supply apparatus (1) further includes inverter (1-8), the inverter (1-8) and storage electricity
Pond (1-3) connection, the inverter (1-8) is also used to connect with the groundwater monitoring equipment (3), by the storage batteries
The converting direct-current power into alternating-current power of (1-3) output is input to the groundwater monitoring equipment (3).
8. the groundwater dynamic monitoring wireless transmission controller according to claim 1 using solar energy uninterrupted power supply,
It is characterized in that, the solar power supply apparatus (1) further includes mounting rack (4), the mounting rack (4) includes fixing seat (4-1),
Upper surface is equipped with fixed bracket (4-2);Support rod (4-3) is set as one or more, be set to the fixed bracket upper end (4-2) and with
Fixed bracket (4-2) rotation connection;Cross bar (4-4), level are fixedly installed in the intermediate position of the fixed bracket (4-2);Driving
Device (4-5), is fixedly installed in the middle position of the upper surface fixing seat (4-1), and the driving device (4-5) includes being set to fix
The driving motor (4-51) of seat upper surface (4-1), is consolidated the driving gear (4-52) being sheathed on driving motor (4-51) output shaft
The chain (4-53) that Dingan County is loaded on the support rod both ends (4-3) and engages with driving gear (4-52);The photovoltaic panel (4-6), if
For one or more, it is fixedly installed in the upper surface support rod (4-3), photovoltaic panel (4-6) upper surface is additionally provided with light sensor
Device (4-61).
9. the groundwater dynamic monitoring wireless transmission controller according to claim 8 using solar energy uninterrupted power supply,
It is characterized in that, the driving device (4-5) further includes the first rotating shaft (4-54) for being fixedly installed in the one end cross bar (4-4), consolidates
Dingan County loaded on cross bar (4-4) other end the second shaft (4-55), be set to first rotating shaft (4-54) on first gear (4-56),
Second gear (4-57) on the second shaft (4-55), the first gear (4-56) and second gear (4-57) respectively with
Chain (4-53) engagement, the photovoltaic panel (4-6) are fixedly installed in the upper surface support rod (4-3) by multiple connectors (4-7),
The driving motor (4-51) and photosensitive sensor (4-61) are electrically connected with the processor (1-4) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910125203.6A CN109900876A (en) | 2019-02-20 | 2019-02-20 | Utilize the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910125203.6A CN109900876A (en) | 2019-02-20 | 2019-02-20 | Utilize the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply |
Publications (1)
Publication Number | Publication Date |
---|---|
CN109900876A true CN109900876A (en) | 2019-06-18 |
Family
ID=66945144
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910125203.6A Pending CN109900876A (en) | 2019-02-20 | 2019-02-20 | Utilize the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109900876A (en) |
Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204539192U (en) * | 2015-04-08 | 2015-08-05 | 深圳市德传技术有限公司 | A kind of vehicle-mounted route terminal based on 4G and Wi-Fi |
CN105043494A (en) * | 2015-07-13 | 2015-11-11 | 华北水利水电大学 | Real-time underground water level monitoring device |
CN105699609A (en) * | 2016-04-20 | 2016-06-22 | 广东交通职业技术学院 | Real ship diesel engine NOx emission online monitoring system |
CN206248654U (en) * | 2016-12-13 | 2017-06-13 | 浙江海洋大学 | A kind of underwater environment real-time monitoring device for aquaculture sea area |
CN206440977U (en) * | 2017-01-23 | 2017-08-25 | 苏州德姆斯信息技术有限公司 | 4G data acquisition transmission control unit (TCU)s with GPS location function |
CN207150509U (en) * | 2017-09-12 | 2018-03-27 | 刘自柱 | Photovoltaic bracket |
CN207588538U (en) * | 2017-10-26 | 2018-07-06 | 广州德姆达光电科技有限公司 | Solar power supply apparatus and system |
CN108414024A (en) * | 2018-04-29 | 2018-08-17 | 王爱金 | A kind of underwater monitoring device used for aquiculture |
CN207798135U (en) * | 2017-12-05 | 2018-08-31 | 长安大学 | A kind of groundwater monitoring device |
CN108696833A (en) * | 2018-05-15 | 2018-10-23 | 深圳市益鑫智能科技有限公司 | Water pollution detection system based on underwater wireless sensor network |
CN108871873A (en) * | 2018-09-10 | 2018-11-23 | 中国环境科学研究院 | Refuse landfill underground water automatic sampling monitoring device |
CN208285242U (en) * | 2018-02-24 | 2018-12-25 | 广州万物信息科技有限公司 | Solar power supply apparatus and central control system |
-
2019
- 2019-02-20 CN CN201910125203.6A patent/CN109900876A/en active Pending
Patent Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204539192U (en) * | 2015-04-08 | 2015-08-05 | 深圳市德传技术有限公司 | A kind of vehicle-mounted route terminal based on 4G and Wi-Fi |
CN105043494A (en) * | 2015-07-13 | 2015-11-11 | 华北水利水电大学 | Real-time underground water level monitoring device |
CN105699609A (en) * | 2016-04-20 | 2016-06-22 | 广东交通职业技术学院 | Real ship diesel engine NOx emission online monitoring system |
CN206248654U (en) * | 2016-12-13 | 2017-06-13 | 浙江海洋大学 | A kind of underwater environment real-time monitoring device for aquaculture sea area |
CN206440977U (en) * | 2017-01-23 | 2017-08-25 | 苏州德姆斯信息技术有限公司 | 4G data acquisition transmission control unit (TCU)s with GPS location function |
CN207150509U (en) * | 2017-09-12 | 2018-03-27 | 刘自柱 | Photovoltaic bracket |
CN207588538U (en) * | 2017-10-26 | 2018-07-06 | 广州德姆达光电科技有限公司 | Solar power supply apparatus and system |
CN207798135U (en) * | 2017-12-05 | 2018-08-31 | 长安大学 | A kind of groundwater monitoring device |
CN208285242U (en) * | 2018-02-24 | 2018-12-25 | 广州万物信息科技有限公司 | Solar power supply apparatus and central control system |
CN108414024A (en) * | 2018-04-29 | 2018-08-17 | 王爱金 | A kind of underwater monitoring device used for aquiculture |
CN108696833A (en) * | 2018-05-15 | 2018-10-23 | 深圳市益鑫智能科技有限公司 | Water pollution detection system based on underwater wireless sensor network |
CN108871873A (en) * | 2018-09-10 | 2018-11-23 | 中国环境科学研究院 | Refuse landfill underground water automatic sampling monitoring device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105092961A (en) | Ammeter system using mobile terminal for positioning | |
CN205712051U (en) | A kind of integration monitoring deviational survey acquisition node based on LoRa technology | |
CN205861096U (en) | A kind of dismantled and assembled buoy Multiparameter water quality monitoring system | |
CN205091002U (en) | Paddy field water regime integrated monitoring system | |
CN107390614A (en) | A kind of charging pile communication intelligent management system | |
CN205028125U (en) | Iron tower telesecurity intelligent monitoring system | |
CN202177421U (en) | Hydrological telemetering terminal device | |
CN202329629U (en) | Wireless hydrological telegage | |
CN109900876A (en) | Utilize the groundwater dynamic monitoring wireless transmission controller of solar energy uninterrupted power supply | |
CN103787519A (en) | Water body oxygen enrichment system taking wind energy and solar energy complementation as power and control method for water body oxygen enrichment system | |
CN207283739U (en) | A kind of base station for unmanned plane | |
CN206224818U (en) | A kind of charging pile system with parking stall measure function | |
CN205246753U (en) | Equipment with ammeter function | |
CN105333915A (en) | IOT energy measurement collection mechanism | |
CN204631020U (en) | Environment Internet of Things water quality on-line analysis integrated cabinet | |
CN204229251U (en) | A kind of novel electricity generator fuel oil automatic oil recharging device | |
CN203287767U (en) | Oil field well testing system radioactive source state monitoring system | |
CN207526528U (en) | A kind of Novel down-hole coal-bed gas pressure wireless monitor system | |
CN206708906U (en) | A kind of intelligent road-lamp remote control management system | |
CN202788817U (en) | Near-bit measuring system experimental facility | |
CN208383863U (en) | Groundwater quality wireless data monitoring system | |
CN206948035U (en) | State of electric distribution network data acquisition device | |
CN206946270U (en) | Agriculture environment of internet of things measure and control device | |
CN104123826A (en) | Electric power data acquisition device and method | |
CN204904530U (en) | Photoelectricity system of checking meter |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
CB02 | Change of applicant information | ||
CB02 | Change of applicant information |
Address after: 026000 Transportation Investment Office Building 20F-007, Xilinhaote Development Zone, Xilingol League, Inner Mongolia Autonomous Region Applicant after: Inner Mongolia Jinyuan Agriculture and Animal Husbandry Technology Co., Ltd. Address before: 026000 Transportation Investment Office Building 20F-007, Xilinhaote Development Zone, Xilingol League, Inner Mongolia Autonomous Region Applicant before: XILINGOL LEAGUE JINYUAN TECHNOLOGY CO., LTD. |
|
RJ01 | Rejection of invention patent application after publication | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20190618 |