CN206514877U - A kind of intellectual city supply water sources monitoring system - Google Patents
A kind of intellectual city supply water sources monitoring system Download PDFInfo
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- CN206514877U CN206514877U CN201621440299.3U CN201621440299U CN206514877U CN 206514877 U CN206514877 U CN 206514877U CN 201621440299 U CN201621440299 U CN 201621440299U CN 206514877 U CN206514877 U CN 206514877U
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Abstract
The utility model discloses a kind of intellectual city supply water sources monitoring system, including power supply processing unit, hydraulic pressure detection unit, water quality detection unit, current amount detection unit, microprocessor unit, protenchyma connected network communication unit;The power supply processing unit is connected with hydraulic pressure detection unit, water quality detection unit, current amount detection unit, microprocessor unit and protenchyma connected network communication unit respectively;The microprocessor unit is connected with hydraulic pressure detection unit, water quality detection unit, current amount detection unit and protenchyma connected network communication unit respectively.The utility model is detected by hydraulic pressure detection unit, water quality detection unit and current amount detection unit to the water level at water source, water quality and water-carrying capacity;The data or control instruction of detection are wirelessly transferred by protenchyma connected network communication unit, with efficiency of transmission is high, cost is low, it is safe the characteristics of, facilitate personnel to water management, it is ensured that user uses clean water source, it is to avoid endangered by sewage.
Description
Technical field
The utility model belongs to water source technique field, is related to a kind of intellectual city supply water sources monitoring system.
Background technology
Water level is river, He Hu, the mark of seawater gesture change, is important regimen parameter, the authenticity and essence of level measuring
Exactness is directly connected to the every aspects such as flood control, generating and irrigation.In communication, common ultra short wave communication transmission distance
From relatively near, and easily it is disturbed;Using satellite communication, then need to put into huge cost.
As economy constantly develops, cause the quality of water resource increasingly to decline, water source vulnerable to pollution, pollution it is main
Source is industrial wastewater, city domestic sewage and agricultural effluent.Water quality parameter describes the quality of water body, due to industrialization manufacture
The use of a large amount of waste liquids and agriculture chemistry medicament that produce, causes the continuous aggravation of water pollution, if can not be in time to pollution
Water resource is handled, and water source will be caused to continue to aggravate pollution.
Using timely, effective, accurate water quality monitoring system, can quickly deal with countermeasure, for emission reduction, pollution treatment
Have great significance, it is therefore desirable to convenience, the practical monitoring of a set of collection on-site data gathering, real-time Transmission and remote control
System.
Utility model content
A kind of intellectual city supply water sources monitoring system that the utility model is provided, passes through hydraulic pressure detection unit, water
Quality detection unit and current amount detection unit are detected to the water level at water source, water quality and water-carrying capacity;Pass through arrowband Internet of Things
Communication unit is wirelessly transferred to the data or control instruction of detection, solve that monitoring dynamics in water source is low and control is inconvenient,
The problem of usability is low.
The purpose of this utility model can be achieved through the following technical solutions:
A kind of intellectual city supply water sources monitoring system, including the inspection of power supply processing unit, hydraulic pressure detection unit, water quality
Survey unit, current amount detection unit, microprocessor unit, protenchyma connected network communication unit;
The power supply processing unit respectively with hydraulic pressure detection unit, water quality detection unit, current amount detection unit, microprocessor
Device unit and the connection of protenchyma connected network communication unit;
The microprocessor unit respectively with hydraulic pressure detection unit, water quality detection unit, current amount detection unit and arrowband
Internet of Things communication unit is connected.
Further, the power supply processing unit includes solar recharging module, charging power modules, first voltage output
Module, battery module, second voltage output module;The battery module is used for storing electricity, respectively with solar recharging
Module, charging power modules, first voltage output module and the connection of second voltage output module.
Further, the first voltage output module respectively with hydraulic pressure detection unit, water quality detection unit and water-carrying capacity
Detection unit is connected, the direct current for exporting 12V;The second voltage output module respectively with microprocessor unit and arrowband
Internet of Things communication unit is connected, the direct current for exporting 5V;The first voltage output module and second voltage output module
For D-50A type Switching Power Supplies.
Further, the hydraulic pressure detection unit is CYYZ11 hydraulic pressure sensors, and the hydraulic pressure detection unit includes hydraulic pressure
Detection module, data transmission module;The hydraulic pressure detection module by the hydraulic pressure data of detection by data transmission module transmit to
Microprocessor unit.
Further, the water quality detection unit is JF-D500A water quality sensors, and the water quality detection unit includes water
Quality detection module, data transmission module, the water quality detection module transmit the water quality data of detection by data transmission module
To microprocessor unit.
Further, the current amount detection unit is DSM-LWG-A water flow sensors, the current amount detection unit
Including water-carrying capacity detection module, data transmission module;The water flow data of detection is passed through data by the water-carrying capacity detection module
Transport module is transmitted to microprocessor unit.
Further, the microprocessor unit uses ARM series monolithics, and the microprocessor unit includes hydraulic pressure number
According to receiving module, water quality data receiving module, water flow data receiving module, main control module, data transmission module, data storage
Module, data analysis module;The main control module respectively with hydraulic pressure data reception module, water quality data receiving module, water-carrying capacity
Data reception module, data transmission module, data memory module and data analysis module connection.
Further, the protenchyma connected network communication unit is SARA-N2NBIOT protenchyma connected network communication chips, described
Protenchyma connected network communication unit includes data transmission module, protenchyma connected network communication module;The data transmission module respectively with
Data transmission module and the connection of protenchyma connected network communication module.
The beneficial effects of the utility model:A kind of intellectual city supply water sources monitoring system that the utility model is provided
Can be to the water level at water source, water quality and water-carrying capacity by hydraulic pressure detection unit, water quality detection unit and current amount detection unit
Detected;The data or control instruction of detection can be wirelessly transferred by protenchyma connected network communication unit, facilitate work
Make personnel to be managed water resource, with efficiency of transmission is high, cost is low, it is safe the characteristics of, it is ensured that user uses clean
Water source, it is to avoid endangered by sewage.
Brief description of the drawings
In order to illustrate more clearly of the technical scheme of the utility model embodiment, make required for being described below to embodiment
Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present utility model,
For those of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings
Other accompanying drawings.
Fig. 1 is a kind of intellectual city supply water sources monitoring system figure of the utility model;
In accompanying drawing, the list of parts representated by each label is as follows:
1- power supply processing units, 2- hydraulic pressure detection units, 3- water quality detection units, 4- current amount detection units, the micro- places of 5-
Device unit is managed, 6- protenchyma connected network communication units, 11- solar recharging modules, 12- charging power modules, 13- first voltages are defeated
Go out module, 14- battery modules, 15- second voltage output modules, 21- hydraulic pressure detection modules, 22- data transmission modules, 31-
Water quality detection module, 32- data transmission modules, 41- water-carrying capacity detection modules, 42- data transmission modules, 51- hydraulic pressure data connect
Receipts module, 52- water quality data receiving modules, 53- water flow data receiving modules, 54- main control modules, 55- data transmission modules,
56- data memory modules, 57- data analysis modules, 61- data transmission modules, 62- protenchyma connected network communication modules.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The all other embodiment obtained, belongs to the scope of the utility model protection.
Refer to shown in Fig. 1, a kind of intellectual city supply water sources monitoring system, including power supply processing unit 1, hydraulic pressure
Detection unit 2, water quality detection unit 3, current amount detection unit 4, microprocessor unit 5, protenchyma connected network communication unit 6;
Power supply processing unit 1 respectively with hydraulic pressure detection unit 2, water quality detection unit 3, current amount detection unit 4, Wei Chu
Reason device unit 5 and protenchyma connected network communication unit 6 are connected;
Microprocessor unit 5 respectively with hydraulic pressure detection unit 2, water quality detection unit 3, current amount detection unit 4 and arrowband
Internet of Things communication unit 6 is connected.
Power supply processing unit 1 include solar recharging module 11, charging power modules 12, first voltage output module 13,
Battery module 14, second voltage output module 15;Battery module 14 respectively with solar recharging module 11, charge power supply mould
Block 12, first voltage output module 13, second voltage output module 15 are connected, and battery module 14 is used for storing electricity;The sun
Energy charging module 11 is charged to battery module 14 respectively with charging power modules 12;First voltage output module 13 and
Two voltage output modules 15 are respectively by the voltage conversion in battery module 14 into 12V direct currents and 5V direct currents;First voltage
Output module 13 is connected with hydraulic pressure detection unit 2, water quality detection unit 3 and current amount detection unit 4 respectively, for being examined for hydraulic pressure
Survey the power demands that unit 2, water quality detection unit 3 and current amount detection unit 4 provide 12V;15 points of second voltage output module
It is not connected with microprocessor unit 5 and protenchyma connected network communication unit 6, for being that microprocessor unit 5 and arrowband Internet of Things are logical
Believe that unit 6 provides 5V power demands.
Hydraulic pressure detection unit 2 is CYYZ11 hydraulic pressure sensors, and hydraulic pressure detection unit 2 includes hydraulic pressure detection module 21, data
Transport module 22;Hydraulic pressure detection module 21 is connected with data transmission module 22, and hydraulic pressure detection module 21 is used to detect hydraulic pressure, and will
The hydraulic pressure data detected are transmitted to microprocessor unit 5 by data transmission module 22.
Water quality detection unit 3 is JF-D500A water quality sensors, and water quality detection unit 3 includes water quality detection module 31, number
According to transport module 32;Water quality detection module 31 is used to detect water quality data, wherein water quality data include pH value, dissolved oxygen, conductance,
The data of turbidity and temperature, and the water quality data detected is transmitted to microprocessor unit 5 by data transmission module 32.
Current amount detection unit 4 is DSM-LWG-A water flow sensors, and current amount detection unit 4 is detected including water-carrying capacity
Module 41, data transmission module 42;Water-carrying capacity detection module 41 is used to detect water-carrying capacity size, and by the water-carrying capacity number detected
Transmitted according to by data transmission module 42 to microprocessor unit 5.
Microprocessor unit 5 includes hydraulic pressure data reception module 51, water quality data receiving module 52, water flow data and received
Module 53, main control module 54, data transmission module 55, data memory module 56, data analysis module 57;Main control module 54 is distinguished
With hydraulic pressure data reception module 51, water quality data receiving module 52, water flow data receiving module 53, data transmission module 55,
Data memory module 56, data analysis module 57 are connected;Hydraulic pressure data reception module 51, water quality data receiving module 52 and water
Data on flows receiving module 53 stores the data information transfer of reception into data memory module 56 through main control module 54;Number
Also it is connected respectively with data transmission module 55, data analysis module 57 according to memory module 56, data transmission module 55 is used for water
Position, water quality and water flow data are transmitted to protenchyma connected network communication unit 6;Data analysis module 57 is to data memory module 56
Water level, water quality and the water flow data of middle storage are analyzed.
Protenchyma connected network communication unit 6 includes data transmission module 61, protenchyma connected network communication module 62;Data transfer mould
Block 61 is connected with data transmission module 55 and protenchyma connected network communication module 62 respectively;Data transmission module 61 receives data transfer
Waterlevel data, water quality data and water flow data that module 55 is transmitted, and the data message of reception is led to by arrowband Internet of Things
Letter module 62 is sent to long-range PC ends, while data transmission module 61 can send control instruction number to data transmission module 55
According to.
Microprocessor unit 5 uses the function of each module in ARM series monolithics, microprocessor unit 5 in the present embodiment
Realization is carried out by ARM series monolithics;Protenchyma connected network communication unit 6 is SARA-N2NBIOT arrowbands Internet of Things
Network Communication chip, the function of its each module passes through the realization of SARA-N2NBIOT protenchyma connected network communications chip.
A kind of intellectual city supply water sources monitoring system that the utility model is provided passes through hydraulic pressure detection unit, water quality
Detection unit and current amount detection unit can be detected to the water level at water source, water quality and water-carrying capacity;Pass through arrowband Internet of Things
Network Communication unit can be wirelessly transferred to the data or control instruction of detection, facilitate staff to manage water resource
Reason, with efficiency of transmission is high, cost is low, it is safe the characteristics of, it is ensured that user uses clean water source, it is to avoid by sewage
Harm.
Above content is only to the utility model structure example and explanation, the technology people of affiliated the art
Member is made various modifications or supplement to described specific embodiment or substituted using similar mode, without departing from reality
With new structure or surmount scope defined in the claims, protection domain of the present utility model all should be belonged to.
Claims (8)
1. a kind of intellectual city supply water sources monitoring system, it is characterised in that:Examined including power supply processing unit (1), hydraulic pressure
Survey unit (2), water quality detection unit (3), current amount detection unit (4), microprocessor unit (5), protenchyma connected network communication list
First (6);
The power supply processing unit (1) respectively with hydraulic pressure detection unit (2), water quality detection unit (3), current amount detection unit
(4), microprocessor unit (5) and protenchyma connected network communication unit (6) connection;
The microprocessor unit (5) respectively with hydraulic pressure detection unit (2), water quality detection unit (3), current amount detection unit
(4) connected with protenchyma connected network communication unit (6).
2. a kind of intellectual city supply water sources monitoring system according to claim 1, it is characterised in that:The power supply
Processing unit (1) includes solar recharging module (11), charging power modules (12), first voltage output module (13), electric power storage
Pond module (14), second voltage output module (15);The battery module (14) is used for storing electricity, respectively with solar charging
Electric module (11), charging power modules (12), first voltage output module (13) and second voltage output module (15) connection.
3. a kind of intellectual city supply water sources monitoring system according to claim 2, it is characterised in that:Described first
Voltage output module (13) is connected with hydraulic pressure detection unit (2), water quality detection unit (3) and current amount detection unit (4) respectively,
Direct current for exporting 12V;The second voltage output module (15) respectively with microprocessor unit (5) and arrowband Internet of Things
Communication unit (6) is connected, the direct current for exporting 5V;The first voltage output module (13) and second voltage output module
(15) it is D-50A type Switching Power Supplies.
4. a kind of intellectual city supply water sources monitoring system according to claim 1, it is characterised in that:The hydraulic pressure
Detection unit (2) is CYYZ11 hydraulic pressure sensors, and the hydraulic pressure detection unit (2) includes hydraulic pressure detection module (21), data and passed
Defeated module (22);The hydraulic pressure detection module (21) transmits the hydraulic pressure data of detection to micro- place by data transmission module (22)
Manage device unit (5).
5. a kind of intellectual city supply water sources monitoring system according to claim 1, it is characterised in that:The water quality
Detection unit (3) is JF-D500A water quality sensors, and the water quality detection unit (3) includes water quality detection module (31), data
Transport module (32), the water quality detection module (31) transmits the water quality data of detection to micro- by data transmission module (32)
Processor unit (5).
6. a kind of intellectual city supply water sources monitoring system according to claim 1, it is characterised in that:The current
Amount detection unit (4) is DSM-LWG-A water flow sensors, and the current amount detection unit (4) includes water-carrying capacity detection module
(41), data transmission module (42);The water flow data of detection is passed through data transfer mould by the water-carrying capacity detection module (41)
Block (42) is transmitted to microprocessor unit (5).
7. a kind of intellectual city supply water sources monitoring system according to claim 1, it is characterised in that:Micro- place
Manage device unit (5) and use ARM series monolithics, the microprocessor unit (5) includes hydraulic pressure data reception module (51), water quality
Data reception module (52), water flow data receiving module (53), main control module (54), data transmission module (55), data are deposited
Store up module (56), data analysis module (57);The main control module (54) respectively with hydraulic pressure data reception module (51), water quality number
According to receiving module (52), water flow data receiving module (53), data transmission module (55), data memory module (56) and data
Analysis module (57) is connected.
8. a kind of intellectual city supply water sources monitoring system according to claim 1, it is characterised in that:The arrowband
Internet of Things communication unit (6) is SARA-N2NBIOT protenchyma connected network communication chips, protenchyma connected network communication unit (6) bag
Include data transmission module (61), protenchyma connected network communication module (62);The data transmission module (61) respectively with data transfer
Module (55) and protenchyma connected network communication module (62) connection.
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CN201621440299.3U CN206514877U (en) | 2016-12-27 | 2016-12-27 | A kind of intellectual city supply water sources monitoring system |
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CN201621440299.3U CN206514877U (en) | 2016-12-27 | 2016-12-27 | A kind of intellectual city supply water sources monitoring system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109557835A (en) * | 2017-09-26 | 2019-04-02 | 上海谷元电气科技有限公司 | A kind of cellar well lid control device based on NB-IoT mechanics of communication and blue-tooth technology |
CN110602205A (en) * | 2019-09-12 | 2019-12-20 | 江南大学 | Intelligent urban sewage monitoring system based on NB-IoT |
-
2016
- 2016-12-27 CN CN201621440299.3U patent/CN206514877U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109557835A (en) * | 2017-09-26 | 2019-04-02 | 上海谷元电气科技有限公司 | A kind of cellar well lid control device based on NB-IoT mechanics of communication and blue-tooth technology |
CN110602205A (en) * | 2019-09-12 | 2019-12-20 | 江南大学 | Intelligent urban sewage monitoring system based on NB-IoT |
CN110602205B (en) * | 2019-09-12 | 2020-12-15 | 江南大学 | Intelligent urban sewage monitoring system based on NB-IoT |
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