CN108799842A - Underground waterline network intelligence leak detecting and alarming device - Google Patents
Underground waterline network intelligence leak detecting and alarming device Download PDFInfo
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- CN108799842A CN108799842A CN201810577396.4A CN201810577396A CN108799842A CN 108799842 A CN108799842 A CN 108799842A CN 201810577396 A CN201810577396 A CN 201810577396A CN 108799842 A CN108799842 A CN 108799842A
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 58
- 230000005540 biological transmission Effects 0.000 claims abstract description 4
- 238000004891 communication Methods 0.000 claims description 20
- 238000004458 analytical method Methods 0.000 abstract description 3
- 230000007547 defect Effects 0.000 abstract description 2
- 238000012423 maintenance Methods 0.000 abstract description 2
- 238000009434 installation Methods 0.000 abstract 1
- 238000010295 mobile communication Methods 0.000 abstract 1
- 238000005086 pumping Methods 0.000 abstract 1
- 238000010586 diagram Methods 0.000 description 7
- 238000012986 modification Methods 0.000 description 6
- 230000004048 modification Effects 0.000 description 6
- 238000007726 management method Methods 0.000 description 4
- 239000000463 material Substances 0.000 description 4
- 238000012360 testing method Methods 0.000 description 4
- 230000005611 electricity Effects 0.000 description 3
- 206010019233 Headaches Diseases 0.000 description 2
- 238000001514 detection method Methods 0.000 description 2
- 231100001261 hazardous Toxicity 0.000 description 2
- 231100000869 headache Toxicity 0.000 description 2
- 230000007774 longterm Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 201000004569 Blindness Diseases 0.000 description 1
- 208000034423 Delivery Diseases 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000001914 filtration Methods 0.000 description 1
- 230000007257 malfunction Effects 0.000 description 1
- 230000008092 positive effect Effects 0.000 description 1
- 238000012384 transportation and delivery Methods 0.000 description 1
- 238000012795 verification Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17D—PIPE-LINE SYSTEMS; PIPE-LINES
- F17D5/00—Protection or supervision of installations
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17D—PIPE-LINE SYSTEMS; PIPE-LINES
- F17D3/00—Arrangements for supervising or controlling working operations
- F17D3/01—Arrangements for supervising or controlling working operations for controlling, signalling, or supervising the conveyance of a product
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17D—PIPE-LINE SYSTEMS; PIPE-LINES
- F17D3/00—Arrangements for supervising or controlling working operations
- F17D3/18—Arrangements for supervising or controlling working operations for measuring the quantity of conveyed product
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17D—PIPE-LINE SYSTEMS; PIPE-LINES
- F17D5/00—Protection or supervision of installations
- F17D5/02—Preventing, monitoring, or locating loss
Abstract
A kind of underground waterline network intelligence leak detecting and alarming device, flowmeter is automatically recorded using in underground waterline installation, and the flow information of each automatic recording flowmeter is uploaded in the PLC in pumping plant switch board, collected by PLC, analysis calculates, stores the flow information of each automatic recording flowmeter and the moment monitors its variation, compensating for cities and towns secondary water-supply underground utilities water resource leakage loss can not find and the defect of the extremely difficult searching of leak source in time.If it find that underground pipeline leak, warning message can be sent to by information transmission systems such as internet, mobile communication accountability unit, Running-water Company's network management platform, specific administrative staff the mobile devices such as mobile phone on, cities and towns secondary water supply system manager is contributed to grasp the use state of underground waterline at any time, the leakage of timely organizational strength lower water-supply-pipe line in repair, the leak rate for reducing cities and towns secondary water supply system to the maximum extent, can allow maintenance personal accurately to find the leak source of underground waterline.
Description
Technical field
The present invention relates to a kind of cities and towns secondary water-supply device, more particularly to a kind of underground waterline network intelligence leak detection report
Alarm device.
Background technology
Currently, domestic cities and towns secondary water-supply underground utilities water resource leakage loss can not be found in time and leak source is extremely difficult seeks
It looks for, the difficult situation for excavating many places and not finding leak source is formed because leak test plant is interfered.Underground waterline material difference,
Depth is different, covering material is different above, for example, below the concrete below road, very thick, etc. situations such as leak test plant survey not
Accurate or can't detect, it is very big blindly to excavate economic loss, can not finally solve the problems, such as.Which results in the leakages of cities and towns secondary water supply system
Loss rate remains high always.Due to the leakage loss of secondary water-supply, huge water resource and electricity can be all caused in China every year
The power wasting of resources.Moreover, the long-term leak of underground pipe network is washed away, also the facilities such as building and road are caused potentially hazardous.Drop
Low cities and towns secondary water supply system leak rate is all the problem of various regions system of appointing national minority hereditary headmen in the Yuan, Ming and Qing Dynasties headache endlessly all the time.2017, reduce cities and towns two
Secondary water system leak rate promotes the level for having arrived national energy-saving consumption reduction again, provincial below each as having reached under rigid index
Grade government water sector.
Invention content
It can not be found in time for current domestic cities and towns secondary water-supply underground utilities water resource leakage loss and leak source is extremely difficult
The many defects found, the present invention provides a kind of underground waterline network intelligence leak detecting and alarming devices.
A kind of underground waterline network intelligence leak detecting and alarming device, it is characterised in that:Secondary water supply system water output
Pipeline 2 is connected to secondary water supply system 1, and A automatically records flowmeter J1 and secondary water supply system water output pipeline 2
Connection, the undergrounds A waterline Y1 automatically record flowmeter J1 with A and are connected to, for detecting the undergrounds A waterline Y1 streams
Amount;B automatically records flowmeter J2 and is connected to the undergrounds A waterline Y1, and the undergrounds B waterline Y2 and B automatically records stream
Gauge J2 connections, for detecting the undergrounds B waterline Y2 flows;C automatically records flowmeter J3 and the undergrounds B waterline
Y2 is connected to, and the undergrounds C waterline Y3 automatically records flowmeter J3 with C and is connected to, for detecting the undergrounds C waterline Y3 streams
Amount;D automatically records flowmeter J4 and is connected to the undergrounds C waterline Y3, and the undergrounds D waterline Y4 and D automatically records stream
Gauge J4 connections, for detecting the undergrounds D waterline Y4 flows;E automatically records flowmeter J5 and the undergrounds D waterline
Y4 is connected to, and the undergrounds E waterline Y5 automatically records flowmeter J5 with E and is connected to, for detecting the undergrounds E waterline Y5
Flow;F automatically records flowmeter J6 and is connected to the undergrounds E waterline Y5, residential building with water access port pipeline Y6 and F from
Dynamic recording flowmeter J6 connections, for detecting residential building water access port pipeline Y6 flows;Equipped with tactile in switch board 4
Screen 3, PLC controller 5, router 6 are touched, A automatically records flowmeter J1 and passes through A flow information cable X1 and control
Cabinet 4 connects, and the communication of flowmeter J1 flow informations is automatically recorded for A;B automatically records flowmeter J2 to be believed by B flows
Breath cable X2 is connect with switch board 4, and the communication of flowmeter J2 flow informations is automatically recorded for B;C automatically records flowmeter
J3 is connect by C flow information cable X3 with switch board 4, and the communication of flowmeter J3 flow informations is automatically recorded for C;D
It automatically records flowmeter J4 to connect with switch board 4 by D flow information cable X4, flowmeter J4 is automatically recorded for D
Flow information communicates;E automatically records flowmeter J5 and is connect with switch board 4 by E flow information cable X5, certainly for E
Dynamic recording flowmeter J5 flow informations communication;F automatically records flowmeter J6 and passes through F flow information cable X6 and switch board
4 connections automatically record the communication of flowmeter J6 flow informations for F;The switch board 4 by breaker, Switching Power Supply,
PLC controller, touch screen, router are constituted, wherein:Power supply is connected to Switching Power Supply through circuit breaker Q F, and Switching Power Supply exports DC24V
Direct current supply PLC controller 5, touch screen 3 and router 6, the connection relation of 5 input terminal of PLC controller are:
A automatically records that the terminal RS485A ' on flowmeter J1 are connected on the terminal RS485A of PLC controller 5, A is automatically recorded
Terminal RS485B ' on flowmeter J1 are connected on the terminal RS485B of PLC controller 5, and flowmeter is automatically recorded for A
J1 flow informations communicate;B automatically records the terminal that the terminal RS485A ' on flowmeter J2 are connected to PLC controller 5
RS485A is upper, B automatically records the terminal RS485B ' on flowmeter J2 and is connected on the terminal RS485B of PLC controller 5,
The communication of flowmeter J2 flow informations is automatically recorded for B;C automatically records the terminal RS485A ' on flowmeter J3 and is connected to
On the terminal RS485A of PLC controller 5, C automatically records the terminal RS485B ' on flowmeter J3 and is connected to PLC controller
On 5 terminal RS485B, the communication of flowmeter J3 flow informations is automatically recorded for C;D is automatically recorded on flowmeter J4
Terminal RS485A ' are connected on the terminal RS485A of PLC controller 5, D automatically records the terminal on flowmeter J4
RS485B ' are connected on the terminal RS485B of PLC controller 5, and the communication of flowmeter J4 flow informations is automatically recorded for D;E
Automatically record that the terminal RS485A ' on flowmeter J5 are connected on the terminal RS485A of PLC controller 5, E automatically records stream
Terminal RS485B ' on gauge J5 are connected on the terminal RS485B of PLC controller 5, and flowmeter is automatically recorded for E
J5 flow informations communicate;F automatically records the terminal that the terminal RS485A ' on flowmeter J6 are connected to PLC controller 5
RS485A is upper, F automatically records the terminal RS485B ' on flowmeter J6 and is connected on the terminal RS485B of PLC controller 5,
The communication of flowmeter J6 flow informations is automatically recorded for F;The PORT COM B of router 6 is connected to PLC controls by connection
On the PORT COM B of device 5 processed, calculates for transmission PLC controller 5 collection of surfing the Internet, storage, analysis and respectively move record flow
The flow information of the acquisition of meter, moment monitor its variable flow information, the operating status of equipment and leakage alarm parameter information
Be sent to accountability unit, Running-water Company's network management platform, specific administrative staff the mobile devices such as mobile phone on;Touch screen
3 PORT COM A is connected to by connection on the PORT COM A of PLC controller 5, the operating status for showing equipment
And the operating parameter of control device;When the A being arranged on secondary water supply system water output pipeline 2 automatically records flowmeter
When the flow > B of J1 automatically record the setting percentage of flowmeter J2 flows, router 6 sends the undergrounds A waterline
Y1 leakage alarms, when the flow > C that B automatically records flowmeter J2 automatically record the setting percentage of flowmeter J3 flows,
Router 6 sends the undergrounds B waterline Y2 leakage alarms, and the flow > D that C automatically records flowmeter J3 automatically record stream
When the setting percentage of gauge J4 flows, router 6 sends the undergrounds C waterline Y3 leakage alarms, and D automatically records stream
When the flow > E of gauge J4 automatically record the setting percentage of flowmeter J5 flows, router 6 sends D underground water deliverys
Pipeline Y4 leakage alarms, the flow > F that E automatically records flowmeter J5 automatically record the setting percentages of flowmeter J6 flows
Than when, router 6 sends E undergrounds waterline Y5 leakage alarms, F automatically record flowmeter J6 flow > it is default when
When section alarm leakage rate, router 6 sends residential building water access port pipeline Y6 leakage alarms.
The positive effect of the present invention:1. in cities and towns secondary water supply system leak rate high today, in energy conservation and environmental protection
Under the demand for reducing cities and towns secondary water supply system leak rate energetically, which can allow manager to find cities and towns secondary water-supply in time
Systematically leakage of lower water-supply-pipe line, and the time of origin of leakage, size, the development trend of leakage, etc..Contribute to cities and towns
Secondary water supply system manager grasps the use state of underground waterline at any time, timely organizational strength lower water-supply-pipe line in repair
Leakage, to the maximum extent reduce cities and towns secondary water supply system leak rate;2. by defeated in cities and towns secondary water supply system underground
What is installed additional between the beginning end of water pipeline automatically records flowmeter, and maintenance personal can be allowed accurately to find underground waterline
Leak source, and with the increase for automatically recording flowmeter density is installed in whole story section additional, timely and accurately find the efficiency of leak source
Also it can increase, finding the cost of leak source can also be greatly reduced, which is also government and the cloud management platform that operation enterprise is built
Provide support;3. each layer-management person of secondary water supply system can at any time by mobile devices such as mobile phones, what inquiry was managed
The operation data of underground water filtering;4. by preset period of time alarm leakage rate, whether the flow of intelligent recognition each period
Normally;5. being avoided that leak test plant is interfered and is formed and excavates the difficult situation that leak source is not found in many places;6. solving water money
Source leakage loss can not be found in time and the extremely difficult searching of leak source, and results in cities and towns secondary water supply system leak rate and occupy height always
Leakage loss not lower and due to secondary water-supply, can all cause huge water resource and electric power resource to waste in China every year.
Moreover, the long-term leak of underground pipe network is washed away, also the facilities such as building and road are caused potentially hazardous;7. it is secondary to reduce cities and towns
Water system leak rate is all the problem of various regions system of appointing national minority hereditary headmen in the Yuan, Ming and Qing Dynasties headache endlessly all the time.2017, reduce cities and towns secondary water supply system
Leak rate promotes the level for having arrived national energy-saving consumption reduction again, as having reached provincial governments at all levels' water utilities below under rigid index
Department, the present invention are the good schemes that solves the above problems.8. due to underground waterline material is different, depth is different,
Covering material is different above, for example, below the concrete below road, very thick, etc. situations such as leak test plant indeterminacy or detection not
It arrives, it is very big blindly to excavate economic loss, can not finally solve the problems, such as.The present invention solve blindness, large area, conjecture property search with
And it does not also find leak source due to opening many places place and abandons the big problem of lookup.
Description of the drawings
Fig. 1 is the structural schematic diagram of the present invention;
Fig. 2 is the electrical schematic diagram of PLC control cabinet in the present invention;
Fig. 3 is the program flow diagram of PLC in the present invention;
Fig. 4 is the program flow diagram of touch screen in the present invention.
Specific implementation mode
The present invention is described in further details below in conjunction with the accompanying drawings.
A kind of underground waterline network intelligence leak detecting and alarming device, as shown in Figure 1:Secondary water supply system water output pipe
Line 2 is connected to secondary water supply system 1, and A automatically records flowmeter J1 and connects with secondary water supply system water output pipeline 2
Logical, the undergrounds A waterline Y1 automatically records flowmeter J1 with A and is connected to, for detecting the undergrounds A waterline Y1 flows;B
It automatically records flowmeter J2 to be connected to the undergrounds A waterline Y1, the undergrounds B waterline Y2 and B automatically records flowmeter
J2 is connected to, for detecting the undergrounds B waterline Y2 flows;C automatically records flowmeter J3 and the undergrounds B waterline Y2
Connection, the undergrounds C waterline Y3 automatically records flowmeter J3 with C and is connected to, for detecting the undergrounds C waterline Y3 flows;
D automatically records flowmeter J4 and is connected to the undergrounds C waterline Y3, and the undergrounds D waterline Y4 and D automatically records flowmeter
J4 is connected to, for detecting the undergrounds D waterline Y4 flows;E automatically records flowmeter J5 and the undergrounds D waterline Y4
Connection, the undergrounds E waterline Y5 automatically record flowmeter J5 with E and are connected to, for detecting the undergrounds E waterline Y5 streams
Amount;F automatically records flowmeter J6 and is connected to the undergrounds E waterline Y5, and residential building is automatic with water access port pipeline Y6 and F
Recording flowmeter J6 connections, for detecting residential building water access port pipeline Y6 flows;Equipped with touch in switch board 4
Screen 3, PLC controller 5, router 6, A automatically record flowmeter J1 and pass through A flow information cable X1 and switch board
4 connections automatically record the communication of flowmeter J1 flow informations for A;B automatically records flowmeter J2 and passes through B flow information electricity
Cable X2 is connect with switch board 4, and the communication of flowmeter J2 flow informations is automatically recorded for B;C automatically records flowmeter J3
It is connect with switch board 4 by C flow information cable X3, the communication of flowmeter J3 flow informations is automatically recorded for C;D is certainly
Dynamic recording flowmeter J4 is connect by D flow information cable X4 with switch board 4, and flowmeter J4 is automatically recorded for D
Flow information communicates;E automatically records flowmeter J5 and is connect with switch board 4 by E flow information cable X5, certainly for E
Dynamic recording flowmeter J5 flow informations communication;F automatically records flowmeter J6 and passes through F flow information cable X6 and switch board
4 connections;The communication of flowmeter J6 flow informations is automatically recorded for F.
Fig. 2 show the electrical schematic diagram of PLC control cabinet in the present invention.Switch board 4 is by breaker, Switching Power Supply, PLC
Controller, touch screen, router are constituted, wherein:Power supply is connected to Switching Power Supply through circuit breaker Q F, and it is straight that Switching Power Supply exports DC24V
Galvanic electricity supply PLC controller 5, touch screen 3 and router 6, the connection relation of 5 input terminal of PLC controller are:A
Automatically record that the terminal RS485A ' on flowmeter J1 are connected on the terminal RS485A of PLC controller 5, A automatically records stream
Terminal RS485B ' on gauge J1 are connected on the terminal RS485B of PLC controller 5, and flowmeter is automatically recorded for A
J1 flow informations communicate;B automatically records the terminal that the terminal RS485A ' on flowmeter J2 are connected to PLC controller 5
RS485A is upper, B automatically records the terminal RS485B ' on flowmeter J2 and is connected on the terminal RS485B of PLC controller 5,
The communication of flowmeter J2 flow informations is automatically recorded for B;C automatically records the terminal RS485A ' on flowmeter J3 and is connected to
On the terminal RS485A of PLC controller 5, C automatically records the terminal RS485B ' on flowmeter J3 and is connected to PLC controller
On 5 terminal RS485B, the communication of flowmeter J3 flow informations is automatically recorded for C;D is automatically recorded on flowmeter J4
Terminal RS485A ' are connected on the terminal RS485A of PLC controller 5, D automatically records the terminal on flowmeter J4
RS485B ' are connected on the terminal RS485B of PLC controller 5, and the communication of flowmeter J4 flow informations is automatically recorded for D;E
Automatically record that the terminal RS485A ' on flowmeter J5 are connected on the terminal RS485A of PLC controller 5, E automatically records stream
Terminal RS485B ' on gauge J5 are connected on the terminal RS485B of PLC controller 5, and flowmeter is automatically recorded for E
J5 flow informations communicate;F automatically records the terminal that the terminal RS485A ' on flowmeter J6 are connected to PLC controller 5
RS485A is upper, F automatically records the terminal RS485B ' on flowmeter J6 and is connected on the terminal RS485B of PLC controller 5,
The communication of flowmeter J6 flow informations is automatically recorded for F;The PORT COM B of router 6 is connected to PLC controls by connection
On the PORT COM B of device 5 processed, calculates for transmission PLC controller 5 collection of surfing the Internet, storage, analysis and respectively move record flow
The flow information of the acquisition of meter, moment monitor its variable flow information, the operating status of equipment and leakage alarm parameter information
Be sent to accountability unit, Running-water Company's network management platform, specific administrative staff the mobile devices such as mobile phone on;Touch screen
3 PORT COM A is connected to by connection on the PORT COM A of PLC controller 5, the operating status for showing equipment
And the operating parameter of control device.
Fig. 3 show the program flow diagram of PLC controller in the present invention.Its specific procedure is:The program of PLC control cabinet
After initialization, the flow > B that flowmeter J1 is automatically recorded into A automatically record the setting percentage of flowmeter J2 flows
Judge, if condition judgment sets up router 6 and sends the undergrounds A waterline Y1 leakage alarms, returns to initial step, such as really bar
Part judges invalid enter in next step;The flow > C that flowmeter J2 is automatically recorded into B automatically record flowmeter J3 flows
Setting percentage judge, if condition judgment sets up router 6 and sends B undergrounds waterline Y2 leakage alarms, return
Initial step enters in next step if condition judgment is invalid;The flow > D that flowmeter J3 is automatically recorded into C are automatically recorded
The setting percentage of flowmeter J4 flows judges, if condition judgment sets up router 6 and sends C underground waterline Y3
Leakage alarm returns to initial step, enters in next step if condition judgment is invalid;The stream of flowmeter J4 is automatically recorded into D
The setting percentage that amount > E automatically record flowmeter J5 flows judges, if condition judgment sets up router 6 with sending D
Lower water-supply-pipe line Y4 leakage alarms return to initial step, enter in next step if condition judgment is invalid;It is automatically recorded into E
The setting percentage that the flow > F of flowmeter J5 automatically record flowmeter J6 flows judges, if condition judgment sets up road
The undergrounds E waterline Y5 leakage alarms are sent by device 6, return to initial step, are entered in next step if condition judgment is invalid;
The flow > preset period of time alarm leakage rate that flowmeter J6 is automatically recorded into F judges, if condition judgment sets up router
6 send residential building water access port pipeline Y6 leakage alarms, return to initial step, if the invalid return of condition judgment is initial
Step.
Fig. 4 show the program flow diagram of touch screen in the present invention.Its specific procedure is:The program initialization of touch screen with
Afterwards, cycle executes each program, carries out malfunction coefficient on the screen in the event of failure, then stores fault message, remembers into work
Logging inquiry subprogram is directly entered when record inquiry subprogram or fault-free, when user carries out logging inquiry,
It then shows on the touchscreen and enters parameter modification subprogram after relevant information, user exit inquiry, if user grasps without inquiry
As when be directly entered parameter change subprogram.When user enters parameter modification operation, program pop-up verification user password window,
If password authentification is correct, at this time user can parameter modification, parameter modification after the completion of parameter modification authority withdraw, otherwise cannot join
Number modification, program enter next subprogram, and operational data is stored by setting time, and the time is automatically stored to data, under
One subprogram, shows relevant information on the touchscreen, then returnes to initial step.
Claims (1)
1. a kind of underground waterline network intelligence leak detecting and alarming device, it is characterised in that:Secondary water supply system water output pipe
Line(2)With secondary water supply system(1)Connection, A automatically record flowmeter(J1)With secondary water supply system water output pipeline(2)Even
It is logical, the undergrounds A waterline(Y1)Flowmeter is automatically recorded with A(J1)Connection, for detecting the undergrounds A waterline(Y1)Flow;B
Automatically record flowmeter(J2)With the undergrounds A waterline(Y1)Connection, the undergrounds B waterline(Y2)Flowmeter is automatically recorded with B
(J2)Connection, for detecting the undergrounds B waterline(Y2)Flow;C automatically records flowmeter(J3)With the undergrounds B waterline(Y2)
Connection, the undergrounds C waterline(Y3)Flowmeter is automatically recorded with C(J3)Connection, for detecting the undergrounds C waterline(Y3)Stream
Amount;D automatically records flowmeter(J4)With the undergrounds C waterline(Y3)Connection, the undergrounds D waterline(Y4)Stream is automatically recorded with D
Gauge(J4)Connection, for detecting the undergrounds D waterline(Y4)Flow;E automatically records flowmeter(J5)With D lower water-supply-pipe
Line(Y4)Connection, the undergrounds E waterline(Y5)Flowmeter is automatically recorded with E(J5)Connection, F automatically record flowmeter(J6)With E
Underground waterline(Y5)Connection, for detecting the undergrounds E waterline(Y5)Flow;Residential building water access port pipeline(Y6)With
F automatically records flowmeter(J6)Connection, for detecting residential building water access port pipeline(Y6)Flow;In switch board(4)Middle dress
There is touch screen(3), PLC controller(5), router(6), A automatically records flowmeter(J1)Pass through A flow information cables(X1)With
Switch board(4)Connection, flowmeter is automatically recorded for A(J1)Flow information communicates;B automatically records flowmeter(J2)It is flowed by B
Measure information cable(X2)With switch board(4)Connection, flowmeter is automatically recorded for B(J2)Flow information communicates;C automatically records stream
Gauge(J3)Pass through C flow information cables(X3)With switch board(4)Connection, flowmeter is automatically recorded for C(J3)Flow information
Communication;D automatically records flowmeter(J4)Pass through D flow information cables(X4)With switch board(4)Connection, stream is automatically recorded for D
Gauge(J4)Flow information communicates;E automatically records flowmeter(J5)Pass through E flow information cables(X5)With switch board(4)Connection,
Flowmeter is automatically recorded for E(J5)Flow information communicates;F automatically records flowmeter(J6)Pass through F flow information cables(X6)
With switch board(4)Connection, flowmeter is automatically recorded for F(J6)Flow information communicates;The switch board(4)By breaker,
Switching Power Supply, PLC controller, touch screen, router are constituted, wherein:Power supply is connected to Switching Power Supply, Switching Power Supply through circuit breaker Q F
It exports DC24V direct currents and supplies PLC controller(5), touch screen(3)And router(6), PLC controller(5)The company of input terminal
The relationship of connecing is:A automatically records flowmeter(J1)On terminal RS485A ' be connected to PLC controller(5)Terminal RS485A on, A
Automatically record flowmeter(J1)On terminal RS485B ' be connected to PLC controller(5)Terminal RS485B on, remember automatically for A
Record flowmeter(J1)Flow information communicates;B automatically records flowmeter(J2)On terminal RS485A ' be connected to PLC controller(5)
Terminal RS485A on, B automatically record flowmeter(J2)On terminal RS485B ' be connected to PLC controller(5)Terminal
On RS485B, flowmeter is automatically recorded for B(J2)Flow information communicates;C automatically records flowmeter(J3)On terminal
RS485A ' are connected to PLC controller(5)Terminal RS485A on, C automatically record flowmeter(J3)On terminal RS485B ' connect
It is connected to PLC controller(5)Terminal RS485B on, automatically record flowmeter for C(J3)Flow information communicates;D is automatically recorded
Flowmeter(J4)On terminal RS485A ' be connected to PLC controller(5)Terminal RS485A on, D automatically record flowmeter(J4)
On terminal RS485B ' be connected to PLC controller(5)Terminal RS485B on, automatically record flowmeter for D(J4)Flow is believed
Breath communication;E automatically records flowmeter(J5)On terminal RS485A ' be connected to PLC controller(5)Terminal RS485A on, E from
Dynamic recording flowmeter(J5)On terminal RS485B ' be connected to PLC controller(5)Terminal RS485B on, automatically recorded for E
Flowmeter(J5)Flow information communicates;F automatically records flowmeter(J6)On terminal RS485A ' be connected to PLC controller(5)'s
On terminal RS485A, F automatically record flowmeter(J6)On terminal RS485B ' be connected to PLC controller(5)Terminal RS485B
On, automatically record flowmeter for F(J6)Flow information communicates;Router(6)PORT COM B be connected to by connection
PLC controller(5)PORT COM B on, for surf the Internet transmission PLC controller(5)It collects, storage, analyze calculating respectively dynamic note
Record the flow information of the acquisition of flowmeter, the moment monitors its variable flow information, the operating status of equipment and leakage alarm are joined
Number information be sent to accountability unit, Running-water Company's network management platform, specific administrative staff the mobile devices such as mobile phone on;It touches
Touch screen(3)PORT COM A PLC controller is connected to by connection(5)PORT COM A on, the fortune for showing equipment
The operating parameter of row state and control device;When setting is in secondary water supply system water output pipeline(2)On A automatically record
Flowmeter(J1)Flow > B automatically record flowmeter(J2)When the setting percentage of flow, router(6)It is defeated to send the undergrounds A
Water pipeline(Y1)Leakage alarm, B automatically record flowmeter(J2)Flow > C automatically record flowmeter(J3)The setting hundred of flow
Point than when, router(6)Send the undergrounds B waterline(Y2)Leakage alarm, C automatically record flowmeter(J3)Flow > D from
Dynamic recording flowmeter(J4)When the setting percentage of flow, router(6)Send the undergrounds C waterline(Y3)Leakage alarm, D is certainly
Dynamic recording flowmeter(J4)Flow > E automatically record flowmeter(J5)When the setting percentage of flow, router(6)Send D
Underground waterline(Y4)Leakage alarm, E automatically record flowmeter(J5)Flow > F automatically record flowmeter(J6)Flow
When setting percentage, router(6)Send the undergrounds E waterline(Y5)Leakage alarm, F automatically record flowmeter(J6)Flow
When > preset period of time alarm leakage rate, router(6)Send residential building water access port pipeline(Y6)Leakage alarm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810577396.4A CN108799842B (en) | 2018-06-07 | 2018-06-07 | Intelligent leak detection alarm device for underground water pipeline network |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810577396.4A CN108799842B (en) | 2018-06-07 | 2018-06-07 | Intelligent leak detection alarm device for underground water pipeline network |
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CN113883423A (en) * | 2021-10-19 | 2022-01-04 | 山东腾威石油装备有限公司 | Novel pipe network repair reinforcing method |
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CN113883423A (en) * | 2021-10-19 | 2022-01-04 | 山东腾威石油装备有限公司 | Novel pipe network repair reinforcing method |
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