CN205691581U - A kind of pipeline comprehensive monitor system - Google Patents
A kind of pipeline comprehensive monitor system Download PDFInfo
- Publication number
- CN205691581U CN205691581U CN201620407805.2U CN201620407805U CN205691581U CN 205691581 U CN205691581 U CN 205691581U CN 201620407805 U CN201620407805 U CN 201620407805U CN 205691581 U CN205691581 U CN 205691581U
- Authority
- CN
- China
- Prior art keywords
- pipeline
- shell
- monitoring
- ectosphere
- interior ball
- 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.)
- Withdrawn - After Issue
Links
Landscapes
- Arrangements For Transmission Of Measured Signals (AREA)
Abstract
The utility model discloses a kind of pipeline comprehensive monitor system, pipeline comprehensive monitor system includes the comprehensive monitoring ball being arranged in pipeline and the terminal unit being arranged on outside pipeline.Comprehensive monitoring ball can realize the information transmission of pipeline leakage monitoring and water quality parameter detection simultaneously, on the one hand can be judged the generation of pipe leakage accident, associated wireless positioning function by the trajectory deflection change curve of gyroscope, determine the accurate geography information of pipe leakage;By the reasonable setting of sampling monitoring device, it is achieved the mensuration of water body multiple-quality water parameter in pipe network.Pipeline comprehensive monitor system of the present utility model has water quality detection and the function of pipe leakage monitoring concurrently, it is possible not only to immediately reflect the water quality information of each point in pipeline, also can comprehensive monitoring pipeline leakage scenarios everywhere, monitoring range is wider, has wide market prospect.
Description
Technical field
This utility model belongs to environment monitoring technical field, particularly relates to a kind of pipeline comprehensive monitor system.
Background technology
Safe drinking water, as a great livelihood issues, is the important leverage of China's public health security.Hygienic quality is supervised
Survey and water supply network is safely premise and the basis realizing safty of drinking water.At present, water quality monitoring commonly used artificial sample monitoring
With fixed point on-line monitoring, artificial sample Monitoring Data is accurate, can convert monitoring index and monitoring point as required, but sampled point has
Limit, lack ageing;Fixed point on-line monitoring has automaticity advantage high, monitoring in real time, but equipment investment is big, and it is fixed to need
Phase maintenance and management, and fixed point monitoring can only obtain the water quality information of limited isolated point, and can not be rapid after contamination accident
Determine the such as information such as pollution type, pollution level and polluter, it is impossible to play forewarning function, and wrong report at the contamination accident initial stage
Rate is high.Patent CN204374191U devises floating type water quality monitoring equipment in a kind of feedwater piping, and monitoring device is placed in feedwater
In pipeline, built-in detection, the module such as being wirelessly transferred, this monitoring device is floating type, adds difficulty during sampling of water quality, and respectively
Connected mode, energy resource supply mode and sampled data accuracy aspect between module be not given the design more refined and
Implementation.
Pipe network water supply is frequently accompanied by pipe leakage emergency case, finds that breakthrough both can reduce water source immediately, accurately
Waste, can avoid again the generation of the water quality suddenly accident brought due to the introducing of pollutant.It is currently used for pipe leakage
Monitoring can use pressure wave detection method and acoustic wave detection.The advantages such as it is sensitive that pressure wave detection method has detection, accurate positioning,
But for distant point, the pressure wave signal after decay tends not to detect accurately;Sonic method detection technique more becomes
Ripe, detection sensitivity is high, but equipment investment is big, need to pinpoint decentralized configuration, and the situation that seepage is reported by mistake easily occurs.Patent
CN104100842 uses Fiber Optic Sensor and sonic method combination detection pipe leakage type, and the method is distributed laying, for improving inspection
The accuracy of leakage, the laying density of its sensing equipment is big, and equipment investment is the biggest, is not suitable for popularity and promotes.
Utility model content
Demand that this utility model is monitored in real time for water supply network also considers the leakage scenarios in pipe network pipeline, at pipeline
Composite monitoring device is inside set, integrates ductwork water quality and pipe leakage monitoring function, realize client by GPS alignment system
Terminal water quality situation and the real-time monitoring of pipeline leakage situation.
The technical scheme realizing this utility model purpose is: a kind of pipeline comprehensive monitor system, including being arranged in pipeline
Comprehensive monitoring ball and the terminal unit that is arranged on outside pipeline;Described comprehensive monitoring bag includes ectosphere and is arranged in ectosphere
Interior ball;Described ectosphere includes ectosphere shell, ectosphere set of cells, electrodynamic pump and sampling monitoring device;The water inlet of described electrodynamic pump
Mouth is arranged on ectosphere shell, and the outlet of electrodynamic pump is connected with sampling monitoring device;Described ectosphere set of cells be electrodynamic pump and
Sampling monitoring device energy supply;Described interior bag includes interior ball shell, interior ball set of cells, data storage device, GPS device, is wirelessly transferred
Module, circuit chip and gyroscope;Described electrodynamic pump, data storage device, GPS device, wireless transport module, gyroscope are equal
It is electrically connected with circuit chip;Described wireless transport module is connected with terminal equipment in communication;Described interior ball set of cells is that data are deposited
Storage device, GPS device, wireless transport module, circuit chip and gyroscope energy supply;The interior ball shell of described interior ball is provided with number
According to interface;Described data-interface is electrically connected with the sampling monitoring device of ectosphere, and the circuit chip with interior ball is electrically connected with simultaneously.
Described sampling monitoring device includes monitoring ring and being arranged on the sampling that the multiple annular arrays inside monitoring ring are distributed
Post, is provided with sampling probe in sampling column, sampling probe is electrically connected with the data-interface on the interior ball shell of interior ball;Electrodynamic pump
Outlet is connected inside monitoring ring.
Described sampling monitoring device is provided with 2-8 sampling column, in each sampling column, is provided with PH probe, TDS probe, chlorine residue spy
Any one sampling probe in pin, turbidity probe, total organic carbon probe, total number of bacteria probe, temperature probe, conductivity probe.
Described ectosphere shell includes dismountable first shell and second housing;Set on the open end of described first shell
There is boss;The open end of described second housing is provided with the groove matched with boss;The boss of described first shell and
The groove fit face of two shells is provided with sealing ring;Described first shell and second housing are by the hasp outside both junctions
Part coordinates fixing.
Described interior ball is provided with charging inlet and charging circuit;Described charging inlet is by charging circuit and interior ball battery
Group is electrically connected with.
It is connected between the inwall of the ectosphere shell of described ectosphere and the interior ball outer shell outer wall of interior ball and has multiple damping shock absorber.
Described ectosphere shell is that waterproof material is made.
Have employed technique scheme, this utility model has following beneficial effect: (1) pipeline of the present utility model is combined
Close monitoring system and have water quality and the function of pipe leakage monitoring concurrently, be possible not only to immediately reflect the water quality letter of each point in pipeline
Breath, also can comprehensive monitoring pipeline leakage scenarios everywhere, monitoring range is wider, has wide market prospect.
(2) in this utility model, the design of the sampling ring of annular array is organic make use of the effective empty of comprehensive monitoring ball
Between, be conducive to more accurately detecting water quality in desired location, and make water quality monitoring result more accurate, PH can be equipped with simultaneously and visit
Pin, TDS probe, chlorine residue probe, turbidity probe, total organic carbon probe, total number of bacteria probe, temperature probe, conductivity probe are many
Planting probe, the monitoring range of parameters various to water body is wider.
(3) this utility model includes dismountable first shell and second housing, utilizes fastener member convenient disassembly, when comprehensively
Monitoring ball can take out according to GPS location when without monitoring task, changes backup detection probe, and former monitoring probe is cleaned, calibration
Afterwards as backup monitoring probe, the most just improve monitoring precision and the sensitivity of comprehensive monitoring ball, interior ball is provided with
Charging inlet, can be charged comprehensive monitoring ball after taking-up, in case monitoring task next time, safeguard with overhaul more square
Just, the service life of equipment is extended.
(4) comprehensive monitoring sphere volume of the present utility model is small and exquisite, flexible arrangement, it is possible to obtain pipeline seepage everywhere and water
Matter information, can determine rapidly the information such as polluter position, pollution level by terminal unit after water quality accident occurs,
Play forewarning function at the initial stage of contamination accident, decrease the response time of pollution time, strive for for follow-up process work
Time.
(5) be connected between the inwall of the ectosphere shell of ectosphere of the present utility model and the interior ball outer shell outer wall of interior ball have multiple
Damping shock absorber, decreases the relative vibration in the middle of interior ectosphere, improves stability during monitoring, extend comprehensive monitoring simultaneously
The service life of ball.
(6) sign that slight movement is changed by the Motions of Gyroscope record in this utility model is more accurate relative to sound wave
Really, and consume energy less, there is wide market popularization value.
Accompanying drawing explanation
In order to make content of the present utility model be easier to be clearly understood, below according to specific embodiment and combine attached
Figure, is described in further detail this utility model, wherein
Fig. 1 is the comprehensive monitoring spherical structure schematic diagram in this utility model.
Fig. 2 is the front view of Fig. 1;
Fig. 3 is the inner ball structure schematic diagram in Fig. 1.
Fig. 4 is the sampling monitoring device structural representation in Fig. 1.
Fig. 5 is circuit module figure of the present utility model.
Detailed description of the invention
(embodiment 1)
As shown in Fig. 1 to Fig. 5, the pipeline comprehensive monitor system of the present embodiment, including the comprehensive monitoring being arranged in pipeline
Ball 1 and the terminal unit 2 being arranged on outside pipeline.
Comprehensive monitoring ball 1 includes ectosphere 1-1 and the interior ball 1-2 being arranged in ectosphere 1-1.Ectosphere 1-1 includes outside ectosphere
Shell 1-1-1, ectosphere set of cells 1-1-2, electrodynamic pump 1-1-3 and sampling monitoring device 1-1-4.Ectosphere shell 1-1-1 includes removable
The the first shell 1-1-1-1 unloaded and second housing 1-1-1-2.The open end of the first shell 1-1-1-1 is provided with boss 1-1-
1-3.The open end of second housing 1-1-1-2 is provided with the groove 1-1-1-4 matched with boss 1-1-1-3.First shell
The groove 1-1-1-4 cooperation face of the boss 1-1-1-3 and second housing 1-1-1-2 of 1-1-1-1 is provided with sealing ring.Outside first
Shell 1-1-1-1 and second housing 1-1-1-2 coordinates fixing by the fastener member 1-1-1-5 outside both junctions.Ectosphere 1-1's
It is connected between the inwall of ectosphere shell 1-1-1 and the interior ball shell 1-2-1 outer wall of interior ball 1-2 and has multiple damping shock absorber 1-1-5.
The water inlet of electrodynamic pump 1-1-3 is arranged on ectosphere shell 1-1-1, the outlet of electrodynamic pump 1-1-3 and sampling monitoring device 1-1-4
It is connected.Ectosphere set of cells 1-1-2 is electrodynamic pump 1-1-3 and sampling monitoring device 1-1-4 energy supply.Sampling monitoring device 1-1-4 includes
Monitor ring 1-1-4-1 and be arranged on the sampling column 1-1-4-2 that 2-8 annular array inside monitoring ring 1-1-4-1 is distributed, often
PH probe, TDS probe, chlorine residue probe, turbidity probe, total organic carbon probe, total number of bacteria spy it is provided with in individual sampling column 1-1-4-2
Any one sampling probe in pin, temperature probe, conductivity probe, sampling probe and the number on the interior ball shell 1-2-1 of interior ball 1-2
Being electrically connected with according to interface 1-2-8, the outlet of electrodynamic pump 1-1-3 is connected inside monitoring ring 1-1-4-1.Ectosphere shell 1-1-
1 makes for waterproof material.
Interior ball 1-2 includes interior ball shell 1-2-1, interior ball set of cells 1-2-2, data storage device 1-2-3, GPS device 1-
2-4, wireless transport module 1-2-5, circuit chip 1-2-6 and gyroscope 1-2-7.Electrodynamic pump 1-1-3, data storage device 1-
2-3, GPS device 1-2-4, wireless transport module 1-2-5, gyroscope 1-2-7 are all electrically connected with circuit chip 1-2-6.Wireless
Transport module 1-2-5 communicates to connect with terminal unit 2.Interior ball set of cells 1-2-2 is data storage device 1-2-3, GPS device 1-
2-4, wireless transport module 1-2-5, circuit chip 1-2-6 and gyroscope 1-2-7 energy supply.The interior ball shell 1-2-1 of interior ball 1-2
It is provided with data-interface 1-2-8.The sampling monitoring device 1-1-4 of data-interface 1-2-8 and ectosphere 1-1 is electrically connected with, simultaneously with interior
The circuit chip 1-2-6 of ball 1-2 is electrically connected with.Interior ball 1-2 is provided with charging inlet 1-2-9 and charging circuit 1-2-10, fills
Electrical interface 1-2-9 is electrically connected with interior ball set of cells 1-2-2 by charging circuit 1-2-10.
Particular embodiments described above, has carried out entering one to the purpose of this utility model, technical scheme and beneficial effect
Step describes in detail, be it should be understood that and the foregoing is only specific embodiment of the utility model, is not limited to this
Utility model, all within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. done, all should wrap
Within being contained in protection domain of the present utility model.
Claims (7)
1. a pipeline comprehensive monitor system, it is characterised in that: include the comprehensive monitoring ball (1) being arranged in pipeline and be arranged on
Terminal unit (2) outside pipeline;Described comprehensive monitoring ball (1) includes ectosphere (1-1) and is arranged on the interior ball in ectosphere (1-1)
(1-2);Described ectosphere (1-1) includes ectosphere shell (1-1-1), ectosphere set of cells (1-1-2), electrodynamic pump (1-1-3) and adopts
Sample monitor (1-1-4);The water inlet of described electrodynamic pump (1-1-3) is arranged on ectosphere shell (1-1-1), electrodynamic pump (1-1-
3) outlet is connected with sampling monitoring device (1-1-4);Described ectosphere set of cells (1-1-2) is electrodynamic pump (1-1-3) and adopts
Sample monitor (1-1-4) energy supply;Described interior ball (1-2) includes that interior ball shell (1-2-1), interior ball set of cells (1-2-2), data are deposited
Storage device (1-2-3), GPS device (1-2-4), wireless transport module (1-2-5), circuit chip (1-2-6) and gyroscope (1-
2-7);Described electrodynamic pump (1-1-3), data storage device (1-2-3), GPS device (1-2-4), wireless transport module (1-2-
5), gyroscope (1-2-7) is all electrically connected with circuit chip (1-2-6);Described wireless transport module (1-2-5) and terminal unit
(2) communication connection;Described interior ball set of cells (1-2-2) is data storage device (1-2-3), GPS device (1-2-4), wireless biography
Defeated module (1-2-5), circuit chip (1-2-6) and gyroscope (1-2-7) energy supply;The interior ball shell (1-of described interior ball (1-2)
2-1) it is provided with data-interface (1-2-8);Described data-interface (1-2-8) is electric with the sampling monitoring device (1-1-4) of ectosphere (1-1)
Property connect, simultaneously the circuit chip (1-2-6) with interior ball (1-2) is electrically connected with.
A kind of pipeline comprehensive monitor system the most according to claim 1, it is characterised in that: described sampling monitoring device (1-1-
4) include monitoring ring (1-1-4-1) and being arranged on the sampling column that multiple annular arrays of monitoring ring (1-1-4-1) inner side are distributed
(1-1-4-2), the interior ball shell (1-2-1) of sampling probe, sampling probe and interior ball (1-2) it is provided with in sampling column (1-1-4-2)
On data-interface (1-2-8) be electrically connected with;The outlet of described electrodynamic pump (1-1-3) phase internal with monitoring ring (1-1-4-1)
Connection.
A kind of pipeline comprehensive monitor system the most according to claim 2, it is characterised in that: described sampling monitoring device (1-1-
4) it is provided with 2-8 sampling column (1-1-4-2) in, in each sampling column (1-1-4-2), is provided with PH probe, TDS probe, chlorine residue spy
Any one sampling probe in pin, turbidity probe, total organic carbon probe, total number of bacteria probe, temperature probe, conductivity probe.
A kind of pipeline comprehensive monitor system the most according to claim 1, it is characterised in that: described ectosphere shell (1-1-1)
Including dismountable first shell (1-1-1-1) and second housing (1-1-1-2);The opening of described first shell (1-1-1-1)
End face is provided with boss (1-1-1-3);The open end of described second housing (1-1-1-2) is provided with and boss (1-1-1-3)
The groove (1-1-1-4) matched;The boss (1-1-1-3) of described first shell (1-1-1-1) and second housing (1-1-1-2)
Groove (1-1-1-4) cooperation face be provided with sealing ring;Described first shell (1-1-1-1) and second housing (1-1-1-2) lead to
Cross the fastener member (1-1-1-5) outside both junctions and coordinate fixing.
A kind of pipeline comprehensive monitor system the most according to claim 1, it is characterised in that: described interior ball (1-2) is provided with
Charging inlet (1-2-9) and charging circuit (1-2-10);Described charging inlet (1-2-9) by charging circuit (1-2-10) with
Interior ball set of cells (1-2-2) is electrically connected with.
A kind of pipeline comprehensive monitor system the most according to claim 1, it is characterised in that: the ectosphere of described ectosphere (1-1)
It is connected between the inwall of shell (1-1-1) and interior ball shell (1-2-1) outer wall of interior ball (1-2) and has multiple damping shock absorber (1-
1-5)。
A kind of pipeline comprehensive monitor system the most according to claim 1, it is characterised in that: described ectosphere shell (1-1-1)
Make for waterproof material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620407805.2U CN205691581U (en) | 2016-05-03 | 2016-05-03 | A kind of pipeline comprehensive monitor system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620407805.2U CN205691581U (en) | 2016-05-03 | 2016-05-03 | A kind of pipeline comprehensive monitor system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205691581U true CN205691581U (en) | 2016-11-16 |
Family
ID=57264424
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620407805.2U Withdrawn - After Issue CN205691581U (en) | 2016-05-03 | 2016-05-03 | A kind of pipeline comprehensive monitor system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205691581U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105807020A (en) * | 2016-05-03 | 2016-07-27 | 江苏美淼环保科技有限公司 | Integrated monitoring system for pipeline and monitoring method thereof |
CN111257531A (en) * | 2020-03-02 | 2020-06-09 | 河海大学 | Water supply pipeline safety and water quality monitoring device |
-
2016
- 2016-05-03 CN CN201620407805.2U patent/CN205691581U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105807020A (en) * | 2016-05-03 | 2016-07-27 | 江苏美淼环保科技有限公司 | Integrated monitoring system for pipeline and monitoring method thereof |
CN105807020B (en) * | 2016-05-03 | 2018-06-08 | 江苏美淼环保科技有限公司 | A kind of pipeline comprehensive monitor system and its monitoring method |
CN111257531A (en) * | 2020-03-02 | 2020-06-09 | 河海大学 | Water supply pipeline safety and water quality monitoring device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105807020B (en) | A kind of pipeline comprehensive monitor system and its monitoring method | |
CN203224949U (en) | Intelligent detection-and-alarm device for discriminating posture of object | |
CN105758904A (en) | Multi-parameter water quality monitoring system and method and their application | |
CN103940545A (en) | Fire-hydrant water pressure state monitoring system and method based on WSN | |
CN205691581U (en) | A kind of pipeline comprehensive monitor system | |
CN106960544A (en) | A kind of fall detection system | |
CN107126659A (en) | Fire hydrant managing device and system | |
CN211925406U (en) | Intelligent ball for detecting pipeline leakage | |
CN206965078U (en) | Military anti-cheating standard push-up examination device | |
CN203148428U (en) | Pole tower inclination online monitoring system | |
CN106680165A (en) | Portable particulate matter concentration monitoring instrument | |
CN109540197A (en) | Underground water remote monitoring device and Groundwater Monitoring system with it | |
CN203687927U (en) | High-stability and high-accuracy biaxial inclination remote intelligent monitoring system | |
CN205175954U (en) | Quality of water multi -parameter on -line monitoring device | |
CN203069332U (en) | Dynamic sealing liquid leakage detection apparatus of underwater vehicle | |
CN208780506U (en) | Water sampling device is used in a kind of detection of giant salamander culture disease prevention | |
CN106643981A (en) | Ground pile type water level monitoring device | |
CN206975465U (en) | A kind of intelligent management system of water meter | |
CN207487764U (en) | A kind of equipment for fire cistern water level monitoring | |
CN208270706U (en) | The insulation detection device and manned underwater vehicle of manned underwater vehicle | |
CN207041795U (en) | Fire hydrant managing device and system | |
CN207036889U (en) | A kind of river flow automatic monitoring system | |
CN206540902U (en) | A kind of soil water potential temperature measuring equipment | |
CN206986284U (en) | A kind of buried pipeline monitoring system | |
CN206365901U (en) | A kind of wearable bladder urine detecting system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20161116 Effective date of abandoning: 20180608 |
|
AV01 | Patent right actively abandoned |